processor job /u/sardine0/airops/OPS/data_proc/ ****************************************************** * * * Integrated AIRSAR Processor * * Script Generator Program * * * * This program generates all the scripts necessary * * to run the command file generator for the AIRSAR * * processor for SGI. * * * ****************************************************** ========================================================= Long-Strip I/P Disks:/u/air12/airops(def), /u/air13/airops Long-Strip O/P Disks:/u/air14/airops(40km),16(60km),15 & 17 ========================================================= Enter the RAW data disk:/u/air12/airops/xxxx or /u/air13/airops/xxxx:> raw data disk:/export/air32/airops/1400 Enter the C-band output disk name (def:/u/air16/airops) : C-band output data disk: /export/air36/airops/1400 Enter the L-band output disk name (def:/u/air16/airops) : L-band output data disk: /export/air36/airops/1400 Enter the P-band output disk name (def:/u/air16/airops) : P-band output data disk: /export/air36/airops/1400 How many bytes offset in range (def=0)? Which year was data taken (def=95)? year: 96 Is this taken in 98 spring (def=95)? Enter HDDT number: HDDT #: 96068 Enter the IDR number: Enter an image title of no more than 28 characters: Enter the TS number(upto 4-digit) for this scene: TS #:ts1400 What is the # of lines of download tape (def=40960)? # of lines for download: 200000 # of lines for download: 200000 Do you want to specify the processing altitude (def=n)? user desired altitude: -1.000000 Is there a DEM to use in calibration (def=y)? Is DEM in pingpong mode (def=y)? Enter number of frequencies to process (def=3): Enter process mode (def=0): Enter the frequency (C, L or P) Enter the radar mode, 0=POLSAR, 1=TOPSAR, 2=PINGPONG 3=POLTOP (def=0): cm/ts #:ts1400 Enter the number of looks (def=18): NLOOKS,POSTSPACING,BANDWIDTH 18 10 40 10 10 0.0000000E+00 raw disk:/export/air32/airops/1400 creating c_hh.com creating c_hv.com creating c_vh.com creating c_vv.com fs: 0 96 prf_13: 0.0000000E+00 96 Enter the frequency (C, L or P) Enter the radar mode, 0=POLSAR, 1=TOPSAR, 2=PINGPONG 3=POLTOP (def=0): cm/ts #:ts1400 Enter the number of looks (def=18): NLOOKS,POSTSPACING,BANDWIDTH 18 10 40 10 10 0.0000000E+00 raw disk:/export/air32/airops/1400 creating l_hh.com creating l_hv.com creating l_vh.com creating l_vv.com fs: 0 96 prf_13: 0.0000000E+00 96 Enter the frequency (C, L or P) Enter the radar mode, 0=POLSAR, 1=TOPSAR, 2=PINGPONG 3=POLTOP (def=0): cm/ts #:ts1400 Enter the number of looks (def=18): NLOOKS,POSTSPACING,BANDWIDTH 18 10 40 10 10 0.0000000E+00 raw disk:/export/air32/airops/1400 creating p_hh.com creating p_hv.com creating p_vh.com creating p_vv.com fs: 0 96 prf_13: 0.0000000E+00 96 ***** Please run "gencom_all" now! /u/sardine0/airops/OPS/data_proc/ ****************************************************** * * * Integrated AIRSAR Processor * * C-Band Command File Generator Program * * * * This program genetares all the command files * * needed to run the C-band processor to produce * * the four output files. * * * ****************************************************** Enter the flag for 98 P-band 20 mhz with fs=90 Enter the frequency (P, L or C) Enter the name of the disk with the raw data (def=data1): Enter the disk for the undeskewed data (def=data3): Enter the hh and hv deskewed data disk (def=data9): Enter the vh and vv deskewed data disk (def=data10): Enter the final output disk (def=data11): Enter a six character name for the scene: How many bytes offset in range (def=0)? Which year was data taken? (eg 93) Please enter HDDT number. Enter the IDR number. Enter an image title of no more than 28 characters. Enter the TS number for this scene. Enter the number of looks (def=18): What is the desired post spacing (def=10)? What is the # of lines i/p (def=40960): # of lines: 200000 Do you want to specify the processing altitude? Is there a DEM to use in calibration and projection? (y/n) Enter BW: Enter p_deskew: Enter ocean_flag: Enter pulse width: Enter fs: 0.0000000E+00 Enter prf_13: 0.0000000E+00 nbytes: 6144 line1: 1 nlines 236000 lgt_az 2586 nlines 200000 nbytes: 6144 line1: 1 nlines 118000 lgt_az 2586 nlines 100000 nbytes: 6144 line1: 1 nlines 118000 lgt_az 2586 nlines 100000 nbytes: 6144 line1: 1 nlines 118000 lgt_az 2586 nlines 100000 nbytes: 6144 line1: 1 nlines 118000 lgt_az 2586 nlines 100000 nbytes: 6144 line1: 1 nlines 118000 lgt_az 4700 nlines 100000 nbytes: 6144 line1: 1 nlines 118000 lgt_az 4700 nlines 100000 nbytes: 6144 line1: 1 nlines 118000 lgt_az 4700 nlines 100000 nbytes: 6144 line1: 1 nlines 118000 lgt_az 4700 nlines 100000 Wrote the HDR.CMD file. Wrote the HDR_PROC_C.COM file. Wrote SPLIT_MOCOMP_C.COM file. Wrote GLOBAL_LINE.COM file. Wrote CAL_C_DATAIN file. Wrote PATCHES_C.COM file. Wrote PROCESSOR_CHH.COM file. Wrote PROCESSOR_CHV.COM file. Wrote PROCESSOR_CVH.COM file. Wrote PROCESSOR_CVV.COM file. Write DESKEW_CHH.COM file. Write DESKEW_CHV.COM file. Write DESKEW_CVH.COM file. Wrote BYTECORR.COM file for long baseline pair Wrote BYTECORR.COM file for short baseline pair Wrote BYTECORR.COM file for zero baseline pair Wrote GENINTF.COM file. Wrote GENINTF.COM file for long baseline pair Wrote GENINTF.COM file for long baseline pair Wrote GENINTF.COM file for short baseline pair Wrote GENINTF.COM file for short baseline pair Wrote GENINTF.COM file for zero baseline pair Wrote GENPHASE.COM file for long baseline pair Wrote GENPHASE.COM file for short baseline pair Wrote GENPHASE.COM file for zero baseline pair Wrote GENLOC_cal2.COM file. Wrote GENLOC_cal1.COM file. Wrote DEM2INCSCA.COM file for short baseline pair Wrote MULTILOOK_SNGLC.COM file. Wrote RADIOMETRIC_SNGLC.COM file Wrote PROJECT_DEMC.COM file Wrote PROJECT_DEM.COM file. Wrote PROJECT_SNGL.COM file. Wrote PROJECT_COR.COM file. Wrote PROJECT_INC.COM file. Wrote s0c0 COM file. Wrote DEMFORMAT.COM file. Wrote CVVFORMAT.COM file. ts #: 14001400 Wrote C_PIC.COM file Wrote get_hp_cp.COM file. Wrote HD.COM file /u/sardine0/airops/OPS/data_proc/ ****************************************************** * * * Integrated AIRSAR Processor * * C-Band Command File Generator Program * * * * This program genetares all the command files * * needed to run the C-band processor to produce * * the four output files. * * * ****************************************************** Enter the flag for 98 P-band 20 mhz with fs=90 Enter the frequency (P, L or C) Enter the name of the disk with the raw data (def=data1): Enter the disk for the undeskewed data (def=data3): Enter the hh and hv deskewed data disk (def=data9): Enter the vh and vv deskewed data disk (def=data10): Enter the final output disk (def=data11): Enter a six character name for the scene: How many bytes offset in range (def=0)? Which year was data taken? (eg 93) Please enter HDDT number. Enter the IDR number. Enter an image title of no more than 28 characters. Enter the TS number for this scene. Enter the number of looks (def=18): What is the desired post spacing (def=10)? What is the # of lines i/p (def=40960): # of lines: 200000 Do you want to specify the processing altitude? Is there a DEM to use in calibration and projection? (y/n) Enter BW: Enter p_deskew: Enter ocean_flag: Enter pulse width: Enter fs: 0.0000000E+00 Enter prf_13: 0.0000000E+00 nbytes: 6144 line1: 1 nlines 236000 lgt_az 2586 nlines 200000 nbytes: 6144 line1: 1 nlines 118000 lgt_az 2586 nlines 100000 nbytes: 6144 line1: 1 nlines 118000 lgt_az 2586 nlines 100000 nbytes: 6144 line1: 1 nlines 118000 lgt_az 2586 nlines 100000 nbytes: 6144 line1: 1 nlines 118000 lgt_az 2586 nlines 100000 nbytes: 6144 line1: 1 nlines 118000 lgt_az 4700 nlines 100000 nbytes: 6144 line1: 1 nlines 118000 lgt_az 4700 nlines 100000 nbytes: 6144 line1: 1 nlines 118000 lgt_az 4700 nlines 100000 nbytes: 6144 line1: 1 nlines 118000 lgt_az 4700 nlines 100000 Wrote the HDR.CMD file. Wrote the HDR_PROC_C.COM file. Wrote SPLIT_MOCOMP_L.COM file. Wrote GLOBAL_LINE.COM file. Wrote CAL_L_DATAIN file. Wrote PATCHES_L.COM file. Wrote PROCESSOR_LHH.COM file. Wrote PROCESSOR_LHV.COM file. Wrote PROCESSOR_LVH.COM file. Wrote PROCESSOR_LVV.COM file. Write DESKEW_LHH.COM file. Write DESKEW_LHV.COM file. Write DESKEW_LVH.COM file. Wrote BYTECORR.COM file for long baseline pair Wrote BYTECORR.COM file for short baseline pair Wrote BYTECORR.COM file for zero baseline pair Wrote GENINTF.COM file. Wrote GENINTF.COM file for long baseline pair Wrote GENINTF.COM file for long baseline pair Wrote GENINTF.COM file for short baseline pair Wrote GENINTF.COM file for short baseline pair Wrote GENINTF.COM file for zero baseline pair Wrote GENPHASE.COM file for long baseline pair Wrote GENPHASE.COM file for short baseline pair Wrote GENPHASE.COM file for zero baseline pair Wrote GENLOC_cal2.COM file. Wrote GENLOC_cal1.COM file. Wrote DEM2INCSCA.COM file for short baseline pair Wrote MULTILOOK_SNGLL.COM file. Wrote RADIOMETRIC_SNGLL.COM file Wrote PROJECT_DEML.COM file Wrote PROJECT_DEM.COM file. Wrote PROJECT_SNGL.COM file. Wrote PROJECT_COR.COM file. Wrote PROJECT_INC.COM file. Wrote s0c0 COM file. Wrote DEMFORMAT.COM file. Wrote CVVFORMAT.COM file. ts #: 14001400 Wrote L_PIC.COM file Wrote get_hp_cp.COM file. ****************************************************** * * * Integrated AIRSAR Processor * * C-Band Command File Generator Program * * * * This program genetares all the command files * * needed to run the C-band processor to produce * * the four output files. * * * ****************************************************** Enter the flag for 98 P-band 20 mhz with fs=90 Enter the frequency (P, L or C) Enter the name of the disk with the raw data (def=data1): Enter the disk for the undeskewed data (def=data3): Enter the hh and hv deskewed data disk (def=data9): Enter the vh and vv deskewed data disk (def=data10): Enter the final output disk (def=data11): Enter a six character name for the scene: How many bytes offset in range (def=0)? Which year was data taken? (eg 93) year: 96 Please enter HDDT number. Enter the IDR number. Enter an image title of no more than 28 characters. Enter the TS number for this scene. Enter the number of looks (def=18): What is the desired post spacing (def=10)? What is the # of lines, (def=40960): 200000 Do you want to specify the processing altitude? Is there a DEM to use in calibration and projection? (y/n) ans DEM:y Is DEM in pingpong mode (def=y)? ans_pp DEM pp:y Enter BW: 40.00000 Enter p_deskew: 0 Enter ocean_flag: ocean_flag: 0 Enter pulse width: 10.00000 Enter fs: 0.0000000E+00 Enter prf_13: 0.0000000E+00 /u/sardine0/airops/OPS/AIPT_pfa/ proc_mode 4 nbytes: 6144 line1: 1 nlines 236000 lgt_az 2586 sensor_out/export/air32/airops/1400/sensor.inu nbytes: update sensor 6144 line1: 1 nlines 100000 lgt_az 2586 nbytes: 6144 line1: 1 nlines 195590 lgt_az 2586 sensor_out/export/air32/airops/1400/sensor.tp nbytes: update sensor 6144 line1: 1 nlines 100000 lgt_az 2586 nbytes: 6144 line1: 1 nlines 97795 lgt_az 4700 sensor_out/export/air32/airops/1400/sensor.pp nbytes: update sensor 6144 line1: 1 nlines 100000 lgt_az 4700 nbytes: 6144 line1: 1 nlines 97795 lgt_az 4700 sensor_out/export/air32/airops/1400/sensor.lp nbytes: update sensor 6144 line1: 1 nlines 100000 lgt_az 4700 nbytes: 6144 line1: 1 nlines 97795 lgt_az 2586 sensor_out/export/air32/airops/1400/sensor.cp nbytes: update sensor 6144 line1: 1 nlines 100000 lgt_az 2586 Wrote the HDR.CMD file. Wrote the HDR_PROC_C.COM file. Wrote SPLIT_MOCOMP_P.COM file. gencom_pol 40MHz sensor 96068 40.00000 0.0000000E+00 Wrote GLOBAL_LINE.COM file. Wrote CAL_P_DATAIN file. Wrote PATCHES_P.COM file. Wrote PROCESSOR_PHH.COM file. Wrote PROCESSOR_PHV.COM file. Wrote PROCESSOR_PVH.COM file. Wrote PROCESSOR_PVV.COM file. Write DESKEW_PHH.COM file. Write DESKEW_PHV.COM file. Write DESKEW_PVH.COM file. Write DESKEW_PVV.COM file. Wrote MLOOK_LINESP.COM file. Wrote MULTILOOK_P.COM file. Wrote RADIOMETRIC_P.COM file Wrote COMPRESS_P.COM file Wrote PROJECT_NNP.COM file cctid:1400 Wrote P_PIC.COM file p_flag = 0 equal_size freq,bw:p 40.00000 ***************************************************** * * * AIRSAR INTEGRATED PROCESSOR * * * * HEADER PREPROCESSOR * * * * This program reads the raw data header and cal- * * culates the parameters necessary for the motion * * compensation in the integrated processor. * * * ***************************************************** Enter command file name ==> Opening command file... CRD-xdealy: 0.2380000 Reading and decoding header file... fsize_max min: 11907 11863 fsize_max min/ 2: 5954 5932 Finished reading the header file... Data acquired after 1994. J2000 time = -97839530.15473801 GPS J2000 time = -97839532.12479001 Message 1 Time = -97839530.15473801 INS Time = 1.704192000000000 Roll angle = 0.4888916015625000 Pitch angle = 1.038208007812500 Heading angle = 54.35485839843750 Long. acc = 0.1700000000000000 Lat. acc = -1.0000000000000000E-02 Norm. acc = -9.650000000000000 East vel. = 176.2770000000000 North vel. = 126.2550000000000 Up vel. = 0.1210000000000000 True Grnd Spd = 216.8125000000000 Altitude = 8446.000000000000 Latitude = 4.787130374461412 Longitude = 114.7964306641370 Message 6 Week = 881 GPS Time = -97839532.12479001 GDOP = 2.093750000000000 PDOP = 1.937500000000000 HDOP = 1.093750000000000 VDOP = 1.593750000000000 TDOP = 0.7968750000000000 Spherical Acc = 11.00000000000000 Time Acc = 8.0000000000000005E-09 GPS Lat = 4.784968094021508 GPS Lon = 114.7934315981008 GPS Alt = 8449.000000000000 GPS East Vel = 176.2400000000000 GPS North Vel = 126.3000000000000 GPS Up Vel = -0.1100000000000000 Message 3 Del INU Time = 0.7441920000000000 Del vel east = -3.4179687500000000E-03 Del vel north = 1.0253906250000000E-02 Del vel up = 6.4941406250000000E-02 Del pos east = 0.6250000000000000 Del pos north = 0.5000000000000000 Del pos up = -0.1250000000000000 Message 4 Sigma Pos x = 1.250000000000000 Sigma Pos y = 1.500000000000000 Sigma Pos z = 2.000000000000000 Sigma Vel x = 7.0800781250000000E-03 Sigma Vel y = 8.5449218750000000E-03 Sigma Vel z = 1.0009765625000000E-02 Message 7 Satellites used = 10 26 23 30 9 10 Retrived Honeywell data... 11880 Operator Comments: - - - - - - - - - - - - - - - - - - - - - PV RFI near urban areas, but no RX overloading; rebooted HP748i after DIR-1000 interface lockup; getting bumpy at end of run; IG I is OKng Lou, Leon Maldonado, Michael Kobrick, Timothy William Miller van Zyl, David Ryan Haub, Lori Ann Carrico, Timothy W. - - - - - - - - - - - - - - - - - - - - - enter filename for headers (entire path): Which frequency? (C,L or P) number of channels transferred: number of bytes/chan: total # of lines transferred: window delay: enter the .par filename : enter first header to read: enter year data taken: enter HDDT ID for raw data: SONY tapeid: 596068 96068 enter HDDT footage number <0> : enter the title of image: enter the CCT ID: cct: 1400 prod ID1:14001400 prod ID:1400 SONY tapeid: 96068 96068 tapeid:9606896068 tapeid par:96068 prod ID:1400 chrp_delay from subcomm header tapeID: 32.45000 96068 New DCG: chrp_delay is 32.5 usec 32.45000 chrp_delay is 32.5 usec 96068 32.45000 Is this 98039< x >98001 for P-bnad?: 96068 1998 P-band fc? 22.50000 idelay,chrp_delay,xdelay 93 32.45000 0.2380000 near range delr windela: 9040.541 3.331027 0 f_cal 43.59375 1216.406 Parameter header created .. >> Record # : 128 >> GPS Stuff = 1.80 6 9 1 24 26 17 digdelay startrng(us):93 93.00000000000000 startrng(m) elecdelay: 9863.173249999998 2.7200000000000000E-05 >> start range = 9863.1732 >> ccal_amp = -90.39999 >> ccal_atn = 32 >> ratn_phh = 0 14 0 >> ratn_phv = 0 8 0 >> ratn_pvh = 0 8 0 >> ratn_pvv = 0 14 0 >> ratn_lhh = 0 8 0 >> ratn_lhv = 0 8 0 >> ratn_lvh = 0 8 0 >> ratn_lvv = 0 8 0 >> ratn_chh = 0 8 10 >> ratn_chv = 0 8 10 >> ratn_cvh = 0 8 10 >> ratn_cvv = 0 8 10 >> rcvr_chh = >> rcvr_chv = >> rcvr_cvh = >> rcvr_cvv = >> rcvr_cpz = 0.0 >> rcvr_cbw = 1 >> chrp_bnd = 40 >> chrp_len = 10 >> chrp_mod = DN Done decoding data from header array... Data collected on ==> 00-JAN-1996 Starting and end GPS times for SAR data -126338399.2900 -126338162.5340 Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000012 0 hdg 54.32401 53.90442 54.75037 0.1839573 0 trc 54.50528 54.36068 54.69053 0.0875469 0 tgs 216.44132 216.10938 216.82813 0.2168183 0 roll 0.30822 -0.23621 0.72510 0.1837461 0 pitch 1.07499 0.93933 1.30188 0.0565628 0 lati 4.92007 4.78497 5.05509 0.0778559 0 loni 114.98201 114.79343 115.17108 0.1088849 0 latd 4.91742 4.78333 5.05167 0.0779833 0 lond 114.97929 114.79167 115.16833 0.1088942 0 balt 7932.54489 7929.37200 7934.85840 0.9798892 0 ralt 8367.86036 8254.28880 8399.67840 40.1363318 0 dpth 0.99341 0.90000 1.90000 0.0665699 0 droll 0.23431 -0.30000 0.60000 0.1833685 0 thd 54.23086 53.80000 54.60000 0.1842948 0 dad 0.46901 0.20000 0.80000 0.1405592 0 latg 4.92181 4.78635 5.05648 0.0779550 7 long 114.67821 46.71303 115.17265 4.5613505 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8401.98819 8379.99023 8411.06934 6.7947893 7 phh_aten 14.00000 14.00000 14.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 8.00000 8.00000 8.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 8.00000 8.00000 8.00000 0.0000000 0 lhv_aten 8.00000 8.00000 8.00000 0.0000000 0 lvh_aten 8.00000 8.00000 8.00000 0.0000000 0 lvv_aten 8.00000 8.00000 8.00000 0.0000000 0 chh_aten 18.00000 18.00000 18.00000 0.0000000 0 chv_aten 18.00000 18.00000 18.00000 0.0000000 0 cvh_aten 18.00000 18.00000 18.00000 0.0000000 0 cvv_aten 18.00000 18.00000 18.00000 0.0000000 0 hwlat 4.92214 4.78712 5.05676 0.0778090 0 hwlon 114.99456 114.79643 229.97019 1.0605082 0 hwalt 8445.91242 8444.20267 8448.69490 1.1078156 0 hwev 176.22517 175.91100 176.59000 0.1428207 0 hwnv 125.67535 125.01700 126.31100 0.3687243 0 hwuv -0.00038 -0.60000 0.54300 0.2001301 0 hwroll 0.30811 -0.23621 0.72510 0.1837835 0 hwpitch 1.07502 0.93933 1.30188 0.0565736 0 hwhdg 54.32866 53.90442 108.56689 0.5305656 0 hwtrc 54.50999 54.36068 108.87846 0.5064533 0 hwtgs 216.44090 216.10938 216.82813 0.2166153 0 Finished analysis of raw data... Putting in mirror values... Finished with mirror samples... Median filter data... Completed median filter of data... Finished correcting GPS times for pulses... Finished correcting GPS times for SIXGUN data... -97839529.99923338 i_yearind 19960 GPS time for first pulse = -97839530.28283624 -126338399.2900000 New start and number of records = 109 199855 New start and number of blocks = 1 1563 GPS trend coefficients = -11.76622555553974 62.78558206021851 -58.78754310881088 Begin final analysis of data... Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000012 0 hdg 54.32401 53.90442 54.75037 0.1840172 0 trc 54.50535 54.36068 54.69053 0.0875345 0 tgs 216.44117 216.10938 216.82813 0.2166733 0 roll 0.30815 -0.23621 0.72510 0.1837618 0 pitch 1.07498 0.93933 1.30188 0.0565500 0 delx 0.25730 0.00000 0.25738 0.0005761 0 lati 4.92015 4.78497 5.05509 0.0779059 0 loni 114.98213 114.79343 115.17108 0.1089550 0 latd 4.91750 4.78333 5.05167 0.0780253 0 lond 114.97941 114.79167 115.16833 0.1089642 0 balt 7932.54403 7929.37200 7934.85840 0.9801651 0 ralt 8367.88014 8254.28880 8399.67840 40.1278107 0 dpth 0.99296 0.90000 1.20000 0.0626897 0 droll 0.23404 -0.30000 0.60000 0.1836385 0 thd 54.23084 53.80000 54.60000 0.1842375 0 dad 0.46903 0.20000 0.80000 0.1405165 0 latg 4.92162 4.78635 5.05648 0.0779381 0 long 114.98389 114.79526 115.17265 0.1088506 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8401.98819 8391.67622 8415.08752 5.0621651 0 phh_aten 14.00000 14.00000 14.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 8.00000 8.00000 8.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 8.00000 8.00000 8.00000 0.0000000 0 lhv_aten 8.00000 8.00000 8.00000 0.0000000 0 lvh_aten 8.00000 8.00000 8.00000 0.0000000 0 lvv_aten 8.00000 8.00000 8.00000 0.0000000 0 chh_aten 18.00000 18.00000 18.00000 0.0000000 0 chv_aten 18.00000 18.00000 18.00000 0.0000000 0 cvh_aten 18.00000 18.00000 18.00000 0.0000000 0 cvv_aten 18.00000 18.00000 18.00000 0.0000000 0 hwlat 4.92214 4.78715 5.05674 0.0778089 0 hwlon 114.98490 114.79646 115.17338 0.1088269 0 hwalt 8445.91242 8444.20269 8448.69486 1.1078160 0 hwev 176.22516 175.91200 176.58900 0.1428136 0 hwnv 125.67537 125.01900 126.31000 0.3687409 0 hwuv -0.00038 -0.60000 0.54300 0.2001302 0 hwroll 0.30810 -0.23621 0.72510 0.1837604 0 hwpitch 1.07501 0.93933 1.29639 0.0565199 0 hwhdg 54.32408 53.90442 54.74487 0.1840186 0 hwtrc 54.50541 54.36126 54.69004 0.0875148 0 hwtgs 216.44091 216.10938 216.82813 0.2166641 0 Finished final analysis of data... Average Barometric Altitude = 7932.544026103589 Average Radar Altitude = 8367.880135124751 Average GPS Altitude = 8401.988194565911 >>Record # : 128 >>GPS Stuff = 1.80 6 9 1 24 2 >>Record # : 0 >>GPS Stuff = Lock vertical accel to gps(+1) or bar(-1) or IGI (0) ==> Enter a name for the peg data file. Positions and Distances Start position = 4.7871459 114.7964609 8446.470 End position = 5.0567396 115.1733808 8444.912 Loxodromic Heading (deg) = 54.5061343 Loxodromic Distance (km) = 51346.0499506 Geodesic Heading (deg) = 54.4901120 Geodesic Distance (km) = 51346.0480234 Peg latitude and longitude = 4.9221747 114.9847465 Peg heading = 54.5668334 Rotation matrix First row = -0.420819309 -0.717533451 0.555028698 Second row = 0.903077536 -0.389238723 0.181505319 Third row = 0.085802523 0.577614892 0.811787511 Translation vector Vector = -6021.83700 12922.85215 -2435.84204 Local Radius of Curvature = 6363984.385000405 Start and end pulse used = 109 199963 Ellipsoidal delta s (m) = 0.2569177901035996 Delta s on reference surface = 0.2569177986170678 Miscellaneous Information Start range = 9863.173249999998 Start ground range = 5221.184597742174 Time orgin = -97839530.28283624 Pulse spacing = 0.2572961952660497 First frame = 18822817 Thank you for your patronage ***************************************************** * * * AIRSAR INTEGRATED PROCESSOR * * * * HEADER PREPROCESSOR * * * * This program reads the raw data header and cal- * * culates the parameters necessary for the motion * * compensation in the integrated processor. * * * ***************************************************** Enter command file name ==> Opening command file... CRD-xdealy: 0.2380000 Reading and decoding header file... fsize_max min: 11907 11863 fsize_max min/ 2: 5954 5932 Finished reading the header file... Data acquired after 1994. J2000 time = -97839530.15473801 GPS J2000 time = -97839532.12479001 Message 1 Time = -97839530.15473801 INS Time = 1.704192000000000 Roll angle = 0.4888916015625000 Pitch angle = 1.038208007812500 Heading angle = 54.35485839843750 Long. acc = 0.1700000000000000 Lat. acc = -1.0000000000000000E-02 Norm. acc = -9.650000000000000 East vel. = 176.2770000000000 North vel. = 126.2550000000000 Up vel. = 0.1210000000000000 True Grnd Spd = 216.8125000000000 Altitude = 8446.000000000000 Latitude = 4.787130374461412 Longitude = 114.7964306641370 Message 6 Week = 881 GPS Time = -97839532.12479001 GDOP = 2.093750000000000 PDOP = 1.937500000000000 HDOP = 1.093750000000000 VDOP = 1.593750000000000 TDOP = 0.7968750000000000 Spherical Acc = 11.00000000000000 Time Acc = 8.0000000000000005E-09 GPS Lat = 4.784968094021508 GPS Lon = 114.7934315981008 GPS Alt = 8449.000000000000 GPS East Vel = 176.2400000000000 GPS North Vel = 126.3000000000000 GPS Up Vel = -0.1100000000000000 Message 3 Del INU Time = 0.7441920000000000 Del vel east = -3.4179687500000000E-03 Del vel north = 1.0253906250000000E-02 Del vel up = 6.4941406250000000E-02 Del pos east = 0.6250000000000000 Del pos north = 0.5000000000000000 Del pos up = -0.1250000000000000 Message 4 Sigma Pos x = 1.250000000000000 Sigma Pos y = 1.500000000000000 Sigma Pos z = 2.000000000000000 Sigma Vel x = 7.0800781250000000E-03 Sigma Vel y = 8.5449218750000000E-03 Sigma Vel z = 1.0009765625000000E-02 Message 7 Satellites used = 10 26 23 30 9 10 Retrived Honeywell data... 11880 Operator Comments: - - - - - - - - - - - - - - - - - - - - - PV RFI near urban areas, but no RX overloading; rebooted HP748i after DIR-1000 interface lockup; getting bumpy at end of run; IG I is OKng Lou, Leon Maldonado, Michael Kobrick, Timothy William Miller van Zyl, David Ryan Haub, Lori Ann Carrico, Timothy W. - - - - - - - - - - - - - - - - - - - - - enter filename for headers (entire path): Which frequency? (C,L or P) number of channels transferred: number of bytes/chan: total # of lines transferred: window delay: enter the .par filename : enter first header to read: enter year data taken: enter HDDT ID for raw data: SONY tapeid: 596068 96068 enter HDDT footage number <0> : enter the title of image: enter the CCT ID: cct: 1400 prod ID1:14001400 prod ID:1400 SONY tapeid: 96068 96068 tapeid:9606896068 tapeid par:96068 prod ID:1400 chrp_delay from subcomm header tapeID: 32.45000 96068 New DCG: chrp_delay is 32.5 usec 32.45000 chrp_delay is 32.5 usec 96068 32.45000 Is this 98039< x >98001 for P-bnad?: 96068 1998 P-band fc? 22.50000 idelay,chrp_delay,xdelay 93 32.45000 0.2380000 near range delr windela: 9040.541 3.331027 0 f_cal 43.59375 1216.406 Parameter header created .. >> Record # : 128 >> GPS Stuff = 1.80 6 9 1 24 26 17 digdelay startrng(us):93 93.00000000000000 startrng(m) elecdelay: 9863.173249999998 2.7200000000000000E-05 >> start range = 9863.1732 >> ccal_amp = -90.39999 >> ccal_atn = 32 >> ratn_phh = 0 14 0 >> ratn_phv = 0 8 0 >> ratn_pvh = 0 8 0 >> ratn_pvv = 0 14 0 >> ratn_lhh = 0 8 0 >> ratn_lhv = 0 8 0 >> ratn_lvh = 0 8 0 >> ratn_lvv = 0 8 0 >> ratn_chh = 0 8 10 >> ratn_chv = 0 8 10 >> ratn_cvh = 0 8 10 >> ratn_cvv = 0 8 10 >> rcvr_chh = >> rcvr_chv = >> rcvr_cvh = >> rcvr_cvv = >> rcvr_cpz = 0.0 >> rcvr_cbw = 1 >> chrp_bnd = 40 >> chrp_len = 10 >> chrp_mod = DN Done decoding data from header array... Data collected on ==> 00-JAN-1996 Starting and end GPS times for SAR data -126338399.2900 -126338162.5340 Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000012 0 hdg 54.32401 53.90442 54.75037 0.1839573 0 trc 54.50528 54.36068 54.69053 0.0875469 0 tgs 216.44132 216.10938 216.82813 0.2168183 0 roll 0.30822 -0.23621 0.72510 0.1837461 0 pitch 1.07499 0.93933 1.30188 0.0565628 0 lati 4.92007 4.78497 5.05509 0.0778559 0 loni 114.98201 114.79343 115.17108 0.1088849 0 latd 4.91742 4.78333 5.05167 0.0779833 0 lond 114.97929 114.79167 115.16833 0.1088942 0 balt 7932.54489 7929.37200 7934.85840 0.9798892 0 ralt 8367.86036 8254.28880 8399.67840 40.1363318 0 dpth 0.99341 0.90000 1.90000 0.0665699 0 droll 0.23431 -0.30000 0.60000 0.1833685 0 thd 54.23086 53.80000 54.60000 0.1842948 0 dad 0.46901 0.20000 0.80000 0.1405592 0 latg 4.92181 4.78635 5.05648 0.0779550 7 long 114.67821 46.71303 115.17265 4.5613505 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8401.98819 8379.99023 8411.06934 6.7947893 7 phh_aten 14.00000 14.00000 14.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 8.00000 8.00000 8.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 8.00000 8.00000 8.00000 0.0000000 0 lhv_aten 8.00000 8.00000 8.00000 0.0000000 0 lvh_aten 8.00000 8.00000 8.00000 0.0000000 0 lvv_aten 8.00000 8.00000 8.00000 0.0000000 0 chh_aten 18.00000 18.00000 18.00000 0.0000000 0 chv_aten 18.00000 18.00000 18.00000 0.0000000 0 cvh_aten 18.00000 18.00000 18.00000 0.0000000 0 cvv_aten 18.00000 18.00000 18.00000 0.0000000 0 hwlat 4.92214 4.78712 5.05676 0.0778090 0 hwlon 114.99456 114.79643 229.97019 1.0605082 0 hwalt 8445.91242 8444.20267 8448.69490 1.1078156 0 hwev 176.22517 175.91100 176.59000 0.1428207 0 hwnv 125.67535 125.01700 126.31100 0.3687243 0 hwuv -0.00038 -0.60000 0.54300 0.2001301 0 hwroll 0.30811 -0.23621 0.72510 0.1837835 0 hwpitch 1.07502 0.93933 1.30188 0.0565736 0 hwhdg 54.32866 53.90442 108.56689 0.5305656 0 hwtrc 54.50999 54.36068 108.87846 0.5064533 0 hwtgs 216.44090 216.10938 216.82813 0.2166153 0 Finished analysis of raw data... Putting in mirror values... Finished with mirror samples... Median filter data... Completed median filter of data... Finished correcting GPS times for pulses... Finished correcting GPS times for SIXGUN data... -97839529.99923338 i_yearind 19960 GPS time for first pulse = -97839530.28283624 -126338399.2900000 New start and number of records = 109 199855 New start and number of blocks = 1 1563 GPS trend coefficients = -11.76622555553974 62.78558206021851 -58.78754310881088 Begin final analysis of data... Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000012 0 hdg 54.32401 53.90442 54.75037 0.1840172 0 trc 54.50535 54.36068 54.69053 0.0875345 0 tgs 216.44117 216.10938 216.82813 0.2166733 0 roll 0.30815 -0.23621 0.72510 0.1837618 0 pitch 1.07498 0.93933 1.30188 0.0565500 0 delx 0.25730 0.00000 0.25738 0.0005761 0 lati 4.92015 4.78497 5.05509 0.0779059 0 loni 114.98213 114.79343 115.17108 0.1089550 0 latd 4.91750 4.78333 5.05167 0.0780253 0 lond 114.97941 114.79167 115.16833 0.1089642 0 balt 7932.54403 7929.37200 7934.85840 0.9801651 0 ralt 8367.88014 8254.28880 8399.67840 40.1278107 0 dpth 0.99296 0.90000 1.20000 0.0626897 0 droll 0.23404 -0.30000 0.60000 0.1836385 0 thd 54.23084 53.80000 54.60000 0.1842375 0 dad 0.46903 0.20000 0.80000 0.1405165 0 latg 4.92162 4.78635 5.05648 0.0779381 0 long 114.98389 114.79526 115.17265 0.1088506 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8401.98819 8391.67622 8415.08752 5.0621651 0 phh_aten 14.00000 14.00000 14.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 8.00000 8.00000 8.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 8.00000 8.00000 8.00000 0.0000000 0 lhv_aten 8.00000 8.00000 8.00000 0.0000000 0 lvh_aten 8.00000 8.00000 8.00000 0.0000000 0 lvv_aten 8.00000 8.00000 8.00000 0.0000000 0 chh_aten 18.00000 18.00000 18.00000 0.0000000 0 chv_aten 18.00000 18.00000 18.00000 0.0000000 0 cvh_aten 18.00000 18.00000 18.00000 0.0000000 0 cvv_aten 18.00000 18.00000 18.00000 0.0000000 0 hwlat 4.92214 4.78715 5.05674 0.0778089 0 hwlon 114.98490 114.79646 115.17338 0.1088269 0 hwalt 8445.91242 8444.20269 8448.69486 1.1078160 0 hwev 176.22516 175.91200 176.58900 0.1428136 0 hwnv 125.67537 125.01900 126.31000 0.3687409 0 hwuv -0.00038 -0.60000 0.54300 0.2001302 0 hwroll 0.30810 -0.23621 0.72510 0.1837604 0 hwpitch 1.07501 0.93933 1.29639 0.0565199 0 hwhdg 54.32408 53.90442 54.74487 0.1840186 0 hwtrc 54.50541 54.36126 54.69004 0.0875148 0 hwtgs 216.44091 216.10938 216.82813 0.2166641 0 Finished final analysis of data... Average Barometric Altitude = 7932.544026103589 Average Radar Altitude = 8367.880135124751 Average GPS Altitude = 8401.988194565911 >>Record # : 128 >>GPS Stuff = 1.80 6 9 1 24 2 >>Record # : 0 >>GPS Stuff = Lock vertical accel to gps(+1) or bar(-1) or IGI (0) ==> Enter a name for the peg data file. Positions and Distances Start position = 4.7871459 114.7964609 8446.470 End position = 5.0567396 115.1733808 8444.912 Loxodromic Heading (deg) = 54.5061343 Loxodromic Distance (km) = 51346.0499506 Geodesic Heading (deg) = 54.4901120 Geodesic Distance (km) = 51346.0480234 Peg latitude and longitude = 4.9221747 114.9847465 Peg heading = 54.5668334 Rotation matrix First row = -0.420819309 -0.717533451 0.555028698 Second row = 0.903077536 -0.389238723 0.181505319 Third row = 0.085802523 0.577614892 0.811787511 Translation vector Vector = -6021.83700 12922.85215 -2435.84204 Local Radius of Curvature = 6363984.385000405 Start and end pulse used = 109 199963 Ellipsoidal delta s (m) = 0.2569177901035996 Delta s on reference surface = 0.2569177986170678 Miscellaneous Information Start range = 9863.173249999998 Start ground range = 5221.184597742174 Time orgin = -97839530.28283624 Pulse spacing = 0.2572961952660497 First frame = 18822817 Thank you for your patronage ***************************************************** * * * AIRSAR INTEGRATED PROCESSOR * * * * HEADER PREPROCESSOR * * * * This program reads the raw data header and cal- * * culates the parameters necessary for the motion * * compensation in the integrated processor. * * * ***************************************************** Enter command file name ==> Opening command file... CRD-xdealy: 0.2380000 Reading and decoding header file... fsize_max min: 11907 11863 fsize_max min/ 2: 5954 5932 Finished reading the header file... Data acquired after 1994. J2000 time = -97839530.15473801 GPS J2000 time = -97839532.12479001 Message 1 Time = -97839530.15473801 INS Time = 1.704192000000000 Roll angle = 0.4888916015625000 Pitch angle = 1.038208007812500 Heading angle = 54.35485839843750 Long. acc = 0.1700000000000000 Lat. acc = -1.0000000000000000E-02 Norm. acc = -9.650000000000000 East vel. = 176.2770000000000 North vel. = 126.2550000000000 Up vel. = 0.1210000000000000 True Grnd Spd = 216.8125000000000 Altitude = 8446.000000000000 Latitude = 4.787130374461412 Longitude = 114.7964306641370 Message 6 Week = 881 GPS Time = -97839532.12479001 GDOP = 2.093750000000000 PDOP = 1.937500000000000 HDOP = 1.093750000000000 VDOP = 1.593750000000000 TDOP = 0.7968750000000000 Spherical Acc = 11.00000000000000 Time Acc = 8.0000000000000005E-09 GPS Lat = 4.784968094021508 GPS Lon = 114.7934315981008 GPS Alt = 8449.000000000000 GPS East Vel = 176.2400000000000 GPS North Vel = 126.3000000000000 GPS Up Vel = -0.1100000000000000 Message 3 Del INU Time = 0.7441920000000000 Del vel east = -3.4179687500000000E-03 Del vel north = 1.0253906250000000E-02 Del vel up = 6.4941406250000000E-02 Del pos east = 0.6250000000000000 Del pos north = 0.5000000000000000 Del pos up = -0.1250000000000000 Message 4 Sigma Pos x = 1.250000000000000 Sigma Pos y = 1.500000000000000 Sigma Pos z = 2.000000000000000 Sigma Vel x = 7.0800781250000000E-03 Sigma Vel y = 8.5449218750000000E-03 Sigma Vel z = 1.0009765625000000E-02 Message 7 Satellites used = 10 26 23 30 9 10 Retrived Honeywell data... 11880 Operator Comments: - - - - - - - - - - - - - - - - - - - - - PV RFI near urban areas, but no RX overloading; rebooted HP748i after DIR-1000 interface lockup; getting bumpy at end of run; IG I is OKng Lou, Leon Maldonado, Michael Kobrick, Timothy William Miller van Zyl, David Ryan Haub, Lori Ann Carrico, Timothy W. - - - - - - - - - - - - - - - - - - - - - enter filename for headers (entire path): Which frequency? (C,L or P) number of channels transferred: number of bytes/chan: total # of lines transferred: window delay: enter the .par filename : enter first header to read: enter year data taken: enter HDDT ID for raw data: SONY tapeid: 596068 96068 enter HDDT footage number <0> : enter the title of image: enter the CCT ID: cct: 1400 prod ID1:14001400 prod ID:1400 SONY tapeid: 96068 96068 tapeid:9606896068 tapeid par:96068 prod ID:1400 chrp_delay from subcomm header tapeID: 32.45000 96068 New DCG: chrp_delay is 32.5 usec 32.45000 chrp_delay is 32.5 usec 96068 32.45000 Is this 98039< x >98001 for P-bnad?: 96068 1998 P-band fc? 22.50000 idelay,chrp_delay,xdelay 93 32.45000 0.2380000 near range delr windela: 9040.541 3.331027 0 f_cal 43.59375 1216.406 Parameter header created .. >> Record # : 128 >> GPS Stuff = 1.80 6 9 1 24 26 17 digdelay startrng(us):93 93.00000000000000 startrng(m) elecdelay: 9863.173249999998 2.7200000000000000E-05 >> start range = 9863.1732 >> ccal_amp = -90.39999 >> ccal_atn = 32 >> ratn_phh = 0 14 0 >> ratn_phv = 0 8 0 >> ratn_pvh = 0 8 0 >> ratn_pvv = 0 14 0 >> ratn_lhh = 0 8 0 >> ratn_lhv = 0 8 0 >> ratn_lvh = 0 8 0 >> ratn_lvv = 0 8 0 >> ratn_chh = 0 8 10 >> ratn_chv = 0 8 10 >> ratn_cvh = 0 8 10 >> ratn_cvv = 0 8 10 >> rcvr_chh = >> rcvr_chv = >> rcvr_cvh = >> rcvr_cvv = >> rcvr_cpz = 0.0 >> rcvr_cbw = 1 >> chrp_bnd = 40 >> chrp_len = 10 >> chrp_mod = DN Done decoding data from header array... Data collected on ==> 00-JAN-1996 Starting and end GPS times for SAR data -126338399.2900 -126338162.5340 Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000012 0 hdg 54.32401 53.90442 54.75037 0.1839573 0 trc 54.50528 54.36068 54.69053 0.0875469 0 tgs 216.44132 216.10938 216.82813 0.2168183 0 roll 0.30822 -0.23621 0.72510 0.1837461 0 pitch 1.07499 0.93933 1.30188 0.0565628 0 lati 4.92007 4.78497 5.05509 0.0778559 0 loni 114.98201 114.79343 115.17108 0.1088849 0 latd 4.91742 4.78333 5.05167 0.0779833 0 lond 114.97929 114.79167 115.16833 0.1088942 0 balt 7932.54489 7929.37200 7934.85840 0.9798892 0 ralt 8367.86036 8254.28880 8399.67840 40.1363318 0 dpth 0.99341 0.90000 1.90000 0.0665699 0 droll 0.23431 -0.30000 0.60000 0.1833685 0 thd 54.23086 53.80000 54.60000 0.1842948 0 dad 0.46901 0.20000 0.80000 0.1405592 0 latg 4.92181 4.78635 5.05648 0.0779550 7 long 114.67821 46.71303 115.17265 4.5613505 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8401.98819 8379.99023 8411.06934 6.7947893 7 phh_aten 14.00000 14.00000 14.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 8.00000 8.00000 8.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 8.00000 8.00000 8.00000 0.0000000 0 lhv_aten 8.00000 8.00000 8.00000 0.0000000 0 lvh_aten 8.00000 8.00000 8.00000 0.0000000 0 lvv_aten 8.00000 8.00000 8.00000 0.0000000 0 chh_aten 18.00000 18.00000 18.00000 0.0000000 0 chv_aten 18.00000 18.00000 18.00000 0.0000000 0 cvh_aten 18.00000 18.00000 18.00000 0.0000000 0 cvv_aten 18.00000 18.00000 18.00000 0.0000000 0 hwlat 4.92214 4.78712 5.05676 0.0778090 0 hwlon 114.99456 114.79643 229.97019 1.0605082 0 hwalt 8445.91242 8444.20267 8448.69490 1.1078156 0 hwev 176.22517 175.91100 176.59000 0.1428207 0 hwnv 125.67535 125.01700 126.31100 0.3687243 0 hwuv -0.00038 -0.60000 0.54300 0.2001301 0 hwroll 0.30811 -0.23621 0.72510 0.1837835 0 hwpitch 1.07502 0.93933 1.30188 0.0565736 0 hwhdg 54.32866 53.90442 108.56689 0.5305656 0 hwtrc 54.50999 54.36068 108.87846 0.5064533 0 hwtgs 216.44090 216.10938 216.82813 0.2166153 0 Finished analysis of raw data... Putting in mirror values... Finished with mirror samples... Median filter data... Completed median filter of data... Finished correcting GPS times for pulses... Finished correcting GPS times for SIXGUN data... -97839529.99923338 i_yearind 19960 GPS time for first pulse = -97839530.28283624 -126338399.2900000 New start and number of records = 109 199855 New start and number of blocks = 1 1563 GPS trend coefficients = -11.76622555553974 62.78558206021851 -58.78754310881088 Begin final analysis of data... Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000012 0 hdg 54.32401 53.90442 54.75037 0.1840172 0 trc 54.50535 54.36068 54.69053 0.0875345 0 tgs 216.44117 216.10938 216.82813 0.2166733 0 roll 0.30815 -0.23621 0.72510 0.1837618 0 pitch 1.07498 0.93933 1.30188 0.0565500 0 delx 0.25730 0.00000 0.25738 0.0005761 0 lati 4.92015 4.78497 5.05509 0.0779059 0 loni 114.98213 114.79343 115.17108 0.1089550 0 latd 4.91750 4.78333 5.05167 0.0780253 0 lond 114.97941 114.79167 115.16833 0.1089642 0 balt 7932.54403 7929.37200 7934.85840 0.9801651 0 ralt 8367.88014 8254.28880 8399.67840 40.1278107 0 dpth 0.99296 0.90000 1.20000 0.0626897 0 droll 0.23404 -0.30000 0.60000 0.1836385 0 thd 54.23084 53.80000 54.60000 0.1842375 0 dad 0.46903 0.20000 0.80000 0.1405165 0 latg 4.92162 4.78635 5.05648 0.0779381 0 long 114.98389 114.79526 115.17265 0.1088506 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8401.98819 8391.67622 8415.08752 5.0621651 0 phh_aten 14.00000 14.00000 14.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 8.00000 8.00000 8.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 8.00000 8.00000 8.00000 0.0000000 0 lhv_aten 8.00000 8.00000 8.00000 0.0000000 0 lvh_aten 8.00000 8.00000 8.00000 0.0000000 0 lvv_aten 8.00000 8.00000 8.00000 0.0000000 0 chh_aten 18.00000 18.00000 18.00000 0.0000000 0 chv_aten 18.00000 18.00000 18.00000 0.0000000 0 cvh_aten 18.00000 18.00000 18.00000 0.0000000 0 cvv_aten 18.00000 18.00000 18.00000 0.0000000 0 hwlat 4.92214 4.78715 5.05674 0.0778089 0 hwlon 114.98490 114.79646 115.17338 0.1088269 0 hwalt 8445.91242 8444.20269 8448.69486 1.1078160 0 hwev 176.22516 175.91200 176.58900 0.1428136 0 hwnv 125.67537 125.01900 126.31000 0.3687409 0 hwuv -0.00038 -0.60000 0.54300 0.2001302 0 hwroll 0.30810 -0.23621 0.72510 0.1837604 0 hwpitch 1.07501 0.93933 1.29639 0.0565199 0 hwhdg 54.32408 53.90442 54.74487 0.1840186 0 hwtrc 54.50541 54.36126 54.69004 0.0875148 0 hwtgs 216.44091 216.10938 216.82813 0.2166641 0 Finished final analysis of data... Average Barometric Altitude = 7932.544026103589 Average Radar Altitude = 8367.880135124751 Average GPS Altitude = 8401.988194565911 >>Record # : 128 >>GPS Stuff = 1.80 6 9 1 24 2 >>Record # : 0 >>GPS Stuff = Lock vertical accel to gps(+1) or bar(-1) or IGI (0) ==> Enter a name for the peg data file. Positions and Distances Start position = 4.7871459 114.7964609 8446.470 End position = 5.0567396 115.1733808 8444.912 Loxodromic Heading (deg) = 54.5061343 Loxodromic Distance (km) = 51346.0499506 Geodesic Heading (deg) = 54.4901120 Geodesic Distance (km) = 51346.0480234 Peg latitude and longitude = 4.9221747 114.9847465 Peg heading = 54.5668334 Rotation matrix First row = -0.420819309 -0.717533451 0.555028698 Second row = 0.903077536 -0.389238723 0.181505319 Third row = 0.085802523 0.577614892 0.811787511 Translation vector Vector = -6021.83700 12922.85215 -2435.84204 Local Radius of Curvature = 6363984.385000405 Start and end pulse used = 109 199963 Ellipsoidal delta s (m) = 0.2569177901035996 Delta s on reference surface = 0.2569177986170678 Miscellaneous Information Start range = 9863.173249999998 Start ground range = 5221.184597742174 Time orgin = -97839530.28283624 Pulse spacing = 0.2572961952660497 First frame = 18822817 Thank you for your patronage Fri Nov 8 14:41:23 PST 2002 ***************************************************** * * * AIRSAR INTEGRATED PROCESSOR * * * * HEADER PREPROCESSOR * * * * This program reads the raw data header and cal- * * culates the parameters necessary for the motion * * compensation in the integrated processor. * * * ***************************************************** Enter command file name ==> Opening command file... CRD-xdealy: 0.2380000 Reading and decoding header file... fsize_max min: 11907 11863 fsize_max min/ 2: 5954 5932 Finished reading the header file... Data acquired after 1994. J2000 time = -97839530.15473801 GPS J2000 time = -97839532.12479001 Message 1 Time = -97839530.15473801 INS Time = 1.704192000000000 Roll angle = 0.4888916015625000 Pitch angle = 1.038208007812500 Heading angle = 54.35485839843750 Long. acc = 0.1700000000000000 Lat. acc = -1.0000000000000000E-02 Norm. acc = -9.650000000000000 East vel. = 176.2770000000000 North vel. = 126.2550000000000 Up vel. = 0.1210000000000000 True Grnd Spd = 216.8125000000000 Altitude = 8446.000000000000 Latitude = 4.787130374461412 Longitude = 114.7964306641370 Message 6 Week = 881 GPS Time = -97839532.12479001 GDOP = 2.093750000000000 PDOP = 1.937500000000000 HDOP = 1.093750000000000 VDOP = 1.593750000000000 TDOP = 0.7968750000000000 Spherical Acc = 11.00000000000000 Time Acc = 8.0000000000000005E-09 GPS Lat = 4.784968094021508 GPS Lon = 114.7934315981008 GPS Alt = 8449.000000000000 GPS East Vel = 176.2400000000000 GPS North Vel = 126.3000000000000 GPS Up Vel = -0.1100000000000000 Message 3 Del INU Time = 0.7441920000000000 Del vel east = -3.4179687500000000E-03 Del vel north = 1.0253906250000000E-02 Del vel up = 6.4941406250000000E-02 Del pos east = 0.6250000000000000 Del pos north = 0.5000000000000000 Del pos up = -0.1250000000000000 Message 4 Sigma Pos x = 1.250000000000000 Sigma Pos y = 1.500000000000000 Sigma Pos z = 2.000000000000000 Sigma Vel x = 7.0800781250000000E-03 Sigma Vel y = 8.5449218750000000E-03 Sigma Vel z = 1.0009765625000000E-02 Message 7 Satellites used = 10 26 23 30 9 10 Retrived Honeywell data... 11880 Operator Comments: - - - - - - - - - - - - - - - - - - - - - PV RFI near urban areas, but no RX overloading; rebooted HP748i after DIR-1000 interface lockup; getting bumpy at end of run; IG I is OKng Lou, Leon Maldonado, Michael Kobrick, Timothy William Miller van Zyl, David Ryan Haub, Lori Ann Carrico, Timothy W. - - - - - - - - - - - - - - - - - - - - - enter filename for headers (entire path): Which frequency? (C,L or P) number of channels transferred: number of bytes/chan: total # of lines transferred: window delay: enter the .par filename : enter first header to read: enter year data taken: enter HDDT ID for raw data: SONY tapeid: 596068 96068 enter HDDT footage number <0> : enter the title of image: enter the CCT ID: cct: 1400 prod ID1:14001400 prod ID:1400 SONY tapeid: 96068 96068 tapeid:9606896068 tapeid par:96068 prod ID:1400 chrp_delay from subcomm header tapeID: 32.45000 96068 New DCG: chrp_delay is 32.5 usec 32.45000 chrp_delay is 32.5 usec 96068 32.45000 Is this 98039< x >98001 for P-bnad?: 96068 1998 P-band fc? 22.50000 idelay,chrp_delay,xdelay 93 32.45000 0.2380000 near range delr windela: 9040.541 3.331027 0 f_cal 43.59375 1216.406 Parameter header created .. >> Record # : 128 >> GPS Stuff = 1.80 6 9 1 24 26 17 digdelay startrng(us):93 93.00000000000000 startrng(m) elecdelay: 9863.173249999998 2.7200000000000000E-05 >> start range = 9863.1732 >> ccal_amp = -90.39999 >> ccal_atn = 32 >> ratn_phh = 0 14 0 >> ratn_phv = 0 8 0 >> ratn_pvh = 0 8 0 >> ratn_pvv = 0 14 0 >> ratn_lhh = 0 8 0 >> ratn_lhv = 0 8 0 >> ratn_lvh = 0 8 0 >> ratn_lvv = 0 8 0 >> ratn_chh = 0 8 10 >> ratn_chv = 0 8 10 >> ratn_cvh = 0 8 10 >> ratn_cvv = 0 8 10 >> rcvr_chh = >> rcvr_chv = >> rcvr_cvh = >> rcvr_cvv = >> rcvr_cpz = 0.0 >> rcvr_cbw = 1 >> chrp_bnd = 40 >> chrp_len = 10 >> chrp_mod = DN Done decoding data from header array... Data collected on ==> 00-JAN-1996 Starting and end GPS times for SAR data -126338399.2900 -126338162.5340 Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000012 0 hdg 54.32401 53.90442 54.75037 0.1839573 0 trc 54.50528 54.36068 54.69053 0.0875469 0 tgs 216.44132 216.10938 216.82813 0.2168183 0 roll 0.30822 -0.23621 0.72510 0.1837461 0 pitch 1.07499 0.93933 1.30188 0.0565628 0 lati 4.92007 4.78497 5.05509 0.0778559 0 loni 114.98201 114.79343 115.17108 0.1088849 0 latd 4.91742 4.78333 5.05167 0.0779833 0 lond 114.97929 114.79167 115.16833 0.1088942 0 balt 7932.54489 7929.37200 7934.85840 0.9798892 0 ralt 8367.86036 8254.28880 8399.67840 40.1363318 0 dpth 0.99341 0.90000 1.90000 0.0665699 0 droll 0.23431 -0.30000 0.60000 0.1833685 0 thd 54.23086 53.80000 54.60000 0.1842948 0 dad 0.46901 0.20000 0.80000 0.1405592 0 latg 4.92181 4.78635 5.05648 0.0779550 7 long 114.67821 46.71303 115.17265 4.5613505 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8401.98819 8379.99023 8411.06934 6.7947893 7 phh_aten 14.00000 14.00000 14.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 8.00000 8.00000 8.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 8.00000 8.00000 8.00000 0.0000000 0 lhv_aten 8.00000 8.00000 8.00000 0.0000000 0 lvh_aten 8.00000 8.00000 8.00000 0.0000000 0 lvv_aten 8.00000 8.00000 8.00000 0.0000000 0 chh_aten 18.00000 18.00000 18.00000 0.0000000 0 chv_aten 18.00000 18.00000 18.00000 0.0000000 0 cvh_aten 18.00000 18.00000 18.00000 0.0000000 0 cvv_aten 18.00000 18.00000 18.00000 0.0000000 0 hwlat 4.92214 4.78712 5.05676 0.0778090 0 hwlon 114.99456 114.79643 229.97019 1.0605082 0 hwalt 8445.91242 8444.20267 8448.69490 1.1078156 0 hwev 176.22517 175.91100 176.59000 0.1428207 0 hwnv 125.67535 125.01700 126.31100 0.3687243 0 hwuv -0.00038 -0.60000 0.54300 0.2001301 0 hwroll 0.30811 -0.23621 0.72510 0.1837835 0 hwpitch 1.07502 0.93933 1.30188 0.0565736 0 hwhdg 54.32866 53.90442 108.56689 0.5305656 0 hwtrc 54.50999 54.36068 108.87846 0.5064533 0 hwtgs 216.44090 216.10938 216.82813 0.2166153 0 Finished analysis of raw data... Putting in mirror values... Finished with mirror samples... Median filter data... Completed median filter of data... Finished correcting GPS times for pulses... Finished correcting GPS times for SIXGUN data... -97839529.99923338 i_yearind 19960 GPS time for first pulse = -97839530.28283624 -126338399.2900000 New start and number of records = 109 199855 New start and number of blocks = 1 1563 GPS trend coefficients = -11.76622555553974 62.78558206021851 -58.78754310881088 Begin final analysis of data... Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000012 0 hdg 54.32401 53.90442 54.75037 0.1840172 0 trc 54.50535 54.36068 54.69053 0.0875345 0 tgs 216.44117 216.10938 216.82813 0.2166733 0 roll 0.30815 -0.23621 0.72510 0.1837618 0 pitch 1.07498 0.93933 1.30188 0.0565500 0 delx 0.25730 0.00000 0.25738 0.0005761 0 lati 4.92015 4.78497 5.05509 0.0779059 0 loni 114.98213 114.79343 115.17108 0.1089550 0 latd 4.91750 4.78333 5.05167 0.0780253 0 lond 114.97941 114.79167 115.16833 0.1089642 0 balt 7932.54403 7929.37200 7934.85840 0.9801651 0 ralt 8367.88014 8254.28880 8399.67840 40.1278107 0 dpth 0.99296 0.90000 1.20000 0.0626897 0 droll 0.23404 -0.30000 0.60000 0.1836385 0 thd 54.23084 53.80000 54.60000 0.1842375 0 dad 0.46903 0.20000 0.80000 0.1405165 0 latg 4.92162 4.78635 5.05648 0.0779381 0 long 114.98389 114.79526 115.17265 0.1088506 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8401.98819 8391.67622 8415.08752 5.0621651 0 phh_aten 14.00000 14.00000 14.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 8.00000 8.00000 8.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 8.00000 8.00000 8.00000 0.0000000 0 lhv_aten 8.00000 8.00000 8.00000 0.0000000 0 lvh_aten 8.00000 8.00000 8.00000 0.0000000 0 lvv_aten 8.00000 8.00000 8.00000 0.0000000 0 chh_aten 18.00000 18.00000 18.00000 0.0000000 0 chv_aten 18.00000 18.00000 18.00000 0.0000000 0 cvh_aten 18.00000 18.00000 18.00000 0.0000000 0 cvv_aten 18.00000 18.00000 18.00000 0.0000000 0 hwlat 4.92214 4.78715 5.05674 0.0778089 0 hwlon 114.98490 114.79646 115.17338 0.1088269 0 hwalt 8445.91242 8444.20269 8448.69486 1.1078160 0 hwev 176.22516 175.91200 176.58900 0.1428136 0 hwnv 125.67537 125.01900 126.31000 0.3687409 0 hwuv -0.00038 -0.60000 0.54300 0.2001302 0 hwroll 0.30810 -0.23621 0.72510 0.1837604 0 hwpitch 1.07501 0.93933 1.29639 0.0565199 0 hwhdg 54.32408 53.90442 54.74487 0.1840186 0 hwtrc 54.50541 54.36126 54.69004 0.0875148 0 hwtgs 216.44091 216.10938 216.82813 0.2166641 0 Finished final analysis of data... Average Barometric Altitude = 7932.544026103589 Average Radar Altitude = 8367.880135124751 Average GPS Altitude = 8401.988194565911 >>Record # : 128 >>GPS Stuff = 1.80 6 9 1 24 2 >>Record # : 0 >>GPS Stuff = Lock vertical accel to gps(+1) or bar(-1) or IGI (0) ==> Enter a name for the peg data file. Positions and Distances Start position = 4.7871459 114.7964609 8446.470 End position = 5.0567396 115.1733808 8444.912 Loxodromic Heading (deg) = 54.5061343 Loxodromic Distance (km) = 51346.0499506 Geodesic Heading (deg) = 54.4901120 Geodesic Distance (km) = 51346.0480234 Peg latitude and longitude = 4.9221747 114.9847465 Peg heading = 54.5668334 Rotation matrix First row = -0.420819309 -0.717533451 0.555028698 Second row = 0.903077536 -0.389238723 0.181505319 Third row = 0.085802523 0.577614892 0.811787511 Translation vector Vector = -6021.83700 12922.85215 -2435.84204 Local Radius of Curvature = 6363984.385000405 Start and end pulse used = 109 199963 Ellipsoidal delta s (m) = 0.2569177901035996 Delta s on reference surface = 0.2569177986170678 Miscellaneous Information Start range = 9863.173249999998 Start ground range = 5221.184597742174 Time orgin = -97839530.28283624 Pulse spacing = 0.2572961952660497 First frame = 18822817 Thank you for your patronage If a POLTOP mode then...: .mocomp -> .mocomph & .mocompv .mocomph -> .mocomphU & .mocompvU .mocompv -> .mocomphL & .mocompvL Enter the name of the motion compensation file. /export/air36/airops/1400/ts1400_c.mocomp Name of the H-pol motion compensation file? /export/air36/airops/1400/ts1400_c.mocomph Name of the V-pol motion compensation file? /export/air36/airops/1400/ts1400_c.mocompv How many lines per polarization? 10240 + 1 + 10001 + 20001 ********************************************* * * * AIRSAR INTEGRATED PROCESSOR * * * * CALTONE ESTIMATOR * * * * This program estimates the CALTONE amp- * * litude and phase and writes the result * * into the parameter header. * * * ********************************************* Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) CHH Enter the paramater file name. /export/air36/airops/1400/ts1400_c.par Enter the raw data file name. /export/air32/airops/1400/c_hh Enter the motion compensation file name. /export/air36/airops/1400/ts1400_c.mocomp Enter a file name for the range spectrum: /export/air36/airops/1400/db_c_hh.dat Enter a file name for the sampled caltone power: /export/air36/airops/1400/1st_c_hh.dat Enter histogram of the caltone power file name: /export/air36/airops/1400/pw_hist_c_hh.dat Enter histogram of the caltone phase file name: /export/air36/airops/1400/ph_hist_c_hh.dat Enter start range line #: 1 How many lines of raw data? 10240 How many lines to be processed? 10240 Enter polarization (1=HH,2=HV,3=VH,4=VV): 1 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3756 5932 Prediction cal_bin 1057 start/end pulse: 1 10176 64-Loop Count: 158 cmplx raw(1 2 3): (-31.77313,0.0000000E+00) (-79.43283,0.0000000E+00) (-23.82985,0.0000000E+00) attenuation (dB): 18.00000 no_loop: 64 Pulse#/no_loop: 1 1057 7.2144973E+08 plot_x: 159 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 88.53426 Power RMS: 0.0000000E+00 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 26712.45 Amp. RMS: 64.00000 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -50.54842 Phase RMS: 1.195797 Incoherent PH 1st: -50.78034 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 88.86302 CalTone Power Coherently dB : 88.53426 Incoherent PW - Coherent PW : 0.3287582 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 27739.97 CalTone Amplitude Coherently : 26712.45 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 1027.525 ------------ *** ------------ running time (sec): 6.28 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) CHV Enter the paramater file name. /export/air36/airops/1400/ts1400_c.par Enter the raw data file name. /export/air32/airops/1400/c_hv Enter the motion compensation file name. /export/air36/airops/1400/ts1400_c.mocomp Enter a file name for the range spectrum: /export/air36/airops/1400/db_c_hv.dat Enter a file name for the sampled caltone power: /export/air36/airops/1400/1st_c_hv.dat Enter histogram of the caltone power file name: /export/air36/airops/1400/pw_hist_c_hv.dat Enter histogram of the caltone phase file name: /export/air36/airops/1400/ph_hist_c_hv.dat Enter start range line #: 1 How many lines of raw data? 10240 How many lines to be processed? 10240 Enter polarization (1=HH,2=HV,3=VH,4=VV): 2 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3756 5932 Prediction cal_bin 1057 start/end pulse: 1 10176 64-Loop Count: 158 cmplx raw(1 2 3): (7.943283,0.0000000E+00) (55.60298,0.0000000E+00) (-31.77313,0.0000000E+00) attenuation (dB): 18.00000 no_loop: 64 Pulse#/no_loop: 1 1057 1.0101092E+09 plot_x: 159 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 90.01338 Power RMS: 6.2500000E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 31671.69 Amp. RMS: 78.79086 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 72.87394 Phase RMS: 1.213329 Incoherent PH 1st: 72.64327 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 90.36472 CalTone Power Coherently dB : 90.01338 Incoherent PW - Coherent PW : 0.3513336 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 33149.99 CalTone Amplitude Coherently : 31671.69 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 1478.305 ------------ *** ------------ running time (sec): 4.66 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) CVH Enter the paramater file name. /export/air36/airops/1400/ts1400_c.par Enter the raw data file name. /export/air32/airops/1400/c_vh Enter the motion compensation file name. /export/air36/airops/1400/ts1400_c.mocomp Enter a file name for the range spectrum: /export/air36/airops/1400/db_c_vh.dat Enter a file name for the sampled caltone power: /export/air36/airops/1400/1st_c_vh.dat Enter histogram of the caltone power file name: /export/air36/airops/1400/pw_hist_c_vh.dat Enter histogram of the caltone phase file name: /export/air36/airops/1400/ph_hist_c_vh.dat Enter start range line #: 1 How many lines of raw data? 10240 How many lines to be processed? 10240 Enter polarization (1=HH,2=HV,3=VH,4=VV): 3 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3756 5932 Prediction cal_bin 1057 start/end pulse: 1 10176 64-Loop Count: 158 cmplx raw(1 2 3): (47.65970,0.0000000E+00) (15.88657,0.0000000E+00) (31.77313,0.0000000E+00) attenuation (dB): 18.00000 no_loop: 64 Pulse#/no_loop: 1 1057 7.1081402E+08 plot_x: 159 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 88.53973 Power RMS: 2.2097087E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 26729.30 Amp. RMS: 64.49806 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -50.81012 Phase RMS: 1.118580 Incoherent PH 1st: -51.39930 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 88.88264 CalTone Power Coherently dB : 88.53973 Incoherent PW - Coherent PW : 0.3429108 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 28010.11 CalTone Amplitude Coherently : 26729.30 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 1280.805 ------------ *** ------------ running time (sec): 5.60 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) CVV Enter the paramater file name. /export/air36/airops/1400/ts1400_c.par Enter the raw data file name. /export/air32/airops/1400/c_vv Enter the motion compensation file name. /export/air36/airops/1400/ts1400_c.mocomp Enter a file name for the range spectrum: /export/air36/airops/1400/db_c_vv.dat Enter a file name for the sampled caltone power: /export/air36/airops/1400/1st_c_vv.dat Enter histogram of the caltone power file name: /export/air36/airops/1400/pw_hist_c_vv.dat Enter histogram of the caltone phase file name: /export/air36/airops/1400/ph_hist_c_vv.dat Enter start range line #: 1 How many lines of raw data? 10240 How many lines to be processed? 10240 Enter polarization (1=HH,2=HV,3=VH,4=VV): 4 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3756 5932 Prediction cal_bin 1057 start/end pulse: 1 10176 64-Loop Count: 158 cmplx raw(1 2 3): (-15.88657,0.0000000E+00) (39.71642,0.0000000E+00) (-127.0925,0.0000000E+00) attenuation (dB): 18.00000 no_loop: 64 Pulse#/no_loop: 1 1057 1.0015476E+09 plot_x: 159 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 89.99551 Power RMS: 6.6291258E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 31606.57 Amp. RMS: 74.61903 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 72.93243 Phase RMS: 1.122828 Incoherent PH 1st: 72.33847 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 90.36578 CalTone Power Coherently dB : 89.99551 Incoherent PW - Coherent PW : 0.3702774 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 33155.34 CalTone Amplitude Coherently : 31606.57 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 1548.773 ------------ *** ------------ running time (sec): 5.74 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 0 *************************************************** * * * AIRSAR INTEGRATED PROCESSOR * * * * Global Line Generator * * * * This program generates the global line to use * * in the single-look processors to resample the * * data. * * * *************************************************** Please enter the name of the sensor file. 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 Enter the name of the parameter file. Please enter the name of the mocomp file. Reading motion compensation data Global reference line calculation results: y fit: constant and linear terms: -54.80314 7.7820837E-04 z fit: constant and linear terms: 3.8996555E-02 4.2456548E-05 y and z standard deviations (meters) 5.4481253E-02 9.5075324E-02 Enter the name of the global line file. Enter the name of the motion compensation file. Enter the number of lines in the mocomp file & first one. Enter the patch size and the max reference fnc length. Enter the maximum Doppler error. Enter the doppler file name. Enter the wavelength and nominal azimuth pixel spacing Initial guess at number of patches = 5.063492 Step size = 1512 PATCH NUMER 1 First line = 1 Averages = 0.2239258 0.2256597 0.2099671 0.1956997 Differences = 1.0112718E-02 1.1846617E-02 -3.8460046E-03 -1.8113345E-02 PATCH NUMER 2 First line = 1513 Averages = 0.2217019 0.1986728 0.2020878 0.1973476 Differences = 1.6749322E-02 -6.2797517E-03 -2.8647333E-03 -7.6049715E-03 PATCH NUMER 3 First line = 3025 Averages = 0.1954127 0.2039699 0.1968964 0.2075227 Differences = -5.5377185E-03 3.0194968E-03 -4.0540695E-03 6.5722466E-03 PATCH NUMER 4 First line = 4537 Averages = 0.1980305 0.2059315 0.1942951 0.1904465 Differences = 8.5462630E-04 8.7556988E-03 -2.8807521E-03 -6.7293495E-03 PATCH NUMER 5 First line = 6049 Averages = 0.2083597 0.1830163 0.2043694 0.1927076 Differences = 1.1246428E-02 -1.4097020E-02 7.2560459E-03 -4.4056624E-03 PATCH NUMER 6 First line = 7561 last black mod_64: 41 10240 7561 4096 Averages = 0.1891408 0.2036560 0.1985678 0.1927076 Differences = -6.8772882E-03 7.6379329E-03 2.5496483E-03 -3.3104718E-03 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.35 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 0 AZ patch size: 4096 What is the desired az fract (def=1.0)? fract #: 1.000000 Please enter the name of the sensor file. /export/air32/airops/1400/sensor_setup.hh96c_pr Please enter the name of the parameter file /export/air36/airops/1400/ts1400_c.par hddt: 96068 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 10240 lines Keeping 2208 data points per patch Near range (m) = 9040.540 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 1.200000 Radar wavelength (m) = 5.6699999E-02 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = 1.560000 Range weighting coefficient = 0.1000000 Map height (m) = 78.60000 Transmit leverarm x,y,z = 2.460000 0.1767171 -0.6599750 Receive leverarm x,y,z = 2.460000 0.1767171 -0.6599750 Name of raw data file? /export/air32/airops/1400/c_hh Name of the mocomp data file? /export/air36/airops/1400/ts1400_c.mocomph Output file name w/o ext? /export/air36/airops/1400/ts1400_c Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. hh Raw DIR Path:/export/air32/airops/1400/ output filename: /export/air32/airops/1400/ts1400_c.hh_j *** ipol itop: 1 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /export/air32/airops/1400/deskew.ch WAYNE init fft, calc slant range, load unpack, interpo 1.3838001E-02 reading motion compensation data WAYNE read motion compen 0.2341480 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 AnalogChirp>96032Br,fs,T,fc 96068 40.00000 22.50000 90.00000 10.00000 deltaphase -ashift: -2.3930098E-03 -1.560000 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.2235110 start range comp, time = 0.503 WAYNE PREV 0.4879930 NUMBER OF PROCESSOR USED = 8 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 7 ..... WAYNE IS IN Processing 7 to 6 by # 6 ==w out 7 -942 PROCESSING KID# 8 ..... WAYNE IS IN Processing 7 to 6 by # 7 ==w out 7 -942 PROCESSING KID# 2 ..... WAYNE IS IN Processing 2 to 2 by # 1 Processing block number 2 WAYNE PATCHES: 1513 5608 patch# 2 reference line: 3560 0.651 seconds. before reading done reading WAYNE load raw data , time = 25.09706401824951 ATTN ifrq ipol ln 8 1 5608 18.00000 IPOL, ITOP nblock 1 0 2 ****shift in azimuth (fractional pixel)= -0.4999137 shift in azimuth *fractional pixel= -0.4999137 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.4980983734130859E-03 WAYNE Motion comp. added to patch, time = 9.064118027687073 WAYNE Doppler estimation done, time = 9.8943710327148438E-06 WAYNE write deskew done, time = 3.0620098114013672E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 153.4040279388428 Writing 2208 lines of data to file WAYNE write output data 1.209141016006470 ==w out 2 0 945 0 WAYNE PROCESS 188.7854590415955 ==w out 3 2211 PROCESSING KID# 3 ..... WAYNE IS IN Processing 3 to 3 by # 2 Processing block number 3 WAYNE PATCHES: 3025 7120 patch# 3 reference line: 5072 0.657 seconds. before reading done reading WAYNE load raw data , time = 25.02220392227173 ATTN ifrq ipol ln 8 1 7120 18.00000 IPOL, ITOP nblock 1 0 3 ****shift in azimuth (fractional pixel)= -0.4999097 shift in azimuth *fractional pixel= -0.4999097 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.4769983291625977E-03 WAYNE Motion comp. added to patch, time = 9.254853963851929 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 4.0340423583984375E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 153.7509239912033 Writing 2208 lines of data to file WAYNE write output data 1.233448028564453 ==w out 3 0 945 0 WAYNE PROCESS 189.2735240459442 ==w out 4 2211 PROCESSING KID# 4 ..... WAYNE IS IN Processing 4 to 4 by # 3 Processing block number 4 WAYNE PATCHES: 4537 8632 patch# 4 reference line: 6584 0.663 seconds. before reading done reading WAYNE load raw data , time = 25.68670892715454 ATTN ifrq ipol ln 8 1 8632 18.00000 IPOL, ITOP nblock 1 0 4 ****shift in azimuth (fractional pixel)= -0.4999149 shift in azimuth *fractional pixel= -0.4999149 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.7479610443115234E-03 WAYNE Motion comp. added to patch, time = 9.087218046188354 WAYNE Doppler estimation done, time = 1.5020370483398438E-05 WAYNE write deskew done, time = 3.2069683074951172E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 153.4735579490662 Writing 2208 lines of data to file WAYNE write output data 1.229421973228455 ==w out 4 0 945 0 WAYNE PROCESS 189.4884599447250 ==w out 5 2211 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 1 by # 0 Processing block number 1 TESTING WHY -6.0844002E-03 1.8281801E-02 1 1 WAYNE PATCHES: 1 4096 patch# 1 reference line: 2048 0.638 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 24.86494994163513 ATTN ifrq ipol ln 8 1 4096 18.00000 IPOL, ITOP nblock 1 0 1 ****shift in azimuth (fractional pixel)= -0.4999093 shift in azimuth *fractional pixel= -0.4999093 1.000000 WAYNE Motion comp. coeff. calculated, time = 0.1105349063873291 TESTING 0.0000000E+00 -51.43824 -0.4228247 WAYNE Motion comp. added to patch, time = 9.137506961822510 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 3.0739307403564453E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 -51.43824 -0.4228247 HEY,dt,fract,ye,pe -0.4999093 1.000000 -6.0844002E-03 1.8281801E-02 WAYNE Azimuth compression done, time = 154.2563809156418 Writing 2208 lines of data to file WAYNE write output data 1.339203000068665 ==w out 1 0 945 0 WAYNE PROCESS 189.7130690813065 ==w out 2 2211 PROCESSING KID# 6 ..... WAYNE IS IN Processing 6 to 6 by # 5 Processing block number 6 WAYNE PATCHES: 6144 10239 patch# 6 reference line: 8191 0.685 seconds. before reading done reading WAYNE load raw data , time = 25.20189702510834 ATTN ifrq ipol ln 8 1 10239 18.00000 IPOL, ITOP nblock 1 0 6 ****shift in azimuth (fractional pixel)= -0.4999151 shift in azimuth *fractional pixel= -0.4999151 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.5269470214843750E-03 WAYNE Motion comp. added to patch, time = 9.296988010406494 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 3.3680200576782227E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 154.2627309560776 Writing 2208 lines of data to file WAYNE write output data 1.105255007743835 ==w out 6 0 945 0 WAYNE PROCESS 189.8783730268478 ==w out 7 2211 PROCESSING KID# 5 ..... WAYNE IS IN Processing 5 to 5 by # 4 Processing block number 5 WAYNE PATCHES: 6049 10144 patch# 5 reference line: 8096 0.674 seconds. before reading done reading WAYNE load raw data , time = 25.18008697032928 ATTN ifrq ipol ln 8 1 10144 18.00000 IPOL, ITOP nblock 1 0 5 ****shift in azimuth (fractional pixel)= -0.4999150 shift in azimuth *fractional pixel= -0.4999150 1.000000 WAYNE Motion comp. coeff. calculated, time = 7.0360898971557617E-03 WAYNE Motion comp. added to patch, time = 8.952174067497253 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 3.1239986419677734E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 155.3287409543991 Writing 2208 lines of data to file WAYNE write output data 0.9640671014785767 ==w out 5 0 945 0 WAYNE PROCESS 190.4367290735245 ==w out 6 2211 1 7700668 0 2 7701486 0 3 7699361 0 4 7700285 0 5 7702486 0 6 7701481 0 7 7672954 0 8 7702076 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 13248kids= 8 Writing variable header... gather image from processor # 0 1 gather image from processor # 1 1 gather image from processor # 2 1 gather image from processor # 3 1 gather image from processor # 4 1 gather image from processor # 5 1 gather image from processor # 6 0 gather image from processor # 7 0 WAYNE gather images takes: 16.09684801101685 WAYNE LOOP TIME: 214.9097650051117 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air32/airops/1400/ts1400_c.hh_j /export/air36/airops/1400/ts1400_c.mocomph /export/air36/airops/1400/ts1400_c.dop /export/air36/airops/1400/ts1400_c.glb 2560 13248 update intf hdr ha: 8367.900 UPDATE: 2560 13248 3.331000 0.5144000 mocompfile /export/air36/airops/1400/ts1400_c.mocomph dopfile /export/air36/airops/1400/ts1400_c.dop globalfile /export/air36/airops/1400/ts1400_c.glb /export/air36/airops/1400/ts1400_c.glb 38 deskew line ra ha trc: 132.2092 257 9040.492 8367.900 54.57177 after deskew line ra ha trc: 132.2092 257 9040.492 8367.900 54.57177 lat1 lon1: 257 4.813053 114.7796 13248 last ra n_ns ns: 9040.492 0 1 13504 13248 lati loni: 13504 4.849395 114.8349 13504 1 center ra n_ns ns: 13300.84 1279 1279 6880 13248 lati loni: 6880 4.862732 114.7850 6880 2560 Updated paramater header in /export/air32/airops/1400/ts1400_c.hh_j WAYNE FINAL PROCESS 216.2487289905548 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 8 2208 1 2208 1 2208 1 2208 1 2208 1 2208 1 0 0 0 0 Name of data file to be deskewed? /export/air32/airops/1400/ts1400_c.hh_j Name of the doppler parameter file? /export/air36/airops/1400/ts1400_c.dop Name of the deskew file? /export/air32/airops/1400/deskew.ch Line up to another frequency [y/n]? n Name of the output file? /export/air36/airops/1400/ts1400_c.BB Name of the line output file? /export/air36/airops/1400/c_lines.dat NONE-SYMMETRIC PARALLEL JOBS Deskewing 6 patches Processing block number 1 patch iptc,sj,dgj,dgi,id: 1 1 114 114 0 half line dmj dgc: 0 945 256 114 Actual deskew ireclen: 20480 ** 1 1104 0 1104 Writing data negflag .eq. 0 sj>s1: 1 1 Zeroing lines in arrays Total # of output lines = 1 0 1 1105 0 1104 patch iptc,sj,dgj,dgi,id: 1 1105 114 114 1104 half line dmj dgc: 1 945 256 114 Actual deskew ireclen: 20480 ** 1 1104 1 2208 Writing data negflag .eq. 0 sj>s1: 1105 1 Zeroing lines in arrays Total # of output lines = 1 1104 Processing block number 2 1105 1493 -20 408 patch iptc,sj,dgj,dgi,id: 2 1493 94 114 408 half line dmj dgc: 0 2457 249 114 Actual deskew ireclen: 20480 ** 2 1104 0 3312 Writing data negflag .eq. 0 sj>s1: 1493 1105 Zeroing lines in arrays Total # of output lines = 2 1492 1493 2597 0 1104 patch iptc,sj,dgj,dgi,id: 2 2597 94 94 1104 half line dmj dgc: 1 2457 249 114 Actual deskew ireclen: 20480 ** 2 1104 1 4416 Writing data negflag .eq. 0 sj>s1: 2597 1493 Zeroing lines in arrays Total # of output lines = 2 2596 Processing block number 3 2597 2997 -8 408 patch iptc,sj,dgj,dgi,id: 3 2997 86 94 408 half line dmj dgc: 0 3969 245 114 Actual deskew ireclen: 20480 ** 3 1104 0 5520 Writing data negflag .eq. 0 sj>s1: 2997 2597 Zeroing lines in arrays Total # of output lines = 3 2996 2997 4101 0 1104 patch iptc,sj,dgj,dgi,id: 3 4101 86 86 1104 half line dmj dgc: 1 3969 245 114 Actual deskew ireclen: 20480 ** 3 1104 1 6624 Writing data negflag .eq. 0 sj>s1: 4101 2997 Zeroing lines in arrays Total # of output lines = 3 4100 Processing block number 4 4101 4502 -7 408 patch iptc,sj,dgj,dgi,id: 4 4502 79 86 408 half line dmj dgc: 0 5481 241 114 Actual deskew ireclen: 20480 ** 4 1104 0 7728 Writing data negflag .eq. 0 sj>s1: 4502 4101 Zeroing lines in arrays Total # of output lines = 4 4501 4502 5606 0 1104 patch iptc,sj,dgj,dgi,id: 4 5606 79 79 1104 half line dmj dgc: 1 5481 241 114 Actual deskew ireclen: 20480 ** 4 1104 1 8832 Writing data negflag .eq. 0 sj>s1: 5606 4502 Zeroing lines in arrays Total # of output lines = 4 5605 Processing block number 5 5606 6023 9 408 patch iptc,sj,dgj,dgi,id: 5 6023 88 79 408 half line dmj dgc: 0 6993 240 114 Actual deskew ireclen: 20480 ** 5 1104 0 9936 Writing data negflag .eq. 0 sj>s1: 6023 5606 Zeroing lines in arrays Total # of output lines = 5 6022 6023 7127 0 1104 patch iptc,sj,dgj,dgi,id: 5 7127 88 88 1104 half line dmj dgc: 1 6993 240 114 Actual deskew ireclen: 20480 ** 5 1104 1 11040 Writing data negflag .eq. 0 sj>s1: 7127 6023 Zeroing lines in arrays Total # of output lines = 5 7126 Processing block number 6 7127 6120 2 -1009 patch iptc,sj,dgj,dgi,id: 6 6120 90 88 -1009 half line dmj dgc: 0 7088 238 114 Actual deskew ireclen: 20480 ** 6 1104 0 12144 Zeroing lines in arrays Total # of output lines = 6 7126 7127 7224 0 1104 patch iptc,sj,dgj,dgi,id: 6 7224 90 90 1104 half line dmj dgc: 1 7088 238 114 Actual deskew ireclen: 20480 ** 6 1104 1 13248 Writing data negflag .eq. 0 sj>s1: 7224 7127 Zeroing lines in arrays Total # of output lines = 6 7223 ia dmi dgi: 7224 238 90 Writing the last 1252 lines last half sj>s1 8476 7224 7223 Total # of output lines = 8475 Writing new header.. Closing files .. ileni= 39 ilend= 35 /export/air32/airops/1400/ts1400_c.hh_j.0 /export/air32/airops/1400/deskew.ch.0 /export/air32/airops/1400/ts1400_c.hh_j.1 /export/air32/airops/1400/deskew.ch.1 /export/air32/airops/1400/ts1400_c.hh_j.2 /export/air32/airops/1400/deskew.ch.2 /export/air32/airops/1400/ts1400_c.hh_j.3 /export/air32/airops/1400/deskew.ch.3 /export/air32/airops/1400/ts1400_c.hh_j.4 /export/air32/airops/1400/deskew.ch.4 /export/air32/airops/1400/ts1400_c.hh_j.5 /export/air32/airops/1400/deskew.ch.5 /export/air32/airops/1400/ts1400_c.hh_j.6 /export/air32/airops/1400/deskew.ch.6 /export/air32/airops/1400/ts1400_c.hh_j.7 /export/air32/airops/1400/deskew.ch.7 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.35 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 0 AZ patch size: 4096 What is the desired az fract (def=1.0)? fract #: 0.0000000E+00 Please enter the name of the sensor file. /export/air32/airops/1400/sensor_setup.vv96c_pr Please enter the name of the parameter file /export/air36/airops/1400/ts1400_c.par hddt: 96068 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 10240 lines Keeping 2208 data points per patch Near range (m) = 9040.540 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 1.200000 Radar wavelength (m) = 5.6699999E-02 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = 0.0000000E+00 Range weighting coefficient = 0.1000000 Map height (m) = 78.60000 Transmit leverarm x,y,z = 2.490000 1.213828 1.599975 Receive leverarm x,y,z = 2.490000 1.213828 1.599975 Name of raw data file? /export/air32/airops/1400/c_vv Name of the mocomp data file? /export/air36/airops/1400/ts1400_c.mocompv Output file name w/o ext? /export/air36/airops/1400/ts1400_c Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. vv Raw DIR Path:/export/air32/airops/1400/ output filename: /export/air32/airops/1400/ts1400_c.vv_j *** ipol itop: 4 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /export/air32/airops/1400/deskew.cv WAYNE init fft, calc slant range, load unpack, interpo 1.3677992E-02 reading motion compensation data WAYNE read motion compen 0.2360890 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 AnalogChirp>96032Br,fs,T,fc 96068 40.00000 22.50000 90.00000 10.00000 deltaphase -ashift: 0.0000000E+00 0.0000000E+00 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.2225970 start range comp, time = 0.547 WAYNE PREV 0.4881860 NUMBER OF PROCESSOR USED = 8 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 8 ..... WAYNE IS IN Processing 7 to 6 by # 7 ==w out 7 -942 PROCESSING KID# 7 ..... WAYNE IS IN Processing 7 to 6 by # 6 ==w out 7 -942 PROCESSING KID# 3 ..... WAYNE IS IN Processing 3 to 3 by # 2 Processing block number 3 WAYNE PATCHES: 3025 7120 patch# 3 reference line: 5072 0.703 seconds. before reading done reading WAYNE load raw data , time = 28.56221497058868 ATTN ifrq ipol ln 8 4 7120 18.00000 IPOL, ITOP nblock 4 0 3 WAYNE Motion comp. coeff. calculated, time = 6.3480138778686523E-03 WAYNE Motion comp. added to patch, time = 9.470317959785461 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.8600692749023438E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 217.0356121063232 Writing 2208 lines of data to file WAYNE write output data 1.784704923629761 ==w out 3 0 945 0 WAYNE PROCESS 256.8636280298233 ==w out 4 2211 PROCESSING KID# 4 ..... WAYNE IS IN Processing 4 to 4 by # 3 Processing block number 4 WAYNE PATCHES: 4537 8632 patch# 4 reference line: 6584 0.713 seconds. before reading done reading WAYNE load raw data , time = 29.00050795078278 ATTN ifrq ipol ln 8 4 8632 18.00000 IPOL, ITOP nblock 4 0 4 WAYNE Motion comp. coeff. calculated, time = 6.3450336456298828E-03 WAYNE Motion comp. added to patch, time = 9.542919039726257 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.9079914093017578E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 217.4012620449066 Writing 2208 lines of data to file WAYNE write output data 1.509858012199402 ==w out 4 0 945 0 WAYNE PROCESS 257.4653970003128 ==w out 5 2211 PROCESSING KID# 5 ..... WAYNE IS IN Processing 5 to 5 by # 4 Processing block number 5 WAYNE PATCHES: 6049 10144 patch# 5 reference line: 8096 0.726 seconds. before reading done reading WAYNE load raw data , time = 30.19685506820679 ATTN ifrq ipol ln 8 4 10144 18.00000 IPOL, ITOP nblock 4 0 5 WAYNE Motion comp. coeff. calculated, time = 6.5340995788574219E-03 WAYNE Motion comp. added to patch, time = 9.586923003196716 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.9799938201904297E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 217.7326129674911 Writing 2208 lines of data to file WAYNE write output data 1.458989977836609 ==w out 5 0 945 0 WAYNE PROCESS 258.9863929748535 ==w out 6 2211 PROCESSING KID# 2 ..... WAYNE IS IN Processing 2 to 2 by # 1 Processing block number 2 WAYNE PATCHES: 1513 5608 patch# 2 reference line: 3560 0.691 seconds. before reading done reading WAYNE load raw data , time = 53.33106994628906 ATTN ifrq ipol ln 8 4 5608 18.00000 IPOL, ITOP nblock 4 0 2 WAYNE Motion comp. coeff. calculated, time = 7.2720050811767578E-03 WAYNE Motion comp. added to patch, time = 11.62716102600098 WAYNE Doppler estimation done, time = 1.6927719116210938E-05 WAYNE write deskew done, time = 3.0519962310791016E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 217.6504949331284 Writing 2208 lines of data to file WAYNE write output data 1.400054931640625 ==w out 2 0 945 0 WAYNE PROCESS 284.0208508968353 ==w out 3 2211 PROCESSING KID# 6 ..... WAYNE IS IN Processing 6 to 6 by # 5 Processing block number 6 WAYNE PATCHES: 6144 10239 patch# 6 reference line: 8191 0.769 seconds. before reading done reading WAYNE load raw data , time = 66.90501403808594 ATTN ifrq ipol ln 8 4 10239 18.00000 IPOL, ITOP nblock 4 0 6 WAYNE Motion comp. coeff. calculated, time = 3.1225919723510742E-02 WAYNE Motion comp. added to patch, time = 23.91788899898529 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 3.1980276107788086E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 211.8030550479889 Writing 2208 lines of data to file WAYNE write output data 1.035639882087708 ==w out 6 0 945 0 WAYNE PROCESS 303.6977978944778 ==w out 7 2211 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 1 by # 0 Processing block number 1 TESTING WHY -6.0844002E-03 1.8281801E-02 1 1 WAYNE PATCHES: 1 4096 patch# 1 reference line: 2048 0.681 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 68.71470403671265 ATTN ifrq ipol ln 8 4 4096 18.00000 IPOL, ITOP nblock 4 0 1 WAYNE Motion comp. coeff. calculated, time = 1.8581986427307129E-02 TESTING 0.0000000E+00 -50.41182 1.842947 WAYNE Motion comp. added to patch, time = 22.56146097183228 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 3.4159421920776367E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 -50.41182 1.842947 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -6.0844002E-03 1.8281801E-02 WAYNE Azimuth compression done, time = 212.4361410140991 Writing 2208 lines of data to file WAYNE write output data 1.041216969490051 ==w out 1 0 945 0 WAYNE PROCESS 304.7771449089050 ==w out 2 2211 1 7705939 0 2 7705418 0 3 7705131 0 4 7705585 0 5 7703864 0 6 7705260 0 7 7704708 0 8 7705392 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 13248kids= 8 Writing variable header... gather image from processor # 0 1 gather image from processor # 1 1 gather image from processor # 2 1 gather image from processor # 3 1 gather image from processor # 4 1 gather image from processor # 5 1 gather image from processor # 6 0 gather image from processor # 7 0 WAYNE gather images takes: 7.7826976776123047E-02 WAYNE LOOP TIME: 313.1915829181671 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air32/airops/1400/ts1400_c.vv_j /export/air36/airops/1400/ts1400_c.mocompv /export/air36/airops/1400/ts1400_c.dop /export/air36/airops/1400/ts1400_c.glb 2560 13248 update intf hdr ha: 8367.900 UPDATE: 2560 13248 3.331000 0.5144000 mocompfile /export/air36/airops/1400/ts1400_c.mocompv dopfile /export/air36/airops/1400/ts1400_c.dop globalfile /export/air36/airops/1400/ts1400_c.glb /export/air36/airops/1400/ts1400_c.glb 38 deskew line ra ha trc: 132.2092 257 9040.492 8367.900 54.57177 after deskew line ra ha trc: 132.2092 257 9040.492 8367.900 54.57177 lat1 lon1: 257 4.813053 114.7796 13248 last ra n_ns ns: 9040.492 0 1 13504 13248 lati loni: 13504 4.849395 114.8349 13504 1 center ra n_ns ns: 13300.84 1279 1279 6880 13248 lati loni: 6880 4.862732 114.7850 6880 2560 Updated paramater header in /export/air32/airops/1400/ts1400_c.vv_j WAYNE FINAL PROCESS 313.8050719499588 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 8 2208 1 2208 1 2208 1 2208 1 2208 1 2208 1 0 0 0 0 Name of data file to be deskewed? /export/air32/airops/1400/ts1400_c.vv_j Name of the doppler parameter file? /export/air36/airops/1400/ts1400_c.dop Name of the deskew file? /export/air32/airops/1400/deskew.cv Line up to another frequency [y/n]? n Name of the output file? /export/air36/airops/1400/ts1400_c.TT Name of the line output file? /export/air36/airops/1400/c_lines.dat NONE-SYMMETRIC PARALLEL JOBS Deskewing 6 patches Processing block number 1 patch iptc,sj,dgj,dgi,id: 1 1 114 114 0 half line dmj dgc: 0 945 256 114 Actual deskew ireclen: 20480 ** 1 1104 0 1104 Writing data negflag .eq. 0 sj>s1: 1 1 Zeroing lines in arrays Total # of output lines = 1 0 1 1105 0 1104 patch iptc,sj,dgj,dgi,id: 1 1105 114 114 1104 half line dmj dgc: 1 945 256 114 Actual deskew ireclen: 20480 ** 1 1104 1 2208 Writing data negflag .eq. 0 sj>s1: 1105 1 Zeroing lines in arrays Total # of output lines = 1 1104 Processing block number 2 1105 1493 -20 408 patch iptc,sj,dgj,dgi,id: 2 1493 94 114 408 half line dmj dgc: 0 2457 249 114 Actual deskew ireclen: 20480 ** 2 1104 0 3312 Writing data negflag .eq. 0 sj>s1: 1493 1105 Zeroing lines in arrays Total # of output lines = 2 1492 1493 2597 0 1104 patch iptc,sj,dgj,dgi,id: 2 2597 94 94 1104 half line dmj dgc: 1 2457 249 114 Actual deskew ireclen: 20480 ** 2 1104 1 4416 Writing data negflag .eq. 0 sj>s1: 2597 1493 Zeroing lines in arrays Total # of output lines = 2 2596 Processing block number 3 2597 2997 -8 408 patch iptc,sj,dgj,dgi,id: 3 2997 86 94 408 half line dmj dgc: 0 3969 245 114 Actual deskew ireclen: 20480 ** 3 1104 0 5520 Writing data negflag .eq. 0 sj>s1: 2997 2597 Zeroing lines in arrays Total # of output lines = 3 2996 2997 4101 0 1104 patch iptc,sj,dgj,dgi,id: 3 4101 86 86 1104 half line dmj dgc: 1 3969 245 114 Actual deskew ireclen: 20480 ** 3 1104 1 6624 Writing data negflag .eq. 0 sj>s1: 4101 2997 Zeroing lines in arrays Total # of output lines = 3 4100 Processing block number 4 4101 4502 -7 408 patch iptc,sj,dgj,dgi,id: 4 4502 79 86 408 half line dmj dgc: 0 5481 241 114 Actual deskew ireclen: 20480 ** 4 1104 0 7728 Writing data negflag .eq. 0 sj>s1: 4502 4101 Zeroing lines in arrays Total # of output lines = 4 4501 4502 5606 0 1104 patch iptc,sj,dgj,dgi,id: 4 5606 79 79 1104 half line dmj dgc: 1 5481 241 114 Actual deskew ireclen: 20480 ** 4 1104 1 8832 Writing data negflag .eq. 0 sj>s1: 5606 4502 Zeroing lines in arrays Total # of output lines = 4 5605 Processing block number 5 5606 6023 9 408 patch iptc,sj,dgj,dgi,id: 5 6023 88 79 408 half line dmj dgc: 0 6993 240 114 Actual deskew ireclen: 20480 ** 5 1104 0 9936 Writing data negflag .eq. 0 sj>s1: 6023 5606 Zeroing lines in arrays Total # of output lines = 5 6022 6023 7127 0 1104 patch iptc,sj,dgj,dgi,id: 5 7127 88 88 1104 half line dmj dgc: 1 6993 240 114 Actual deskew ireclen: 20480 ** 5 1104 1 11040 Writing data negflag .eq. 0 sj>s1: 7127 6023 Zeroing lines in arrays Total # of output lines = 5 7126 Processing block number 6 7127 6120 2 -1009 patch iptc,sj,dgj,dgi,id: 6 6120 90 88 -1009 half line dmj dgc: 0 7088 238 114 Actual deskew ireclen: 20480 ** 6 1104 0 12144 Zeroing lines in arrays Total # of output lines = 6 7126 7127 7224 0 1104 patch iptc,sj,dgj,dgi,id: 6 7224 90 90 1104 half line dmj dgc: 1 7088 238 114 Actual deskew ireclen: 20480 ** 6 1104 1 13248 Writing data negflag .eq. 0 sj>s1: 7224 7127 Zeroing lines in arrays Total # of output lines = 6 7223 ia dmi dgi: 7224 238 90 Writing the last 1252 lines last half sj>s1 8476 7224 7223 Total # of output lines = 8475 Writing new header.. Closing files .. ileni= 39 ilend= 35 /export/air32/airops/1400/ts1400_c.vv_j.0 /export/air32/airops/1400/deskew.cv.0 /export/air32/airops/1400/ts1400_c.vv_j.1 /export/air32/airops/1400/deskew.cv.1 /export/air32/airops/1400/ts1400_c.vv_j.2 /export/air32/airops/1400/deskew.cv.2 /export/air32/airops/1400/ts1400_c.vv_j.3 /export/air32/airops/1400/deskew.cv.3 /export/air32/airops/1400/ts1400_c.vv_j.4 /export/air32/airops/1400/deskew.cv.4 /export/air32/airops/1400/ts1400_c.vv_j.5 /export/air32/airops/1400/deskew.cv.5 /export/air32/airops/1400/ts1400_c.vv_j.6 /export/air32/airops/1400/deskew.cv.6 /export/air32/airops/1400/ts1400_c.vv_j.7 /export/air32/airops/1400/deskew.cv.7 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.8812128 44.66837 146 -3.000 3046 -0.031 44.66837 0.000088 0.000153 -0.000001 r_peak,r_snr = 0.7479592 43.24078 246 -3.000 3046 0.000 43.24078 0.000226 0.000356 0.000000 r_peak,r_snr = 0.8206418 103.3299 346 -2.969 3046 0.000 103.32989 0.000116 0.000178 0.000001 r_peak,r_snr = 0.8290717 57.26125 446 -3.031 3046 0.000 57.26125 0.000117 0.000208 -0.000005 r_peak,r_snr = 0.8280732 37.47113 546 -3.000 3046 0.031 37.47113 0.000133 0.000223 0.000000 r_peak,r_snr = 0.8094195 31.45425 646 -3.063 3046 -0.063 31.45425 0.000156 0.000244 -0.000001 r_peak,r_snr = 0.7956890 52.41143 746 -3.063 3046 0.000 52.41143 0.000165 0.000252 -0.000006 r_peak,r_snr = 0.7836127 51.55028 846 -3.031 3046 0.063 51.55028 0.000172 0.000303 -0.000005 r_peak,r_snr = 0.8801965 70.67735 946 -3.031 3046 0.031 70.67735 0.000078 0.000126 0.000001 r_peak,r_snr = 0.8209320 55.86313 1046 -3.000 3046 0.031 55.86313 0.000127 0.000203 -0.000003 e vector 2 error r_peak,r_snr = 0.8822616 50.58262 1146 -3.000 3046 -0.031 50.58262 0.000081 0.000139 0.000000 r_peak,r_snr = 0.8932450 107.8422 1246 -3.000 3046 0.031 107.84220 0.000058 0.000104 0.000000 r_peak,r_snr = 0.8617477 63.02074 1346 -2.969 3046 0.063 63.02074 0.000089 0.000144 0.000000 r_peak,r_snr = 0.8865645 64.86581 1446 -3.000 3046 0.031 64.86581 0.000073 0.000123 -0.000001 r_peak,r_snr = 0.8640661 93.75478 1546 -3.000 3046 0.031 93.75478 0.000081 0.000130 0.000001 r_peak,r_snr = 0.8739853 237.3716 1646 -3.000 3046 0.063 237.37157 0.000065 0.000089 -0.000001 r_peak,r_snr = 0.8874488 13.73381 1746 -3.000 3046 0.031 13.73381 0.000086 0.000146 0.000002 r_peak,r_snr = 0.1296269 32.68570 1846 -2.906 3046 0.125 32.68570 0.008285 0.009264 -0.000029 r_peak,r_snr = 0.1909709 53.43064 1946 -2.969 3046 -0.125 53.43064 0.003381 0.006822 0.000071 r_peak,r_snr = 0.1552532 39.82270 2046 -2.875 3046 0.344 39.82270 0.007182 0.010508 0.001613 At line = 3400 Reading in data.... r_peak,r_snr = 0.8273010 113.3126 146 -3.000 3446 0.000 113.31262 0.000114 0.000152 0.000000 r_peak,r_snr = 0.7091846 55.45410 246 -3.000 3446 0.000 55.45410 0.000239 0.000365 0.000002 r_peak,r_snr = 0.8716021 100.7108 346 -3.000 3446 0.031 100.71085 0.000073 0.000109 -0.000002 r_peak,r_snr = 0.8169299 67.41097 446 -3.000 3446 0.031 67.41097 0.000130 0.000194 0.000002 r_peak,r_snr = 0.8148591 35.27587 546 -3.000 3446 0.031 35.27587 0.000157 0.000248 0.000003 r_peak,r_snr = 0.8043498 101.3013 646 -3.000 3446 0.000 101.30135 0.000120 0.000210 -0.000003 r_peak,r_snr = 0.8293053 25.07876 746 -3.000 3446 -0.031 25.07876 0.000147 0.000270 -0.000006 r_peak,r_snr = 0.8633425 31.70680 846 -3.031 3446 0.063 31.70680 0.000099 0.000161 0.000000 r_peak,r_snr = 0.8351159 53.01027 946 -2.969 3446 0.031 53.01027 0.000114 0.000198 -0.000006 r_peak,r_snr = 0.8564174 32.89853 1046 -3.000 3446 0.031 32.89853 0.000110 0.000187 0.000001 r_peak,r_snr = 0.8354784 34.60318 1146 -2.969 3446 0.063 34.60318 0.000130 0.000235 0.000000 r_peak,r_snr = 0.8455961 44.35758 1246 -3.000 3446 0.031 44.35758 0.000106 0.000173 -0.000004 r_peak,r_snr = 0.8917884 29.65671 1346 -3.000 3446 0.031 29.65671 0.000080 0.000139 0.000001 r_peak,r_snr = 0.8775324 62.15670 1446 -3.000 3446 0.063 62.15670 0.000077 0.000109 0.000001 r_peak,r_snr = 0.8877285 62.40023 1546 -3.000 3446 0.094 62.40023 0.000077 0.000122 0.000002 r_peak,r_snr = 0.8901865 54.74842 1646 -3.000 3446 0.125 54.74842 0.000071 0.000104 -0.000001 r_peak,r_snr = 0.9129698 8.240690 1746 -3.000 3446 0.063 8.24069 0.000069 0.000099 -0.000001 r_peak,r_snr = 0.2055114 41.94020 1846 -2.906 3446 -0.156 41.94020 0.004047 0.007196 -0.000054 r_peak,r_snr = 0.1284254 29.84221 1946 -3.000 3446 -0.156 29.84221 0.006785 0.015337 0.001428 r_peak,r_snr = 0.1064425 20.08060 2046 -2.969 3446 0.469 20.08060 0.012648 0.022453 -0.003501 At line = 3800 Reading in data.... r_peak,r_snr = 0.7759112 73.14660 146 -3.031 3846 0.000 73.14660 0.000155 0.000247 -0.000002 r_peak,r_snr = 0.6708971 32.59724 246 -3.031 3846 0.063 32.59724 0.000342 0.000581 -0.000014 r_peak,r_snr = 0.8599089 64.63348 346 -3.000 3846 -0.031 64.63348 0.000090 0.000152 -0.000003 r_peak,r_snr = 0.8352934 21.85428 446 -3.031 3846 0.031 21.85428 0.000150 0.000214 -0.000005 r_peak,r_snr = 0.7943106 32.79479 546 -2.969 3846 0.031 32.79479 0.000174 0.000271 0.000001 r_peak,r_snr = 0.8138313 109.1407 646 -3.000 3846 0.031 109.14072 0.000126 0.000193 0.000002 r_peak,r_snr = 0.8677408 34.59386 746 -3.000 3846 0.031 34.59386 0.000103 0.000167 -0.000005 r_peak,r_snr = 0.8612302 54.59390 846 -3.000 3846 0.031 54.59390 0.000097 0.000151 0.000001 r_peak,r_snr = 0.8643978 61.63287 946 -3.031 3846 0.031 61.63287 0.000089 0.000151 0.000000 r_peak,r_snr = 0.8680797 32.40350 1046 -2.969 3846 0.063 32.40350 0.000102 0.000169 -0.000006 r_peak,r_snr = 0.8815281 67.81753 1146 -3.000 3846 0.031 67.81753 0.000080 0.000134 0.000001 r_peak,r_snr = 0.8670008 103.6010 1246 -3.000 3846 0.031 103.60101 0.000071 0.000117 -0.000001 r_peak,r_snr = 0.8856141 122.4803 1346 -3.000 3846 0.063 122.48026 0.000066 0.000104 -0.000002 r_peak,r_snr = 0.8782505 68.78386 1446 -3.031 3846 0.031 68.78386 0.000076 0.000106 -0.000004 r_peak,r_snr = 0.8836721 94.55552 1546 -2.969 3846 0.063 94.55552 0.000067 0.000100 -0.000003 r_peak,r_snr = 0.8866248 86.60228 1646 -2.969 3846 0.063 86.60228 0.000069 0.000096 0.000001 r_peak,r_snr = 0.9124987 7.476821 1746 -3.000 3846 0.063 7.47682 0.000090 0.000130 -0.000002 r_peak,r_snr = 0.1863593 56.49480 1846 -2.906 3846 -0.031 56.49480 0.003824 0.004685 0.000430 r_peak,r_snr = 0.1001549 17.93886 1946 -3.000 3846 0.156 17.93886 0.016136 0.011377 -0.000826 r_peak,r_snr = 0.1068767 19.30128 2046 -2.656 3846 0.156 19.30128 0.012247 0.026318 -0.001729 At line = 4200 Reading in data.... r_peak,r_snr = 0.7236387 34.85493 146 -3.000 4246 -0.063 34.85493 0.000268 0.000450 0.000003 r_peak,r_snr = 0.7589934 70.31678 246 -3.000 4246 -0.063 70.31678 0.000186 0.000305 -0.000005 r_peak,r_snr = 0.8584051 27.98973 346 -3.000 4246 0.031 27.98973 0.000108 0.000181 -0.000001 r_peak,r_snr = 0.8591638 39.87259 446 -3.031 4246 0.000 39.87259 0.000114 0.000155 -0.000004 r_peak,r_snr = 0.8718369 81.87975 546 -3.031 4246 0.000 81.87975 0.000079 0.000113 -0.000002 r_peak,r_snr = 0.8421519 48.59672 646 -3.031 4246 -0.031 48.59672 0.000106 0.000185 0.000001 r_peak,r_snr = 0.8484082 57.67910 746 -3.031 4246 -0.063 57.67910 0.000105 0.000173 0.000001 r_peak,r_snr = 0.8389457 56.03620 846 -3.000 4246 0.000 56.03620 0.000114 0.000188 -0.000004 r_peak,r_snr = 0.8121985 20.97973 946 -2.969 4246 0.063 20.97973 0.000177 0.000279 0.000004 r_peak,r_snr = 0.8219844 25.86673 1046 -3.000 4246 0.031 25.86673 0.000159 0.000261 -0.000007 r_peak,r_snr = 0.8069966 73.52135 1146 -3.031 4246 0.031 73.52135 0.000130 0.000200 -0.000003 r_peak,r_snr = 0.8806721 115.0676 1246 -3.031 4246 0.000 115.06762 0.000068 0.000097 -0.000003 r_peak,r_snr = 0.8844370 122.8446 1346 -3.000 4246 0.031 122.84460 0.000069 0.000101 0.000001 r_peak,r_snr = 0.8402883 250.8546 1446 -3.000 4246 0.063 250.85455 0.000086 0.000117 -0.000001 r_peak,r_snr = 0.8838431 186.0713 1546 -2.969 4246 0.031 186.07130 0.000058 0.000085 0.000001 r_peak,r_snr = 0.8994552 120.8830 1646 -3.000 4246 0.063 120.88304 0.000058 0.000081 0.000000 r_peak,r_snr = 0.9159194 11.06374 1746 -3.000 4246 0.000 11.06374 0.000073 0.000107 -0.000002 r_peak,r_snr = 0.1615116 34.34041 1846 -3.094 4246 -0.031 34.34041 0.005691 0.008714 -0.000173 r_peak,r_snr = 0.1446230 26.93659 1946 -2.938 4246 0.094 26.93659 0.008340 0.016470 -0.000087 r_peak,r_snr = 0.1610990 35.36211 2046 -2.938 4246 -0.031 35.36211 0.009370 0.011651 -0.001625 At line = 4600 Reading in data.... r_peak,r_snr = 0.6977242 30.52647 146 -3.063 4646 -0.031 30.52647 0.000319 0.000459 -0.000007 r_peak,r_snr = 0.7815183 47.39229 246 -3.031 4646 0.000 47.39229 0.000189 0.000267 0.000004 r_peak,r_snr = 0.7973729 66.39804 346 -3.031 4646 0.000 66.39804 0.000148 0.000239 -0.000003 r_peak,r_snr = 0.8042979 46.07282 446 -3.000 4646 0.031 46.07282 0.000154 0.000230 -0.000001 r_peak,r_snr = 0.8237039 32.29119 546 -2.938 4646 0.000 32.29119 0.000145 0.000230 -0.000001 r_peak,r_snr = 0.8391935 91.37035 646 -3.000 4646 0.031 91.37035 0.000100 0.000152 0.000002 r_peak,r_snr = 0.8367558 56.23381 746 -3.000 4646 0.094 56.23381 0.000112 0.000173 -0.000001 r_peak,r_snr = 0.8656597 37.42746 846 -2.969 4646 0.063 37.42746 0.000104 0.000164 -0.000003 r_peak,r_snr = 0.8518201 67.33472 946 -3.000 4646 0.031 67.33472 0.000098 0.000149 0.000000 r_peak,r_snr = 0.8300394 44.36282 1046 -3.031 4646 0.063 44.36282 0.000129 0.000212 -0.000003 r_peak,r_snr = 0.8853732 60.75544 1146 -3.000 4646 0.031 60.75544 0.000073 0.000130 -0.000004 r_peak,r_snr = 0.8862239 60.24634 1246 -2.969 4646 0.063 60.24634 0.000072 0.000115 0.000000 r_peak,r_snr = 0.8702099 84.53553 1346 -3.000 4646 0.063 84.53553 0.000085 0.000141 -0.000004 r_peak,r_snr = 0.9029956 32.25950 1446 -3.000 4646 0.063 32.25950 0.000064 0.000100 -0.000001 r_peak,r_snr = 0.8845276 81.37699 1546 -2.969 4646 0.000 81.37699 0.000068 0.000103 -0.000001 r_peak,r_snr = 0.8553804 92.33603 1646 -2.969 4646 0.063 92.33603 0.000088 0.000131 0.000000 r_peak,r_snr = 0.8984511 6.491391 1746 -3.000 4646 0.063 6.49139 0.000113 0.000178 -0.000006 r_peak,r_snr = 0.1807113 27.25569 1846 -3.031 4646 -0.156 27.25569 0.004640 0.009733 -0.001682 r_peak,r_snr = 0.1856113 42.27417 1946 -2.969 4646 -0.094 42.27417 0.005015 0.008753 -0.000762 r_peak,r_snr = 0.1602020 41.19084 2046 -3.156 4646 -0.281 41.19084 0.006157 0.008349 -0.000964 At line = 5000 Reading in data.... r_peak,r_snr = 0.7341549 33.12758 146 -3.000 5046 -0.063 33.12758 0.000266 0.000444 -0.000002 r_peak,r_snr = 0.8343590 66.00995 246 -3.000 5046 0.000 66.00995 0.000123 0.000208 0.000000 r_peak,r_snr = 0.7724678 52.95355 346 -3.000 5046 -0.031 52.95355 0.000169 0.000261 -0.000007 r_peak,r_snr = 0.8639997 61.13078 446 -3.000 5046 -0.031 61.13078 0.000090 0.000139 0.000000 r_peak,r_snr = 0.8551701 53.57408 546 -3.031 5046 0.000 53.57408 0.000097 0.000139 -0.000005 r_peak,r_snr = 0.8246729 65.26302 646 -3.000 5046 0.000 65.26302 0.000123 0.000195 -0.000001 r_peak,r_snr = 0.8309936 35.36268 746 -3.031 5046 -0.063 35.36268 0.000131 0.000222 -0.000001 r_peak,r_snr = 0.8743995 41.45453 846 -3.000 5046 0.000 41.45453 0.000091 0.000127 0.000003 r_peak,r_snr = 0.8369073 45.52382 946 -3.000 5046 0.000 45.52382 0.000121 0.000198 -0.000003 r_peak,r_snr = 0.7937486 43.53890 1046 -3.000 5046 0.063 43.53890 0.000166 0.000288 0.000003 r_peak,r_snr = 0.8337418 60.41356 1146 -3.000 5046 0.063 60.41356 0.000120 0.000189 0.000003 r_peak,r_snr = 0.8832372 107.2352 1246 -3.000 5046 0.031 107.23516 0.000067 0.000102 -0.000002 r_peak,r_snr = 0.8906661 55.11806 1346 -3.000 5046 0.031 55.11806 0.000074 0.000124 0.000001 r_peak,r_snr = 0.8735030 27.36231 1446 -3.000 5046 0.031 27.36231 0.000090 0.000142 -0.000003 r_peak,r_snr = 0.8829880 190.1439 1546 -2.969 5046 0.031 190.14394 0.000064 0.000085 -0.000001 r_peak,r_snr = 0.8990836 156.3336 1646 -3.000 5046 0.063 156.33356 0.000058 0.000077 -0.000001 r_peak,r_snr = 0.8885404 9.404606 1746 -3.000 5046 0.063 9.40461 0.000105 0.000164 -0.000001 r_peak,r_snr = 0.1574024 31.84539 1846 -2.844 5046 -0.156 31.84539 0.008935 0.009786 0.001901 r_peak,r_snr = 0.1082756 19.30283 1946 -2.750 5046 0.250 19.30283 0.011087 0.031468 -0.001102 r_peak,r_snr = 0.1669405 33.64380 2046 -3.063 5046 -0.094 33.64380 0.005409 0.012333 0.000070 At line = 5400 Reading in data.... r_peak,r_snr = 0.7498487 19.46156 146 -3.031 5446 -0.031 19.46156 0.000256 0.000521 0.000006 r_peak,r_snr = 0.8088598 54.05717 246 -3.031 5446 0.000 54.05717 0.000140 0.000217 -0.000005 r_peak,r_snr = 0.8366207 45.04710 346 -3.000 5446 0.000 45.04710 0.000125 0.000204 -0.000006 r_peak,r_snr = 0.8581169 128.1817 446 -3.031 5446 0.031 128.18166 0.000079 0.000119 -0.000002 r_peak,r_snr = 0.8658119 64.57104 546 -3.000 5446 0.063 64.57104 0.000089 0.000133 0.000000 r_peak,r_snr = 0.8777203 37.76059 646 -3.000 5446 0.000 37.76059 0.000091 0.000137 0.000001 r_peak,r_snr = 0.8541753 48.01814 746 -3.031 5446 0.031 48.01814 0.000102 0.000171 -0.000003 r_peak,r_snr = 0.8713806 46.19882 846 -3.000 5446 0.063 46.19882 0.000094 0.000162 -0.000005 r_peak,r_snr = 0.8320387 91.45400 946 -3.000 5446 0.031 91.45400 0.000114 0.000176 0.000001 r_peak,r_snr = 0.8505898 39.66417 1046 -3.000 5446 0.094 39.66417 0.000111 0.000199 0.000001 r_peak,r_snr = 0.8786408 52.78992 1146 -3.000 5446 0.031 52.78992 0.000086 0.000145 -0.000001 r_peak,r_snr = 0.8727455 42.99087 1246 -3.000 5446 0.031 42.99087 0.000094 0.000152 -0.000003 r_peak,r_snr = 0.8863262 91.27448 1346 -2.969 5446 0.063 91.27448 0.000070 0.000111 0.000000 r_peak,r_snr = 0.9077711 80.01547 1446 -2.969 5446 0.094 80.01547 0.000054 0.000093 0.000002 r_peak,r_snr = 0.8978068 175.8471 1546 -3.000 5446 0.094 175.84708 0.000055 0.000075 0.000001 r_peak,r_snr = 0.8859153 158.5601 1646 -3.000 5446 0.063 158.56009 0.000062 0.000090 -0.000003 r_peak,r_snr = 0.8981386 8.237308 1746 -3.000 5446 0.031 8.23731 0.000093 0.000147 -0.000002 r_peak,r_snr = 0.2229998 56.74352 1846 -2.938 5446 0.031 56.74352 0.004832 0.004667 -0.000191 r_peak,r_snr = 0.1399692 39.23754 1946 -2.969 5446 0.125 39.23754 0.007516 0.011032 -0.001206 r_peak,r_snr = 0.1601977 37.63911 2046 -3.063 5446 0.125 37.63911 0.005295 0.008420 -0.000517 At line = 5800 Reading in data.... r_peak,r_snr = 0.7285066 43.10100 146 -3.063 5846 -0.094 43.10100 0.000237 0.000490 0.000004 r_peak,r_snr = 0.7043919 71.54032 246 -3.000 5846 -0.094 71.54032 0.000249 0.000433 0.000001 r_peak,r_snr = 0.7574925 62.70781 346 -3.000 5846 -0.031 62.70781 0.000192 0.000287 0.000000 r_peak,r_snr = 0.8489766 76.00583 446 -3.000 5846 -0.031 76.00583 0.000100 0.000161 -0.000001 r_peak,r_snr = 0.8344988 49.99080 546 -3.031 5846 0.000 49.99080 0.000119 0.000191 -0.000002 r_peak,r_snr = 0.8430495 28.52633 646 -3.031 5846 -0.094 28.52633 0.000131 0.000206 -0.000001 r_peak,r_snr = 0.8552646 77.51439 746 -3.000 5846 -0.063 77.51439 0.000091 0.000138 -0.000002 r_peak,r_snr = 0.8237370 78.15015 846 -3.000 5846 -0.031 78.15015 0.000120 0.000198 -0.000004 r_peak,r_snr = 0.8121091 65.10066 946 -2.969 5846 0.000 65.10066 0.000139 0.000194 -0.000005 r_peak,r_snr = 0.8217813 44.40881 1046 -3.000 5846 0.063 44.40881 0.000140 0.000215 -0.000002 r_peak,r_snr = 0.8694096 47.54330 1146 -3.031 5846 -0.031 47.54330 0.000096 0.000145 -0.000004 r_peak,r_snr = 0.8693687 44.99122 1246 -3.000 5846 0.031 44.99122 0.000094 0.000137 -0.000002 r_peak,r_snr = 0.9024892 30.76027 1346 -3.000 5846 0.031 30.76027 0.000065 0.000092 0.000000 r_peak,r_snr = 0.8624244 138.5218 1446 -3.000 5846 0.031 138.52184 0.000077 0.000111 -0.000002 r_peak,r_snr = 0.8802342 153.9419 1546 -2.969 5846 0.031 153.94188 0.000064 0.000093 -0.000002 r_peak,r_snr = 0.8773457 230.9958 1646 -2.969 5846 0.000 230.99577 0.000066 0.000092 0.000000 r_peak,r_snr = 0.9032275 8.064301 1746 -3.000 5846 0.031 8.06430 0.000085 0.000127 0.000001 r_peak,r_snr = 0.1864692 45.89024 1846 -3.250 5846 0.188 45.89024 0.005223 0.006507 0.000079 r_peak,r_snr = 0.1272877 27.19088 1946 -2.938 5846 0.219 27.19088 0.010166 0.007854 0.001543 r_peak,r_snr = 0.1135196 24.94693 2046 -3.188 5846 0.188 24.94693 0.008965 0.013074 -0.000182 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Multi-look Program ***** ***** ***** ***** This program creates a real multi- ***** ***** look file from a complex single look ***** ***** file. The real values represent ***** ***** POWER, not amplitude. Multi-looking ***** ***** is performed by summing POWER in the ***** ***** azimuth direction only. ***** ***** ***** ************************************************** Enter the name of the complex file. Enter the desired number of looks. Enter the output file name output azspace, azres: 9.259200 21.60000 + 100 + 200 + 300 + 400 Fri Nov 8 14:56:29 PST 2002 Fri Nov 8 14:56:29 PST 2002 [1] 7712587 [1] + Done chmod 777 batch_l_setup [1] 7707173 ***************************************************** * * * AIRSAR INTEGRATED PROCESSOR * * * * HEADER PREPROCESSOR * * * * This program reads the raw data header and cal- * * culates the parameters necessary for the motion * * compensation in the integrated processor. * * * ***************************************************** Enter command file name ==> Opening command file... CRD-xdealy: 0.2380000 Reading and decoding header file... fsize_max min: 11907 11863 fsize_max min/ 2: 5954 5932 Finished reading the header file... Data acquired after 1994. J2000 time = -97839530.15473801 GPS J2000 time = -97839532.12479001 Message 1 Time = -97839530.15473801 INS Time = 1.704192000000000 Roll angle = 0.4888916015625000 Pitch angle = 1.038208007812500 Heading angle = 54.35485839843750 Long. acc = 0.1700000000000000 Lat. acc = -1.0000000000000000E-02 Norm. acc = -9.650000000000000 East vel. = 176.2770000000000 North vel. = 126.2550000000000 Up vel. = 0.1210000000000000 True Grnd Spd = 216.8125000000000 Altitude = 8446.000000000000 Latitude = 4.787130374461412 Longitude = 114.7964306641370 Message 6 Week = 881 GPS Time = -97839532.12479001 GDOP = 2.093750000000000 PDOP = 1.937500000000000 HDOP = 1.093750000000000 VDOP = 1.593750000000000 TDOP = 0.7968750000000000 Spherical Acc = 11.00000000000000 Time Acc = 8.0000000000000005E-09 GPS Lat = 4.784968094021508 GPS Lon = 114.7934315981008 GPS Alt = 8449.000000000000 GPS East Vel = 176.2400000000000 GPS North Vel = 126.3000000000000 GPS Up Vel = -0.1100000000000000 Message 3 Del INU Time = 0.7441920000000000 Del vel east = -3.4179687500000000E-03 Del vel north = 1.0253906250000000E-02 Del vel up = 6.4941406250000000E-02 Del pos east = 0.6250000000000000 Del pos north = 0.5000000000000000 Del pos up = -0.1250000000000000 Message 4 Sigma Pos x = 1.250000000000000 Sigma Pos y = 1.500000000000000 Sigma Pos z = 2.000000000000000 Sigma Vel x = 7.0800781250000000E-03 Sigma Vel y = 8.5449218750000000E-03 Sigma Vel z = 1.0009765625000000E-02 Message 7 Satellites used = 10 26 23 30 9 10 Retrived Honeywell data... 11880 Operator Comments: - - - - - - - - - - - - - - - - - - - - - PV RFI near urban areas, but no RX overloading; rebooted HP748i after DIR-1000 interface lockup; getting bumpy at end of run; IG I is OKng Lou, Leon Maldonado, Michael Kobrick, Timothy William Miller van Zyl, David Ryan Haub, Lori Ann Carrico, Timothy W. - - - - - - - - - - - - - - - - - - - - - enter filename for headers (entire path): Which frequency? (C,L or P) number of channels transferred: number of bytes/chan: total # of lines transferred: window delay: enter the .par filename : enter first header to read: enter year data taken: enter HDDT ID for raw data: SONY tapeid: 596068 96068 enter HDDT footage number <0> : enter the title of image: enter the CCT ID: cct: 1400 prod ID1:14001400 prod ID:1400 SONY tapeid: 96068 96068 tapeid:9606896068 tapeid par:96068 prod ID:1400 chrp_delay from subcomm header tapeID: 32.45000 96068 New DCG: chrp_delay is 32.5 usec 32.45000 chrp_delay is 32.5 usec 96068 32.45000 Is this 98039< x >98001 for P-bnad?: 96068 1998 P-band fc? 22.50000 idelay,chrp_delay,xdelay 93 32.45000 0.2380000 near range delr windela: 9040.541 3.331027 0 f_cal 43.59375 1216.406 Parameter header created .. >> Record # : 128 >> GPS Stuff = 1.80 6 9 1 24 26 17 digdelay startrng(us):93 93.00000000000000 startrng(m) elecdelay: 9863.173249999998 2.7200000000000000E-05 >> start range = 9863.1732 >> ccal_amp = -90.39999 >> ccal_atn = 32 >> ratn_phh = 0 14 0 >> ratn_phv = 0 8 0 >> ratn_pvh = 0 8 0 >> ratn_pvv = 0 14 0 >> ratn_lhh = 0 8 0 >> ratn_lhv = 0 8 0 >> ratn_lvh = 0 8 0 >> ratn_lvv = 0 8 0 >> ratn_chh = 0 8 10 >> ratn_chv = 0 8 10 >> ratn_cvh = 0 8 10 >> ratn_cvv = 0 8 10 >> rcvr_chh = >> rcvr_chv = >> rcvr_cvh = >> rcvr_cvv = >> rcvr_cpz = 0.0 >> rcvr_cbw = 1 >> chrp_bnd = 40 >> chrp_len = 10 >> chrp_mod = DN Done decoding data from header array... Data collected on ==> 00-JAN-1996 Starting and end GPS times for SAR data -126338399.2900 -126338162.5340 Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000012 0 hdg 54.32401 53.90442 54.75037 0.1839573 0 trc 54.50528 54.36068 54.69053 0.0875469 0 tgs 216.44132 216.10938 216.82813 0.2168183 0 roll 0.30822 -0.23621 0.72510 0.1837461 0 pitch 1.07499 0.93933 1.30188 0.0565628 0 lati 4.92007 4.78497 5.05509 0.0778559 0 loni 114.98201 114.79343 115.17108 0.1088849 0 latd 4.91742 4.78333 5.05167 0.0779833 0 lond 114.97929 114.79167 115.16833 0.1088942 0 balt 7932.54489 7929.37200 7934.85840 0.9798892 0 ralt 8367.86036 8254.28880 8399.67840 40.1363318 0 dpth 0.99341 0.90000 1.90000 0.0665699 0 droll 0.23431 -0.30000 0.60000 0.1833685 0 thd 54.23086 53.80000 54.60000 0.1842948 0 dad 0.46901 0.20000 0.80000 0.1405592 0 latg 4.92181 4.78635 5.05648 0.0779550 7 long 114.67821 46.71303 115.17265 4.5613505 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8401.98819 8379.99023 8411.06934 6.7947893 7 phh_aten 14.00000 14.00000 14.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 8.00000 8.00000 8.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 8.00000 8.00000 8.00000 0.0000000 0 lhv_aten 8.00000 8.00000 8.00000 0.0000000 0 lvh_aten 8.00000 8.00000 8.00000 0.0000000 0 lvv_aten 8.00000 8.00000 8.00000 0.0000000 0 chh_aten 18.00000 18.00000 18.00000 0.0000000 0 chv_aten 18.00000 18.00000 18.00000 0.0000000 0 cvh_aten 18.00000 18.00000 18.00000 0.0000000 0 cvv_aten 18.00000 18.00000 18.00000 0.0000000 0 hwlat 4.92214 4.78712 5.05676 0.0778090 0 hwlon 114.99456 114.79643 229.97019 1.0605082 0 hwalt 8445.91242 8444.20267 8448.69490 1.1078156 0 hwev 176.22517 175.91100 176.59000 0.1428207 0 hwnv 125.67535 125.01700 126.31100 0.3687243 0 hwuv -0.00038 -0.60000 0.54300 0.2001301 0 hwroll 0.30811 -0.23621 0.72510 0.1837835 0 hwpitch 1.07502 0.93933 1.30188 0.0565736 0 hwhdg 54.32866 53.90442 108.56689 0.5305656 0 hwtrc 54.50999 54.36068 108.87846 0.5064533 0 hwtgs 216.44090 216.10938 216.82813 0.2166153 0 Finished analysis of raw data... Putting in mirror values... Finished with mirror samples... Median filter data... Completed median filter of data... Finished correcting GPS times for pulses... Finished correcting GPS times for SIXGUN data... -97839529.99923338 i_yearind 19960 GPS time for first pulse = -97839530.28283624 -126338399.2900000 New start and number of records = 109 199855 New start and number of blocks = 1 1563 GPS trend coefficients = -11.76622555553974 62.78558206021851 -58.78754310881088 Begin final analysis of data... Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000012 0 hdg 54.32401 53.90442 54.75037 0.1840172 0 trc 54.50535 54.36068 54.69053 0.0875345 0 tgs 216.44117 216.10938 216.82813 0.2166733 0 roll 0.30815 -0.23621 0.72510 0.1837618 0 pitch 1.07498 0.93933 1.30188 0.0565500 0 delx 0.25730 0.00000 0.25738 0.0005761 0 lati 4.92015 4.78497 5.05509 0.0779059 0 loni 114.98213 114.79343 115.17108 0.1089550 0 latd 4.91750 4.78333 5.05167 0.0780253 0 lond 114.97941 114.79167 115.16833 0.1089642 0 balt 7932.54403 7929.37200 7934.85840 0.9801651 0 ralt 8367.88014 8254.28880 8399.67840 40.1278107 0 dpth 0.99296 0.90000 1.20000 0.0626897 0 droll 0.23404 -0.30000 0.60000 0.1836385 0 thd 54.23084 53.80000 54.60000 0.1842375 0 dad 0.46903 0.20000 0.80000 0.1405165 0 latg 4.92162 4.78635 5.05648 0.0779381 0 long 114.98389 114.79526 115.17265 0.1088506 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8401.98819 8391.67622 8415.08752 5.0621651 0 phh_aten 14.00000 14.00000 14.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 8.00000 8.00000 8.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 8.00000 8.00000 8.00000 0.0000000 0 lhv_aten 8.00000 8.00000 8.00000 0.0000000 0 lvh_aten 8.00000 8.00000 8.00000 0.0000000 0 lvv_aten 8.00000 8.00000 8.00000 0.0000000 0 chh_aten 18.00000 18.00000 18.00000 0.0000000 0 chv_aten 18.00000 18.00000 18.00000 0.0000000 0 cvh_aten 18.00000 18.00000 18.00000 0.0000000 0 cvv_aten 18.00000 18.00000 18.00000 0.0000000 0 hwlat 4.92214 4.78715 5.05674 0.0778089 0 hwlon 114.98490 114.79646 115.17338 0.1088269 0 hwalt 8445.91242 8444.20269 8448.69486 1.1078160 0 hwev 176.22516 175.91200 176.58900 0.1428136 0 hwnv 125.67537 125.01900 126.31000 0.3687409 0 hwuv -0.00038 -0.60000 0.54300 0.2001302 0 hwroll 0.30810 -0.23621 0.72510 0.1837604 0 hwpitch 1.07501 0.93933 1.29639 0.0565199 0 hwhdg 54.32408 53.90442 54.74487 0.1840186 0 hwtrc 54.50541 54.36126 54.69004 0.0875148 0 hwtgs 216.44091 216.10938 216.82813 0.2166641 0 Finished final analysis of data... Average Barometric Altitude = 7932.544026103589 Average Radar Altitude = 8367.880135124751 Average GPS Altitude = 8401.988194565911 >>Record # : 128 >>GPS Stuff = 1.80 6 9 1 24 2 >>Record # : 0 >>GPS Stuff = Lock vertical accel to gps(+1) or bar(-1) or IGI (0) ==> Enter a name for the peg data file. Positions and Distances Start position = 4.7871459 114.7964609 8446.470 End position = 5.0567396 115.1733808 8444.912 Loxodromic Heading (deg) = 54.5061343 Loxodromic Distance (km) = 51346.0499506 Geodesic Heading (deg) = 54.4901120 Geodesic Distance (km) = 51346.0480234 Peg latitude and longitude = 4.9221747 114.9847465 Peg heading = 54.5668334 Rotation matrix First row = -0.420819309 -0.717533451 0.555028698 Second row = 0.903077536 -0.389238723 0.181505319 Third row = 0.085802523 0.577614892 0.811787511 Translation vector Vector = -6021.83700 12922.85215 -2435.84204 Local Radius of Curvature = 6363984.385000405 Start and end pulse used = 109 199963 Ellipsoidal delta s (m) = 0.2569177901035996 Delta s on reference surface = 0.2569177986170678 Miscellaneous Information Start range = 9863.173249999998 Start ground range = 5221.184597742174 Time orgin = -97839530.28283624 Pulse spacing = 0.2572961952660497 First frame = 18822817 Thank you for your patronage If a POLTOP mode then...: .mocomp -> .mocomph & .mocompv .mocomph -> .mocomphU & .mocompvU .mocompv -> .mocomphL & .mocompvL Enter the name of the motion compensation file. /export/air36/airops/1400/ts1400_l.mocomp Name of the H-pol motion compensation file? /export/air36/airops/1400/ts1400_l.mocomph Name of the V-pol motion compensation file? /export/air36/airops/1400/ts1400_l.mocompv How many lines per polarization? 10240 + 1 + 10001 + 20001 ********************************************* * * * AIRSAR INTEGRATED PROCESSOR * * * * CALTONE ESTIMATOR * * * * This program estimates the CALTONE amp- * * litude and phase and writes the result * * into the parameter header. * * * ********************************************* Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) LHH Enter the paramater file name. /export/air36/airops/1400/ts1400_l.par Enter the raw data file name. /export/air32/airops/1400/l_hh Enter the motion compensation file name. /export/air36/airops/1400/ts1400_l.mocomp Enter a file name for the range spectrum: /export/air36/airops/1400/db_l_hh.dat Enter a file name for the sampled caltone power: /export/air36/airops/1400/1st_l_hh.dat Enter histogram of the caltone power file name: /export/air36/airops/1400/pw_hist_l_hh.dat Enter histogram of the caltone phase file name: /export/air36/airops/1400/ph_hist_l_hh.dat Enter start range line #: 1 How many lines of raw data? 10240 How many lines to be processed? 10240 Enter polarization (1=HH,2=HV,3=VH,4=VV): 1 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3756 5932 Prediction cal_bin 1057 start/end pulse: 1 10176 64-Loop Count: 158 cmplx raw(1 2 3): (40.19018,0.0000000E+00) (7.535659,0.0000000E+00) (-10.04755,0.0000000E+00) attenuation (dB): 8.000000 no_loop: 64 Pulse#/no_loop: 1 1057 6.9715920E+07 plot_x: 159 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 78.42593 Power RMS: 2.2097087E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 8342.527 Amp. RMS: 20.19901 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 180.4363 Phase RMS: 1.179248 Incoherent PH 1st: 180.2148 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 78.78265 CalTone Power Coherently dB : 78.42593 Incoherent PW - Coherent PW : 0.3567276 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 8691.721 CalTone Amplitude Coherently : 8342.527 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 349.1934 ------------ *** ------------ running time (sec): 5.79 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) LHV Enter the paramater file name. /export/air36/airops/1400/ts1400_l.par Enter the raw data file name. /export/air32/airops/1400/l_hv Enter the motion compensation file name. /export/air36/airops/1400/ts1400_l.mocomp Enter a file name for the range spectrum: /export/air36/airops/1400/db_l_hv.dat Enter a file name for the sampled caltone power: /export/air36/airops/1400/1st_l_hv.dat Enter histogram of the caltone power file name: /export/air36/airops/1400/pw_hist_l_hv.dat Enter histogram of the caltone phase file name: /export/air36/airops/1400/ph_hist_l_hv.dat Enter start range line #: 1 How many lines of raw data? 10240 How many lines to be processed? 10240 Enter polarization (1=HH,2=HV,3=VH,4=VV): 2 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3756 5932 Prediction cal_bin 1057 start/end pulse: 1 10176 64-Loop Count: 158 cmplx raw(1 2 3): (30.14264,0.0000000E+00) (40.19018,0.0000000E+00) (-17.58320,0.0000000E+00) attenuation (dB): 8.000000 no_loop: 64 Pulse#/no_loop: 1 1057 6.8949752E+07 plot_x: 159 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 78.37596 Power RMS: 3.1250000E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 8294.664 Amp. RMS: 17.88854 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 41.45501 Phase RMS: 1.202211 Incoherent PH 1st: 41.20148 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 78.73615 CalTone Power Coherently dB : 78.37596 Incoherent PW - Coherent PW : 0.3601913 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 8700.103 CalTone Amplitude Coherently : 8294.664 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 405.4385 ------------ *** ------------ running time (sec): 5.23 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) LVH Enter the paramater file name. /export/air36/airops/1400/ts1400_l.par Enter the raw data file name. /export/air32/airops/1400/l_vh Enter the motion compensation file name. /export/air36/airops/1400/ts1400_l.mocomp Enter a file name for the range spectrum: /export/air36/airops/1400/db_l_vh.dat Enter a file name for the sampled caltone power: /export/air36/airops/1400/1st_l_vh.dat Enter histogram of the caltone power file name: /export/air36/airops/1400/pw_hist_l_vh.dat Enter histogram of the caltone phase file name: /export/air36/airops/1400/ph_hist_l_vh.dat Enter start range line #: 1 How many lines of raw data? 10240 How many lines to be processed? 10240 Enter polarization (1=HH,2=HV,3=VH,4=VV): 3 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3756 5932 Prediction cal_bin 1057 start/end pulse: 1 10176 64-Loop Count: 158 cmplx raw(1 2 3): (-45.21395,0.0000000E+00) (42.70207,0.0000000E+00) (2.511886,0.0000000E+00) attenuation (dB): 8.000000 no_loop: 64 Pulse#/no_loop: 1 1057 6.9500072E+07 plot_x: 159 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 78.39715 Power RMS: 4.4194173E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 8314.919 Amp. RMS: 15.49193 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 180.8763 Phase RMS: 1.106621 Incoherent PH 1st: -179.6651 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 78.74317 CalTone Power Coherently dB : 78.39715 Incoherent PW - Coherent PW : 0.3460236 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 8707.206 CalTone Amplitude Coherently : 8314.919 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 392.2871 ------------ *** ------------ running time (sec): 5.06 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) LVV Enter the paramater file name. /export/air36/airops/1400/ts1400_l.par Enter the raw data file name. /export/air32/airops/1400/l_vv Enter the motion compensation file name. /export/air36/airops/1400/ts1400_l.mocomp Enter a file name for the range spectrum: /export/air36/airops/1400/db_l_vv.dat Enter a file name for the sampled caltone power: /export/air36/airops/1400/1st_l_vv.dat Enter histogram of the caltone power file name: /export/air36/airops/1400/pw_hist_l_vv.dat Enter histogram of the caltone phase file name: /export/air36/airops/1400/ph_hist_l_vv.dat Enter start range line #: 1 How many lines of raw data? 10240 How many lines to be processed? 10240 Enter polarization (1=HH,2=HV,3=VH,4=VV): 4 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3756 5932 Prediction cal_bin 1057 start/end pulse: 1 10176 64-Loop Count: 158 cmplx raw(1 2 3): (5.023773,0.0000000E+00) (-17.58320,0.0000000E+00) (40.19018,0.0000000E+00) attenuation (dB): 8.000000 no_loop: 64 Pulse#/no_loop: 1 1057 6.7764720E+07 plot_x: 159 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 78.30141 Power RMS: 5.4126587E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 8223.778 Amp. RMS: 14.69694 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 42.21711 Phase RMS: 1.119562 Incoherent PH 1st: 41.71748 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 78.65376 CalTone Power Coherently dB : 78.30141 Incoherent PW - Coherent PW : 0.3523483 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 8618.708 CalTone Amplitude Coherently : 8223.778 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 394.9297 ------------ *** ------------ running time (sec): 5.21 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 0 *************************************************** * * * AIRSAR INTEGRATED PROCESSOR * * * * Global Line Generator * * * * This program generates the global line to use * * in the single-look processors to resample the * * data. * * * *************************************************** Please enter the name of the sensor file. 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 Enter the name of the parameter file. Please enter the name of the mocomp file. Reading motion compensation data Global reference line calculation results: y fit: constant and linear terms: -54.80210 7.7800208E-04 z fit: constant and linear terms: 3.9001692E-02 4.2455795E-05 y and z standard deviations (meters) 5.4484900E-02 9.5075317E-02 Enter the name of the global line file. Enter the name of the motion compensation file. Enter the number of lines in the mocomp file & first one. Enter the patch size and the max reference fnc length. Enter the maximum Doppler error. Enter the doppler file name. Enter the wavelength and nominal azimuth pixel spacing Initial guess at number of patches = 1.586483 Step size = 3492 PATCH NUMER 1 First line = 1 Averages = 5.3394217E-02 4.8230495E-02 4.7657501E-02 4.6411619E-02 Differences = 4.4707470E-03 -6.9297478E-04 -1.2659691E-03 -2.5118515E-03 PATCH NUMER 2 First line = 3493 last black mod_64: 52 10240 3493 8192 Averages = 4.7491610E-02 4.7552958E-02 4.6605371E-02 4.4976160E-02 Differences = 8.3509088E-04 8.9643896E-04 -5.1148236E-05 -1.6803592E-03 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.35 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 1 AZ patch size: 8192 What is the desired az fract (def=1.0)? fract #: 1.000000 Please enter the name of the sensor file. /export/air32/airops/1400/sensor_setup.hh96l_pr Please enter the name of the parameter file /export/air36/airops/1400/ts1400_l.par hddt: 96068 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 10240 lines Keeping 4192 data points per patch Near range (m) = 9040.540 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 2.400000 Radar wavelength (m) = 0.2422600 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = 0.7800000 Range weighting coefficient = 0.1000000 Map height (m) = 78.60000 Transmit leverarm x,y,z = 0.5200000 1.202806 1.615272 Receive leverarm x,y,z = 0.5200000 1.202806 1.615272 Name of raw data file? /export/air32/airops/1400/l_hh Name of the mocomp data file? /export/air36/airops/1400/ts1400_l.mocomph Output file name w/o ext? /export/air36/airops/1400/ts1400_l Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. hh Raw DIR Path:/export/air32/airops/1400/ output filename: /export/air32/airops/1400/ts1400_l.hh_j *** ipol itop: 1 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /export/air32/airops/1400/deskew.lh WAYNE init fft, calc slant range, load unpack, interpo 1.4902994E-02 reading motion compensation data WAYNE read motion compen 0.2432700 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 AnalogChirp>96032Br,fs,T,fc 96068 40.00000 22.50000 90.00000 10.00000 deltaphase -ashift: -1.1965049E-03 -0.7800000 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.2274790 start range comp, time = 0.513 WAYNE PREV 0.5054790 NUMBER OF PROCESSOR USED = 4 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 3 ..... WAYNE IS IN Processing 3 to 2 by # 2 ==w out 3 -1998 PROCESSING KID# 4 ..... WAYNE IS IN Processing 3 to 2 by # 3 ==w out 3 -1998 Fri Nov 8 15:00:29 PST 2002 Fri Nov 8 15:00:29 PST 2002 Fri Nov 8 15:00:29 PST 2002 ***************************************************** * * * AIRSAR INTEGRATED PROCESSOR * * * * HEADER PREPROCESSOR * * * * This program reads the raw data header and cal- * * culates the parameters necessary for the motion * * compensation in the integrated processor. * * * ***************************************************** Enter command file name ==> Opening command file... CRD-xdealy: 0.2380000 Reading and decoding header file... fsize_max min: 11907 11863 fsize_max min/ 2: 5954 5932 Finished reading the header file... Data acquired after 1994. J2000 time = -97839530.15473801 GPS J2000 time = -97839532.12479001 Message 1 Time = -97839530.15473801 INS Time = 1.704192000000000 Roll angle = 0.4888916015625000 Pitch angle = 1.038208007812500 Heading angle = 54.35485839843750 Long. acc = 0.1700000000000000 Lat. acc = -1.0000000000000000E-02 Norm. acc = -9.650000000000000 East vel. = 176.2770000000000 North vel. = 126.2550000000000 Up vel. = 0.1210000000000000 True Grnd Spd = 216.8125000000000 Altitude = 8446.000000000000 Latitude = 4.787130374461412 Longitude = 114.7964306641370 Message 6 Week = 881 GPS Time = -97839532.12479001 GDOP = 2.093750000000000 PDOP = 1.937500000000000 HDOP = 1.093750000000000 VDOP = 1.593750000000000 TDOP = 0.7968750000000000 Spherical Acc = 11.00000000000000 Time Acc = 8.0000000000000005E-09 GPS Lat = 4.784968094021508 GPS Lon = 114.7934315981008 GPS Alt = 8449.000000000000 GPS East Vel = 176.2400000000000 GPS North Vel = 126.3000000000000 GPS Up Vel = -0.1100000000000000 Message 3 Del INU Time = 0.7441920000000000 Del vel east = -3.4179687500000000E-03 Del vel north = 1.0253906250000000E-02 Del vel up = 6.4941406250000000E-02 Del pos east = 0.6250000000000000 Del pos north = 0.5000000000000000 Del pos up = -0.1250000000000000 Message 4 Sigma Pos x = 1.250000000000000 Sigma Pos y = 1.500000000000000 Sigma Pos z = 2.000000000000000 Sigma Vel x = 7.0800781250000000E-03 Sigma Vel y = 8.5449218750000000E-03 Sigma Vel z = 1.0009765625000000E-02 Message 7 Satellites used = 10 26 23 30 9 10 Retrived Honeywell data... 11880 Operator Comments: - - - - - - - - - - - - - - - - - - - - - PV RFI near urban areas, but no RX overloading; rebooted HP748i after DIR-1000 interface lockup; getting bumpy at end of run; IG I is OKng Lou, Leon Maldonado, Michael Kobrick, Timothy William Miller van Zyl, David Ryan Haub, Lori Ann Carrico, Timothy W. - - - - - - - - - - - - - - - - - - - - - enter filename for headers (entire path): Which frequency? (C,L or P) number of channels transferred: number of bytes/chan: total # of lines transferred: window delay: enter the .par filename : enter first header to read: enter year data taken: enter HDDT ID for raw data: SONY tapeid: 596068 96068 enter HDDT footage number <0> : enter the title of image: enter the CCT ID: cct: 1400 prod ID1:14001400 prod ID:1400 SONY tapeid: 96068 96068 tapeid:9606896068 tapeid par:96068 prod ID:1400 chrp_delay from subcomm header tapeID: 32.45000 96068 New DCG: chrp_delay is 32.5 usec 32.45000 chrp_delay is 32.5 usec 96068 32.45000 Is this 98039< x >98001 for P-bnad?: 96068 1998 P-band fc? 22.50000 idelay,chrp_delay,xdelay 93 32.45000 0.2380000 near range delr windela: 9040.541 3.331027 0 f_cal 43.59375 1216.406 Parameter header created .. >> Record # : 128 >> GPS Stuff = 1.80 6 9 1 24 26 17 digdelay startrng(us):93 93.00000000000000 startrng(m) elecdelay: 9863.173249999998 2.7200000000000000E-05 >> start range = 9863.1732 >> ccal_amp = -90.39999 >> ccal_atn = 32 >> ratn_phh = 0 14 0 >> ratn_phv = 0 8 0 >> ratn_pvh = 0 8 0 >> ratn_pvv = 0 14 0 >> ratn_lhh = 0 8 0 >> ratn_lhv = 0 8 0 >> ratn_lvh = 0 8 0 >> ratn_lvv = 0 8 0 >> ratn_chh = 0 8 10 >> ratn_chv = 0 8 10 >> ratn_cvh = 0 8 10 >> ratn_cvv = 0 8 10 >> rcvr_chh = >> rcvr_chv = >> rcvr_cvh = >> rcvr_cvv = >> rcvr_cpz = 0.0 >> rcvr_cbw = 1 >> chrp_bnd = 40 >> chrp_len = 10 >> chrp_mod = DN Done decoding data from header array... Data collected on ==> 00-JAN-1996 Starting and end GPS times for SAR data -126338399.2900 -126338162.5340 Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000012 0 hdg 54.32401 53.90442 54.75037 0.1839573 0 trc 54.50528 54.36068 54.69053 0.0875469 0 tgs 216.44132 216.10938 216.82813 0.2168183 0 roll 0.30822 -0.23621 0.72510 0.1837461 0 pitch 1.07499 0.93933 1.30188 0.0565628 0 lati 4.92007 4.78497 5.05509 0.0778559 0 loni 114.98201 114.79343 115.17108 0.1088849 0 latd 4.91742 4.78333 5.05167 0.0779833 0 lond 114.97929 114.79167 115.16833 0.1088942 0 balt 7932.54489 7929.37200 7934.85840 0.9798892 0 ralt 8367.86036 8254.28880 8399.67840 40.1363318 0 dpth 0.99341 0.90000 1.90000 0.0665699 0 droll 0.23431 -0.30000 0.60000 0.1833685 0 thd 54.23086 53.80000 54.60000 0.1842948 0 dad 0.46901 0.20000 0.80000 0.1405592 0 latg 4.92181 4.78635 5.05648 0.0779550 7 long 114.67821 46.71303 115.17265 4.5613505 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8401.98819 8379.99023 8411.06934 6.7947893 7 phh_aten 14.00000 14.00000 14.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 8.00000 8.00000 8.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 8.00000 8.00000 8.00000 0.0000000 0 lhv_aten 8.00000 8.00000 8.00000 0.0000000 0 lvh_aten 8.00000 8.00000 8.00000 0.0000000 0 lvv_aten 8.00000 8.00000 8.00000 0.0000000 0 chh_aten 18.00000 18.00000 18.00000 0.0000000 0 chv_aten 18.00000 18.00000 18.00000 0.0000000 0 cvh_aten 18.00000 18.00000 18.00000 0.0000000 0 cvv_aten 18.00000 18.00000 18.00000 0.0000000 0 hwlat 4.92214 4.78712 5.05676 0.0778090 0 hwlon 114.99456 114.79643 229.97019 1.0605082 0 hwalt 8445.91242 8444.20267 8448.69490 1.1078156 0 hwev 176.22517 175.91100 176.59000 0.1428207 0 hwnv 125.67535 125.01700 126.31100 0.3687243 0 hwuv -0.00038 -0.60000 0.54300 0.2001301 0 hwroll 0.30811 -0.23621 0.72510 0.1837835 0 hwpitch 1.07502 0.93933 1.30188 0.0565736 0 hwhdg 54.32866 53.90442 108.56689 0.5305656 0 hwtrc 54.50999 54.36068 108.87846 0.5064533 0 hwtgs 216.44090 216.10938 216.82813 0.2166153 0 Finished analysis of raw data... Putting in mirror values... Finished with mirror samples... Median filter data... Completed median filter of data... Finished correcting GPS times for pulses... Finished correcting GPS times for SIXGUN data... -97839529.99923338 i_yearind 19960 GPS time for first pulse = -97839530.28283624 -126338399.2900000 New start and number of records = 109 199855 New start and number of blocks = 1 1563 GPS trend coefficients = -11.76622555553974 62.78558206021851 -58.78754310881088 Begin final analysis of data... Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000012 0 hdg 54.32401 53.90442 54.75037 0.1840172 0 trc 54.50535 54.36068 54.69053 0.0875345 0 tgs 216.44117 216.10938 216.82813 0.2166733 0 roll 0.30815 -0.23621 0.72510 0.1837618 0 pitch 1.07498 0.93933 1.30188 0.0565500 0 delx 0.25730 0.00000 0.25738 0.0005761 0 lati 4.92015 4.78497 5.05509 0.0779059 0 loni 114.98213 114.79343 115.17108 0.1089550 0 latd 4.91750 4.78333 5.05167 0.0780253 0 lond 114.97941 114.79167 115.16833 0.1089642 0 balt 7932.54403 7929.37200 7934.85840 0.9801651 0 ralt 8367.88014 8254.28880 8399.67840 40.1278107 0 dpth 0.99296 0.90000 1.20000 0.0626897 0 droll 0.23404 -0.30000 0.60000 0.1836385 0 thd 54.23084 53.80000 54.60000 0.1842375 0 dad 0.46903 0.20000 0.80000 0.1405165 0 latg 4.92162 4.78635 5.05648 0.0779381 0 long 114.98389 114.79526 115.17265 0.1088506 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8401.98819 8391.67622 8415.08752 5.0621651 0 phh_aten 14.00000 14.00000 14.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 8.00000 8.00000 8.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 8.00000 8.00000 8.00000 0.0000000 0 lhv_aten 8.00000 8.00000 8.00000 0.0000000 0 lvh_aten 8.00000 8.00000 8.00000 0.0000000 0 lvv_aten 8.00000 8.00000 8.00000 0.0000000 0 chh_aten 18.00000 18.00000 18.00000 0.0000000 0 chv_aten 18.00000 18.00000 18.00000 0.0000000 0 cvh_aten 18.00000 18.00000 18.00000 0.0000000 0 cvv_aten 18.00000 18.00000 18.00000 0.0000000 0 hwlat 4.92214 4.78715 5.05674 0.0778089 0 hwlon 114.98490 114.79646 115.17338 0.1088269 0 hwalt 8445.91242 8444.20269 8448.69486 1.1078160 0 hwev 176.22516 175.91200 176.58900 0.1428136 0 hwnv 125.67537 125.01900 126.31000 0.3687409 0 hwuv -0.00038 -0.60000 0.54300 0.2001302 0 hwroll 0.30810 -0.23621 0.72510 0.1837604 0 hwpitch 1.07501 0.93933 1.29639 0.0565199 0 hwhdg 54.32408 53.90442 54.74487 0.1840186 0 hwtrc 54.50541 54.36126 54.69004 0.0875148 0 hwtgs 216.44091 216.10938 216.82813 0.2166641 0 Finished final analysis of data... Average Barometric Altitude = 7932.544026103589 Average Radar Altitude = 8367.880135124751 Average GPS Altitude = 8401.988194565911 >>Record # : 128 >>GPS Stuff = 1.80 6 9 1 24 2 >>Record # : 0 >>GPS Stuff = Lock vertical accel to gps(+1) or bar(-1) or IGI (0) ==> Enter a name for the peg data file. Positions and Distances Start position = 4.7871459 114.7964609 8446.470 End position = 5.0567396 115.1733808 8444.912 Loxodromic Heading (deg) = 54.5061343 Loxodromic Distance (km) = 51346.0499506 Geodesic Heading (deg) = 54.4901120 Geodesic Distance (km) = 51346.0480234 Peg latitude and longitude = 4.9221747 114.9847465 Peg heading = 54.5668334 Rotation matrix First row = -0.420819309 -0.717533451 0.555028698 Second row = 0.903077536 -0.389238723 0.181505319 Third row = 0.085802523 0.577614892 0.811787511 Translation vector Vector = -6021.83700 12922.85215 -2435.84204 Local Radius of Curvature = 6363984.385000405 Start and end pulse used = 109 199963 Ellipsoidal delta s (m) = 0.2569177901035996 Delta s on reference surface = 0.2569177986170678 Miscellaneous Information Start range = 9863.173249999998 Start ground range = 5221.184597742174 Time orgin = -97839530.28283624 Pulse spacing = 0.2572961952660497 First frame = 18822817 Thank you for your patronage If a POLTOP mode then...: .mocomp -> .mocomph & .mocompv .mocomph -> .mocomphU & .mocompvU .mocompv -> .mocomphL & .mocompvL Enter the name of the motion compensation file. /export/air36/airops/1400/ts1400_p.mocomp Name of the H-pol motion compensation file? /export/air36/airops/1400/ts1400_p.mocomph Name of the V-pol motion compensation file? /export/air36/airops/1400/ts1400_p.mocompv How many lines per polarization? 10240 + 1 + 10001 + 20001 ********************************************* * * * AIRSAR INTEGRATED PROCESSOR * * * * CALTONE ESTIMATOR * * * * This program estimates the CALTONE amp- * * litude and phase and writes the result * * into the parameter header. * * * ********************************************* Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) PHH Enter the paramater file name. /export/air36/airops/1400/ts1400_p.par Enter the raw data file name. /export/air32/airops/1400/p_hh Enter the motion compensation file name. /export/air36/airops/1400/ts1400_p.mocomp Enter a file name for the range spectrum: /export/air36/airops/1400/db_p_hh.dat Enter a file name for the sampled caltone power: /export/air36/airops/1400/1st_p_hh.dat Enter histogram of the caltone power file name: /export/air36/airops/1400/pw_hist_p_hh.dat Enter histogram of the caltone phase file name: /export/air36/airops/1400/ph_hist_p_hh.dat Enter start range line #: 1 How many lines of raw data? 10240 How many lines to be processed? 10240 Enter polarization (1=HH,2=HV,3=VH,4=VV): 1 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3756 5932 Prediction cal_bin 1057 start/end pulse: 1 10176 64-Loop Count: 158 cmplx raw(1 2 3): (-10.02374,0.0000000E+00) (35.08311,0.0000000E+00) (-10.02374,0.0000000E+00) attenuation (dB): 14.00000 no_loop: 64 Pulse#/no_loop: 1 1057 9.5658160E+07 plot_x: 159 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 79.81458 Power RMS: 7.9672180E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 9788.901 Amp. RMS: 41.37632 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -173.2394 Phase RMS: 1.178419 Incoherent PH 1st: 186.5449 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 80.16998 CalTone Power Coherently dB : 79.81458 Incoherent PW - Coherent PW : 0.3553925 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 10196.61 CalTone Amplitude Coherently : 9788.901 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 407.7080 ------------ *** ------------ running time (sec): 5.95 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) PHV Enter the paramater file name. /export/air36/airops/1400/ts1400_p.par Enter the raw data file name. /export/air32/airops/1400/p_hv Enter the motion compensation file name. /export/air36/airops/1400/ts1400_p.mocomp Enter a file name for the range spectrum: /export/air36/airops/1400/db_p_hv.dat Enter a file name for the sampled caltone power: /export/air36/airops/1400/1st_p_hv.dat Enter histogram of the caltone power file name: /export/air36/airops/1400/pw_hist_p_hv.dat Enter histogram of the caltone phase file name: /export/air36/airops/1400/ph_hist_p_hv.dat Enter start range line #: 1 How many lines of raw data? 10240 How many lines to be processed? 10240 Enter polarization (1=HH,2=HV,3=VH,4=VV): 2 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3756 5932 Prediction cal_bin 1057 start/end pulse: 1 10176 64-Loop Count: 158 cmplx raw(1 2 3): (52.74961,0.0000000E+00) (-80.38036,0.0000000E+00) (-45.21395,0.0000000E+00) attenuation (dB): 8.000000 no_loop: 64 Pulse#/no_loop: 1 1057 3.4699514E+08 plot_x: 159 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 85.37872 Power RMS: 3.8273279E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 18575.34 Amp. RMS: 28.28427 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 62.46994 Phase RMS: 1.152337 Incoherent PH 1st: 62.23723 max_bin with Incoherent averaging: 1965 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 87.96013 CalTone Power Coherently dB : 85.37872 Incoherent PW - Coherent PW : 2.581406 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 21071.82 CalTone Amplitude Coherently : 18575.34 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 2496.484 ------------ *** ------------ running time (sec): 5.22 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) PVH Enter the paramater file name. /export/air36/airops/1400/ts1400_p.par Enter the raw data file name. /export/air32/airops/1400/p_vh Enter the motion compensation file name. /export/air36/airops/1400/ts1400_p.mocomp Enter a file name for the range spectrum: /export/air36/airops/1400/db_p_vh.dat Enter a file name for the sampled caltone power: /export/air36/airops/1400/1st_p_vh.dat Enter histogram of the caltone power file name: /export/air36/airops/1400/pw_hist_p_vh.dat Enter histogram of the caltone phase file name: /export/air36/airops/1400/ph_hist_p_vh.dat Enter start range line #: 1 How many lines of raw data? 10240 How many lines to be processed? 10240 Enter polarization (1=HH,2=HV,3=VH,4=VV): 3 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3756 5932 Prediction cal_bin 1057 start/end pulse: 1 10176 64-Loop Count: 158 cmplx raw(1 2 3): (5.023773,0.0000000E+00) (0.0000000E+00,0.0000000E+00) (-15.07132,0.0000000E+00) attenuation (dB): 8.000000 no_loop: 64 Pulse#/no_loop: 1 1057 9.8889504E+07 plot_x: 159 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 79.93543 Power RMS: 4.9410589E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 9925.968 Amp. RMS: 19.59592 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -174.5216 Phase RMS: 1.116286 Incoherent PH 1st: -175.0525 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 80.29477 CalTone Power Coherently dB : 79.93543 Incoherent PW - Coherent PW : 0.3593369 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 10467.08 CalTone Amplitude Coherently : 9925.968 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 541.1094 ------------ *** ------------ running time (sec): 5.23 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) PVV Enter the paramater file name. /export/air36/airops/1400/ts1400_p.par Enter the raw data file name. /export/air32/airops/1400/p_vv Enter the motion compensation file name. /export/air36/airops/1400/ts1400_p.mocomp Enter a file name for the range spectrum: /export/air36/airops/1400/db_p_vv.dat Enter a file name for the sampled caltone power: /export/air36/airops/1400/1st_p_vv.dat Enter histogram of the caltone power file name: /export/air36/airops/1400/pw_hist_p_vv.dat Enter histogram of the caltone phase file name: /export/air36/airops/1400/ph_hist_p_vv.dat Enter start range line #: 1 How many lines of raw data? 10240 How many lines to be processed? 10240 Enter polarization (1=HH,2=HV,3=VH,4=VV): 4 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3756 5932 Prediction cal_bin 1057 start/end pulse: 1 10176 64-Loop Count: 158 cmplx raw(1 2 3): (-80.18996,0.0000000E+00) (0.0000000E+00,0.0000000E+00) (-70.16621,0.0000000E+00) attenuation (dB): 14.00000 no_loop: 64 Pulse#/no_loop: 1 1057 3.7481674E+08 plot_x: 159 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 85.69248 Power RMS: 5.4126587E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 19258.58 Amp. RMS: 52.15362 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 63.69885 Phase RMS: 1.093973 Incoherent PH 1st: 63.12997 max_bin with Incoherent averaging: 1965 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 88.33498 CalTone Power Coherently dB : 85.69248 Incoherent PW - Coherent PW : 2.642494 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 21964.16 CalTone Amplitude Coherently : 19258.58 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 2705.580 ------------ *** ------------ running time (sec): 5.15 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 0 *************************************************** * * * AIRSAR INTEGRATED PROCESSOR * * * * Global Line Generator * * * * This program generates the global line to use * * in the single-look processors to resample the * * data. * * * *************************************************** Please enter the name of the sensor file. 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 Enter the name of the parameter file. Please enter the name of the mocomp file. Reading motion compensation data Global reference line calculation results: y fit: constant and linear terms: -54.80210 7.7800208E-04 z fit: constant and linear terms: 3.9001752E-02 4.2455784E-05 y and z standard deviations (meters) 5.4484900E-02 9.5075302E-02 Enter the name of the global line file. Enter the name of the motion compensation file. Enter the number of lines in the mocomp file & first one. Enter the patch size and the max reference fnc length. Enter the maximum Doppler error. Enter the doppler file name. Enter the wavelength and nominal azimuth pixel spacing Initial guess at number of patches = 1.586483 Step size = 3492 PATCH NUMER 1 First line = 1 Averages = 1.8845018E-02 1.7022528E-02 1.6820293E-02 1.6380571E-02 Differences = 1.5779119E-03 -2.4457835E-04 -4.4681318E-04 -8.8653527E-04 PATCH NUMER 2 First line = 3493 last black mod_64: 52 10240 3493 8192 Averages = 1.6761744E-02 1.6783398E-02 1.6448954E-02 1.5873939E-02 Differences = 2.9473752E-04 3.1639077E-04 -1.8052757E-05 -5.9306808E-04 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.35 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 1 AZ patch size: 8192 What is the desired az fract (def=1.0)? fract #: 1.000000 Please enter the name of the sensor file. /export/air32/airops/1400/sensor_setup.pp Please enter the name of the parameter file /export/air36/airops/1400/ts1400_p.par hddt: 96068 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 10240 lines Keeping 4192 data points per patch Near range (m) = 9040.540 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 3.500000 Radar wavelength (m) = 0.7012700 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = -1.450000 Range weighting coefficient = 0.1000000 Map height (m) = 78.60000 Transmit leverarm x,y,z = 2.030000 0.5300000 -0.2200000 Receive leverarm x,y,z = 2.030000 0.5300000 -0.2200000 Name of raw data file? /export/air32/airops/1400/p_hh Name of the mocomp data file? /export/air36/airops/1400/ts1400_p.mocomph Output file name w/o ext? /export/air36/airops/1400/ts1400_p Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. hh Raw DIR Path:/export/air32/airops/1400/ output filename: /export/air32/airops/1400/ts1400_p.hh_j *** ipol itop: 1 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /export/air32/airops/1400/deskew.ph WAYNE init fft, calc slant range, load unpack, interpo 1.4478996E-02 reading motion compensation data WAYNE read motion compen 0.2420820 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 AnalogChirp>96032Br,fs,T,fc 96068 40.00000 22.50000 90.00000 10.00000 deltaphase -ashift: 2.2242721E-03 1.450000 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.2277360 start range comp, time = 0.844 WAYNE PREV 0.5045460 NUMBER OF PROCESSOR USED = 4 POINTER 274877909440 274877974976 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 3 ..... WAYNE IS IN Processing 3 to 2 by # 2 ==w out 3 -1998 PROCESSING KID# 4 ..... WAYNE IS IN Processing 3 to 2 by # 3 ==w out 3 -1998 PROCESSING KID# 2 ..... WAYNE IS IN Processing 2 to 2 by # 1 Processing block number 2 WAYNE PATCHES: 2048 10239 patch# 2 reference line: 6143 0.767 seconds. before reading done reading WAYNE load raw data , time = 52.02992200851440 ATTN ifrq ipol ln 4 1 10239 8.000000 IPOL, ITOP nblock 1 0 2 ****shift in azimuth (fractional pixel)= -0.4999078 shift in azimuth *fractional pixel= -0.4999078 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2566089630126953E-02 WAYNE Motion comp. added to patch, time = 21.89173901081085 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.6870965957641602E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 324.1322079896927 Writing 4192 lines of data to file WAYNE write output data 2.012638926506042 ==w out 2 0 2001 0 WAYNE PROCESS 400.0835969448090 ==w out 3 4195 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 1 by # 0 Processing block number 1 TESTING WHY -6.4741098E-03 1.8001201E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 0.752 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 56.31868803501129 ATTN ifrq ipol ln 4 1 8192 8.000000 IPOL, ITOP nblock 1 0 1 ****shift in azimuth (fractional pixel)= -0.4999149 shift in azimuth *fractional pixel= -0.4999149 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2516021728515625E-02 TESTING 0.0000000E+00 -47.18187 2.032746 WAYNE Motion comp. added to patch, time = 21.69555103778839 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.9399394989013672E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -47.18187 2.032746 HEY,dt,fract,ye,pe -0.4999149 1.000000 -6.4741098E-03 1.8001201E-02 WAYNE Azimuth compression done, time = 327.3946579694748 Writing 4192 lines of data to file WAYNE write output data 1.865714073181152 ==w out 1 0 2001 0 WAYNE PROCESS 407.2919150590897 ==w out 2 4195 1 7715309 0 2 7715891 0 3 7714953 0 4 7714349 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 8384kids= 4 Writing variable header... gather image from processor # 0 1 gather image from processor # 1 1 gather image from processor # 2 0 gather image from processor # 3 0 WAYNE gather images takes: 2.073480010032654 WAYNE LOOP TIME: 414.8030320405960 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air32/airops/1400/ts1400_l.hh_j /export/air36/airops/1400/ts1400_l.mocomph /export/air36/airops/1400/ts1400_l.dop /export/air36/airops/1400/ts1400_l.glb 2560 8384 update intf hdr ha: 8367.900 UPDATE: 2560 8384 3.331000 0.5144000 mocompfile /export/air36/airops/1400/ts1400_l.mocomph dopfile /export/air36/airops/1400/ts1400_l.dop globalfile /export/air36/airops/1400/ts1400_l.glb /export/air36/airops/1400/ts1400_l.glb 38 deskew line ra ha trc: 128.5260 249 9040.493 8367.900 54.57177 after deskew line ra ha trc: 128.5260 249 9040.493 8367.900 54.57177 lat1 lon1: 249 4.813032 114.7795 8384 last ra n_ns ns: 9040.493 0 1 8632 8384 lati loni: 8632 4.836271 114.8149 8632 1 center ra n_ns ns: 13300.84 1279 1279 4440 8384 lati loni: 4440 4.856148 114.7750 4440 2560 Updated paramater header in /export/air32/airops/1400/ts1400_l.hh_j WAYNE FINAL PROCESS 415.4375400543213 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 4 4192 1 4192 1 0 0 0 0 Name of data file to be deskewed? /export/air32/airops/1400/ts1400_l.hh_j Name of the doppler parameter file? /export/air36/airops/1400/ts1400_l.dop Name of the deskew file? /export/air32/airops/1400/deskew.lh Line up to another frequency [y/n]? y Name of the deskew file to line up to? /export/air32/airops/1400/deskew.ch Enter N_AZ, NA_VALID and the ratio of the pixel spacing of the file to line up to relative to the current pixel spacing. 4096 2208 1.000000 Name of the output file? /export/air36/airops/1400/ts1400_l.TT Name of the line output file? /export/air36/airops/1400/l_lines.dat NONE-SYMMETRIC PARALLEL JOBS Deskewing 2 patches Processing block number 1 patch iptc,sj,dgj,dgi,id: 1 1041 98 98 0 half line dmj dgc: 0 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1041 1 Zeroing lines in arrays Total # of output lines = 1 1040 1041 3137 0 2096 patch iptc,sj,dgj,dgi,id: 1 3137 98 98 2096 half line dmj dgc: 1 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3137 1041 Zeroing lines in arrays Total # of output lines = 1 3136 Processing block number 2 3137 3073 -15 -49 patch iptc,sj,dgj,dgi,id: 2 3073 83 98 -49 half line dmj dgc: 0 4048 240 114 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Zeroing lines in arrays Total # of output lines = 2 3136 3137 5169 0 2096 patch iptc,sj,dgj,dgi,id: 2 5169 83 83 2096 half line dmj dgc: 1 4048 240 114 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 5169 3137 Zeroing lines in arrays Total # of output lines = 2 5168 ia dmi dgi: 5169 240 83 Writing the last 2253 lines last half sj>s1 7422 5169 5168 Total # of output lines = 7421 Writing new header.. Closing files .. ileni= 39 ilend= 35 /export/air32/airops/1400/ts1400_l.hh_j.0 /export/air32/airops/1400/deskew.lh.0 /export/air32/airops/1400/ts1400_l.hh_j.1 /export/air32/airops/1400/deskew.lh.1 /export/air32/airops/1400/ts1400_l.hh_j.2 /export/air32/airops/1400/deskew.lh.2 /export/air32/airops/1400/ts1400_l.hh_j.3 /export/air32/airops/1400/deskew.lh.3 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.35 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 1 AZ patch size: 8192 What is the desired az fract (def=1.0)? fract #: 0.0000000E+00 Please enter the name of the sensor file. /export/air32/airops/1400/sensor_setup.vv96l_pr Please enter the name of the parameter file /export/air36/airops/1400/ts1400_l.par hddt: 96068 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 10240 lines Keeping 4192 data points per patch Near range (m) = 9040.540 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 2.400000 Radar wavelength (m) = 0.2422600 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = 0.0000000E+00 Range weighting coefficient = 0.1000000 Map height (m) = 78.60000 Transmit leverarm x,y,z = 0.5400000 0.5371945 -0.2652719 Receive leverarm x,y,z = 0.5400000 0.5371945 -0.2652719 Name of raw data file? /export/air32/airops/1400/l_vv Name of the mocomp data file? /export/air36/airops/1400/ts1400_l.mocompv Output file name w/o ext? /export/air36/airops/1400/ts1400_l Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. vv Raw DIR Path:/export/air32/airops/1400/ output filename: /export/air32/airops/1400/ts1400_l.vv_j *** ipol itop: 4 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /export/air32/airops/1400/deskew.lv WAYNE init fft, calc slant range, load unpack, interpo 1.5730999E-02 reading motion compensation data WAYNE read motion compen 0.2469800 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 AnalogChirp>96032Br,fs,T,fc 96068 40.00000 22.50000 90.00000 10.00000 deltaphase -ashift: 0.0000000E+00 0.0000000E+00 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.2277190 start range comp, time = 0.581 WAYNE PREV 0.5134340 NUMBER OF PROCESSOR USED = 4 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 3 ..... WAYNE IS IN Processing 3 to 2 by # 2 ==w out 3 -1998 PROCESSING KID# 4 ..... WAYNE IS IN Processing 3 to 2 by # 3 ==w out 3 -1998 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 1 by # 0 Processing block number 1 TESTING WHY -6.4741098E-03 1.8001201E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 0.862 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 72.41094100475311 ATTN ifrq ipol ln 0 1 8192 14.00000 IPOL, ITOP nblock 1 0 1 ****shift in azimuth (fractional pixel)= -0.4999149 shift in azimuth *fractional pixel= -0.4999149 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1856079101562500E-02 TESTING 0.0000000E+00 -47.83564 0.2210198 WAYNE Motion comp. added to patch, time = 31.87329196929932 WAYNE Doppler estimation done, time = 2.5987625122070313E-05 WAYNE write deskew done, time = 3.2789707183837891E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -47.83564 0.2210198 HEY,dt,fract,ye,pe -0.4999149 1.000000 -6.4741098E-03 1.8001201E-02 WAYNE Azimuth compression done, time = 287.9990381002426 Writing 4192 lines of data to file WAYNE write output data 2.238160014152527 ==w out 1 0 2001 0 WAYNE PROCESS 394.5386430025101 ==w out 2 4195 PROCESSING KID# 2 ..... WAYNE IS IN Processing 2 to 2 by # 1 Processing block number 2 WAYNE PATCHES: 2048 10239 patch# 2 reference line: 6143 0.899 seconds. before reading done reading WAYNE load raw data , time = 73.83218896389008 ATTN ifrq ipol ln 0 1 10239 14.00000 IPOL, ITOP nblock 1 0 2 ****shift in azimuth (fractional pixel)= -0.4999078 shift in azimuth *fractional pixel= -0.4999078 1.000000 WAYNE Motion comp. coeff. calculated, time = 0.1124669313430786 WAYNE Motion comp. added to patch, time = 34.76437699794769 WAYNE Doppler estimation done, time = 2.7060508728027344E-05 WAYNE write deskew done, time = 3.1709671020507813E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 293.2769370079041 Writing 4192 lines of data to file WAYNE write output data 2.085209965705872 ==w out 2 0 2001 0 WAYNE PROCESS 404.0765379667282 ==w out 3 4195 1 7689419 0 2 7717441 0 3 7717357 0 4 7716989 0 PROCESSING COMPLETED POINTER 274877909440 274877974976 icnt = 8384kids= 4 Writing variable header... gather image from processor # 0 1 gather image from processor # 1 1 gather image from processor # 2 0 gather image from processor # 3 0 WAYNE gather images takes: 7.2640061378479004E-02 WAYNE LOOP TIME: 408.6418930292130 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air32/airops/1400/ts1400_p.hh_j /export/air36/airops/1400/ts1400_p.mocomph /export/air36/airops/1400/ts1400_p.dop /export/air36/airops/1400/ts1400_p.glb 2560 8384 update intf hdr ha: 8367.900 UPDATE: 2560 8384 3.331000 0.5144000 mocompfile /export/air36/airops/1400/ts1400_p.mocomph dopfile /export/air36/airops/1400/ts1400_p.dop globalfile /export/air36/airops/1400/ts1400_p.glb /export/air36/airops/1400/ts1400_p.glb 38 deskew line ra ha trc: 128.5260 249 9040.493 8367.900 54.57177 after deskew line ra ha trc: 128.5260 249 9040.493 8367.900 54.57177 lat1 lon1: 249 4.813032 114.7795 8384 last ra n_ns ns: 9040.493 0 1 8632 8384 lati loni: 8632 4.836271 114.8149 8632 1 center ra n_ns ns: 13300.84 1279 1279 4440 8384 lati loni: 4440 4.856148 114.7750 4440 2560 Updated paramater header in /export/air32/airops/1400/ts1400_p.hh_j WAYNE FINAL PROCESS 409.7116850614548 PROCESSING KID# 2 ..... WAYNE IS IN Processing 2 to 2 by # 1 Processing block number 2 WAYNE PATCHES: 2048 10239 patch# 2 reference line: 6143 0.838 seconds. before reading done reading WAYNE load raw data , time = 60.57183098793030 ATTN ifrq ipol ln 4 4 10239 8.000000 IPOL, ITOP nblock 4 0 2 WAYNE Motion comp. coeff. calculated, time = 1.1631965637207031E-02 WAYNE Motion comp. added to patch, time = 25.61110198497772 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.6799440383911133E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 356.9221980571747 Writing 4192 lines of data to file WAYNE write output data 5.913575887680054 ==w out 2 0 2001 0 WAYNE PROCESS 449.0351039171219 ==w out 3 4195 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 1 by # 0 Processing block number 1 TESTING WHY -6.4741098E-03 1.8001201E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 0.824 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 55.60626196861267 ATTN ifrq ipol ln 4 4 8192 8.000000 IPOL, ITOP nblock 4 0 1 WAYNE Motion comp. coeff. calculated, time = 1.1850953102111816E-02 TESTING 0.0000000E+00 -47.83472 0.1490096 WAYNE Motion comp. added to patch, time = 29.54397201538086 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.6650428771972656E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -47.83472 0.1490096 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -6.4741098E-03 1.8001201E-02 WAYNE Azimuth compression done, time = 363.8784290552139 Writing 4192 lines of data to file WAYNE write output data 2.096585035324097 ==w out 1 0 2001 0 WAYNE PROCESS 451.1413979530334 ==w out 2 4195 1 7720022 0 2 7722166 0 3 7721419 0 4 7722048 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 8384kids= 4 Writing variable header... gather image from processor # 0 1 gather image from processor # 1 1 gather image from processor # 2 0 gather image from processor # 3 0 WAYNE gather images takes: 8.2862973213195801E-02 WAYNE LOOP TIME: 456.0367380380630 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air32/airops/1400/ts1400_l.vv_j /export/air36/airops/1400/ts1400_l.mocompv /export/air36/airops/1400/ts1400_l.dop /export/air36/airops/1400/ts1400_l.glb 2560 8384 update intf hdr ha: 8367.900 UPDATE: 2560 8384 3.331000 0.5144000 mocompfile /export/air36/airops/1400/ts1400_l.mocompv dopfile /export/air36/airops/1400/ts1400_l.dop globalfile /export/air36/airops/1400/ts1400_l.glb /export/air36/airops/1400/ts1400_l.glb 38 deskew line ra ha trc: 128.5260 249 9040.493 8367.900 54.57177 after deskew line ra ha trc: 128.5260 249 9040.493 8367.900 54.57177 lat1 lon1: 249 4.813032 114.7795 8384 last ra n_ns ns: 9040.493 0 1 8632 8384 lati loni: 8632 4.836271 114.8149 8632 1 center ra n_ns ns: 13300.84 1279 1279 4440 8384 lati loni: 4440 4.856148 114.7750 4440 2560 Updated paramater header in /export/air32/airops/1400/ts1400_l.vv_j WAYNE FINAL PROCESS 456.7179319858551 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 4 4192 1 4192 1 0 0 0 0 Name of data file to be deskewed? /export/air32/airops/1400/ts1400_p.hh_j Name of the doppler parameter file? /export/air36/airops/1400/ts1400_p.dop Name of the deskew file? /export/air32/airops/1400/deskew.ph Line up to another frequency [y/n]? y Name of the deskew file to line up to? /export/air32/airops/1400/deskew.ch Enter N_AZ, NA_VALID and the ratio of the pixel spacing of the file to line up to relative to the current pixel spacing. 4096 2208 1.000000 Name of the output file? /export/air36/airops/1400/ts1400_p.hh Name of the line output file? /export/air36/airops/1400/p_lines.dat NONE-SYMMETRIC PARALLEL JOBS Deskewing 2 patches Processing block number 1 patch iptc,sj,dgj,dgi,id: 1 1041 98 98 0 half line dmj dgc: 0 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1041 1 Zeroing lines in arrays Total # of output lines = 1 1040 1041 3137 0 2096 patch iptc,sj,dgj,dgi,id: 1 3137 98 98 2096 half line dmj dgc: 1 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3137 1041 Zeroing lines in arrays Total # of output lines = 1 3136 Processing block number 2 3137 3073 -15 -49 patch iptc,sj,dgj,dgi,id: 2 3073 83 98 -49 half line dmj dgc: 0 4048 240 114 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Zeroing lines in arrays Total # of output lines = 2 3136 3137 5169 0 2096 patch iptc,sj,dgj,dgi,id: 2 5169 83 83 2096 half line dmj dgc: 1 4048 240 114 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 5169 3137 Zeroing lines in arrays Total # of output lines = 2 5168 ia dmi dgi: 5169 240 83 Writing the last 2253 lines last half sj>s1 7422 5169 5168 Total # of output lines = 7421 Writing new header.. Closing files .. ileni= 39 ilend= 35 /export/air32/airops/1400/ts1400_p.hh_j.0 /export/air32/airops/1400/deskew.ph.0 /export/air32/airops/1400/ts1400_p.hh_j.1 /export/air32/airops/1400/deskew.ph.1 /export/air32/airops/1400/ts1400_p.hh_j.2 /export/air32/airops/1400/deskew.ph.2 /export/air32/airops/1400/ts1400_p.hh_j.3 /export/air32/airops/1400/deskew.ph.3 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.35 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 1 AZ patch size: 8192 What is the desired az fract (def=1.0)? fract #: 1.000000 Please enter the name of the sensor file. /export/air32/airops/1400/sensor_setup.pp Please enter the name of the parameter file /export/air36/airops/1400/ts1400_p.par hddt: 96068 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 10240 lines Keeping 4192 data points per patch Near range (m) = 9040.540 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 3.500000 Radar wavelength (m) = 0.7012700 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = -1.450000 Range weighting coefficient = 0.1000000 Map height (m) = 78.60000 Transmit leverarm x,y,z = 2.030000 0.5300000 -0.2200000 Receive leverarm x,y,z = 2.030000 0.5300000 -0.2200000 Name of raw data file? /export/air32/airops/1400/p_hv Name of the mocomp data file? /export/air36/airops/1400/ts1400_p.mocomph Output file name w/o ext? /export/air36/airops/1400/ts1400_p Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. hv Raw DIR Path:/export/air32/airops/1400/ output filename: /export/air32/airops/1400/ts1400_p.hv_j *** ipol itop: 2 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /export/air32/airops/1400/deskew.ph WAYNE init fft, calc slant range, load unpack, interpo 1.5682004E-02 reading motion compensation data WAYNE read motion compen 0.2468520 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 AnalogChirp>96032Br,fs,T,fc 96068 40.00000 22.50000 90.00000 10.00000 deltaphase -ashift: 2.2242721E-03 1.450000 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.2255250 start range comp, time = 2.405 WAYNE PREV 0.5106251 NUMBER OF PROCESSOR USED = 4 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 3 ..... WAYNE IS IN Processing 3 to 2 by # 2 ==w out 3 -1998 PROCESSING KID# 4 ..... WAYNE IS IN Processing 3 to 2 by # 3 ==w out 3 -1998 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 4 4192 1 4192 1 0 0 0 0 Name of data file to be deskewed? /export/air32/airops/1400/ts1400_l.vv_j Name of the doppler parameter file? /export/air36/airops/1400/ts1400_l.dop Name of the deskew file? /export/air32/airops/1400/deskew.lv Line up to another frequency [y/n]? y Name of the deskew file to line up to? /export/air32/airops/1400/deskew.ch Enter N_AZ, NA_VALID and the ratio of the pixel spacing of the file to line up to relative to the current pixel spacing. 4096 2208 1.000000 Name of the output file? /export/air36/airops/1400/ts1400_l.BB Name of the line output file? /export/air36/airops/1400/l_lines.dat NONE-SYMMETRIC PARALLEL JOBS Deskewing 2 patches Processing block number 1 patch iptc,sj,dgj,dgi,id: 1 1041 98 98 0 half line dmj dgc: 0 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1041 1 Zeroing lines in arrays Total # of output lines = 1 1040 1041 3137 0 2096 patch iptc,sj,dgj,dgi,id: 1 3137 98 98 2096 half line dmj dgc: 1 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3137 1041 Zeroing lines in arrays Total # of output lines = 1 3136 Processing block number 2 3137 3073 -15 -49 patch iptc,sj,dgj,dgi,id: 2 3073 83 98 -49 half line dmj dgc: 0 4048 240 114 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Zeroing lines in arrays Total # of output lines = 2 3136 3137 5169 0 2096 patch iptc,sj,dgj,dgi,id: 2 5169 83 83 2096 half line dmj dgc: 1 4048 240 114 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 5169 3137 Zeroing lines in arrays Total # of output lines = 2 5168 ia dmi dgi: 5169 240 83 Writing the last 2253 lines last half sj>s1 7422 5169 5168 Total # of output lines = 7421 Writing new header.. Closing files .. ileni= 39 ilend= 35 /export/air32/airops/1400/ts1400_l.vv_j.0 /export/air32/airops/1400/deskew.lv.0 /export/air32/airops/1400/ts1400_l.vv_j.1 /export/air32/airops/1400/deskew.lv.1 /export/air32/airops/1400/ts1400_l.vv_j.2 /export/air32/airops/1400/deskew.lv.2 /export/air32/airops/1400/ts1400_l.vv_j.3 /export/air32/airops/1400/deskew.lv.3 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.9326087 39.25508 146 -0.063 3046 -0.031 39.25508 0.000044 0.000242 -0.000009 e vector 2 error r_peak,r_snr = 0.9552144 30.70321 246 -0.063 3046 -0.031 30.70321 0.000032 0.000164 0.000000 r_peak,r_snr = 0.9306834 61.97155 346 -0.031 3046 -0.063 61.97155 0.000038 0.000168 -0.000002 r_peak,r_snr = 0.9300452 31.25671 446 -0.063 3046 -0.063 31.25671 0.000048 0.000201 -0.000002 r_peak,r_snr = 0.9418819 37.93736 546 -0.063 3046 -0.063 37.93736 0.000039 0.000161 -0.000005 r_peak,r_snr = 0.9356464 52.95935 646 -0.094 3046 -0.094 52.95935 0.000042 0.000148 -0.000004 r_peak,r_snr = 0.9234667 48.17432 746 -0.094 3046 -0.063 48.17432 0.000043 0.000200 -0.000001 r_peak,r_snr = 0.9328145 51.69231 846 -0.094 3046 0.000 51.69231 0.000042 0.000177 -0.000006 r_peak,r_snr = 0.9077082 59.47118 946 -0.125 3046 -0.063 59.47118 0.000054 0.000243 0.000000 r_peak,r_snr = 0.9173874 58.36309 1046 -0.094 3046 -0.094 58.36309 0.000055 0.000215 -0.000002 r_peak,r_snr = 0.9283444 39.09758 1146 -0.063 3046 -0.063 39.09758 0.000050 0.000214 0.000001 r_peak,r_snr = 0.9173263 71.70595 1246 -0.125 3046 -0.063 71.70595 0.000044 0.000212 -0.000003 r_peak,r_snr = 0.9217188 38.88534 1346 -0.156 3046 -0.031 38.88534 0.000052 0.000201 -0.000001 r_peak,r_snr = 0.9274762 48.16702 1446 -0.125 3046 -0.031 48.16702 0.000046 0.000213 -0.000004 r_peak,r_snr = 0.9046255 58.16042 1546 -0.156 3046 0.000 58.16042 0.000059 0.000243 0.000000 r_peak,r_snr = 0.8991259 107.6415 1646 -0.156 3046 -0.063 107.64153 0.000052 0.000214 -0.000001 r_peak,r_snr = 0.9306523 9.182469 1746 -0.156 3046 -0.031 9.18247 0.000057 0.000287 -0.000002 r_peak,r_snr = 0.8236018 96.56773 1846 -0.125 3046 -0.063 96.56773 0.000106 0.000461 -0.000005 r_peak,r_snr = 0.8744748 96.80803 1946 -0.094 3046 -0.063 96.80803 0.000066 0.000287 0.000002 r_peak,r_snr = 0.8909385 92.12913 2046 -0.094 3046 0.000 92.12913 0.000060 0.000230 -0.000001 At line = 3400 Reading in data.... r_peak,r_snr = 0.9306841 36.97360 146 -0.063 3446 0.000 36.97360 0.000042 0.000211 -0.000001 r_peak,r_snr = 0.9157124 67.73968 246 -0.063 3446 0.000 67.73968 0.000047 0.000201 -0.000002 r_peak,r_snr = 0.9274458 60.71112 346 -0.063 3446 0.031 60.71112 0.000040 0.000181 -0.000001 r_peak,r_snr = 0.9302077 39.40655 446 -0.063 3446 0.000 39.40655 0.000045 0.000218 -0.000007 r_peak,r_snr = 0.9434559 38.90598 546 -0.094 3446 -0.063 38.90598 0.000038 0.000147 0.000000 r_peak,r_snr = 0.9242131 63.45596 646 -0.094 3446 -0.031 63.45596 0.000042 0.000179 0.000001 r_peak,r_snr = 0.9417462 27.17556 746 -0.094 3446 -0.031 27.17556 0.000038 0.000153 0.000000 r_peak,r_snr = 0.9276550 31.09720 846 -0.125 3446 -0.125 31.09720 0.000047 0.000220 -0.000005 r_peak,r_snr = 0.9143247 70.71548 946 -0.094 3446 -0.063 70.71548 0.000050 0.000219 0.000000 r_peak,r_snr = 0.9389991 30.34913 1046 -0.125 3446 0.000 30.34913 0.000043 0.000180 0.000001 r_peak,r_snr = 0.9239464 31.88881 1146 -0.094 3446 -0.094 31.88881 0.000052 0.000206 0.000007 r_peak,r_snr = 0.9386103 33.61525 1246 -0.125 3446 -0.063 33.61525 0.000044 0.000190 0.000001 r_peak,r_snr = 0.9271024 38.42312 1346 -0.125 3446 0.000 38.42312 0.000046 0.000218 -0.000003 r_peak,r_snr = 0.9305174 22.78740 1446 -0.156 3446 0.000 22.78740 0.000058 0.000219 -0.000003 r_peak,r_snr = 0.9080918 54.12745 1546 -0.188 3446 0.063 54.12745 0.000061 0.000271 0.000000 r_peak,r_snr = 0.9127870 77.37251 1646 -0.125 3446 -0.031 77.37251 0.000048 0.000204 0.000000 r_peak,r_snr = 0.9381407 9.890451 1746 -0.125 3446 0.000 9.89045 0.000050 0.000233 0.000000 r_peak,r_snr = 0.8372735 76.65544 1846 -0.094 3446 0.000 76.65544 0.000094 0.000458 -0.000005 r_peak,r_snr = 0.8643097 89.08739 1946 -0.094 3446 0.000 89.08739 0.000078 0.000323 -0.000002 r_peak,r_snr = 0.8824647 90.80626 2046 -0.094 3446 -0.063 90.80626 0.000065 0.000283 0.000002 At line = 3800 Reading in data.... r_peak,r_snr = 0.9097446 54.27490 146 -0.031 3846 -0.094 54.27490 0.000054 0.000214 0.000002 r_peak,r_snr = 0.9329321 41.96432 246 -0.031 3846 -0.063 41.96432 0.000044 0.000160 -0.000001 r_peak,r_snr = 0.9631028 34.68860 346 -0.063 3846 -0.125 34.68860 0.000023 0.000137 0.000000 r_peak,r_snr = 0.9522799 21.80565 446 -0.063 3846 -0.125 21.80565 0.000036 0.000195 0.000003 r_peak,r_snr = 0.9285353 44.87066 546 -0.094 3846 -0.125 44.87066 0.000044 0.000164 0.000000 r_peak,r_snr = 0.9328774 72.46423 646 -0.063 3846 -0.125 72.46423 0.000037 0.000144 -0.000003 r_peak,r_snr = 0.9292683 38.25965 746 -0.094 3846 -0.156 38.25965 0.000045 0.000194 0.000001 r_peak,r_snr = 0.9297076 42.01019 846 -0.094 3846 -0.125 42.01019 0.000044 0.000168 -0.000003 r_peak,r_snr = 0.9144377 65.23901 946 -0.125 3846 -0.063 65.23901 0.000049 0.000197 -0.000002 r_peak,r_snr = 0.9221426 34.74221 1046 -0.125 3846 -0.188 34.74221 0.000055 0.000228 0.000000 r_peak,r_snr = 0.9231214 53.94115 1146 -0.125 3846 -0.156 53.94115 0.000051 0.000195 -0.000001 r_peak,r_snr = 0.9149094 52.98316 1246 -0.125 3846 -0.125 52.98316 0.000050 0.000216 -0.000004 r_peak,r_snr = 0.9074697 29.76548 1346 -0.125 3846 -0.156 29.76548 0.000065 0.000280 -0.000002 r_peak,r_snr = 0.9156824 25.56048 1446 -0.125 3846 -0.094 25.56048 0.000066 0.000299 -0.000002 r_peak,r_snr = 0.8890406 38.07540 1546 -0.156 3846 -0.156 38.07540 0.000071 0.000363 -0.000009 r_peak,r_snr = 0.9123603 67.21168 1646 -0.125 3846 -0.125 67.21168 0.000054 0.000213 0.000001 r_peak,r_snr = 0.9584771 7.227731 1746 -0.125 3846 -0.031 7.22773 0.000047 0.000189 0.000000 r_peak,r_snr = 0.8912848 76.23180 1846 -0.094 3846 -0.094 76.23180 0.000062 0.000248 -0.000001 r_peak,r_snr = 0.8447810 84.50923 1946 -0.094 3846 -0.156 84.50923 0.000090 0.000411 0.000001 r_peak,r_snr = 0.8924333 95.30756 2046 -0.094 3846 -0.219 95.30756 0.000057 0.000253 -0.000002 At line = 4200 Reading in data.... r_peak,r_snr = 0.9352607 28.69081 146 -0.031 4246 -0.188 28.69081 0.000045 0.000259 -0.000001 r_peak,r_snr = 0.9101140 67.82959 246 -0.031 4246 -0.125 67.82959 0.000053 0.000217 -0.000002 r_peak,r_snr = 0.9669193 23.93557 e vector 2 error 346 -0.063 4246 -0.125 23.93557 0.000024 0.000140 0.000001 r_peak,r_snr = 0.9490777 25.80464 446 -0.063 4246 -0.188 25.80464 0.000034 0.000159 -0.000002 r_peak,r_snr = 0.9492239 46.21213 546 -0.094 4246 -0.125 46.21213 0.000031 0.000151 0.000001 r_peak,r_snr = 0.9357548 55.89917 646 -0.094 4246 -0.156 55.89917 0.000035 0.000172 -0.000003 r_peak,r_snr = 0.9160823 64.64402 746 -0.063 4246 -0.063 64.64402 0.000043 0.000204 0.000000 r_peak,r_snr = 0.9174885 54.90534 846 -0.094 4246 -0.188 54.90534 0.000047 0.000208 -0.000004 r_peak,r_snr = 0.9410535 24.34139 946 -0.125 4246 -0.063 24.34139 0.000044 0.000196 0.000002 r_peak,r_snr = 0.9355350 24.86480 1046 -0.125 4246 -0.156 24.86480 0.000045 0.000192 0.000004 r_peak,r_snr = 0.9304234 64.40059 1146 -0.094 4246 -0.156 64.40059 0.000042 0.000174 -0.000005 r_peak,r_snr = 0.9273028 33.72590 1246 -0.094 4246 -0.125 33.72590 0.000049 0.000218 -0.000005 r_peak,r_snr = 0.9046041 86.98138 1346 -0.125 4246 -0.125 86.98138 0.000050 0.000227 -0.000004 r_peak,r_snr = 0.8700836 77.32027 1446 -0.125 4246 -0.125 77.32027 0.000076 0.000342 0.000006 r_peak,r_snr = 0.8938307 84.74926 1546 -0.156 4246 -0.188 84.74926 0.000057 0.000216 -0.000003 r_peak,r_snr = 0.9109107 78.94122 1646 -0.125 4246 -0.156 78.94122 0.000051 0.000198 -0.000002 r_peak,r_snr = 0.9422100 6.519138 1746 -0.156 4246 -0.125 6.51914 0.000059 0.000264 -0.000004 r_peak,r_snr = 0.8611867 42.10891 1846 -0.094 4246 -0.156 42.10891 0.000092 0.000385 0.000012 r_peak,r_snr = 0.8867791 71.19197 1946 -0.125 4246 -0.094 71.19197 0.000069 0.000273 0.000002 r_peak,r_snr = 0.8884917 111.4518 2046 -0.094 4246 -0.063 111.45181 0.000059 0.000229 0.000001 At line = 4600 Reading in data.... r_peak,r_snr = 0.9090275 40.77184 146 0.000 4646 -0.125 40.77184 0.000060 0.000250 -0.000008 r_peak,r_snr = 0.9274514 52.48964 246 -0.031 4646 -0.125 52.48964 0.000044 0.000192 -0.000002 r_peak,r_snr = 0.9423713 51.40302 346 -0.031 4646 -0.125 51.40302 0.000034 0.000146 -0.000003 r_peak,r_snr = 0.9601789 24.93746 446 -0.094 4646 -0.094 24.93746 0.000028 0.000136 0.000005 r_peak,r_snr = 0.9429342 24.03166 546 -0.094 4646 -0.125 24.03166 0.000040 0.000194 -0.000001 r_peak,r_snr = 0.9241416 79.26520 646 -0.094 4646 -0.125 79.26520 0.000039 0.000177 0.000000 r_peak,r_snr = 0.9357705 48.65487 746 -0.094 4646 -0.125 48.65487 0.000040 0.000166 -0.000004 r_peak,r_snr = 0.9346183 44.94085 846 -0.063 4646 -0.156 44.94085 0.000041 0.000182 -0.000006 r_peak,r_snr = 0.9208928 58.56311 946 -0.125 4646 -0.125 58.56311 0.000046 0.000220 0.000001 r_peak,r_snr = 0.9445457 37.98168 1046 -0.125 4646 -0.094 37.98168 0.000038 0.000168 -0.000004 r_peak,r_snr = 0.9199440 61.46374 1146 -0.094 4646 -0.188 61.46374 0.000050 0.000212 -0.000002 r_peak,r_snr = 0.9290045 47.62669 1246 -0.094 4646 -0.125 47.62669 0.000045 0.000194 0.000001 r_peak,r_snr = 0.9220948 63.24329 1346 -0.125 4646 -0.094 63.24329 0.000047 0.000210 -0.000003 r_peak,r_snr = 0.9168027 33.74469 1446 -0.125 4646 -0.094 33.74469 0.000051 0.000237 0.000003 r_peak,r_snr = 0.9080102 42.93863 1546 -0.125 4646 -0.156 42.93863 0.000054 0.000236 0.000000 r_peak,r_snr = 0.8999712 63.64146 1646 -0.125 4646 -0.125 63.64146 0.000065 0.000251 0.000004 r_peak,r_snr = 0.9409829 6.450103 1746 -0.156 4646 -0.156 6.45010 0.000070 0.000258 0.000001 r_peak,r_snr = 0.8563203 76.20459 1846 -0.125 4646 -0.125 76.20459 0.000087 0.000407 -0.000005 r_peak,r_snr = 0.8982849 101.0331 1946 -0.125 4646 -0.094 101.03305 0.000053 0.000217 0.000002 r_peak,r_snr = 0.8934824 97.33131 2046 -0.094 4646 -0.094 97.33131 0.000059 0.000248 0.000004 At line = 5000 Reading in data.... r_peak,r_snr = 0.9102502 22.92746 146 0.000 5046 -0.063 22.92746 0.000068 0.000335 -0.000014 r_peak,r_snr = 0.9339129 54.51144 246 -0.031 5046 -0.063 54.51144 0.000040 0.000165 0.000003 r_peak,r_snr = 0.9367266 39.37691 346 -0.063 5046 -0.063 39.37691 0.000045 0.000183 -0.000005 r_peak,r_snr = 0.9499457 32.07120 446 -0.094 5046 -0.094 32.07120 0.000034 0.000174 0.000002 r_peak,r_snr = 0.9259129 36.28999 546 -0.094 5046 -0.188 36.28999 0.000046 0.000220 -0.000002 r_peak,r_snr = 0.9451725 54.53224 646 -0.063 5046 -0.094 54.53224 0.000033 0.000130 -0.000004 r_peak,r_snr = 0.9578301 27.46789 746 -0.094 5046 0.000 27.46789 0.000033 0.000135 -0.000001 r_peak,r_snr = 0.9378204 32.99856 846 -0.094 5046 -0.031 32.99856 0.000042 0.000172 -0.000004 r_peak,r_snr = 0.9337378 40.96584 946 -0.125 5046 -0.125 40.96584 0.000041 0.000198 -0.000003 r_peak,r_snr = 0.9251159 58.26210 1046 -0.125 5046 0.000 58.26210 0.000046 0.000190 0.000000 r_peak,r_snr = 0.9362001 64.86623 1146 -0.094 5046 -0.125 64.86623 0.000036 0.000163 -0.000001 r_peak,r_snr = 0.9088270 70.56634 1246 -0.094 5046 -0.125 70.56634 0.000053 0.000218 0.000001 r_peak,r_snr = 0.9190799 72.29548 1346 -0.094 5046 -0.063 72.29548 0.000043 0.000198 0.000002 r_peak,r_snr = 0.9314885 29.19049 1446 -0.125 5046 0.063 29.19049 0.000047 0.000211 -0.000004 r_peak,r_snr = 0.9079905 92.75231 1546 -0.125 5046 0.000 92.75231 0.000050 0.000214 0.000001 r_peak,r_snr = 0.9078804 73.43179 1646 -0.125 5046 -0.063 73.43179 0.000056 0.000217 0.000003 r_peak,r_snr = 0.9270169 6.907356 1746 -0.125 5046 0.000 6.90736 0.000070 0.000294 0.000005 r_peak,r_snr = 0.8481021 108.0063 1846 -0.094 5046 0.000 108.00626 0.000082 0.000328 -0.000001 r_peak,r_snr = 0.8946503 92.35925 1946 -0.094 5046 -0.094 92.35925 0.000057 0.000229 0.000003 r_peak,r_snr = 0.8966196 95.53114 2046 -0.094 5046 -0.094 95.53114 0.000056 0.000237 -0.000005 At line = 5400 Reading in data.... r_peak,r_snr = 0.9568817 22.14480 146 -0.063 5446 0.031 22.14480 0.000031 0.000151 0.000000 r_peak,r_snr = 0.9348636 61.89705 246 -0.031 5446 -0.031 61.89705 0.000038 0.000154 0.000000 r_peak,r_snr = 0.9573964 32.47429 346 -0.063 5446 0.031 32.47429 0.000029 0.000127 -0.000001 r_peak,r_snr = 0.9134604 63.82360 446 -0.063 5446 -0.031 63.82360 0.000050 0.000200 -0.000002 r_peak,r_snr = 0.9218873 34.63370 546 -0.094 5446 -0.031 34.63370 0.000049 0.000231 0.000005 r_peak,r_snr = 0.9316413 37.50089 646 -0.094 5446 -0.031 37.50089 0.000043 0.000183 -0.000002 r_peak,r_snr = 0.9234147 65.33215 746 -0.063 5446 -0.063 65.33215 0.000043 0.000177 -0.000001 r_peak,r_snr = 0.9342420 39.87403 846 -0.094 5446 0.000 39.87403 0.000045 0.000209 -0.000006 r_peak,r_snr = 0.9103611 77.23594 946 -0.125 5446 0.000 77.23594 0.000050 0.000216 -0.000004 r_peak,r_snr = 0.9315516 44.30822 1046 -0.094 5446 -0.063 44.30822 0.000045 0.000178 0.000000 r_peak,r_snr = 0.9151447 47.68954 1146 -0.094 5446 -0.094 47.68954 0.000058 0.000227 0.000000 r_peak,r_snr = 0.9195133 58.07138 1246 -0.125 5446 -0.031 58.07138 0.000048 0.000204 -0.000001 r_peak,r_snr = 0.9165778 61.17430 1346 -0.094 5446 0.031 61.17430 0.000045 0.000199 -0.000004 r_peak,r_snr = 0.8994411 104.1836 1446 -0.125 5446 -0.031 104.18358 0.000052 0.000206 0.000003 r_peak,r_snr = 0.9041328 98.11288 1546 -0.125 5446 0.000 98.11288 0.000053 0.000194 -0.000004 r_peak,r_snr = 0.9061590 90.82674 1646 -0.156 5446 0.000 90.82674 0.000052 0.000219 -0.000004 r_peak,r_snr = 0.9255424 8.100018 1746 -0.125 5446 -0.031 8.10002 0.000060 0.000347 0.000004 r_peak,r_snr = 0.8565600 84.15219 1846 -0.094 5446 -0.031 84.15219 0.000083 0.000372 0.000006 r_peak,r_snr = 0.9005976 86.97384 1946 -0.125 5446 -0.063 86.97384 0.000057 0.000230 0.000007 r_peak,r_snr = 0.8816152 86.03841 2046 -0.094 5446 -0.063 86.03841 0.000068 0.000298 -0.000009 At line = 5800 Reading in data.... r_peak,r_snr = 0.9424093 32.13970 146 -0.031 5846 -0.094 32.13970 0.000040 0.000204 0.000002 r_peak,r_snr = 0.9150011 30.99482 246 -0.031 5846 -0.063 30.99482 0.000055 0.000279 0.000000 r_peak,r_snr = 0.9217985 53.21885 346 -0.031 5846 -0.031 53.21885 0.000046 0.000182 -0.000001 r_peak,r_snr = 0.9229372 66.23598 446 -0.063 5846 -0.094 66.23598 0.000044 0.000196 0.000003 r_peak,r_snr = 0.9258886 37.17434 546 -0.094 5846 -0.063 37.17434 0.000048 0.000190 -0.000004 r_peak,r_snr = 0.9306282 21.76518 646 -0.063 5846 -0.031 21.76518 0.000053 0.000208 -0.000005 r_peak,r_snr = 0.9281808 47.52093 746 -0.094 5846 -0.156 47.52093 0.000044 0.000175 -0.000001 r_peak,r_snr = 0.9299513 59.84425 846 -0.094 5846 -0.125 59.84425 0.000043 0.000161 -0.000003 r_peak,r_snr = 0.9170381 42.22361 946 -0.125 5846 -0.125 42.22361 0.000056 0.000248 -0.000007 r_peak,r_snr = 0.9260502 39.67799 1046 -0.125 5846 -0.094 39.67799 0.000049 0.000215 0.000003 r_peak,r_snr = 0.9234788 28.64370 1146 -0.094 5846 -0.063 28.64370 0.000051 0.000230 0.000004 r_peak,r_snr = 0.9089466 35.80207 1246 -0.094 5846 0.031 35.80207 0.000058 0.000282 -0.000001 r_peak,r_snr = 0.9444890 22.95505 1346 -0.094 5846 -0.063 22.95505 0.000039 0.000166 -0.000003 r_peak,r_snr = 0.9092492 33.62378 1446 -0.156 5846 -0.031 33.62378 0.000063 0.000279 0.000001 r_peak,r_snr = 0.8815483 90.19427 1546 -0.156 5846 -0.125 90.19427 0.000066 0.000300 -0.000002 r_peak,r_snr = 0.8974590 105.5333 1646 -0.125 5846 -0.125 105.53328 0.000052 0.000236 -0.000004 r_peak,r_snr = 0.9263458 11.83313 1746 -0.156 5846 -0.063 11.83313 0.000061 0.000304 0.000005 r_peak,r_snr = 0.8727509 88.54808 1846 -0.125 5846 0.000 88.54808 0.000072 0.000299 -0.000003 r_peak,r_snr = 0.8772711 86.59300 1946 -0.094 5846 -0.063 86.59300 0.000067 0.000275 0.000001 r_peak,r_snr = 0.8880059 85.69847 2046 -0.094 5846 -0.094 85.69847 0.000064 0.000270 -0.000002 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Multi-look Program ***** ***** ***** ***** This program creates a real multi- ***** ***** look file from a complex single look ***** ***** file. The real values represent ***** ***** POWER, not amplitude. Multi-looking ***** ***** is performed by summing POWER in the ***** ***** azimuth direction only. ***** ***** ***** ************************************************** Enter the name of the complex file. Enter the desired number of looks. Enter the output file name output azspace, azres: 9.259200 43.20000 + 100 + 200 + 300 + 400 PROCESSING KID# 2 ..... WAYNE IS IN Processing 2 to 2 by # 1 Processing block number 2 WAYNE PATCHES: 2048 10239 patch# 2 reference line: 6143 2.759 seconds. before reading done reading WAYNE load raw data , time = 48.69302105903625 ATTN ifrq ipol ln 0 2 10239 8.000000 IPOL, ITOP nblock 2 0 2 ****shift in azimuth (fractional pixel)= -0.4999078 shift in azimuth *fractional pixel= -0.4999078 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2173056602478027E-02 WAYNE Motion comp. added to patch, time = 17.50123095512390 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.6499032974243164E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 291.0116620063782 Writing 4192 lines of data to file WAYNE write output data 2.414607048034668 ==w out 2 0 2001 0 WAYNE PROCESS 359.6372220516205 ==w out 3 4195 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 1 by # 0 Processing block number 1 TESTING WHY -6.4741098E-03 1.8001201E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 2.746 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 48.86382603645325 ATTN ifrq ipol ln 0 2 8192 8.000000 IPOL, ITOP nblock 2 0 1 ****shift in azimuth (fractional pixel)= -0.4999149 shift in azimuth *fractional pixel= -0.4999149 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2156009674072266E-02 TESTING 0.0000000E+00 -47.83564 0.2210198 WAYNE Motion comp. added to patch, time = 17.43405699729919 WAYNE Doppler estimation done, time = 1.1920928955078125E-05 WAYNE write deskew done, time = 2.6799440383911133E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -47.83564 0.2210198 HEY,dt,fract,ye,pe -0.4999149 1.000000 -6.4741098E-03 1.8001201E-02 WAYNE Azimuth compression done, time = 292.3190690279007 Writing 4192 lines of data to file WAYNE write output data 2.293894052505493 ==w out 1 0 2001 0 WAYNE PROCESS 360.9274460077286 ==w out 2 4195 1 7725183 0 2 7725807 0 3 7725014 0 4 7726444 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 8384kids= 4 Writing variable header... gather image from processor # 0 1 gather image from processor # 1 1 gather image from processor # 2 0 gather image from processor # 3 0 WAYNE gather images takes: 3.7880063056945801E-02 WAYNE LOOP TIME: 365.5970079898834 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air32/airops/1400/ts1400_p.hv_j /export/air36/airops/1400/ts1400_p.mocomph /export/air36/airops/1400/ts1400_p.dop /export/air36/airops/1400/ts1400_p.glb 2560 8384 update intf hdr ha: 8367.900 UPDATE: 2560 8384 3.331000 0.5144000 mocompfile /export/air36/airops/1400/ts1400_p.mocomph dopfile /export/air36/airops/1400/ts1400_p.dop globalfile /export/air36/airops/1400/ts1400_p.glb /export/air36/airops/1400/ts1400_p.glb 38 deskew line ra ha trc: 128.5260 249 9040.493 8367.900 54.57177 after deskew line ra ha trc: 128.5260 249 9040.493 8367.900 54.57177 lat1 lon1: 249 4.813032 114.7795 8384 last ra n_ns ns: 9040.493 0 1 8632 8384 lati loni: 8632 4.836271 114.8149 8632 1 center ra n_ns ns: 13300.84 1279 1279 4440 8384 lati loni: 4440 4.856148 114.7750 4440 2560 Updated paramater header in /export/air32/airops/1400/ts1400_p.hv_j WAYNE FINAL PROCESS 368.0669360160828 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 4 4192 1 4192 1 0 0 0 0 Name of data file to be deskewed? /export/air32/airops/1400/ts1400_p.hv_j Name of the doppler parameter file? /export/air36/airops/1400/ts1400_p.dop Name of the deskew file? /export/air32/airops/1400/deskew.ph Line up to another frequency [y/n]? y Name of the deskew file to line up to? /export/air32/airops/1400/deskew.ch Enter N_AZ, NA_VALID and the ratio of the pixel spacing of the file to line up to relative to the current pixel spacing. 4096 2208 1.000000 Name of the output file? /export/air36/airops/1400/ts1400_p.hv Name of the line output file? /export/air36/airops/1400/p_lines.dat NONE-SYMMETRIC PARALLEL JOBS Deskewing 2 patches Processing block number 1 patch iptc,sj,dgj,dgi,id: 1 1041 98 98 0 half line dmj dgc: 0 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1041 1 Zeroing lines in arrays Total # of output lines = 1 1040 1041 3137 0 2096 patch iptc,sj,dgj,dgi,id: 1 3137 98 98 2096 half line dmj dgc: 1 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3137 1041 Zeroing lines in arrays Total # of output lines = 1 3136 Processing block number 2 3137 3073 -15 -49 patch iptc,sj,dgj,dgi,id: 2 3073 83 98 -49 half line dmj dgc: 0 4048 240 114 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Zeroing lines in arrays Total # of output lines = 2 3136 3137 5169 0 2096 patch iptc,sj,dgj,dgi,id: 2 5169 83 83 2096 half line dmj dgc: 1 4048 240 114 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 5169 3137 Zeroing lines in arrays Total # of output lines = 2 5168 ia dmi dgi: 5169 240 83 Writing the last 2253 lines last half sj>s1 7422 5169 5168 Total # of output lines = 7421 Writing new header.. Closing files .. ileni= 39 ilend= 35 /export/air32/airops/1400/ts1400_p.hv_j.0 /export/air32/airops/1400/deskew.ph.0 /export/air32/airops/1400/ts1400_p.hv_j.1 /export/air32/airops/1400/deskew.ph.1 /export/air32/airops/1400/ts1400_p.hv_j.2 /export/air32/airops/1400/deskew.ph.2 /export/air32/airops/1400/ts1400_p.hv_j.3 /export/air32/airops/1400/deskew.ph.3 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.35 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 1 AZ patch size: 8192 What is the desired az fract (def=1.0)? fract #: 0.0000000E+00 Please enter the name of the sensor file. /export/air32/airops/1400/sensor_setup.pp Please enter the name of the parameter file /export/air36/airops/1400/ts1400_p.par hddt: 96068 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 10240 lines Keeping 4192 data points per patch Near range (m) = 9040.540 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 3.500000 Radar wavelength (m) = 0.7012700 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = -1.450000 Range weighting coefficient = 0.1000000 Map height (m) = 78.60000 Transmit leverarm x,y,z = 2.030000 0.5300000 -0.2200000 Receive leverarm x,y,z = 2.030000 0.5300000 -0.2200000 Name of raw data file? /export/air32/airops/1400/p_vh Name of the mocomp data file? /export/air36/airops/1400/ts1400_p.mocompv Output file name w/o ext? /export/air36/airops/1400/ts1400_p Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. vh Raw DIR Path:/export/air32/airops/1400/ output filename: /export/air32/airops/1400/ts1400_p.vh_j *** ipol itop: 3 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /export/air32/airops/1400/deskew.pv WAYNE init fft, calc slant range, load unpack, interpo 1.4242992E-02 reading motion compensation data WAYNE read motion compen 0.2432550 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 AnalogChirp>96032Br,fs,T,fc 96068 40.00000 22.50000 90.00000 10.00000 deltaphase -ashift: 2.2242721E-03 1.450000 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.2266640 start range comp, time = 0.799 WAYNE PREV 0.5050880 NUMBER OF PROCESSOR USED = 4 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 3 ..... WAYNE IS IN Processing 3 to 2 by # 2 ==w out 3 -1998 PROCESSING KID# 4 ..... WAYNE IS IN Processing 3 to 2 by # 3 ==w out 3 -1998 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 1 by # 0 Processing block number 1 TESTING WHY -6.4741098E-03 1.8001201E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 0.958 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 52.75747501850128 ATTN ifrq ipol ln 0 3 8192 8.000000 IPOL, ITOP nblock 3 0 1 WAYNE Motion comp. coeff. calculated, time = 1.2457013130187988E-02 TESTING 0.0000000E+00 -47.83489 0.2210412 WAYNE Motion comp. added to patch, time = 20.04195499420166 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.9339790344238281E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -47.83489 0.2210412 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -6.4741098E-03 1.8001201E-02 WAYNE Azimuth compression done, time = 299.7370870113373 Writing 4192 lines of data to file WAYNE write output data 1.799386978149414 ==w out 1 0 2001 0 WAYNE PROCESS 374.3532229661942 ==w out 2 4195 PROCESSING KID# 2 ..... WAYNE IS IN Processing 2 to 2 by # 1 Processing block number 2 WAYNE PATCHES: 2048 10239 patch# 2 reference line: 6143 0.975 seconds. before reading done reading WAYNE load raw data , time = 52.63570201396942 ATTN ifrq ipol ln 0 3 10239 8.000000 IPOL, ITOP nblock 3 0 2 WAYNE Motion comp. coeff. calculated, time = 1.1984944343566895E-02 WAYNE Motion comp. added to patch, time = 20.06943404674530 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 4.6949386596679688E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 300.0236068964005 Writing 4192 lines of data to file WAYNE write output data 1.841932058334351 ==w out 2 0 2001 0 WAYNE PROCESS 374.5890220403671 ==w out 3 4195 1 7731791 0 2 7730316 0 3 7731043 0 4 7732229 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 8384kids= 4 Writing variable header... gather image from processor # 0 1 gather image from processor # 1 1 gather image from processor # 2 0 gather image from processor # 3 0 WAYNE gather images takes: 7.0924043655395508E-02 WAYNE LOOP TIME: 379.1424731016159 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air32/airops/1400/ts1400_p.vh_j /export/air36/airops/1400/ts1400_p.mocompv /export/air36/airops/1400/ts1400_p.dop /export/air36/airops/1400/ts1400_p.glb 2560 8384 update intf hdr ha: 8367.900 UPDATE: 2560 8384 3.331000 0.5144000 mocompfile /export/air36/airops/1400/ts1400_p.mocompv dopfile /export/air36/airops/1400/ts1400_p.dop globalfile /export/air36/airops/1400/ts1400_p.glb /export/air36/airops/1400/ts1400_p.glb 38 deskew line ra ha trc: 128.5260 249 9040.493 8367.900 54.57177 after deskew line ra ha trc: 128.5260 249 9040.493 8367.900 54.57177 lat1 lon1: 249 4.813032 114.7795 8384 last ra n_ns ns: 9040.493 0 1 8632 8384 lati loni: 8632 4.836271 114.8149 8632 1 center ra n_ns ns: 13300.84 1279 1279 4440 8384 lati loni: 4440 4.856148 114.7750 4440 2560 Updated paramater header in /export/air32/airops/1400/ts1400_p.vh_j WAYNE FINAL PROCESS 380.0224421024323 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 4 4192 1 4192 1 0 0 0 0 Name of data file to be deskewed? /export/air32/airops/1400/ts1400_p.vh_j Name of the doppler parameter file? /export/air36/airops/1400/ts1400_p.dop Name of the deskew file? /export/air32/airops/1400/deskew.pv Line up to another frequency [y/n]? y Name of the deskew file to line up to? /export/air32/airops/1400/deskew.ch Enter N_AZ, NA_VALID and the ratio of the pixel spacing of the file to line up to relative to the current pixel spacing. 4096 2208 1.000000 Name of the output file? /export/air36/airops/1400/ts1400_p.vh Name of the line output file? /export/air36/airops/1400/p_lines.dat NONE-SYMMETRIC PARALLEL JOBS Deskewing 2 patches Processing block number 1 patch iptc,sj,dgj,dgi,id: 1 1041 98 98 0 half line dmj dgc: 0 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1041 1 Zeroing lines in arrays Total # of output lines = 1 1040 1041 3137 0 2096 patch iptc,sj,dgj,dgi,id: 1 3137 98 98 2096 half line dmj dgc: 1 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3137 1041 Zeroing lines in arrays Total # of output lines = 1 3136 Processing block number 2 3137 3073 -15 -49 patch iptc,sj,dgj,dgi,id: 2 3073 83 98 -49 half line dmj dgc: 0 4048 240 114 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Zeroing lines in arrays Total # of output lines = 2 3136 3137 5169 0 2096 patch iptc,sj,dgj,dgi,id: 2 5169 83 83 2096 half line dmj dgc: 1 4048 240 114 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 5169 3137 Zeroing lines in arrays Total # of output lines = 2 5168 ia dmi dgi: 5169 240 83 Writing the last 2253 lines last half sj>s1 7422 5169 5168 Total # of output lines = 7421 Writing new header.. Closing files .. ileni= 39 ilend= 35 /export/air32/airops/1400/ts1400_p.vh_j.0 /export/air32/airops/1400/deskew.pv.0 /export/air32/airops/1400/ts1400_p.vh_j.1 /export/air32/airops/1400/deskew.pv.1 /export/air32/airops/1400/ts1400_p.vh_j.2 /export/air32/airops/1400/deskew.pv.2 /export/air32/airops/1400/ts1400_p.vh_j.3 /export/air32/airops/1400/deskew.pv.3 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.35 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 1 AZ patch size: 8192 What is the desired az fract (def=1.0)? fract #: 0.0000000E+00 Please enter the name of the sensor file. /export/air32/airops/1400/sensor_setup.pp Please enter the name of the parameter file /export/air36/airops/1400/ts1400_p.par hddt: 96068 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 10240 lines Keeping 4192 data points per patch Near range (m) = 9040.540 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 3.500000 Radar wavelength (m) = 0.7012700 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = -1.450000 Range weighting coefficient = 0.1000000 Map height (m) = 78.60000 Transmit leverarm x,y,z = 2.030000 0.5300000 -0.2200000 Receive leverarm x,y,z = 2.030000 0.5300000 -0.2200000 Name of raw data file? /export/air32/airops/1400/p_vv Name of the mocomp data file? /export/air36/airops/1400/ts1400_p.mocompv Output file name w/o ext? /export/air36/airops/1400/ts1400_p Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. vv Raw DIR Path:/export/air32/airops/1400/ output filename: /export/air32/airops/1400/ts1400_p.vv_j *** ipol itop: 4 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /export/air32/airops/1400/deskew.pv WAYNE init fft, calc slant range, load unpack, interpo 1.3669997E-02 reading motion compensation data WAYNE read motion compen 0.2350230 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 AnalogChirp>96032Br,fs,T,fc 96068 40.00000 22.50000 90.00000 10.00000 deltaphase -ashift: 2.2242721E-03 1.450000 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.2216920 start range comp, time = 0.494 WAYNE PREV 0.4871130 NUMBER OF PROCESSOR USED = 4 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 3 ..... WAYNE IS IN Processing 3 to 2 by # 2 ==w out 3 -1998 PROCESSING KID# 4 ..... WAYNE IS IN Processing 3 to 2 by # 3 ==w out 3 -1998 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 1 by # 0 Processing block number 1 TESTING WHY -6.4741098E-03 1.8001201E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 0.616 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 47.34998607635498 ATTN ifrq ipol ln 0 4 8192 14.00000 IPOL, ITOP nblock 4 0 1 WAYNE Motion comp. coeff. calculated, time = 1.1582016944885254E-02 TESTING 0.0000000E+00 -47.83489 0.2210412 WAYNE Motion comp. added to patch, time = 17.49736702442169 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.9079914093017578E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -47.83489 0.2210412 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -6.4741098E-03 1.8001201E-02 WAYNE Azimuth compression done, time = 262.0543049573898 Writing 4192 lines of data to file WAYNE write output data 1.861487030982971 ==w out 1 0 2001 0 WAYNE PROCESS 328.7792609930038 ==w out 2 4195 PROCESSING KID# 2 ..... WAYNE IS IN Processing 2 to 2 by # 1 Processing block number 2 WAYNE PATCHES: 2048 10239 patch# 2 reference line: 6143 0.629 seconds. before reading done reading WAYNE load raw data , time = 46.58432006835938 ATTN ifrq ipol ln 0 4 10239 14.00000 IPOL, ITOP nblock 4 0 2 WAYNE Motion comp. coeff. calculated, time = 1.1555075645446777E-02 WAYNE Motion comp. added to patch, time = 17.28664803504944 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.7819871902465820E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 263.9125250577927 Writing 4192 lines of data to file WAYNE write output data 1.904860973358154 ==w out 2 0 2001 0 WAYNE PROCESS 329.7040959596634 ==w out 3 4195 1 7737359 0 2 7738356 0 3 7729128 0 4 7737664 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 8384kids= 4 Writing variable header... gather image from processor # 0 1 gather image from processor # 1 1 gather image from processor # 2 0 gather image from processor # 3 0 WAYNE gather images takes: 8.3166003227233887E-02 WAYNE LOOP TIME: 334.1948850154877 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air32/airops/1400/ts1400_p.vv_j /export/air36/airops/1400/ts1400_p.mocompv /export/air36/airops/1400/ts1400_p.dop /export/air36/airops/1400/ts1400_p.glb 2560 8384 update intf hdr ha: 8367.900 UPDATE: 2560 8384 3.331000 0.5144000 mocompfile /export/air36/airops/1400/ts1400_p.mocompv dopfile /export/air36/airops/1400/ts1400_p.dop globalfile /export/air36/airops/1400/ts1400_p.glb /export/air36/airops/1400/ts1400_p.glb 38 deskew line ra ha trc: 128.5260 249 9040.493 8367.900 54.57177 after deskew line ra ha trc: 128.5260 249 9040.493 8367.900 54.57177 lat1 lon1: 249 4.813032 114.7795 8384 last ra n_ns ns: 9040.493 0 1 8632 8384 lati loni: 8632 4.836271 114.8149 8632 1 center ra n_ns ns: 13300.84 1279 1279 4440 8384 lati loni: 4440 4.856148 114.7750 4440 2560 Updated paramater header in /export/air32/airops/1400/ts1400_p.vv_j WAYNE FINAL PROCESS 334.7646020650864 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 4 4192 1 4192 1 0 0 0 0 Name of data file to be deskewed? /export/air32/airops/1400/ts1400_p.vv_j Name of the doppler parameter file? /export/air36/airops/1400/ts1400_p.dop Name of the deskew file? /export/air32/airops/1400/deskew.pv Line up to another frequency [y/n]? y Name of the deskew file to line up to? /export/air32/airops/1400/deskew.ch Enter N_AZ, NA_VALID and the ratio of the pixel spacing of the file to line up to relative to the current pixel spacing. 4096 2208 1.000000 Name of the output file? /export/air36/airops/1400/ts1400_p.vv Name of the line output file? /export/air36/airops/1400/p_lines.dat NONE-SYMMETRIC PARALLEL JOBS Deskewing 2 patches Processing block number 1 patch iptc,sj,dgj,dgi,id: 1 1041 98 98 0 half line dmj dgc: 0 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1041 1 Zeroing lines in arrays Total # of output lines = 1 1040 1041 3137 0 2096 patch iptc,sj,dgj,dgi,id: 1 3137 98 98 2096 half line dmj dgc: 1 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3137 1041 Zeroing lines in arrays Total # of output lines = 1 3136 Processing block number 2 3137 3073 -15 -49 patch iptc,sj,dgj,dgi,id: 2 3073 83 98 -49 half line dmj dgc: 0 4048 240 114 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Zeroing lines in arrays Total # of output lines = 2 3136 3137 5169 0 2096 patch iptc,sj,dgj,dgi,id: 2 5169 83 83 2096 half line dmj dgc: 1 4048 240 114 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 5169 3137 Zeroing lines in arrays Total # of output lines = 2 5168 ia dmi dgi: 5169 240 83 Writing the last 2253 lines last half sj>s1 7422 5169 5168 Total # of output lines = 7421 Writing new header.. Closing files .. ileni= 39 ilend= 35 /export/air32/airops/1400/ts1400_p.vv_j.0 /export/air32/airops/1400/deskew.pv.0 /export/air32/airops/1400/ts1400_p.vv_j.1 /export/air32/airops/1400/deskew.pv.1 /export/air32/airops/1400/ts1400_p.vv_j.2 /export/air32/airops/1400/deskew.pv.2 /export/air32/airops/1400/ts1400_p.vv_j.3 /export/air32/airops/1400/deskew.pv.3 Enter single look lines filename: Enter single look image filename: Enter output lines filename: Enter number of looks: ns np nlloks: 2560 7421 18 Multi-looking lines.dat file... Total number of lines written to output file: 412 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.3218967 7.306468 246 0.625 3046 2.688 7.30647 0.004530 2.975256 -0.046979 r_peak,r_snr = 0.3311363 13.84231 346 0.156 3046 1.063 13.84231 0.002765 0.363860 0.003085 r_peak,r_snr = 0.2947165 7.365852 446 0.188 3046 -7.813 7.36585 0.006625 1.204910 0.023875 r_peak,r_snr = 0.3114724 7.058899 546 0.125 3046 -14.781 7.05890 0.008106 0.333670 -0.008755 r_peak,r_snr = 0.2614208 5.660642 646 0.531 3046 6.813 5.66064 2.118873 11.135690 4.770869 r_peak,r_snr = 0.2676042 4.924004 746 0.563 3046 -2.656 4.92400 0.008796 6.753529 0.096728 r_peak,r_snr = 0.1916799 5.579412 846 0.344 3046 -9.281 5.57941 0.024038 2.064236 0.148261 r_peak,r_snr = 0.2063616 4.541892 946 2.813 3046 6.813 4.54189 0.028165 6.275122 0.104867 r_peak,r_snr = 0.2743657 7.474396 1046 -1.313 3046 8.594 7.47440 0.010650 0.287513 0.009651 r_peak,r_snr = 0.1833211 5.334121 1146 -7.688 3046 -10.625 5.33412 0.068150 2.436011 0.175459 r_peak,r_snr = 0.1976296 8.313249 1246 0.500 3046 -3.781 8.31325 0.015952 4.166265 -0.010422 r_peak,r_snr = 0.1922397 4.627478 1346 0.844 3046 3.781 4.62748 0.030123 3.806718 -0.244526 r_peak,r_snr = 0.1901349 7.431777 1446 0.813 3046 -3.781 7.43178 2.755062 366.773926 31.688494 r_peak,r_snr = 0.1668943 14.00402 1546 0.000 3046 -3.719 14.00402 0.016393 0.648627 0.024731 r_peak,r_snr = 0.2791512 7.975373 1646 0.813 3046 0.625 7.97537 0.010156 0.378106 -0.018673 r_peak,r_snr = 0.3626231 4.180617 1746 0.813 3046 1.188 4.18062 0.008163 0.300449 0.020131 r_peak,r_snr = 0.7075258 9.164824 1846 1.219 3046 -0.375 9.16482 0.045102 0.004126 0.008885 r_peak,r_snr = 0.6668038 14.68146 1946 -0.125 3046 0.219 14.68146 0.007040 0.002569 0.000680 r_peak,r_snr = 0.6518348 13.34866 2046 1.063 3046 0.125 13.34866 0.031039 0.003314 0.001423 At line = 3400 Reading in data.... r_peak,r_snr = 0.1592165 11.58043 146 0.281 3446 -5.688 11.58043 0.009490 0.750696 -0.004436 r_peak,r_snr = 0.1760920 8.551825 246 2.781 3446 -0.688 8.55182 0.017301 0.358467 0.000469 r_peak,r_snr = 0.1513039 6.653044 346 -0.313 3446 -1.188 6.65304 0.019263 1.727530 -0.013524 r_peak,r_snr = 0.1978929 5.739371 446 0.656 3446 -0.813 5.73937 0.008015 2.048989 -0.004788 r_peak,r_snr = 0.2519436 8.865276 546 0.063 3446 1.750 8.86528 0.007480 0.677175 0.017504 r_peak,r_snr = 0.1802126 4.987238 646 -5.281 3446 7.875 4.98724 0.009497 0.442807 0.015341 r_peak,r_snr = 0.3956186 4.444038 746 0.438 3446 -0.781 4.44404 0.006461 0.697276 -0.031285 r_peak,r_snr = 0.3227575 4.670490 846 0.125 3446 -1.188 4.67049 0.011251 0.720602 0.029803 r_peak,r_snr = 0.3068680 8.181576 946 0.281 3446 1.313 8.18158 0.005638 0.768663 0.018174 r_peak,r_snr = 0.4060261 6.193652 1046 -0.063 3446 2.250 6.19365 0.006723 0.286825 -0.009796 r_peak,r_snr = 0.3007565 5.515650 1146 1.688 3446 -9.875 5.51565 0.014469 0.395852 0.040533 r_peak,r_snr = 0.3286477 7.306645 1246 0.094 3446 1.781 7.30664 0.013569 0.451627 -0.038868 r_peak,r_snr = 0.2796458 4.211962 1346 0.344 3446 0.781 4.21196 0.013408 1.171611 0.033683 r_peak,r_snr = 0.4491821 2.931527 1446 2.875 3446 -10.156 2.93153 0.007515 0.281262 0.005033 r_peak,r_snr = 0.2101948 6.178100 1546 1.031 3446 1.813 6.17810 0.052139 11.165504 -0.502648 r_peak,r_snr = 0.2603896 7.673862 1646 -0.094 3446 -1.219 7.67386 0.015471 0.629481 0.035537 r_peak,r_snr = 0.3741488 10.33538 1746 -0.063 3446 -0.813 10.33538 0.008807 0.055473 -0.000749 r_peak,r_snr = 0.7430671 10.42342 1846 0.125 3446 0.156 10.42342 0.005132 0.001958 0.000932 r_peak,r_snr = 0.6641292 10.01644 1946 -0.094 3446 -0.125 10.01644 0.010528 0.004044 0.002674 r_peak,r_snr = 0.6311222 13.37059 2046 -0.719 3446 0.188 13.37059 0.007639 0.003135 0.000935 At line = 3800 Reading in data.... r_peak,r_snr = 0.2534854 10.05940 146 0.531 3846 -1.750 10.05940 0.011135 1.255700 0.048999 r_peak,r_snr = 0.2723113 8.165817 246 1.031 3846 6.250 8.16582 0.034749 2.500101 -0.264730 r_peak,r_snr = 0.2274038 11.93164 346 0.125 3846 0.156 11.93164 0.005905 1.666082 -0.039166 r_peak,r_snr = 0.3582907 7.365350 446 0.781 3846 4.781 7.36535 0.006639 0.553195 0.023972 r_peak,r_snr = 0.3539650 8.261628 546 -0.063 3846 -6.781 8.26163 0.004028 0.390420 0.003909 r_peak,r_snr = 0.1769848 7.672511 646 0.438 3846 2.813 7.67251 0.019291 2.947661 0.067846 r_peak,r_snr = 0.3291568 5.991520 746 -1.281 3846 7.406 5.99152 0.033568 1.598656 0.186910 r_peak,r_snr = 0.2408684 7.719546 846 -0.625 3846 -3.094 7.71955 0.014273 0.576498 -0.001357 r_peak,r_snr = 0.3163204 3.574234 1046 0.375 3846 1.219 3.57423 0.034208 1.101683 -0.003391 r_peak,r_snr = 0.2173548 6.646197 1146 0.094 3846 3.688 6.64620 0.109798 4.261249 0.148424 r_peak,r_snr = 0.3388459 2.742027 1246 -0.188 3846 5.813 2.74203 0.034255 2.723190 -0.052103 r_peak,r_snr = 0.3302984 2.995463 1346 0.531 3846 8.344 2.99546 0.011980 0.948779 0.013228 r_peak,r_snr = 0.3266210 7.677197 1446 -0.156 3846 0.750 7.67720 0.008843 0.611549 -0.010574 r_peak,r_snr = 0.3374043 4.583971 1546 0.656 3846 -0.781 4.58397 0.022892 1.551562 0.042965 r_peak,r_snr = 0.2247170 7.561009 1646 0.281 3846 -4.750 7.56101 0.058488 6.942888 0.593267 r_peak,r_snr = 0.4051818 2.106039 1746 0.125 3846 -4.063 2.10604 0.070926 2.510937 -0.376410 r_peak,r_snr = 0.6795486 13.39993 1846 -0.063 3846 0.188 13.39993 0.009314 0.002776 0.000999 r_peak,r_snr = 0.6132649 15.30624 1946 0.219 3846 0.156 15.30624 0.023534 0.003363 0.004227 r_peak,r_snr = 0.6356965 12.22962 2046 -0.188 3846 -0.313 12.22962 0.016121 0.006357 0.005734 At line = 4200 Reading in data.... r_peak,r_snr = 0.1769681 4.894630 246 1.969 4246 -6.156 4.89463 0.033342 0.860323 0.009308 r_peak,r_snr = 0.4852062 10.03343 346 -0.125 4246 7.781 10.03343 0.001733 0.794764 0.013399 r_peak,r_snr = 0.4681669 7.927752 446 0.031 4246 -0.781 7.92775 0.004767 3.983792 -0.109894 r_peak,r_snr = 0.2490513 10.13677 546 0.531 4246 1.406 10.13677 0.008749 1.168281 0.016334 r_peak,r_snr = 0.2199378 7.202491 646 -0.344 4246 6.594 7.20249 0.023061 1.776244 0.134128 r_peak,r_snr = 0.1928677 11.23362 746 1.250 4246 13.906 11.23362 0.026263 0.767815 0.067719 r_peak,r_snr = 0.3407676 2.289351 846 0.531 4246 -0.219 2.28935 0.513183 30.803133 3.932358 r_peak,r_snr = 0.3918403 4.291936 946 -0.688 4246 1.969 4.29194 0.013608 0.479969 0.038536 r_peak,r_snr = 0.3424987 6.075917 1046 0.156 4246 1.250 6.07592 0.015107 1.429906 0.112212 r_peak,r_snr = 0.2211630 9.646697 1146 1.438 4246 4.250 9.64670 0.023711 0.536320 0.062102 r_peak,r_snr = 0.2280767 13.13784 1346 -0.125 4246 -2.719 13.13784 0.035065 3.913801 -0.310794 r_peak,r_snr = 0.2917566 5.798228 1446 1.219 4246 0.594 5.79823 0.140483 0.054138 0.000288 r_peak,r_snr = 0.1881675 6.403493 1646 -0.938 4246 -0.906 6.40349 0.096904 1.430225 -0.023989 r_peak,r_snr = 0.3419917 3.173924 1746 0.594 4246 -0.656 3.17392 0.270741 1.245683 0.495994 r_peak,r_snr = 0.5987906 13.30973 1846 -0.531 4246 -0.250 13.30973 0.022158 0.005779 0.004943 r_peak,r_snr = 0.7097664 13.26928 1946 0.250 4246 0.000 13.26928 0.006390 0.002593 0.001002 r_peak,r_snr = 0.6585363 8.742038 2046 -0.344 4246 -0.125 8.74204 0.054249 0.003693 -0.001135 At line = 4600 Reading in data.... r_peak,r_snr = 0.2543673 7.730163 146 0.469 4646 -0.656 7.73016 0.016237 0.669194 -0.057546 r_peak,r_snr = 0.3014161 8.119286 246 0.188 4646 -6.688 8.11929 0.013336 0.625669 -0.055586 r_peak,r_snr = 0.5700508 10.41295 546 0.250 4646 0.719 10.41295 0.001250 0.066542 0.001833 r_peak,r_snr = 0.1634098 4.653079 646 -1.156 4646 -6.781 4.65308 0.346187 5.700601 -1.347754 r_peak,r_snr = 0.1975106 6.329897 746 -0.125 4646 2.281 6.32990 0.013040 1.029133 -0.034390 r_peak,r_snr = 0.3213379 5.769958 846 -0.281 4646 -1.781 5.76996 0.015975 2.787199 -0.112650 r_peak,r_snr = 0.1816147 7.392479 946 0.906 4646 0.906 7.39248 0.012298 0.493212 0.023192 r_peak,r_snr = 0.3760606 7.592550 1046 0.719 4646 2.813 7.59255 0.005255 0.361290 -0.014356 r_peak,r_snr = 0.1973999 8.739992 1146 0.156 4646 -2.375 8.73999 0.009113 0.255595 -0.022474 r_peak,r_snr = 0.2786374 11.38339 1246 0.313 4646 1.813 11.38339 0.009812 0.484297 -0.031072 r_peak,r_snr = 0.2430790 8.498569 1346 0.563 4646 -3.750 8.49857 0.027375 1.081546 0.126911 r_peak,r_snr = 0.3822995 3.327350 1446 1.906 4646 2.750 3.32735 0.070551 1.981503 -0.230218 r_peak,r_snr = 0.1709740 9.829602 1646 -4.438 4646 10.219 9.82960 0.011960 0.415808 -0.000456 r_peak,r_snr = 0.4091815 2.468031 1746 0.938 4646 0.219 2.46803 0.101571 0.290990 0.040402 r_peak,r_snr = 0.7042345 11.24899 1846 -0.219 4646 0.156 11.24899 0.006900 0.003739 0.000782 r_peak,r_snr = 0.6710854 12.24334 1946 -0.281 4646 0.094 12.24334 0.011460 0.004373 0.004989 r_peak,r_snr = 0.6647879 9.659613 2046 1.281 4646 0.094 9.65961 0.043947 0.006101 0.011047 At line = 5000 Reading in data.... r_peak,r_snr = 0.4453346 9.699731 146 0.344 5046 1.219 9.69973 0.002756 0.433920 -0.012922 r_peak,r_snr = 0.1859532 6.930821 246 2.375 5046 -8.313 6.93082 0.017907 0.482944 -0.035057 r_peak,r_snr = 0.3525662 9.955049 446 0.500 5046 -2.156 9.95505 0.004597 0.856264 -0.007299 r_peak,r_snr = 0.3388253 5.515984 546 0.313 5046 -5.188 5.51598 0.007863 0.651205 -0.028148 r_peak,r_snr = 0.2592765 7.238588 646 0.344 5046 8.250 7.23859 0.022426 0.311206 0.018661 r_peak,r_snr = 0.3601505 5.820177 746 -0.094 5046 6.813 5.82018 0.012742 8.368522 0.250323 r_peak,r_snr = 0.2541393 4.115757 846 -0.438 5046 -5.781 4.11576 0.017657 2.108901 -0.126383 r_peak,r_snr = 0.2891500 5.295897 946 0.656 5046 -3.125 5.29590 0.013568 2.107372 -0.100849 r_peak,r_snr = 0.2670325 4.552889 1046 0.594 5046 1.344 4.55289 0.009943 1.047198 -0.030850 r_peak,r_snr = 0.2571901 4.646287 1146 -1.563 5046 -7.156 4.64629 1.772089 1.294590 -1.219259 r_peak,r_snr = 0.2244324 4.928426 1246 0.813 5046 -4.844 4.92843 0.013337 0.266557 -0.005355 r_peak,r_snr = 0.2103863 6.453232 1346 0.469 5046 0.781 6.45323 0.057468 3.606236 -0.272590 r_peak,r_snr = 0.4026252 3.380311 1446 0.750 5046 11.250 3.38031 0.013844 0.256584 0.001598 r_peak,r_snr = 0.2187278 8.756448 1546 0.063 5046 6.781 8.75645 0.017993 0.407559 0.045623 r_peak,r_snr = 0.2194232 6.967402 1646 1.344 5046 -5.781 6.96740 0.027877 1.057759 0.127174 r_peak,r_snr = 0.4302623 3.510695 1746 1.688 5046 -2.219 3.51070 0.043029 0.248774 -0.029439 r_peak,r_snr = 0.6144061 15.42150 1846 0.125 5046 -0.031 15.42150 0.006753 0.003226 0.001126 r_peak,r_snr = 0.6722279 14.64091 1946 0.031 5046 -0.188 14.64091 0.014403 0.002974 0.000814 r_peak,r_snr = 0.6540209 12.95202 2046 1.219 5046 -0.125 12.95202 0.021410 0.005932 0.007568 At line = 5400 Reading in data.... r_peak,r_snr = 0.2613158 10.00403 146 0.438 5446 -1.313 10.00403 0.005684 0.875587 0.030021 r_peak,r_snr = 0.2997683 9.449059 246 0.406 5446 1.813 9.44906 0.005393 0.261012 -0.011071 r_peak,r_snr = 0.4274009 8.557176 346 0.313 5446 -0.781 8.55718 0.003675 1.257197 -0.016854 r_peak,r_snr = 0.1748056 3.822519 446 3.531 5446 -11.906 3.82252 0.094627 0.472821 -0.069977 r_peak,r_snr = 0.3958655 7.578337 646 0.219 5446 1.281 7.57834 0.007794 0.300851 -0.010187 r_peak,r_snr = 0.2966844 7.767921 746 -0.563 5446 5.188 7.76792 0.009145 32.739227 0.237895 r_peak,r_snr = 0.2856329 6.461287 846 0.375 5446 9.813 6.46129 0.011564 1.162768 -0.059731 r_peak,r_snr = 0.1390316 6.497170 946 8.281 5446 4.844 6.49717 0.060516 0.356169 -0.029645 r_peak,r_snr = 0.2992411 8.024364 1046 0.031 5446 -2.063 8.02436 0.006558 0.647312 0.005646 r_peak,r_snr = 0.2798430 9.633742 1146 -0.031 5446 -1.750 9.63374 0.006275 0.601082 0.014402 r_peak,r_snr = 0.1462444 3.862508 1246 0.500 5446 -12.781 3.86251 0.087835 1.847179 0.273693 r_peak,r_snr = 0.1917235 7.843050 1346 0.094 5446 0.406 7.84305 0.035307 0.618987 0.073580 r_peak,r_snr = 0.1643024 6.158969 1446 0.438 5446 2.906 6.15897 0.020573 0.969484 -0.070429 r_peak,r_snr = 0.1390821 8.471218 1546 0.656 5446 -1.438 8.47122 0.024807 1.071544 0.008079 r_peak,r_snr = 0.1811806 14.25788 1646 -0.094 5446 -2.906 14.25788 0.040495 0.481492 -0.054890 r_peak,r_snr = 0.4728261 2.606845 1746 0.750 5446 0.781 2.60685 0.019805 0.147111 0.024744 r_peak,r_snr = 0.6723228 11.45048 1846 0.969 5446 -0.063 11.45048 0.020220 0.002132 0.000601 r_peak,r_snr = 0.6902243 12.88678 1946 -0.250 5446 0.000 12.88678 0.034426 0.002012 -0.000121 r_peak,r_snr = 0.6934130 9.712118 2046 -0.156 5446 0.063 9.71212 0.023605 0.005154 0.005427 At line = 5800 Reading in data.... r_peak,r_snr = 0.4526097 8.300493 146 0.500 5846 -1.219 8.30049 0.001973 0.440050 0.006755 r_peak,r_snr = 0.3454069 6.427971 246 -1.094 5846 12.781 6.42797 0.006481 0.630921 0.031167 r_peak,r_snr = 0.2871557 8.112630 346 0.969 5846 7.219 8.11263 0.015480 2.905304 0.162210 r_peak,r_snr = 0.2622475 8.805737 446 0.031 5846 1.781 8.80574 0.023091 4.441397 0.226378 r_peak,r_snr = 0.2853502 5.542647 546 0.469 5846 -1.188 5.54265 0.017788 2.543766 -0.060919 r_peak,r_snr = 0.4421032 7.691530 646 0.094 5846 -3.813 7.69153 0.003325 0.229897 -0.002896 r_peak,r_snr = 0.2481545 7.182618 746 0.563 5846 1.219 7.18262 0.025613 1.732840 0.112546 r_peak,r_snr = 0.2719515 8.378304 846 0.344 5846 4.344 8.37830 0.025349 15.961703 0.377015 r_peak,r_snr = 0.2629941 4.914410 946 -0.063 5846 -4.031 4.91441 0.018553 0.549197 -0.031864 r_peak,r_snr = 0.2432490 5.087775 1046 4.719 5846 0.813 5.08778 0.022983 0.425170 0.047931 r_peak,r_snr = 0.2337704 5.679351 1146 0.000 5846 12.188 5.67935 0.040173 1.662372 0.127814 r_peak,r_snr = 0.2418717 4.957573 1246 0.094 5846 3.750 4.95757 0.089857 1.728749 0.314426 r_peak,r_snr = 0.4242681 4.525863 1346 0.469 5846 -3.750 4.52586 0.022313 1.537818 0.074170 r_peak,r_snr = 0.2842940 6.323895 1446 0.781 5846 -1.094 6.32390 0.011283 0.419264 -0.001520 r_peak,r_snr = 0.1844534 4.149235 1546 -0.938 5846 -4.188 4.14924 0.070533 1.553886 0.178977 r_peak,r_snr = 0.1384178 9.045734 1646 0.875 5846 -13.281 9.04573 0.014675 4.635640 0.084420 r_peak,r_snr = 0.4836027 6.503943 1746 0.781 5846 0.469 6.50394 0.041054 0.026026 0.009110 r_peak,r_snr = 0.7092170 11.49590 1846 0.250 5846 -0.063 11.49590 0.011037 0.003182 0.002514 r_peak,r_snr = 0.5986060 14.71920 1946 0.125 5846 -0.344 14.71920 0.022349 0.003713 0.002335 r_peak,r_snr = 0.7581195 13.42953 2046 0.281 5846 -0.094 13.42953 0.005845 0.001742 0.000460 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.7610205 14.58087 146 0.375 3046 0.344 14.58087 0.000318 0.010330 0.000089 r_peak,r_snr = 0.7373534 14.69089 246 0.563 3046 -0.094 14.69089 0.000335 0.021454 -0.000278 r_peak,r_snr = 0.3166862 12.06570 346 0.250 3046 0.250 12.06570 0.003112 0.146833 0.006014 r_peak,r_snr = 0.4752685 13.66933 446 0.188 3046 0.906 13.66933 0.001571 0.084487 -0.002098 r_peak,r_snr = 0.4327531 10.34613 546 0.188 3046 -2.750 10.34613 0.002499 0.184827 -0.000598 r_peak,r_snr = 0.2132500 4.653362 646 0.594 3046 6.813 4.65336 0.835914 16.854998 -3.659644 r_peak,r_snr = 0.3779771 7.884397 746 0.406 3046 0.188 7.88440 0.004357 0.181401 0.017590 r_peak,r_snr = 0.3181609 8.852408 846 -0.094 3046 -0.750 8.85241 0.004770 0.360649 0.004742 r_peak,r_snr = 0.2618694 10.48306 946 0.094 3046 0.281 10.48306 0.007144 0.352160 0.001006 r_peak,r_snr = 0.1840328 6.594460 1146 0.313 3046 3.656 6.59446 0.016541 0.706903 -0.007080 r_peak,r_snr = 0.3589439 12.41885 1246 -0.031 3046 0.594 12.41885 0.002633 0.213291 0.003157 r_peak,r_snr = 0.2557538 7.450121 1346 0.469 3046 0.531 7.45012 0.010317 0.356062 -0.023904 r_peak,r_snr = 0.2177276 7.606422 1446 0.344 3046 -2.781 7.60642 0.017356 1.103257 -0.014258 r_peak,r_snr = 0.2109267 6.674952 1546 0.406 3046 -0.156 6.67495 0.020777 0.526801 -0.017193 r_peak,r_snr = 0.2625430 8.417906 1646 0.688 3046 13.813 8.41791 0.024998 1.434132 -0.128798 r_peak,r_snr = 0.3772378 3.491600 1746 -0.875 3046 1.813 3.49160 0.010826 0.155417 0.017028 r_peak,r_snr = 0.1705470 3.918426 1846 -4.938 3046 7.438 3.91843 1.211487 0.365003 -0.202835 r_peak,r_snr = 0.1282623 8.520077 1946 -1.656 3046 5.156 8.52008 0.151863 0.464226 -0.105699 r_peak,r_snr = 0.1685721 4.887520 2046 -1.813 3046 12.313 4.88752 0.087401 0.302846 0.097031 At line = 3400 Reading in data.... r_peak,r_snr = 0.7209319 17.04706 146 0.344 3446 -0.250 17.04706 0.000392 0.013291 -0.000124 r_peak,r_snr = 0.3949293 15.52725 246 0.406 3446 0.313 15.52725 0.002754 0.113189 -0.008089 r_peak,r_snr = 0.3725032 12.19479 346 -0.531 3446 4.813 12.19479 0.002216 0.186303 0.002274 r_peak,r_snr = 0.4255520 14.37856 446 0.344 3446 -0.688 14.37856 0.002149 0.088206 0.000885 r_peak,r_snr = 0.6057137 18.92289 546 0.281 3446 -0.250 18.92289 0.000767 0.025262 -0.000432 r_peak,r_snr = 0.5384192 6.940865 746 0.281 3446 0.688 6.94087 0.002125 0.082534 0.000783 r_peak,r_snr = 0.3506804 5.507849 846 0.438 3446 -3.875 5.50785 0.007911 0.939815 -0.005111 r_peak,r_snr = 0.3025243 8.279820 946 0.156 3446 -0.438 8.27982 0.005187 0.169743 -0.009646 r_peak,r_snr = 0.4200072 6.354145 1046 0.188 3446 0.031 6.35414 0.003308 0.410489 -0.004753 r_peak,r_snr = 0.3438692 7.084608 1146 -0.156 3446 0.875 7.08461 0.009589 0.533992 0.012136 r_peak,r_snr = 0.3146155 8.813654 1246 0.000 3446 -0.875 8.81365 0.005967 0.200110 -0.017663 r_peak,r_snr = 0.3050903 4.721614 1346 -0.406 3446 4.938 4.72161 0.011585 0.760645 0.002757 r_peak,r_snr = 0.5069066 5.206845 1446 0.125 3446 0.250 5.20684 0.003644 0.319455 -0.016826 r_peak,r_snr = 0.2176193 8.060687 1546 -0.500 3446 -1.281 8.06069 0.008467 1.344391 0.000493 r_peak,r_snr = 0.1800113 4.404391 1646 0.844 3446 -0.719 4.40439 0.033459 3.099532 0.258315 r_peak,r_snr = 0.2550294 3.961300 1746 -7.063 3446 -10.188 3.96130 0.033799 2.925127 0.070415 r_peak,r_snr = 8.3191015E-02 3.902784 1846 -0.938 3446 11.156 3.90278 1.009832 1.127893 0.066881 r_peak,r_snr = 0.1014993 9.289659 2046 17.875 3446 -3.688 9.28966 0.085440 0.349967 0.078938 At line = 3800 Reading in data.... r_peak,r_snr = 0.6656600 17.02571 146 0.375 3846 -0.781 17.02571 0.000511 0.044712 0.001208 r_peak,r_snr = 0.4867735 13.34546 246 0.313 3846 -0.813 13.34546 0.001300 0.063581 -0.001830 r_peak,r_snr = 0.6549400 13.83253 346 0.281 3846 0.250 13.83253 0.000477 0.023941 0.000312 r_peak,r_snr = 0.7569527 11.32797 446 0.781 3846 3.781 11.32797 0.000376 0.069033 -0.000036 r_peak,r_snr = 0.5096276 9.199853 546 0.469 3846 0.750 9.19985 0.001852 0.044495 -0.000564 r_peak,r_snr = 0.1815023 9.913096 646 0.031 3846 0.156 9.91310 0.026193 0.747267 -0.076038 r_peak,r_snr = 0.2943293 10.44260 846 0.313 3846 -0.969 10.44260 0.007537 0.235067 -0.010789 r_peak,r_snr = 0.2185317 8.517137 946 0.250 3846 -0.844 8.51714 0.007681 1.220989 0.008860 r_peak,r_snr = 0.4156461 4.834996 1046 0.563 3846 -1.188 4.83500 0.004569 0.109897 -0.002418 r_peak,r_snr = 0.3339159 8.978811 1146 0.344 3846 0.219 8.97881 0.010530 2.317250 0.061084 r_peak,r_snr = 0.3616163 4.336205 1246 -0.875 3846 6.813 4.33621 0.020958 1.092331 0.113842 r_peak,r_snr = 0.4016657 5.055635 1346 -0.250 3846 1.688 5.05564 0.006189 0.532125 -0.001552 r_peak,r_snr = 0.5669267 10.64501 1446 0.094 3846 0.906 10.64501 0.001298 0.023167 0.001388 r_peak,r_snr = 0.3682315 7.131835 1546 0.219 3846 0.438 7.13183 0.005180 0.306414 -0.003004 r_peak,r_snr = 0.3338529 15.53852 1646 -0.250 3846 0.500 15.53852 0.003733 0.110982 -0.000760 r_peak,r_snr = 0.4291442 2.454947 1746 0.438 3846 0.125 2.45495 0.013287 0.426162 -0.026408 r_peak,r_snr = 0.1176972 6.093763 1946 -11.250 3846 2.625 6.09376 0.204509 0.620391 -0.056503 r_peak,r_snr = 0.1280598 3.462873 2046 12.344 3846 -9.344 3.46287 0.035002 1.344608 -0.041797 At line = 4200 Reading in data.... r_peak,r_snr = 0.7636594 12.95693 146 0.375 4246 -0.156 12.95693 0.000322 0.007596 -0.000342 r_peak,r_snr = 0.2700365 8.982320 246 0.219 4246 -1.063 8.98232 0.003998 0.537101 -0.005725 r_peak,r_snr = 0.9006959 12.14267 346 0.188 4246 -0.031 12.14267 0.000105 0.008410 0.000009 r_peak,r_snr = 0.6323775 9.167841 446 0.281 4246 1.031 9.16784 0.000842 0.080116 -0.002873 r_peak,r_snr = 0.7228051 18.61101 546 0.219 4246 -0.063 18.61101 0.000381 0.011930 0.000191 r_peak,r_snr = 0.2592812 7.452341 746 -0.313 4246 -2.094 7.45234 0.012083 0.268295 -0.025024 r_peak,r_snr = 0.4215043 4.922611 846 0.313 4246 -0.031 4.92261 0.004887 0.224327 -0.012292 r_peak,r_snr = 0.4877949 5.705676 946 0.031 4246 -0.594 5.70568 0.002352 0.105345 0.002220 r_peak,r_snr = 0.4093429 8.204863 1046 0.031 4246 -1.938 8.20486 0.003013 0.632882 0.009780 r_peak,r_snr = 0.2432355 11.09254 1146 0.000 4246 3.969 11.09254 0.011930 0.508333 0.030714 r_peak,r_snr = 0.5293651 8.550597 1246 0.344 4246 0.031 8.55060 0.001889 0.086899 0.004598 r_peak,r_snr = 0.1980630 7.720650 1346 0.563 4246 0.313 7.72065 0.042242 0.566474 0.049614 r_peak,r_snr = 0.1884047 10.55819 1446 0.250 4246 -0.750 10.55819 0.010165 0.258003 0.003727 r_peak,r_snr = 0.3085984 2.455560 1546 0.281 4246 -11.781 2.45556 0.061330 3.141459 0.323264 r_peak,r_snr = 0.1762986 2.943068 1646 -9.500 4246 -6.750 2.94307 0.047375 1.371361 0.119487 r_peak,r_snr = 0.3572169 2.442799 1746 0.500 4246 -1.219 2.44280 0.030769 1.397204 -0.146261 r_peak,r_snr = 0.1208110 6.344080 1946 14.313 4246 10.094 6.34408 0.073765 0.437867 0.075708 r_peak,r_snr = 0.1417172 5.676262 2046 -3.969 4246 -11.969 5.67626 0.187892 0.725773 0.237652 At line = 4600 Reading in data.... r_peak,r_snr = 0.3183226 7.707641 146 0.438 4646 -1.750 7.70764 0.012915 1.978940 -0.120967 r_peak,r_snr = 0.6086320 15.53059 246 0.406 4646 -0.219 15.53059 0.000832 0.025286 -0.000482 r_peak,r_snr = 0.5034659 13.94179 346 0.469 4646 0.063 13.94179 0.001127 0.081579 -0.000676 r_peak,r_snr = 0.8342177 13.50647 446 0.406 4646 -0.188 13.50647 0.000228 0.003142 -0.000029 r_peak,r_snr = 0.8253410 13.63597 546 0.281 4646 0.219 13.63597 0.000239 0.005939 0.000025 r_peak,r_snr = 0.2100263 6.137381 646 -0.156 4646 0.250 6.13738 0.018262 2.353732 0.102006 r_peak,r_snr = 0.3100095 11.39156 746 0.344 4646 0.938 11.39156 0.007918 0.282288 -0.027551 r_peak,r_snr = 0.3150864 5.859595 846 -0.188 4646 -1.063 5.85959 0.011926 0.886112 -0.042284 r_peak,r_snr = 0.1740169 7.103881 946 0.156 4646 -0.188 7.10388 0.020615 2.492504 -0.053014 r_peak,r_snr = 0.4050762 8.503065 1046 0.469 4646 0.188 8.50307 0.003259 0.240177 0.009981 r_peak,r_snr = 0.2957005 7.201535 1146 0.438 4646 -0.219 7.20153 0.013611 1.053405 0.082571 r_peak,r_snr = 0.2074400 8.943242 1246 1.406 4646 2.688 8.94324 0.021804 0.892318 -0.051218 r_peak,r_snr = 0.1805592 5.535289 1346 0.250 4646 -2.813 5.53529 0.039016 2.489242 0.221762 r_peak,r_snr = 0.5202349 5.001405 1446 0.094 4646 0.469 5.00140 0.002621 0.099644 0.000983 r_peak,r_snr = 0.1878868 5.374335 1546 -2.844 4646 -3.750 5.37434 0.050461 1.107683 0.158614 r_peak,r_snr = 8.3901033E-02 4.658453 1646 -3.031 4646 7.906 4.65845 0.056595 0.293616 0.015097 r_peak,r_snr = 0.4652396 2.866997 1746 -0.688 4646 1.469 2.86700 0.008753 0.625694 0.032364 r_peak,r_snr = 9.8597616E-02 4.829179 1946 14.750 4646 -3.188 4.82918 3.073907 1.087678 1.184652 r_peak,r_snr = 0.1257691 8.048799 2046 -6.094 4646 -5.000 8.04880 0.050937 1.958898 -0.023648 At line = 5000 Reading in data.... r_peak,r_snr = 0.6287563 10.74374 146 0.344 5046 -0.031 10.74374 0.000997 0.034765 -0.000619 r_peak,r_snr = 0.3682104 12.15780 246 0.250 5046 0.844 12.15780 0.002689 0.213794 -0.000857 r_peak,r_snr = 0.4377079 7.115261 346 0.406 5046 -0.156 7.11526 0.003370 0.720574 0.014986 r_peak,r_snr = 0.7557942 12.50038 446 0.063 5046 -2.781 12.50038 0.000374 0.067518 0.000209 r_peak,r_snr = 0.7383534 14.44812 546 0.281 5046 0.344 14.44812 0.000334 0.015620 -0.000056 r_peak,r_snr = 0.3536496 8.189688 646 0.344 5046 0.750 8.18969 0.006183 0.232726 -0.006442 r_peak,r_snr = 0.4058047 6.554984 746 0.406 5046 -0.219 6.55498 0.006983 1.034795 -0.036877 r_peak,r_snr = 0.3948557 6.996301 846 0.250 5046 -0.500 6.99630 0.003105 0.141393 0.003482 r_peak,r_snr = 0.3190363 6.491171 946 0.594 5046 -0.125 6.49117 0.011478 0.425377 0.033901 r_peak,r_snr = 0.2431003 6.975087 1046 0.313 5046 0.781 6.97509 0.023691 6.078055 -0.345074 r_peak,r_snr = 0.4562780 7.963629 1146 0.188 5046 0.906 7.96363 0.003816 0.160693 0.009726 r_peak,r_snr = 0.2105575 6.058266 1246 0.750 5046 9.000 6.05827 0.018258 0.444208 -0.027756 r_peak,r_snr = 0.3104733 14.76741 1346 -0.281 5046 1.188 14.76741 0.006102 0.153680 0.004935 r_peak,r_snr = 0.3768683 3.502819 1446 0.375 5046 -0.906 3.50282 0.008496 1.264443 -0.018535 r_peak,r_snr = 0.2389680 8.682136 1546 0.125 5046 0.938 8.68214 0.009343 0.529762 0.025456 r_peak,r_snr = 0.2416245 6.965232 1646 -0.156 5046 -1.219 6.96523 0.038620 1.290462 0.031042 r_peak,r_snr = 0.2997079 5.057427 1746 0.813 5046 -1.719 5.05743 0.027234 0.306886 0.026346 r_peak,r_snr = 0.1693087 10.27529 1846 4.844 5046 1.938 10.27529 0.067851 0.279608 -0.003804 r_peak,r_snr = 0.1514262 7.299897 1946 -4.781 5046 -10.125 7.29990 0.113649 0.348942 0.109086 r_peak,r_snr = 0.1080044 4.844441 2046 -1.750 5046 -9.125 4.84444 0.501326 0.452464 0.290278 At line = 5400 Reading in data.... r_peak,r_snr = 0.7885079 13.43740 146 0.344 5446 -0.094 13.43740 0.000277 0.015768 0.000015 r_peak,r_snr = 0.3088524 10.95674 246 0.438 5446 -0.781 10.95674 0.003818 0.398823 0.005168 r_peak,r_snr = 0.6620304 11.08627 346 0.156 5446 0.156 11.08627 0.000587 0.034025 -0.000707 r_peak,r_snr = 0.3280379 6.266957 446 0.969 5446 0.406 6.26696 0.005102 1.380762 -0.028593 r_peak,r_snr = 0.3227198 6.293936 546 0.188 5446 0.656 6.29394 0.033140 2.687700 0.266466 r_peak,r_snr = 0.4906599 7.728873 646 0.344 5446 5.219 7.72887 0.002098 0.300418 -0.006780 r_peak,r_snr = 0.3784325 9.888076 746 0.063 5446 0.813 9.88808 0.003733 0.771229 0.006588 r_peak,r_snr = 0.3495024 5.634701 846 0.750 5446 -3.250 5.63470 0.078489 2.408480 0.392668 r_peak,r_snr = 0.1411044 6.029371 946 0.031 5446 -0.875 6.02937 0.069012 0.840057 -0.181240 r_peak,r_snr = 0.3953874 8.568933 1046 -0.219 5446 -1.250 8.56893 0.004469 0.135916 0.003191 r_peak,r_snr = 0.2908804 8.701262 1146 0.250 5446 0.813 8.70126 0.033972 2.969205 -0.279443 r_peak,r_snr = 0.3218627 10.26373 1246 0.188 5446 2.156 10.26373 0.005096 0.266431 -0.004392 r_peak,r_snr = 0.2215789 6.760200 1346 1.438 5446 12.313 6.76020 0.012971 0.612727 -0.011011 r_peak,r_snr = 0.2089088 6.779756 1446 1.469 5446 9.219 6.77976 0.121188 4.009492 0.316595 r_peak,r_snr = 0.2308147 5.607815 1546 -1.313 5446 1.750 5.60781 0.024516 0.435322 0.040937 r_peak,r_snr = 0.1269594 8.245629 1646 -8.406 5446 11.906 8.24563 0.024867 0.426505 0.021638 r_peak,r_snr = 0.3785243 2.991775 1746 0.625 5446 -0.219 2.99177 0.030844 1.450137 0.183390 r_peak,r_snr = 0.1200447 8.425850 1846 9.875 5446 0.344 8.42585 0.503129 0.197423 -0.102321 r_peak,r_snr = 0.1374553 12.56938 1946 0.219 5446 3.375 12.56938 0.039994 0.231730 -0.023050 r_peak,r_snr = 0.1276544 5.346241 2046 5.906 5446 6.188 5.34624 0.649776 0.557732 0.139777 At line = 5800 Reading in data.... r_peak,r_snr = 0.7566383 12.89288 146 0.406 5846 0.781 12.89288 0.000295 0.016677 0.000343 r_peak,r_snr = 0.3633860 6.777617 246 0.094 5846 2.906 6.77762 0.006380 0.909148 -0.026152 r_peak,r_snr = 0.5295297 13.88290 346 0.281 5846 0.094 13.88290 0.000983 0.104878 0.000298 r_peak,r_snr = 0.4002038 15.09614 446 0.188 5846 0.063 15.09614 0.002254 0.082878 0.003940 r_peak,r_snr = 0.3780321 8.353474 546 0.156 5846 0.625 8.35347 0.004294 0.343865 -0.002777 r_peak,r_snr = 0.5959585 9.061962 646 0.188 5846 -0.531 9.06196 0.000978 0.451357 -0.005621 r_peak,r_snr = 0.2777283 8.583636 746 0.250 5846 2.063 8.58364 0.014031 0.489173 -0.045428 r_peak,r_snr = 0.2840936 8.637129 946 0.469 5846 0.750 8.63713 0.018905 0.375569 -0.051216 r_peak,r_snr = 0.3892985 7.353899 1046 0.219 5846 -1.250 7.35390 0.002948 0.215615 0.006327 r_peak,r_snr = 0.3756396 9.585672 1146 0.500 5846 1.219 9.58567 0.011925 0.553180 -0.062817 r_peak,r_snr = 0.2544007 5.457607 1246 0.469 5846 -1.000 5.45761 0.015577 0.389275 0.047432 r_peak,r_snr = 0.6958666 7.388319 1346 0.438 5846 -0.219 7.38832 0.000644 0.023642 0.000546 r_peak,r_snr = 0.2557284 7.066831 1446 1.844 5846 13.219 7.06683 0.009913 0.587769 0.010646 r_peak,r_snr = 8.1593387E-02 3.893100 1546 4.875 5846 0.219 3.89310 0.114558 1.498263 0.316967 r_peak,r_snr = 0.1229771 6.603454 1646 -0.250 5846 0.813 6.60345 0.007511 0.512919 0.014339 r_peak,r_snr = 0.3253933 8.635602 1746 0.094 5846 0.219 8.63560 0.003664 0.224352 0.003220 r_peak,r_snr = 0.1374568 4.537903 1846 3.625 5846 11.813 4.53790 0.770870 1.866467 0.883505 r_peak,r_snr = 0.1288809 11.75236 1946 7.094 5846 5.813 11.75236 0.053062 0.483955 0.072200 r_peak,r_snr = 0.1609243 6.280267 2046 -10.063 5846 3.063 6.28027 0.250961 0.705344 0.187010 *************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Multi-look Program ***** ***** ***** *************************************** Enter the name of the Shh input file. fd for hh: 3 Enter the name of the complex HV file. fd for hv: 4 Enter the name of the complex VH file. fd for vh: 5 Enter the name of the complex VV file. fd for vv: 6 Procmode 0=polsar,1=xti1,2=xti2,3=xti1p,4=xti2p,5=poltop Proc mode: 4 min. window size : 5932 MIN window samp: 2517 90.00000 10.00000 900 2560 MIN window samp: 2517 90.00000 10.00000 900 2560 Calculating the ratio of HV and VH.... amvh,amhv 46.57514 88.92231 Enter the name of the file. Enter the name of the file. Enter the name of the file. Enter the name of the file. Enter the name of the file. Enter the name of the file. Enter the number of looks in azimuth. amplitude ratio and phase = 1.381746 31.93661 40/20 MHz: 2560 10240 40/20 MHz MHz complex: 2560 20480 7416 412 18 [1] + Done batch_l_setup Fri Nov 8 15:38:36 PST 2002 Co-registration QA: Range processing sensor.hh96c_pr(offset,rms) -2.998269 0.054248 Co-registration QA: Within Criteria abs(rg) > 0.01 and abs(rms) < 0.5 to modify sensor.hh96c_pr Co-registration QA: Updating sensor.hh96c_pr Co-registration QA: Update from 1.560000 to -1.438269 Co-registration QA: Range processing sensor.hh96l_pr(offset,rms) -0.098375 0.034482 Co-registration QA: Within Criteria abs(rg) > 0.01 and abs(rms) < 0.5 to modify sensor.hh96l_pr Co-registration QA: Updating sensor.hh96l_pr Co-registration QA: Update from 0.7800000 to 0.681625 Co-registration QA: Azimuth processing processor_chh.com(offset,rms) 0.025631 0.080270 Co-registration QA: Within Criteria abs(az) > 0.01 and abs(rms) < 0.5 to modify processor_chh.com Co-registration QA: Updating processor_chh.com Co-registration QA: Update from 1.00000 to 0.948624974944879 Co-registration QA: Azimuth processing processor_lhh.com(offset,rms) -0.076869 0.058786 Co-registration QA: Within Criteria abs(az) > 0.01 and abs(rms) < 0.5 to modify processor_lhh.com Co-registration QA: Updating processor_lhh.com Co-registration QA: Update from 1.00000 to 1.15407696933253 ts1400_p.vvvv cd /export/air36/airops/1400;am_misregNEW L-C *_c.vvvv *_l.vvvv 2>&1 | cd /export/air36/airops/1400;am_misregNEW P-C *_c.vvvv *_p.vvvv 2>&1 | cd /export/air36/airops/1400;am_misregNEW P-L *_l.vvvv *_p.vvvv 2>&1 | Mis-registration QA: The Mis-registration check is completed Mis-registration QA: JOB ID: ts1400 L-C: P-C: P-L: [1] 7747003 7746685 Fri Nov 8 17:14:32 PST 2002 ***************************************************** * * * AIRSAR INTEGRATED PROCESSOR * * * * HEADER PREPROCESSOR * * * * This program reads the raw data header and cal- * * culates the parameters necessary for the motion * * compensation in the integrated processor. * * * ***************************************************** Enter command file name ==> Opening command file... CRD-xdealy: 0.2380000 Reading and decoding header file... fsize_max min: 11907 11863 fsize_max min/ 2: 5954 5932 Finished reading the header file... Data acquired after 1994. J2000 time = -97839530.15473801 GPS J2000 time = -97839532.12479001 Message 1 Time = -97839530.15473801 INS Time = 1.704192000000000 Roll angle = 0.4888916015625000 Pitch angle = 1.038208007812500 Heading angle = 54.35485839843750 Long. acc = 0.1700000000000000 Lat. acc = -1.0000000000000000E-02 Norm. acc = -9.650000000000000 East vel. = 176.2770000000000 North vel. = 126.2550000000000 Up vel. = 0.1210000000000000 True Grnd Spd = 216.8125000000000 Altitude = 8446.000000000000 Latitude = 4.787130374461412 Longitude = 114.7964306641370 Message 6 Week = 881 GPS Time = -97839532.12479001 GDOP = 2.093750000000000 PDOP = 1.937500000000000 HDOP = 1.093750000000000 VDOP = 1.593750000000000 TDOP = 0.7968750000000000 Spherical Acc = 11.00000000000000 Time Acc = 8.0000000000000005E-09 GPS Lat = 4.784968094021508 GPS Lon = 114.7934315981008 GPS Alt = 8449.000000000000 GPS East Vel = 176.2400000000000 GPS North Vel = 126.3000000000000 GPS Up Vel = -0.1100000000000000 Message 3 Del INU Time = 0.7441920000000000 Del vel east = -3.4179687500000000E-03 Del vel north = 1.0253906250000000E-02 Del vel up = 6.4941406250000000E-02 Del pos east = 0.6250000000000000 Del pos north = 0.5000000000000000 Del pos up = -0.1250000000000000 Message 4 Sigma Pos x = 1.250000000000000 Sigma Pos y = 1.500000000000000 Sigma Pos z = 2.000000000000000 Sigma Vel x = 7.0800781250000000E-03 Sigma Vel y = 8.5449218750000000E-03 Sigma Vel z = 1.0009765625000000E-02 Message 7 Satellites used = 10 26 23 30 9 10 Retrived Honeywell data... 11880 Operator Comments: - - - - - - - - - - - - - - - - - - - - - PV RFI near urban areas, but no RX overloading; rebooted HP748i after DIR-1000 interface lockup; getting bumpy at end of run; IG I is OKng Lou, Leon Maldonado, Michael Kobrick, Timothy William Miller van Zyl, David Ryan Haub, Lori Ann Carrico, Timothy W. - - - - - - - - - - - - - - - - - - - - - enter filename for headers (entire path): Which frequency? (C,L or P) number of channels transferred: number of bytes/chan: total # of lines transferred: window delay: enter the .par filename : enter first header to read: enter year data taken: enter HDDT ID for raw data: SONY tapeid: 596068 96068 enter HDDT footage number <0> : enter the title of image: enter the CCT ID: cct: 1400 prod ID1:14001400 prod ID:1400 SONY tapeid: 96068 96068 tapeid:9606896068 tapeid par:96068 prod ID:1400 chrp_delay from subcomm header tapeID: 32.45000 96068 New DCG: chrp_delay is 32.5 usec 32.45000 chrp_delay is 32.5 usec 96068 32.45000 Is this 98039< x >98001 for P-bnad?: 96068 1998 P-band fc? 22.50000 idelay,chrp_delay,xdelay 93 32.45000 0.2380000 near range delr windela: 9040.541 3.331027 0 f_cal 43.59375 1216.406 Parameter header created .. >> Record # : 128 >> GPS Stuff = 1.80 6 9 1 24 26 17 digdelay startrng(us):93 93.00000000000000 startrng(m) elecdelay: 9863.173249999998 2.7200000000000000E-05 >> start range = 9863.1732 >> ccal_amp = -90.39999 >> ccal_atn = 32 >> ratn_phh = 0 14 0 >> ratn_phv = 0 8 0 >> ratn_pvh = 0 8 0 >> ratn_pvv = 0 14 0 >> ratn_lhh = 0 8 0 >> ratn_lhv = 0 8 0 >> ratn_lvh = 0 8 0 >> ratn_lvv = 0 8 0 >> ratn_chh = 0 8 10 >> ratn_chv = 0 8 10 >> ratn_cvh = 0 8 10 >> ratn_cvv = 0 8 10 >> rcvr_chh = >> rcvr_chv = >> rcvr_cvh = >> rcvr_cvv = >> rcvr_cpz = 0.0 >> rcvr_cbw = 1 >> chrp_bnd = 40 >> chrp_len = 10 >> chrp_mod = DN Done decoding data from header array... Data collected on ==> 00-JAN-1996 Starting and end GPS times for SAR data -126338399.2900 -126338162.5340 Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000012 0 hdg 54.32401 53.90442 54.75037 0.1839573 0 trc 54.50528 54.36068 54.69053 0.0875469 0 tgs 216.44132 216.10938 216.82813 0.2168183 0 roll 0.30822 -0.23621 0.72510 0.1837461 0 pitch 1.07499 0.93933 1.30188 0.0565628 0 lati 4.92007 4.78497 5.05509 0.0778559 0 loni 114.98201 114.79343 115.17108 0.1088849 0 latd 4.91742 4.78333 5.05167 0.0779833 0 lond 114.97929 114.79167 115.16833 0.1088942 0 balt 7932.54489 7929.37200 7934.85840 0.9798892 0 ralt 8367.86036 8254.28880 8399.67840 40.1363318 0 dpth 0.99341 0.90000 1.90000 0.0665699 0 droll 0.23431 -0.30000 0.60000 0.1833685 0 thd 54.23086 53.80000 54.60000 0.1842948 0 dad 0.46901 0.20000 0.80000 0.1405592 0 latg 4.92181 4.78635 5.05648 0.0779550 7 long 114.67821 46.71303 115.17265 4.5613505 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8401.98819 8379.99023 8411.06934 6.7947893 7 phh_aten 14.00000 14.00000 14.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 8.00000 8.00000 8.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 8.00000 8.00000 8.00000 0.0000000 0 lhv_aten 8.00000 8.00000 8.00000 0.0000000 0 lvh_aten 8.00000 8.00000 8.00000 0.0000000 0 lvv_aten 8.00000 8.00000 8.00000 0.0000000 0 chh_aten 18.00000 18.00000 18.00000 0.0000000 0 chv_aten 18.00000 18.00000 18.00000 0.0000000 0 cvh_aten 18.00000 18.00000 18.00000 0.0000000 0 cvv_aten 18.00000 18.00000 18.00000 0.0000000 0 hwlat 4.92214 4.78712 5.05676 0.0778090 0 hwlon 114.99456 114.79643 229.97019 1.0605082 0 hwalt 8445.91242 8444.20267 8448.69490 1.1078156 0 hwev 176.22517 175.91100 176.59000 0.1428207 0 hwnv 125.67535 125.01700 126.31100 0.3687243 0 hwuv -0.00038 -0.60000 0.54300 0.2001301 0 hwroll 0.30811 -0.23621 0.72510 0.1837835 0 hwpitch 1.07502 0.93933 1.30188 0.0565736 0 hwhdg 54.32866 53.90442 108.56689 0.5305656 0 hwtrc 54.50999 54.36068 108.87846 0.5064533 0 hwtgs 216.44090 216.10938 216.82813 0.2166153 0 Finished analysis of raw data... Putting in mirror values... Finished with mirror samples... Median filter data... Completed median filter of data... Finished correcting GPS times for pulses... Finished correcting GPS times for SIXGUN data... -97839529.99923338 i_yearind 19960 GPS time for first pulse = -97839530.28283624 -126338399.2900000 New start and number of records = 109 199855 New start and number of blocks = 1 1563 GPS trend coefficients = -11.76622555553974 62.78558206021851 -58.78754310881088 Begin final analysis of data... Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000012 0 hdg 54.32401 53.90442 54.75037 0.1840172 0 trc 54.50535 54.36068 54.69053 0.0875345 0 tgs 216.44117 216.10938 216.82813 0.2166733 0 roll 0.30815 -0.23621 0.72510 0.1837618 0 pitch 1.07498 0.93933 1.30188 0.0565500 0 delx 0.25730 0.00000 0.25738 0.0005761 0 lati 4.92015 4.78497 5.05509 0.0779059 0 loni 114.98213 114.79343 115.17108 0.1089550 0 latd 4.91750 4.78333 5.05167 0.0780253 0 lond 114.97941 114.79167 115.16833 0.1089642 0 balt 7932.54403 7929.37200 7934.85840 0.9801651 0 ralt 8367.88014 8254.28880 8399.67840 40.1278107 0 dpth 0.99296 0.90000 1.20000 0.0626897 0 droll 0.23404 -0.30000 0.60000 0.1836385 0 thd 54.23084 53.80000 54.60000 0.1842375 0 dad 0.46903 0.20000 0.80000 0.1405165 0 latg 4.92162 4.78635 5.05648 0.0779381 0 long 114.98389 114.79526 115.17265 0.1088506 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8401.98819 8391.67622 8415.08752 5.0621651 0 phh_aten 14.00000 14.00000 14.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 8.00000 8.00000 8.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 8.00000 8.00000 8.00000 0.0000000 0 lhv_aten 8.00000 8.00000 8.00000 0.0000000 0 lvh_aten 8.00000 8.00000 8.00000 0.0000000 0 lvv_aten 8.00000 8.00000 8.00000 0.0000000 0 chh_aten 18.00000 18.00000 18.00000 0.0000000 0 chv_aten 18.00000 18.00000 18.00000 0.0000000 0 cvh_aten 18.00000 18.00000 18.00000 0.0000000 0 cvv_aten 18.00000 18.00000 18.00000 0.0000000 0 hwlat 4.92214 4.78715 5.05674 0.0778089 0 hwlon 114.98490 114.79646 115.17338 0.1088269 0 hwalt 8445.91242 8444.20269 8448.69486 1.1078160 0 hwev 176.22516 175.91200 176.58900 0.1428136 0 hwnv 125.67537 125.01900 126.31000 0.3687409 0 hwuv -0.00038 -0.60000 0.54300 0.2001302 0 hwroll 0.30810 -0.23621 0.72510 0.1837604 0 hwpitch 1.07501 0.93933 1.29639 0.0565199 0 hwhdg 54.32408 53.90442 54.74487 0.1840186 0 hwtrc 54.50541 54.36126 54.69004 0.0875148 0 hwtgs 216.44091 216.10938 216.82813 0.2166641 0 Finished final analysis of data... Average Barometric Altitude = 7932.544026103589 Average Radar Altitude = 8367.880135124751 Average GPS Altitude = 8401.988194565911 >>Record # : 128 >>GPS Stuff = 1.80 6 9 1 24 2 >>Record # : 0 >>GPS Stuff = Lock vertical accel to gps(+1) or bar(-1) or IGI (0) ==> Enter a name for the peg data file. Positions and Distances Start position = 4.7871459 114.7964609 8446.470 End position = 5.0567396 115.1733808 8444.912 Loxodromic Heading (deg) = 54.5061343 Loxodromic Distance (km) = 51346.0499506 Geodesic Heading (deg) = 54.4901120 Geodesic Distance (km) = 51346.0480234 Peg latitude and longitude = 4.9221747 114.9847465 Peg heading = 54.5668334 Rotation matrix First row = -0.420819309 -0.717533451 0.555028698 Second row = 0.903077536 -0.389238723 0.181505319 Third row = 0.085802523 0.577614892 0.811787511 Translation vector Vector = -6021.83700 12922.85215 -2435.84204 Local Radius of Curvature = 6363984.385000405 Start and end pulse used = 109 199963 Ellipsoidal delta s (m) = 0.2569177901035996 Delta s on reference surface = 0.2569177986170678 Miscellaneous Information Start range = 9863.173249999998 Start ground range = 5221.184597742174 Time orgin = -97839530.28283624 Pulse spacing = 0.2572961952660497 First frame = 18822817 Thank you for your patronage If a POLTOP mode then...: .mocomp -> .mocomph & .mocompv .mocomph -> .mocomphU & .mocompvU .mocompv -> .mocomphL & .mocompvL Enter the name of the motion compensation file. /export/air36/airops/1400/ts1400_c.mocomp Name of the H-pol motion compensation file? /export/air36/airops/1400/ts1400_c.mocomph Name of the V-pol motion compensation file? /export/air36/airops/1400/ts1400_c.mocompv How many lines per polarization? 100000 + 1 + 10001 + 20001 + 30001 + 40001 + 50001 + 60001 + 70001 + 80001 + 90001 + 100001 + 110001 + 120001 + 130001 + 140001 + 150001 + 160001 + 170001 + 180001 + 190001 ********************************************* * * * AIRSAR INTEGRATED PROCESSOR * * * * CALTONE ESTIMATOR * * * * This program estimates the CALTONE amp- * * litude and phase and writes the result * * into the parameter header. * * * ********************************************* Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) CHH Enter the paramater file name. /export/air36/airops/1400/ts1400_c.par Enter the raw data file name. /export/air32/airops/1400/c_hh Enter the motion compensation file name. /export/air36/airops/1400/ts1400_c.mocomp Enter a file name for the range spectrum: /export/air36/airops/1400/db_c_hh.dat Enter a file name for the sampled caltone power: /export/air36/airops/1400/1st_c_hh.dat Enter histogram of the caltone power file name: /export/air36/airops/1400/pw_hist_c_hh.dat Enter histogram of the caltone phase file name: /export/air36/airops/1400/ph_hist_c_hh.dat Enter start range line #: 1 How many lines of raw data? 100000 How many lines to be processed? 100000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 1 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3756 5932 Prediction cal_bin 1057 start/end pulse: 1 99904 64-Loop Count: 1560 cmplx raw(1 2 3): (-31.77313,0.0000000E+00) (-79.43283,0.0000000E+00) (-23.82985,0.0000000E+00) attenuation (dB): 18.00000 no_loop: 64 Pulse#/no_loop: 1 1057 7.2144973E+08 plot_x: 1561 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 88.53404 Power RMS: 0.1325825 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 26713.85 Amp. RMS: 327.5118 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -50.78615 Phase RMS: 5.767572 Incoherent PH 1st: -50.66412 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 88.83410 CalTone Power Coherently dB : 88.53404 Incoherent PW - Coherent PW : 0.3000565 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 27647.42 CalTone Amplitude Coherently : 26713.85 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 933.5703 ------------ *** ------------ running time (sec): 56.69 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) CHV Enter the paramater file name. /export/air36/airops/1400/ts1400_c.par Enter the raw data file name. /export/air32/airops/1400/c_hv Enter the motion compensation file name. /export/air36/airops/1400/ts1400_c.mocomp Enter a file name for the range spectrum: /export/air36/airops/1400/db_c_hv.dat Enter a file name for the sampled caltone power: /export/air36/airops/1400/1st_c_hv.dat Enter histogram of the caltone power file name: /export/air36/airops/1400/pw_hist_c_hv.dat Enter histogram of the caltone phase file name: /export/air36/airops/1400/ph_hist_c_hv.dat Enter start range line #: 1 How many lines of raw data? 100000 How many lines to be processed? 100000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 2 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3756 5932 Prediction cal_bin 1057 start/end pulse: 1 99904 64-Loop Count: 1560 cmplx raw(1 2 3): (7.943283,0.0000000E+00) (55.60298,0.0000000E+00) (-31.77313,0.0000000E+00) attenuation (dB): 18.00000 no_loop: 64 Pulse#/no_loop: 1 1057 1.0101092E+09 plot_x: 1561 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 89.97855 Power RMS: 0.1593444 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 31547.75 Amp. RMS: 414.4587 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 73.08295 Phase RMS: 5.795969 Incoherent PH 1st: 73.21442 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 90.28516 CalTone Power Coherently dB : 89.97855 Incoherent PW - Coherent PW : 0.3066101 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 32691.82 CalTone Amplitude Coherently : 31547.75 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 1144.068 ------------ *** ------------ running time (sec): 50.67 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) CVH Enter the paramater file name. /export/air36/airops/1400/ts1400_c.par Enter the raw data file name. /export/air32/airops/1400/c_vh Enter the motion compensation file name. /export/air36/airops/1400/ts1400_c.mocomp Enter a file name for the range spectrum: /export/air36/airops/1400/db_c_vh.dat Enter a file name for the sampled caltone power: /export/air36/airops/1400/1st_c_vh.dat Enter histogram of the caltone power file name: /export/air36/airops/1400/pw_hist_c_vh.dat Enter histogram of the caltone phase file name: /export/air36/airops/1400/ph_hist_c_vh.dat Enter start range line #: 1 How many lines of raw data? 100000 How many lines to be processed? 100000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 3 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3756 5932 Prediction cal_bin 1057 start/end pulse: 1 99904 64-Loop Count: 1560 cmplx raw(1 2 3): (47.65970,0.0000000E+00) (15.88657,0.0000000E+00) (31.77313,0.0000000E+00) attenuation (dB): 18.00000 no_loop: 64 Pulse#/no_loop: 1 1057 7.1081402E+08 plot_x: 1561 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 88.54000 Power RMS: 0.1250000 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 26732.18 Amp. RMS: 327.5118 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -51.06279 Phase RMS: 5.792388 Incoherent PH 1st: -51.47762 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 88.84259 CalTone Power Coherently dB : 88.54000 Incoherent PW - Coherent PW : 0.3025894 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 27695.46 CalTone Amplitude Coherently : 26732.18 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 963.2852 ------------ *** ------------ running time (sec): 51.17 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) CVV Enter the paramater file name. /export/air36/airops/1400/ts1400_c.par Enter the raw data file name. /export/air32/airops/1400/c_vv Enter the motion compensation file name. /export/air36/airops/1400/ts1400_c.mocomp Enter a file name for the range spectrum: /export/air36/airops/1400/db_c_vv.dat Enter a file name for the sampled caltone power: /export/air36/airops/1400/1st_c_vv.dat Enter histogram of the caltone power file name: /export/air36/airops/1400/pw_hist_c_vv.dat Enter histogram of the caltone phase file name: /export/air36/airops/1400/ph_hist_c_vv.dat Enter start range line #: 1 How many lines of raw data? 100000 How many lines to be processed? 100000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 4 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3756 5932 Prediction cal_bin 1057 start/end pulse: 1 99904 64-Loop Count: 1560 cmplx raw(1 2 3): (-15.88657,0.0000000E+00) (39.71642,0.0000000E+00) (-127.0925,0.0000000E+00) attenuation (dB): 18.00000 no_loop: 64 Pulse#/no_loop: 1 1057 1.0015476E+09 plot_x: 1561 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 89.96115 Power RMS: 0.1362156 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 31484.42 Amp. RMS: 414.7674 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 73.16089 Phase RMS: 5.824333 Incoherent PH 1st: 72.80121 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 90.27073 CalTone Power Coherently dB : 89.96115 Incoherent PW - Coherent PW : 0.3095779 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 32637.61 CalTone Amplitude Coherently : 31484.42 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 1153.184 ------------ *** ------------ running time (sec): 52.34 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 0 *************************************************** * * * AIRSAR INTEGRATED PROCESSOR * * * * Global Line Generator * * * * This program generates the global line to use * * in the single-look processors to resample the * * data. * * * *************************************************** Please enter the name of the sensor file. 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 Enter the name of the parameter file. Please enter the name of the mocomp file. Reading motion compensation data Global reference line calculation results: y fit: constant and linear terms: -50.72688 5.7262322E-04 z fit: constant and linear terms: 0.3981180 -2.1510890E-05 y and z standard deviations (meters) 2.506191 0.6138656 Enter the name of the global line file. Enter the name of the motion compensation file. Enter the number of lines in the mocomp file & first one. Enter the patch size and the max reference fnc length. Enter the maximum Doppler error. Enter the doppler file name. Enter the wavelength and nominal azimuth pixel spacing Initial guess at number of patches = 64.42857 Step size = 1512 PATCH NUMER 1 First line = 1 Averages = 0.2239258 0.2256597 0.2099671 0.1956997 Differences = 1.0112718E-02 1.1846617E-02 -3.8460046E-03 -1.8113345E-02 PATCH NUMER 2 First line = 1513 Averages = 0.2217019 0.1986728 0.2020878 0.1973476 Differences = 1.6749322E-02 -6.2797517E-03 -2.8647333E-03 -7.6049715E-03 PATCH NUMER 3 First line = 3025 Averages = 0.1954127 0.2039699 0.1968964 0.2075227 Differences = -5.5377185E-03 3.0194968E-03 -4.0540695E-03 6.5722466E-03 PATCH NUMER 4 First line = 4537 Averages = 0.1980305 0.2059315 0.1942951 0.1904465 Differences = 8.5462630E-04 8.7556988E-03 -2.8807521E-03 -6.7293495E-03 PATCH NUMER 5 First line = 6049 Averages = 0.2083597 0.1830163 0.2043694 0.1927076 Differences = 1.1246428E-02 -1.4097020E-02 7.2560459E-03 -4.4056624E-03 PATCH NUMER 6 First line = 7561 Averages = 0.1891408 0.2036560 0.1980368 0.2123158 Differences = -1.1646599E-02 2.8686225E-03 -2.7506500E-03 1.1528343E-02 PATCH NUMER 7 First line = 9073 Averages = 0.1931635 0.2129218 0.2022819 0.2073561 Differences = -1.0767430E-02 8.9909434E-03 -1.6489774E-03 3.4252256E-03 PATCH NUMER 8 First line = 10585 Averages = 0.2130342 0.2009387 0.2137897 0.2102685 Differences = 3.5265088E-03 -8.5689873E-03 4.2819530E-03 7.6076388E-04 PATCH NUMER 9 First line = 12097 Averages = 0.2066498 0.2165837 0.2025040 0.2224833 Differences = -5.4054409E-03 4.5284778E-03 -9.5512569E-03 1.0428071E-02 PATCH NUMER 10 First line = 13609 Averages = 0.2111862 0.2074341 0.2260836 0.2057674 Differences = -1.4316142E-03 -5.1836967E-03 1.3465807E-02 -6.8504065E-03 PATCH NUMER 11 First line = 15121 Averages = 0.2212762 0.2185439 0.2049712 0.2177652 Differences = 5.6370944E-03 2.9047430E-03 -1.0667875E-02 2.1260679E-03 PATCH NUMER 12 First line = 16633 Averages = 0.2063945 0.2154956 0.2079893 0.1988199 Differences = -7.8029931E-04 8.3207935E-03 8.1455708E-04 -8.3549023E-03 PATCH NUMER 13 First line = 18145 Averages = 0.2182700 0.1990833 0.2031819 0.1898689 Differences = 1.5668944E-02 -3.5177916E-03 5.8084726E-04 -1.2732133E-02 PATCH NUMER 14 First line = 19657 Averages = 0.1986947 0.2010746 0.1788858 0.1726431 Differences = 1.0869920E-02 1.3249844E-02 -8.9389682E-03 -1.5181690E-02 PATCH NUMER 15 First line = 21169 Averages = 0.1910585 0.1724064 0.1749041 0.1723351 Differences = 1.3382465E-02 -5.2695870E-03 -2.7718842E-03 -5.3408891E-03 PATCH NUMER 16 First line = 22681 Averages = 0.1723177 0.1734049 0.1763063 0.1897932 Differences = -5.6378990E-03 -4.5506060E-03 -1.6492903E-03 1.1837661E-02 PATCH NUMER 17 First line = 24193 Averages = 0.1722188 0.1837076 0.1912433 0.2032651 Differences = -1.5389994E-02 -3.9012283E-03 3.6345124E-03 1.5656322E-02 PATCH NUMER 18 First line = 25705 Averages = 0.1894571 0.1950931 0.2097197 0.2022736 Differences = -9.6787959E-03 -4.0428489E-03 1.0583773E-02 3.1376779E-03 PATCH NUMER 19 First line = 27217 Averages = 0.2025978 0.2103160 0.2016099 0.2054087 Differences = -2.3852438E-03 5.3329766E-03 -3.3732057E-03 4.2560697E-04 PATCH NUMER 20 First line = 28729 Averages = 0.2030313 0.2094711 0.1979094 0.2199863 Differences = -4.5683086E-03 1.8714964E-03 -9.6901357E-03 1.2386754E-02 PATCH NUMER 21 First line = 30241 Averages = 0.2066993 0.2049439 0.2174253 0.1954824 Differences = 5.6152046E-04 -1.1938959E-03 1.1287555E-02 -1.0655373E-02 PATCH NUMER 22 First line = 31753 Averages = 0.2188518 0.2008175 0.2057357 0.2060583 Differences = 1.0985941E-02 -7.0483834E-03 -2.1302104E-03 -1.8075705E-03 PATCH NUMER 23 First line = 33265 Averages = 0.1950053 0.2121819 0.1977640 0.2015056 Differences = -6.6089332E-03 1.0567635E-02 -3.8502067E-03 -1.0864437E-04 PATCH NUMER 24 First line = 34777 Averages = 0.2070305 0.1961813 0.2078884 0.2223711 Differences = -1.3374388E-03 -1.2186691E-02 -4.7956407E-04 1.4003098E-02 PATCH NUMER 25 First line = 36289 Averages = 0.2008969 0.2160405 0.2217817 0.2142347 Differences = -1.2341574E-02 2.8019845E-03 8.5431486E-03 9.9617243E-04 PATCH NUMER 26 First line = 37801 Averages = 0.2220552 0.2175682 0.2137545 0.2471024 Differences = -3.0649900E-03 -7.5519383E-03 -1.1365712E-02 2.1982208E-02 PATCH NUMER 27 First line = 39313 Averages = 0.2144952 0.2235301 0.2533661 0.2185580 Differences = -1.2992471E-02 -3.9575398E-03 2.5878415E-02 -8.9296550E-03 PATCH NUMER 28 First line = 40825 Averages = 0.2450495 0.2365657 0.2161633 0.2255057 Differences = 1.4228404E-02 5.7446808E-03 -1.4657795E-02 -5.3153932E-03 PATCH NUMER 29 First line = 42337 Averages = 0.2195285 0.2201106 0.2318896 0.2354437 Differences = -7.2145164E-03 -6.6324472E-03 5.1465780E-03 8.7007135E-03 PATCH NUMER 30 First line = 43849 Averages = 0.2250114 0.2378110 0.2292611 0.2419250 Differences = -8.4907264E-03 4.3088645E-03 -4.2409897E-03 8.4228665E-03 PATCH NUMER 31 First line = 45361 Averages = 0.2360578 0.2307383 0.2473248 0.2299986 Differences = 2.7894974E-05 -5.2916110E-03 1.1294961E-02 -6.0313046E-03 PATCH NUMER 32 First line = 46873 Averages = 0.2408368 0.2395931 0.2382910 0.2487861 Differences = -1.0399222E-03 -2.2836626E-03 -3.5858005E-03 6.9092959E-03 PATCH NUMER 33 First line = 48385 Averages = 0.2301946 0.2492468 0.2524185 0.2632636 Differences = -1.8586338E-02 4.6578050E-04 3.6375076E-03 1.4482573E-02 PATCH NUMER 34 First line = 49897 Averages = 0.2489752 0.2631192 0.2598010 0.2728455 Differences = -1.2210056E-02 1.9339323E-03 -1.3842285E-03 1.1660218E-02 PATCH NUMER 35 First line = 51409 Averages = 0.2638556 0.2664457 0.2687277 0.2328366 Differences = 5.8889687E-03 8.4790289E-03 1.0761023E-02 -2.5130048E-02 PATCH NUMER 36 First line = 52921 Averages = 0.2726919 0.2560003 0.2171451 0.2401434 Differences = 2.6196212E-02 9.5046163E-03 -2.9350564E-02 -6.3523054E-03 PATCH NUMER 37 First line = 54433 Averages = 0.2352252 0.2231868 0.2429170 0.2282804 Differences = 2.8230995E-03 -9.2152953E-03 1.0514915E-02 -4.1217506E-03 PATCH NUMER 38 First line = 55945 Averages = 0.2392223 0.2338869 0.2302157 0.2393582 Differences = 3.5517514E-03 -1.7835796E-03 -5.4548085E-03 3.6877245E-03 PATCH NUMER 39 First line = 57457 Averages = 0.2283447 0.2348055 0.2401250 0.2431795 Differences = -8.2689673E-03 -1.8082112E-03 3.5112947E-03 6.5657943E-03 PATCH NUMER 40 First line = 58969 Averages = 0.2389167 0.2374871 0.2566394 0.2603626 Differences = -9.4348490E-03 -1.0864437E-02 8.2878172E-03 1.2011021E-02 PATCH NUMER 41 First line = 60481 Averages = 0.2421508 0.2625212 0.2658478 0.2941871 Differences = -2.4026051E-02 -3.6557019E-03 -3.2910705E-04 2.8010249E-02 PATCH NUMER 42 First line = 61993 Averages = 0.2604083 0.2796922 0.3015891 0.2926450 Differences = -2.3175597E-02 -3.8916171E-03 1.8005252E-02 9.0611875E-03 PATCH NUMER 43 First line = 63505 Averages = 0.2932020 0.2993931 0.2839010 0.2810832 Differences = 3.8071573E-03 9.9982321E-03 -5.4938197E-03 -8.3116591E-03 PATCH NUMER 44 First line = 65017 Averages = 0.2934564 0.2774800 0.2764634 0.2392773 Differences = 2.1786839E-02 5.8104396E-03 4.7937930E-03 -3.2392263E-02 PATCH NUMER 45 First line = 66529 Averages = 0.2807248 0.2586365 0.2307930 0.2354599 Differences = 2.9321015E-02 7.2326958E-03 -2.0610824E-02 -1.5943870E-02 PATCH NUMER 46 First line = 68041 Averages = 0.2407250 0.2330555 0.2299685 0.2262826 Differences = 8.2170665E-03 5.4761767E-04 -2.5393963E-03 -6.2253475E-03 PATCH NUMER 47 First line = 69553 Averages = 0.2357740 0.2178534 0.2538628 0.2556581 Differences = -5.0133467E-03 -2.2933915E-02 1.3075531E-02 1.4870793E-02 PATCH NUMER 48 First line = 71065 Averages = 0.2239090 0.2600613 0.2675842 0.2779142 Differences = -3.3458665E-02 2.6936233E-03 1.0216534E-02 2.0546585E-02 PATCH NUMER 49 First line = 72577 Averages = 0.2551646 0.2801574 0.2780495 0.3111390 Differences = -2.5963277E-02 -9.7048283E-04 -3.0784011E-03 3.0011088E-02 PATCH NUMER 50 First line = 74089 Averages = 0.2785776 0.2941904 0.3093569 0.3017162 Differences = -1.7382681E-02 -1.7699003E-03 1.3396591E-02 5.7559609E-03 PATCH NUMER 51 First line = 75601 Averages = 0.3100894 0.3012227 0.3049255 0.2967598 Differences = 6.8400204E-03 -2.0267069E-03 1.6761422E-03 -6.4896047E-03 PATCH NUMER 52 First line = 77113 Averages = 0.3013988 0.3049522 0.2850057 0.2831205 Differences = 7.7794790E-03 1.1332840E-02 -8.6136460E-03 -1.0498881E-02 PATCH NUMER 53 First line = 78625 Averages = 0.2981576 0.2813283 0.2793283 0.2666488 Differences = 1.6791701E-02 -3.7640333E-05 -2.0375550E-03 -1.4717102E-02 PATCH NUMER 54 First line = 80137 Averages = 0.2831104 0.2695029 0.2735437 0.2499557 Differences = 1.4082223E-02 4.7478080E-04 4.5155585E-03 -1.9072473E-02 PATCH NUMER 55 First line = 81649 Averages = 0.2664276 0.2705972 0.2327467 0.2278560 Differences = 1.7020419E-02 2.1190062E-02 -1.6660467E-02 -2.1551132E-02 PATCH NUMER 56 First line = 83161 Averages = 0.2522927 0.2270319 0.2223593 0.2285726 Differences = 1.9728437E-02 -5.5323690E-03 -1.0204926E-02 -3.9916188E-03 PATCH NUMER 57 First line = 84673 Averages = 0.2279827 0.2183667 0.2440448 0.2435431 Differences = -5.5017322E-03 -1.5117735E-02 1.0560349E-02 1.0058597E-02 PATCH NUMER 58 First line = 86185 Averages = 0.2272512 0.2501576 0.2450770 0.2662659 Differences = -1.9936830E-02 2.9695481E-03 -2.1110922E-03 1.9077823E-02 PATCH NUMER 59 First line = 87697 Averages = 0.2439325 0.2559957 0.2710029 0.2679938 Differences = -1.5798748E-02 -3.7356019E-03 1.1271685E-02 8.2625151E-03 PATCH NUMER 60 First line = 89209 Averages = 0.2655303 0.2699991 0.2694633 0.2768332 Differences = -4.9262047E-03 -4.5734644E-04 -9.9313259E-04 6.3767135E-03 PATCH NUMER 61 First line = 90721 Averages = 0.2680608 0.2738032 0.2727850 0.2670061 Differences = -2.3530126E-03 3.3893883E-03 2.3712516E-03 -3.4076571E-03 PATCH NUMER 62 First line = 92233 Averages = 0.2766739 0.2645425 0.2770938 0.2641545 Differences = 6.0577095E-03 -6.0737729E-03 6.4775944E-03 -6.4617097E-03 PATCH NUMER 63 First line = 93745 Averages = 0.2661475 0.2755818 0.2651841 0.2821748 Differences = -6.1244667E-03 3.3098161E-03 -7.0878863E-03 9.9028647E-03 PATCH NUMER 64 First line = 95257 Averages = 0.2649378 0.2780410 0.2745900 0.2676376 Differences = -6.3636601E-03 6.7395866E-03 3.2886267E-03 -3.6637783E-03 PATCH NUMER 65 First line = 96769 last black mod_64: 50 100000 96769 4096 Averages = 0.2825471 0.2661923 0.2786730 0.2671183 Differences = 8.9144409E-03 -7.4403584E-03 5.0403774E-03 -6.5143108E-03 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.35 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 0 AZ patch size: 4096 What is the desired az fract (def=1.0)? fract #: 0.9486250 Please enter the name of the sensor file. /export/air32/airops/1400/sensor.hh96c_pr Please enter the name of the parameter file /export/air36/airops/1400/ts1400_c.par hddt: 96068 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 100000 lines Keeping 2208 data points per patch Near range (m) = 9040.540 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 1.200000 Radar wavelength (m) = 5.6699999E-02 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = -1.438269 Range weighting coefficient = 0.1000000 Map height (m) = 78.60000 Transmit leverarm x,y,z = 2.460000 0.1767171 -0.6599750 Receive leverarm x,y,z = 2.460000 0.1767171 -0.6599750 Name of raw data file? /export/air32/airops/1400/c_hh Name of the mocomp data file? /export/air36/airops/1400/ts1400_c.mocomph Output file name w/o ext? /export/air36/airops/1400/ts1400_c Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. hh Raw DIR Path:/export/air32/airops/1400/ output filename: /export/air32/airops/1400/ts1400_c.hh_j *** ipol itop: 1 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /export/air32/airops/1400/deskew.ch WAYNE init fft, calc slant range, load unpack, interpo 1.4371999E-02 reading motion compensation data WAYNE read motion compen 2.293509 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 AnalogChirp>96032Br,fs,T,fc 96068 40.00000 22.50000 90.00000 10.00000 deltaphase -ashift: 2.2062769E-03 1.438269 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.7463510 start range comp, time = 3.185 WAYNE PREV 3.071580 NUMBER OF PROCESSOR USED = 8 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 9 by # 0 Processing block number 1 TESTING WHY -6.0844002E-03 1.8281801E-02 1 1 WAYNE PATCHES: 1 4096 patch# 1 reference line: 2048 3.321 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 25.78414297103882 ATTN ifrq ipol ln 8 1 4096 18.00000 IPOL, ITOP nblock 1 0 1 ****shift in azimuth (fractional pixel)= -0.4999093 shift in azimuth *fractional pixel= -0.4742265 0.9486250 WAYNE Motion comp. coeff. calculated, time = 6.2969923019409180E-03 TESTING 0.0000000E+00 -51.43824 -0.4228247 WAYNE Motion comp. added to patch, time = 9.243097066879272 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 3.0750036239624023E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 -51.43824 -0.4228247 HEY,dt,fract,ye,pe -0.4742265 0.9486250 -6.0844002E-03 1.8281801E-02 WAYNE Azimuth compression done, time = 171.1174869537354 Writing 2208 lines of data to file WAYNE write output data 1.300029993057251 ==w out 1 0 945 0 WAYNE PROCESS 207.4555770158768 Processing block number 2 TESTING WHY -6.6268998E-03 1.8027700E-02 1512 2 WAYNE PATCHES: 1513 5608 patch# 2 reference line: 3560 210.778 seconds. TESTING 1513 before reading done reading WAYNE load raw data , time = 40.72193109989166 ATTN ifrq ipol ln 8 1 5608 18.00000 IPOL, ITOP nblock 1 0 2 ****shift in azimuth (fractional pixel)= -0.4999137 shift in azimuth *fractional pixel= -0.4742306 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.7150125503540039E-03 TESTING 0.0000000E+00 -49.07174 -0.2489514 WAYNE Motion comp. added to patch, time = 8.660277009010315 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 6.7259073257446289E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 -49.07174 -0.2489514 HEY,dt,fract,ye,pe -0.4742306 0.9486250 -6.6268998E-03 1.8027700E-02 WAYNE Azimuth compression done, time = 171.7062239646912 Writing 2208 lines of data to file WAYNE write output data 1.211369991302490 ==w out 2 2208 945 45219840 WAYNE PROCESS 222.3133490085602 Processing block number 3 TESTING WHY -6.7879101E-03 1.7859699E-02 1512 3 WAYNE PATCHES: 3025 7120 patch# 3 reference line: 5072 433.092 seconds. TESTING 3025 before reading done reading WAYNE load raw data , time = 41.85837805271149 ATTN ifrq ipol ln 8 1 7120 18.00000 IPOL, ITOP nblock 1 0 3 ****shift in azimuth (fractional pixel)= -0.4999097 shift in azimuth *fractional pixel= -0.4742268 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.6269168853759766E-03 TESTING 0.0000000E+00 -46.65452 -7.6172002E-02 WAYNE Motion comp. added to patch, time = 8.576004028320313 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.5080442428588867E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 ra PROCESSING KID# 3 ..... WAYNE IS IN Processing 18 to 25 by # 2 Processing block number 18 WAYNE PATCHES: 25705 29800 patch# 18 reference line: 27752 3.352 seconds. before reading done reading WAYNE load raw data , time = 25.64000499248505 ATTN ifrq ipol ln 8 1 29800 18.00000 IPOL, ITOP nblock 1 0 18 ****shift in azimuth (fractional pixel)= -0.4998929 shift in azimuth *fractional pixel= -0.4742109 0.9486250 WAYNE Motion comp. coeff. calculated, time = 6.6770315170288086E-03 WAYNE Motion comp. added to patch, time = 9.275379061698914 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 3.5558938980102539E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.3629519939423 Writing 2208 lines of data to file WAYNE write output data 1.232303023338318 ==w out 18 0 945 0 WAYNE PROCESS 207.5223340988159 Processing block number 19 WAYNE PATCHES: 27217 31312 patch# 19 reference line: 29264 210.875 seconds. before reading done reading WAYNE load raw data , time = 40.68479299545288 ATTN ifrq ipol ln 8 1 31312 18.00000 IPOL, ITOP nblock 1 0 19 ****shift in azimuth (fractional pixel)= -0.4998960 shift in azimuth *fractional pixel= -0.4742138 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.5249929428100586E-03 WAYNE Motion comp. added to patch, time = 8.900123000144958 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 1.2356996536254883E-02 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 172.5116389989853 Writing 2208 lines of data to file WAYNE write output data 1.072522044181824 ==w out 19 2208 945 45219840 WAYNE PROCESS 223.1882410049438 Processing block number 20 WAYNE PATCHES: 28729 32824 patch# 20 reference line: 30776 434.063 seconds. before reading done reading WAYNE load raw data , time = 40.14418494701385 ATTN ifrq ipol ln 8 1 32824 18.00000 IPOL, ITOP nblock 1 0 20 ****shift in azimuth (fractional pixel)= -0.4998966 shift in azimuth *fractional pixel= -0.4742144 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.5810213088989258E-03 WAYNE Motion comp. added to patch, time = 8.621572017669678 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.3990869522094727E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 172.3726850748062 Writing 2208 lines of data to file WAYNE write output data 1.364149928092957 ==w out 20 4416 945 90439680 WAYNE PROCESS 222.5116169452667 Processing block number 21 WAYNE PATCHES: 30241 34336 patch# 21 reference line: 32288 656.575 seconds. before reading done reading WAYNE load raw data , time = 40.54125297069550 ATTN ifrq ipol ln 8 1 34336 18.00000 IPOL, ITOP nblock 1 PROCESSING KID# 5 ..... WAYNE IS IN Processing 34 to 41 by # 4 Processing block number 34 WAYNE PATCHES: 49897 53992 patch# 34 reference line: 51944 3.382 seconds. before reading done reading WAYNE load raw data , time = 26.39193403720856 ATTN ifrq ipol ln 8 1 53992 18.00000 IPOL, ITOP nblock 1 0 34 ****shift in azimuth (fractional pixel)= -0.4999106 shift in azimuth *fractional pixel= -0.4742276 0.9486250 WAYNE Motion comp. coeff. calculated, time = 6.5330266952514648E-03 WAYNE Motion comp. added to patch, time = 9.229786038398743 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.9829740524291992E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 170.6925550699234 Writing 2208 lines of data to file WAYNE write output data 1.297641992568970 ==w out 34 0 945 0 WAYNE PROCESS 207.6229629516602 Processing block number 35 WAYNE PATCHES: 51409 55504 patch# 35 reference line: 53456 211.005 seconds. before reading done reading WAYNE load raw data , time = 40.87387299537659 ATTN ifrq ipol ln 8 1 55504 18.00000 IPOL, ITOP nblock 1 0 35 ****shift in azimuth (fractional pixel)= -0.4999051 shift in azimuth *fractional pixel= -0.4742225 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.6099891662597656E-03 WAYNE Motion comp. added to patch, time = 8.492249965667725 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 1.9636034965515137E-02 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.3310459852219 Writing 2208 lines of data to file WAYNE write output data 1.193629980087280 ==w out 35 2208 945 45219840 WAYNE PROCESS 221.9174269437790 Processing block number 36 WAYNE PATCHES: 52921 57016 patch# 36 reference line: 54968 432.923 seconds. before reading done reading WAYNE load raw data , time = 41.93485999107361 ATTN ifrq ipol ln 8 1 57016 18.00000 IPOL, ITOP nblock 1 0 36 ****shift in azimuth (fractional pixel)= -0.4999034 shift in azimuth *fractional pixel= -0.4742209 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.6179761886596680E-03 WAYNE Motion comp. added to patch, time = 8.467646002769470 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 2.3800134658813477E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.5354720354080 Writing 2208 lines of data to file WAYNE write output data 1.261578917503357 ==w out 36 4416 945 90439680 WAYNE PROCESS 223.2087999582291 Processing block number 37 WAYNE PATCHES: 54433 58528 patch# 37 reference line: 56480 656.132 seconds. before reading done reading WAYNE load raw data , time = 40.99781191349030 ATTN ifrq ipol ln 8 1 58528 18.00000 IPOL, ITOP nblock 1 PROCESSING KID# 7 ..... WAYNE IS IN Processing 50 to 57 by # 6 Processing block number 50 WAYNE PATCHES: 74089 78184 patch# 50 reference line: 76136 3.540 seconds. before reading done reading WAYNE load raw data , time = 25.99872004985809 ATTN ifrq ipol ln 8 1 78184 18.00000 IPOL, ITOP nblock 1 0 50 ****shift in azimuth (fractional pixel)= -0.4999023 shift in azimuth *fractional pixel= -0.4742198 0.9486250 WAYNE Motion comp. coeff. calculated, time = 6.3660144805908203E-03 WAYNE Motion comp. added to patch, time = 9.299026966094971 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 3.3050775527954102E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.3193110227585 Writing 2208 lines of data to file WAYNE write output data 1.211174964904785 ==w out 50 0 945 0 WAYNE PROCESS 207.8397020101547 Processing block number 51 WAYNE PATCHES: 75601 79696 patch# 51 reference line: 77648 211.380 seconds. before reading done reading WAYNE load raw data , time = 40.45747494697571 ATTN ifrq ipol ln 8 1 79696 18.00000 IPOL, ITOP nblock 1 0 51 ****shift in azimuth (fractional pixel)= -0.4998966 shift in azimuth *fractional pixel= -0.4742144 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.5739879608154297E-03 WAYNE Motion comp. added to patch, time = 8.704311013221741 WAYNE Doppler estimation done, time = 1.4066696166992188E-05 WAYNE write deskew done, time = 1.7041087150573730E-02 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.4879739284515 Writing 2208 lines of data to file WAYNE write output data 1.145473003387451 ==w out 51 2208 945 45219840 WAYNE PROCESS 221.8193889856339 Processing block number 52 WAYNE PATCHES: 77113 81208 patch# 52 reference line: 79160 433.199 seconds. before reading done reading WAYNE load raw data , time = 41.54541993141174 ATTN ifrq ipol ln 8 1 81208 18.00000 IPOL, ITOP nblock 1 0 52 ****shift in azimuth (fractional pixel)= -0.4999009 shift in azimuth *fractional pixel= -0.4742185 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.6899785995483398E-03 WAYNE Motion comp. added to patch, time = 8.332310080528259 WAYNE Doppler estimation done, time = 9.8943710327148438E-06 WAYNE write deskew done, time = 2.4210214614868164E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 172.0731489658356 Writing 2208 lines of data to file WAYNE write output data 1.277963042259216 ==w out 52 4416 945 90439680 WAYNE PROCESS 223.2381280660629 Processing block number 53 WAYNE PATCHES: 78625 82720 patch# 53 reference line: 80672 656.438 seconds. before reading done reading WAYNE load raw data , time = 40.75479602813721 ATTN ifrq ipol ln 8 1 82720 18.00000 IPOL, ITOP nblock 1 PROCESSING KID# 8 ..... WAYNE IS IN Processing 58 to 65 by # 7 Processing block number 58 WAYNE PATCHES: 86185 90280 patch# 58 reference line: 88232 3.543 seconds. before reading done reading WAYNE load raw data , time = 26.30719006061554 ATTN ifrq ipol ln 8 1 90280 18.00000 IPOL, ITOP nblock 1 0 58 ****shift in azimuth (fractional pixel)= -0.4999207 shift in azimuth *fractional pixel= -0.4742373 0.9486250 WAYNE Motion comp. coeff. calculated, time = 6.5499544143676758E-03 WAYNE Motion comp. added to patch, time = 9.015532970428467 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.9319524765014648E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.1552549600601 Writing 2208 lines of data to file WAYNE write output data 1.253391981124878 ==w out 58 0 945 0 WAYNE PROCESS 207.7423579692841 Processing block number 59 WAYNE PATCHES: 87697 91792 patch# 59 reference line: 89744 211.285 seconds. before reading done reading WAYNE load raw data , time = 40.65440094470978 ATTN ifrq ipol ln 8 1 91792 18.00000 IPOL, ITOP nblock 1 0 59 ****shift in azimuth (fractional pixel)= -0.4999106 shift in azimuth *fractional pixel= -0.4742277 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.5630207061767578E-03 WAYNE Motion comp. added to patch, time = 8.161559939384460 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 4.4763922691345215E-02 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 172.3743749856949 Writing 2208 lines of data to file WAYNE write output data 1.123576045036316 ==w out 59 2208 945 45219840 WAYNE PROCESS 222.3655790090561 Processing block number 60 WAYNE PATCHES: 89209 93304 patch# 60 reference line: 91256 433.651 seconds. before reading done reading WAYNE load raw data , time = 41.11157107353210 ATTN ifrq ipol ln 8 1 93304 18.00000 IPOL, ITOP nblock 1 0 60 ****shift in azimuth (fractional pixel)= -0.4999097 shift in azimuth *fractional pixel= -0.4742268 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.6149959564208984E-03 WAYNE Motion comp. added to patch, time = 8.363649964332581 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.3970603942871094E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.9309300184250 Writing 2208 lines of data to file WAYNE write output data 1.393948912620544 ==w out 60 4416 945 90439680 WAYNE PROCESS 222.8092679977417 Processing block number 61 WAYNE PATCHES: 90721 94816 patch# 61 reference line: 92768 656.461 seconds. before reading done reading WAYNE load raw data , time = 40.74858701229095 ATTN ifrq ipol ln 8 1 94816 18.00000 IPOL, ITOP nblock 1 PROCESSING KID# 4 ..... WAYNE IS IN Processing 26 to 33 by # 3 Processing block number 26 WAYNE PATCHES: 37801 41896 patch# 26 reference line: 39848 3.365 seconds. before reading done reading WAYNE load raw data , time = 26.14097905158997 ATTN ifrq ipol ln 8 1 41896 18.00000 IPOL, ITOP nblock 1 0 26 ****shift in azimuth (fractional pixel)= -0.4999104 shift in azimuth *fractional pixel= -0.4742275 0.9486250 WAYNE Motion comp. coeff. calculated, time = 6.5490007400512695E-03 WAYNE Motion comp. added to patch, time = 8.875079035758972 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.9619932174682617E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 170.8889240026474 Writing 2208 lines of data to file WAYNE write output data 1.068585991859436 ==w out 26 0 945 0 WAYNE PROCESS 206.9846830368042 Processing block number 27 WAYNE PATCHES: 39313 43408 patch# 27 reference line: 41360 210.350 seconds. before reading done reading WAYNE load raw data , time = 41.53454101085663 ATTN ifrq ipol ln 8 1 43408 18.00000 IPOL, ITOP nblock 1 0 27 ****shift in azimuth (fractional pixel)= -0.4999095 shift in azimuth *fractional pixel= -0.4742267 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.6090354919433594E-03 WAYNE Motion comp. added to patch, time = 8.442629933357239 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 6.9339275360107422E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.3406069278717 Writing 2208 lines of data to file WAYNE write output data 1.117477059364319 ==w out 27 2208 945 45219840 WAYNE PROCESS 222.4490320682526 Processing block number 28 WAYNE PATCHES: 40825 44920 patch# 28 reference line: 42872 432.800 seconds. before reading done reading WAYNE load raw data , time = 42.43759095668793 ATTN ifrq ipol ln 8 1 44920 18.00000 IPOL, ITOP nblock 1 0 28 ****shift in azimuth (fractional pixel)= -0.4999086 shift in azimuth *fractional pixel= -0.4742258 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.4930448532104492E-03 WAYNE Motion comp. added to patch, time = 8.330453991889954 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.5529861450195313E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.6004419326782 Writing 2208 lines of data to file WAYNE write output data 1.368689060211182 ==w out 28 4416 945 90439680 WAYNE PROCESS 223.7464690208435 Processing block number 29 WAYNE PATCHES: 42337 46432 patch# 29 reference line: 44384 656.546 seconds. before reading done reading WAYNE load raw data , time = 40.76599609851837 ATTN ifrq ipol ln 8 1 46432 18.00000 IPOL, ITOP nblock 1 PROCESSING KID# 2 ..... WAYNE IS IN Processing 10 to 17 by # 1 Processing block number 10 WAYNE PATCHES: 13609 17704 patch# 10 reference line: 15656 3.340 seconds. before reading done reading WAYNE load raw data , time = 26.63025701045990 ATTN ifrq ipol ln 8 1 17704 18.00000 IPOL, ITOP nblock 1 0 10 ****shift in azimuth (fractional pixel)= -0.4999199 shift in azimuth *fractional pixel= -0.4742365 0.9486250 WAYNE Motion comp. coeff. calculated, time = 7.6730251312255859E-03 WAYNE Motion comp. added to patch, time = 9.073471069335938 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 3.6540031433105469E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.1753810644150 Writing 2208 lines of data to file WAYNE write output data 1.389106988906860 ==w out 10 0 945 0 WAYNE PROCESS 208.2814500331879 Processing block number 11 WAYNE PATCHES: 15121 19216 patch# 11 reference line: 17168 211.622 seconds. before reading done reading WAYNE load raw data , time = 40.08320403099060 ATTN ifrq ipol ln 8 1 19216 18.00000 IPOL, ITOP nblock 1 0 11 ****shift in azimuth (fractional pixel)= -0.4999106 shift in azimuth *fractional pixel= -0.4742276 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.6060552597045898E-03 WAYNE Motion comp. added to patch, time = 8.523561000823975 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 1.7603039741516113E-02 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 172.1422859430313 Writing 2208 lines of data to file WAYNE write output data 1.310711979866028 ==w out 11 2208 945 45219840 WAYNE PROCESS 222.0841799974442 Processing block number 12 WAYNE PATCHES: 16633 20728 patch# 12 reference line: 18680 433.706 seconds. before reading done reading WAYNE load raw data , time = 40.95054399967194 ATTN ifrq ipol ln 8 1 20728 18.00000 IPOL, ITOP nblock 1 0 12 ****shift in azimuth (fractional pixel)= -0.4999113 shift in azimuth *fractional pixel= -0.4742284 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.5229663848876953E-03 WAYNE Motion comp. added to patch, time = 8.512984037399292 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.4169683456420898E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 172.6823680400848 Writing 2208 lines of data to file WAYNE write output data 1.203070044517517 ==w out 12 4416 945 90439680 WAYNE PROCESS 223.3581089973450 Processing block number 13 WAYNE PATCHES: 18145 22240 patch# 13 reference line: 20192 657.065 seconds. before reading done reading WAYNE load raw data , time = 40.29500293731689 ATTN ifrq ipol ln 8 1 22240 18.00000 IPOL, ITOP nblock 1 PROCESSING KID# 6 ..... WAYNE IS IN Processing 42 to 49 by # 5 Processing block number 42 WAYNE PATCHES: 61993 66088 patch# 42 reference line: 64040 3.404 seconds. before reading done reading WAYNE load raw data , time = 26.49120604991913 ATTN ifrq ipol ln 8 1 66088 18.00000 IPOL, ITOP nblock 1 0 42 ****shift in azimuth (fractional pixel)= -0.4999082 shift in azimuth *fractional pixel= -0.4742254 0.9486250 WAYNE Motion comp. coeff. calculated, time = 6.4790248870849609E-03 WAYNE Motion comp. added to patch, time = 9.236232995986938 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 3.1599998474121094E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 170.7782160043716 Writing 2208 lines of data to file WAYNE write output data 1.229063987731934 ==w out 42 0 945 0 WAYNE PROCESS 207.7460850477219 Processing block number 43 WAYNE PATCHES: 63505 67600 patch# 43 reference line: 65552 211.151 seconds. before reading done reading WAYNE load raw data , time = 41.03130602836609 ATTN ifrq ipol ln 8 1 67600 18.00000 IPOL, ITOP nblock 1 0 43 ****shift in azimuth (fractional pixel)= -0.4999070 shift in azimuth *fractional pixel= -0.4742243 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.6920051574707031E-03 WAYNE Motion comp. added to patch, time = 8.522992968559265 WAYNE Doppler estimation done, time = 2.3007392883300781E-05 WAYNE write deskew done, time = 7.8889131546020508E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.9268560409546 Writing 2208 lines of data to file WAYNE write output data 1.110535979270935 ==w out 43 2208 945 45219840 WAYNE PROCESS 222.6066960096359 Processing block number 44 WAYNE PATCHES: 65017 69112 patch# 44 reference line: 67064 433.758 seconds. before reading done reading WAYNE load raw data , time = 41.13908195495605 ATTN ifrq ipol ln 8 1 69112 18.00000 IPOL, ITOP nblock 1 0 44 ****shift in azimuth (fractional pixel)= -0.4999101 shift in azimuth *fractional pixel= -0.4742272 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.6569576263427734E-03 WAYNE Motion comp. added to patch, time = 8.334174036979675 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.4229288101196289E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 172.5385550260544 Writing 2208 lines of data to file WAYNE write output data 1.232116937637329 ==w out 44 4416 945 90439680 WAYNE PROCESS 223.2532680034637 Processing block number 45 WAYNE PATCHES: 66529 70624 patch# 45 reference line: 68576 657.011 seconds. before reading done reading WAYNE load raw data , time = 40.45389497280121 ATTN ifrq ipol ln 8 1 70624 18.00000 IPOL, ITOP nblock 1 nge migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 -46.65452 -7.6172002E-02 HEY,dt,fract,ye,pe -0.4742268 0.9486250 -6.7879101E-03 1.7859699E-02 WAYNE Azimuth compression done, time = 171.7873120307922 Writing 2208 lines of data to file WAYNE write output data 1.320968031883240 ==w out 3 4416 945 90439680 WAYNE PROCESS 223.5518900156021 Processing block number 4 TESTING WHY -6.9331899E-03 1.7697200E-02 1512 4 WAYNE PATCHES: 4537 8632 patch# 4 reference line: 6584 656.644 seconds. TESTING 4537 before reading done reading WAYNE load raw data , time = 40.34958600997925 ATTN ifrq ipol ln 8 1 8632 18.00000 IPOL, ITOP nblock 1 0 4 ****shift in azimuth (fractional pixel)= -0.4999149 shift in azimuth *fractional pixel= -0.4742317 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.5819749832153320E-03 TESTING 0.0000000E+00 -44.21946 -7.3880483E-03 WAYNE Motion comp. added to patch, time = 8.699774980545044 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.3319721221923828E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 -44.21946 -7.3880483E-03 HEY,dt,fract,ye,pe -0.4742317 0.9486250 -6.9331899E-03 1.7697200E-02 WAYNE Azimuth compression done, time = 171.4628950357437 Writing 2208 lines of data to file WAYNE write output data 1.154783964157104 ==w out 4 6624 945 135659520 WAYNE PROCESS 221.6759350299835 Processing block number 5 TESTING WHY -6.4711901E-03 1.7400300E-02 1512 5 WAYNE PATCHES: 6049 10144 patch# 5 reference line: 8096 878.320 seconds. TESTING 6049 before reading done reading WAYNE load raw data , time = 40.56885600090027 ATTN ifrq ipol ln 8 1 10144 18.00000 IPOL, ITOP nblock 1 0 5 ****shift in azimuth (fractional pixel)= -0.4999150 shift in azimuth *fractional pixel= -0.4742319 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.5890083312988281E-03 TESTING 0.0000000E+00 -41.80941 -5.7651967E-02 WAYNE Motion comp. added to patch, time = 8.668334007263184 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.3339986801147461E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 -41.80941 -5.7651967E-02 HEY,dt,fract,ye,pe -0.4742319 0.9486250 -6.4711901E-03 1.7400300E-02 WAYNE Azimuth compression done, time = 171.8528400659561 Writing 2208 lines of data to file WAYNE write output data 1.205209970474243 ==w out 5 8832 945 180879360 WAYNE PROCESS 222.3041909933090 Processing block number 6 TESTING WHY -6.0401699E-03 1.7375199E-02 1512 6 WAYNE PATCHES: 7561 11656 patch# 6 reference line: 9608 1100.625 seconds. TESTING 7561 before reading done reading WAYNE load raw data , time = 41.29179000854492 ATTN ifrq ipol ln 8 1 11656 18.00000 IPOL, ITOP nblock 1 0 6 ****shift in azimuth (fractional pixel)= -0.4999219 shift in azimuth *fractional pixel= -0.4742384 0.94862 0 53 ****shift in azimuth (fractional pixel)= -0.4998984 shift in azimuth *fractional pixel= -0.4742161 0.9486250 WAYNE Motion comp. coeff. calculated, time = 6.0549974441528320E-03 WAYNE Motion comp. added to patch, time = 8.554010987281799 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.3779869079589844E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 172.0162340402603 Writing 2208 lines of data to file WAYNE write output data 1.361147046089172 ==w out 53 6624 945 135659520 WAYNE PROCESS 222.6957840919495 Processing block number 54 WAYNE PATCHES: 80137 84232 patch# 54 reference line: 82184 879.134 seconds. before reading done reading WAYNE load raw data , time = 40.52472400665283 ATTN ifrq ipol ln 8 1 84232 18.00000 IPOL, ITOP nblock 1 0 54 ****shift in azimuth (fractional pixel)= -0.4999055 shift in azimuth *fractional pixel= -0.4742229 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.5669546127319336E-03 WAYNE Motion comp. added to patch, time = 8.636617064476013 WAYNE Doppler estimation done, time = 1.8000602722167969E-05 WAYNE write deskew done, time = 2.4069547653198242E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.8910399675369 Writing 2208 lines of data to file WAYNE write output data 1.284111022949219 ==w out 54 8832 945 180879360 WAYNE PROCESS 222.3458859920502 Processing block number 55 WAYNE PATCHES: 81649 85744 patch# 55 reference line: 83696 1101.480 seconds. before reading done reading WAYNE load raw data , time = 40.93716394901276 ATTN ifrq ipol ln 8 1 85744 18.00000 IPOL, ITOP nblock 1 0 55 ****shift in azimuth (fractional pixel)= -0.4999145 shift in azimuth *fractional pixel= -0.4742314 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.5689811706542969E-03 WAYNE Motion comp. added to patch, time = 8.396201014518738 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.3610591888427734E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.9821369647980 Writing 2208 lines of data to file WAYNE write output data 1.324563980102539 ==w out 55 11040 945 226099200 WAYNE PROCESS 222.6492840051651 Processing block number 56 WAYNE PATCHES: 83161 87256 patch# 56 reference line: 85208 1324.130 seconds. before reading done reading WAYNE load raw data , time = 40.00145602226257 ATTN ifrq ipol ln 8 1 87256 18.00000 IPOL, ITOP nblock 1 0 56 ****shift in azimuth (fractional pixel)= -0.4999165 shift in azimuth *fractional pixel= -0.4742333 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.5170059204101563E-03 WAYNE Motion comp. added to patch, time = 8.126031041145325 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.7680397033691406E-03 AZ Wavl Br: 5.6699999E-02 40.00000 0 45 ****shift in azimuth (fractional pixel)= -0.4999253 shift in azimuth *fractional pixel= -0.4742416 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.8499574661254883E-03 WAYNE Motion comp. added to patch, time = 8.431064009666443 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.3870468139648438E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.8793139457703 Writing 2208 lines of data to file WAYNE write output data 1.309873938560486 ==w out 45 6624 945 135659520 WAYNE PROCESS 222.0836269855499 Processing block number 46 WAYNE PATCHES: 68041 72136 patch# 46 reference line: 70088 879.095 seconds. before reading done reading WAYNE load raw data , time = 40.24014806747437 ATTN ifrq ipol ln 8 1 72136 18.00000 IPOL, ITOP nblock 1 0 46 ****shift in azimuth (fractional pixel)= -0.4999295 shift in azimuth *fractional pixel= -0.4742456 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.6079626083374023E-03 WAYNE Motion comp. added to patch, time = 8.328242063522339 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.5440454483032227E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.8828680515289 Writing 2208 lines of data to file WAYNE write output data 1.318601012229919 ==w out 46 8832 945 180879360 WAYNE PROCESS 221.7792299985886 Processing block number 47 WAYNE PATCHES: 69553 73648 patch# 47 reference line: 71600 1100.875 seconds. before reading done reading WAYNE load raw data , time = 41.79660189151764 ATTN ifrq ipol ln 8 1 73648 18.00000 IPOL, ITOP nblock 1 0 47 ****shift in azimuth (fractional pixel)= -0.4999293 shift in azimuth *fractional pixel= -0.4742454 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.5170059204101563E-03 WAYNE Motion comp. added to patch, time = 8.288400053977966 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.5819540023803711E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.2264200448990 Writing 2208 lines of data to file WAYNE write output data 1.161119103431702 ==w out 47 11040 945 226099200 WAYNE PROCESS 222.4819310903549 Processing block number 48 WAYNE PATCHES: 71065 75160 patch# 48 reference line: 73112 1323.357 seconds. before reading done reading WAYNE load raw data , time = 40.42126500606537 ATTN ifrq ipol ln 8 1 75160 18.00000 IPOL, ITOP nblock 1 0 48 ****shift in azimuth (fractional pixel)= -0.4999284 shift in azimuth *fractional pixel= -0.4742445 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.5440664291381836E-03 WAYNE Motion comp. added to patch, time = 8.502045989036560 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.8840303421020508E-03 AZ Wavl Br: 5.6699999E-02 40.00000 0 29 ****shift in azimuth (fractional pixel)= -0.4998943 shift in azimuth *fractional pixel= -0.4742122 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.7289600372314453E-03 WAYNE Motion comp. added to patch, time = 8.608606100082397 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.3990869522094727E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.5190989971161 Writing 2208 lines of data to file WAYNE write output data 1.321771025657654 ==w out 29 6624 945 135659520 WAYNE PROCESS 222.2247159481049 Processing block number 30 WAYNE PATCHES: 43849 47944 patch# 30 reference line: 45896 878.771 seconds. before reading done reading WAYNE load raw data , time = 40.69879102706909 ATTN ifrq ipol ln 8 1 47944 18.00000 IPOL, ITOP nblock 1 0 30 ****shift in azimuth (fractional pixel)= -0.4999051 shift in azimuth *fractional pixel= -0.4742225 0.9486250 WAYNE Motion comp. coeff. calculated, time = 6.0859918594360352E-03 WAYNE Motion comp. added to patch, time = 8.497228026390076 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.4449825286865234E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.5959039926529 Writing 2208 lines of data to file WAYNE write output data 1.332549095153809 ==w out 30 8832 945 180879360 WAYNE PROCESS 222.1341760158539 Processing block number 31 WAYNE PATCHES: 45361 49456 patch# 31 reference line: 47408 1100.906 seconds. before reading done reading WAYNE load raw data , time = 41.63017892837524 ATTN ifrq ipol ln 8 1 49456 18.00000 IPOL, ITOP nblock 1 0 31 ****shift in azimuth (fractional pixel)= -0.4998977 shift in azimuth *fractional pixel= -0.4742155 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.7289600372314453E-03 WAYNE Motion comp. added to patch, time = 8.493323087692261 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 2.6329755783081055E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.1042979955673 Writing 2208 lines of data to file WAYNE write output data 1.226932048797607 ==w out 31 11040 945 226099200 WAYNE PROCESS 222.4644010066986 Processing block number 32 WAYNE PATCHES: 46873 50968 patch# 32 reference line: 48920 1323.371 seconds. before reading done reading WAYNE load raw data , time = 40.50086498260498 ATTN ifrq ipol ln 8 1 50968 18.00000 IPOL, ITOP nblock 1 0 32 ****shift in azimuth (fractional pixel)= -0.4999065 shift in azimuth *fractional pixel= -0.4742237 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.6159496307373047E-03 WAYNE Motion comp. added to patch, time = 8.440411090850830 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.6710033416748047E-03 AZ Wavl Br: 5.6699999E-02 40.00000 0 37 ****shift in azimuth (fractional pixel)= -0.4999078 shift in azimuth *fractional pixel= -0.4742250 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.8850049972534180E-03 WAYNE Motion comp. added to patch, time = 8.796583056449890 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.3460388183593750E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.8821110725403 Writing 2208 lines of data to file WAYNE write output data 1.294443011283875 ==w out 37 6624 945 135659520 WAYNE PROCESS 222.9803251028061 Processing block number 38 WAYNE PATCHES: 55945 60040 patch# 38 reference line: 57992 879.113 seconds. before reading done reading WAYNE load raw data , time = 40.69805502891541 ATTN ifrq ipol ln 8 1 60040 18.00000 IPOL, ITOP nblock 1 0 38 ****shift in azimuth (fractional pixel)= -0.4999242 shift in azimuth *fractional pixel= -0.4742406 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.7150125503540039E-03 WAYNE Motion comp. added to patch, time = 8.502204895019531 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.3840665817260742E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.6061130762100 Writing 2208 lines of data to file WAYNE write output data 1.285177946090698 ==w out 38 8832 945 180879360 WAYNE PROCESS 222.1009609699249 Processing block number 39 WAYNE PATCHES: 57457 61552 patch# 39 reference line: 59504 1101.214 seconds. before reading done reading WAYNE load raw data , time = 41.12181806564331 ATTN ifrq ipol ln 8 1 61552 18.00000 IPOL, ITOP nblock 1 0 39 ****shift in azimuth (fractional pixel)= -0.4999253 shift in azimuth *fractional pixel= -0.4742416 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.5549144744873047E-03 WAYNE Motion comp. added to patch, time = 8.238842964172363 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.3510456085205078E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.6754580736160 Writing 2208 lines of data to file WAYNE write output data 1.334452986717224 ==w out 39 11040 945 226099200 WAYNE PROCESS 222.3796999454498 Processing block number 40 WAYNE PATCHES: 58969 63064 patch# 40 reference line: 61016 1323.594 seconds. before reading done reading WAYNE load raw data , time = 40.12166500091553 ATTN ifrq ipol ln 8 1 63064 18.00000 IPOL, ITOP nblock 1 0 40 ****shift in azimuth (fractional pixel)= -0.4999271 shift in azimuth *fractional pixel= -0.4742433 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.5609941482543945E-03 WAYNE Motion comp. added to patch, time = 8.613577008247375 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.7149915695190430E-03 AZ Wavl Br: 5.6699999E-02 40.00000 0 21 ****shift in azimuth (fractional pixel)= -0.4998957 shift in azimuth *fractional pixel= -0.4742136 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.8619976043701172E-03 WAYNE Motion comp. added to patch, time = 8.691136002540588 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.3280382156372070E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 172.7719169855118 Writing 2208 lines of data to file WAYNE write output data 1.156305074691772 ==w out 21 6624 945 135659520 WAYNE PROCESS 223.1699249744415 Processing block number 22 WAYNE PATCHES: 31753 35848 patch# 22 reference line: 33800 879.745 seconds. before reading done reading WAYNE load raw data , time = 39.69455099105835 ATTN ifrq ipol ln 8 1 35848 18.00000 IPOL, ITOP nblock 1 0 22 ****shift in azimuth (fractional pixel)= -0.4998982 shift in azimuth *fractional pixel= -0.4742159 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.6449174880981445E-03 WAYNE Motion comp. added to patch, time = 8.596232056617737 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 2.4619102478027344E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 172.1429148912430 Writing 2208 lines of data to file WAYNE write output data 1.270455956459045 ==w out 22 8832 945 180879360 WAYNE PROCESS 221.7135649919510 Processing block number 23 WAYNE PATCHES: 33265 37360 patch# 23 reference line: 35312 1101.459 seconds. before reading done reading WAYNE load raw data , time = 40.68729400634766 ATTN ifrq ipol ln 8 1 37360 18.00000 IPOL, ITOP nblock 1 0 23 ****shift in azimuth (fractional pixel)= -0.4999059 shift in azimuth *fractional pixel= -0.4742232 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.8859586715698242E-03 WAYNE Motion comp. added to patch, time = 8.422914028167725 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.3829936981201172E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 172.2289619445801 Writing 2208 lines of data to file WAYNE write output data 1.293429970741272 ==w out 23 11040 945 226099200 WAYNE PROCESS 222.6421979665756 Processing block number 24 WAYNE PATCHES: 34777 38872 patch# 24 reference line: 36824 1324.102 seconds. before reading done reading WAYNE load raw data , time = 39.80709695816040 ATTN ifrq ipol ln 8 1 38872 18.00000 IPOL, ITOP nblock 1 0 24 ****shift in azimuth (fractional pixel)= -0.4999020 shift in azimuth *fractional pixel= -0.4742195 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.6400299072265625E-03 WAYNE Motion comp. added to patch, time = 8.544975996017456 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.7730464935302734E-03 AZ Wavl Br: 5.6699999E-02 40.00000 0 61 ****shift in azimuth (fractional pixel)= -0.4999088 shift in azimuth *fractional pixel= -0.4742260 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.8399438858032227E-03 WAYNE Motion comp. added to patch, time = 8.525596976280212 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.3909807205200195E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.2759460210800 Writing 2208 lines of data to file WAYNE write output data 1.325719952583313 ==w out 61 6624 945 135659520 WAYNE PROCESS 221.8852620124817 Processing block number 62 WAYNE PATCHES: 92233 96328 patch# 62 reference line: 94280 878.346 seconds. before reading done reading WAYNE load raw data , time = 41.26733195781708 ATTN ifrq ipol ln 8 1 96328 18.00000 IPOL, ITOP nblock 1 0 62 ****shift in azimuth (fractional pixel)= -0.4999076 shift in azimuth *fractional pixel= -0.4742248 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.6090354919433594E-03 WAYNE Motion comp. added to patch, time = 8.328601002693176 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.3399591445922852E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.9597818851471 Writing 2208 lines of data to file WAYNE write output data 1.353165984153748 ==w out 62 8832 945 180879360 WAYNE PROCESS 222.9180389642715 Processing block number 63 WAYNE PATCHES: 93745 97840 patch# 63 reference line: 95792 1101.265 seconds. before reading done reading WAYNE load raw data , time = 41.04431688785553 ATTN ifrq ipol ln 8 1 97840 18.00000 IPOL, ITOP nblock 1 0 63 ****shift in azimuth (fractional pixel)= -0.4999051 shift in azimuth *fractional pixel= -0.4742225 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.5589675903320313E-03 WAYNE Motion comp. added to patch, time = 8.238445043563843 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 4.4800043106079102E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.7355619668961 Writing 2208 lines of data to file WAYNE write output data 1.255993008613586 ==w out 63 11040 945 226099200 WAYNE PROCESS 222.2855870723724 Processing block number 64 WAYNE PATCHES: 95257 99352 patch# 64 reference line: 97304 1323.551 seconds. before reading done reading WAYNE load raw data , time = 40.65973401069641 ATTN ifrq ipol ln 8 1 99352 18.00000 IPOL, ITOP nblock 1 0 64 ****shift in azimuth (fractional pixel)= -0.4998900 shift in azimuth *fractional pixel= -0.4742081 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.6530237197875977E-03 WAYNE Motion comp. added to patch, time = 8.260385990142822 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.7210712432861328E-03 AZ Wavl Br: 5.6699999E-02 40.00000 0 13 ****shift in azimuth (fractional pixel)= -0.4998983 shift in azimuth *fractional pixel= -0.4742160 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.8870315551757813E-03 WAYNE Motion comp. added to patch, time = 8.587656021118164 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 8.4350109100341797E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 172.2457950115204 Writing 2208 lines of data to file WAYNE write output data 1.161821007728577 ==w out 13 6624 945 135659520 WAYNE PROCESS 222.3059420585632 Processing block number 14 WAYNE PATCHES: 19657 23752 patch# 14 reference line: 21704 879.371 seconds. before reading done reading WAYNE load raw data , time = 40.24706208705902 ATTN ifrq ipol ln 8 1 23752 18.00000 IPOL, ITOP nblock 1 0 14 ****shift in azimuth (fractional pixel)= -0.4998935 shift in azimuth *fractional pixel= -0.4742114 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.6890249252319336E-03 WAYNE Motion comp. added to patch, time = 8.642921090126038 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.3469924926757813E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.6196279525757 Writing 2208 lines of data to file WAYNE write output data 1.310368061065674 ==w out 14 8832 945 180879360 WAYNE PROCESS 221.8292870521545 Processing block number 15 WAYNE PATCHES: 21169 25264 patch# 15 reference line: 23216 1101.200 seconds. before reading done reading WAYNE load raw data , time = 40.92014300823212 ATTN ifrq ipol ln 8 1 25264 18.00000 IPOL, ITOP nblock 1 0 15 ****shift in azimuth (fractional pixel)= -0.4998883 shift in azimuth *fractional pixel= -0.4742065 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.5949687957763672E-03 WAYNE Motion comp. added to patch, time = 8.495165944099426 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.4070739746093750E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.8759739398956 Writing 2208 lines of data to file WAYNE write output data 1.449190974235535 ==w out 15 11040 945 226099200 WAYNE PROCESS 222.7497270107269 Processing block number 16 WAYNE PATCHES: 22681 26776 patch# 16 reference line: 24728 1323.951 seconds. before reading done reading WAYNE load raw data , time = 40.13861894607544 ATTN ifrq ipol ln 8 1 26776 18.00000 IPOL, ITOP nblock 1 0 16 ****shift in azimuth (fractional pixel)= -0.4998951 shift in azimuth *fractional pixel= -0.4742130 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.5880546569824219E-03 WAYNE Motion comp. added to patch, time = 8.408588051795959 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 3.1390190124511719E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 172.0153340101242 Writing 2208 lines of data to file WAYNE write output data 1.393238067626953 ==w out 64 13248 945 271319040 WAYNE PROCESS 222.3383359909058 Processing block number 65 WAYNE PATCHES: 95904 99999 patch# 65 reference line: 97951 1545.889 seconds. before reading done reading WAYNE load raw data , time = 35.17625200748444 ATTN ifrq ipol ln 8 1 99999 18.00000 IPOL, ITOP nblock 1 0 65 ****shift in azimuth (fractional pixel)= -0.4998926 shift in azimuth *fractional pixel= -0.4742106 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.5871009826660156E-03 WAYNE Motion comp. added to patch, time = 8.430707931518555 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 0.1136579513549805 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 170.8241480588913 Writing 2208 lines of data to file WAYNE write output data 0.9549809694290161 ==w out 65 15456 945 316538880 WAYNE PROCESS 215.5065120458603 ==w out 66 17667 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.6277840137482 Writing 2208 lines of data to file WAYNE write output data 1.213603019714355 ==w out 32 13248 945 271319040 WAYNE PROCESS 221.7921530008316 Processing block number 33 WAYNE PATCHES: 48385 52480 patch# 33 reference line: 50432 1545.163 seconds. before reading done reading WAYNE load raw data , time = 40.92685103416443 ATTN ifrq ipol ln 8 1 52480 18.00000 IPOL, ITOP nblock 1 0 33 ****shift in azimuth (fractional pixel)= -0.4999053 shift in azimuth *fractional pixel= -0.4742227 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.5290460586547852E-03 WAYNE Motion comp. added to patch, time = 8.599462985992432 WAYNE Doppler estimation done, time = 9.8943710327148438E-06 WAYNE write deskew done, time = 4.1682004928588867E-02 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 170.4970949888229 Writing 2208 lines of data to file WAYNE write output data 0.9916119575500488 ==w out 33 15456 945 316538880 WAYNE PROCESS 221.0634449720383 ==w out 34 17667 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.7347879409790 Writing 2208 lines of data to file WAYNE write output data 1.348722934722900 ==w out 40 13248 945 271319040 WAYNE PROCESS 221.8282179832458 Processing block number 41 WAYNE PATCHES: 60481 64576 patch# 41 reference line: 62528 1545.423 seconds. before reading done reading WAYNE load raw data , time = 40.47449195384979 ATTN ifrq ipol ln 8 1 64576 18.00000 IPOL, ITOP nblock 1 0 41 ****shift in azimuth (fractional pixel)= -0.4999243 shift in azimuth *fractional pixel= -0.4742407 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.5299997329711914E-03 WAYNE Motion comp. added to patch, time = 8.830875992774963 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.8254985809326172E-02 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 170.6477320194244 Writing 2208 lines of data to file WAYNE write output data 1.043105959892273 ==w out 41 15456 945 316538880 WAYNE PROCESS 221.0313309431076 ==w out 42 17667 50 WAYNE Motion comp. coeff. calculated, time = 5.8430433273315430E-03 TESTING 0.0000000E+00 -39.48611 -8.5312389E-03 WAYNE Motion comp. added to patch, time = 8.485291004180908 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.3469924926757813E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 -39.48611 -8.5312389E-03 HEY,dt,fract,ye,pe -0.4742384 0.9486250 -6.0401699E-03 1.7375199E-02 WAYNE Azimuth compression done, time = 170.7370129823685 Writing 2208 lines of data to file WAYNE write output data 1.277063965797424 ==w out 6 11040 945 226099200 WAYNE PROCESS 221.8003679513931 Processing block number 7 TESTING WHY -5.5889799E-03 1.7301399E-02 1512 7 WAYNE PATCHES: 9073 13168 patch# 7 reference line: 11120 1322.425 seconds. TESTING 9073 before reading done reading WAYNE load raw data , time = 41.42994105815887 ATTN ifrq ipol ln 8 1 13168 18.00000 IPOL, ITOP nblock 1 0 7 ****shift in azimuth (fractional pixel)= -0.4999224 shift in azimuth *fractional pixel= -0.4742388 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.6279897689819336E-03 TESTING 0.0000000E+00 -37.25120 9.9411257E-02 WAYNE Motion comp. added to patch, time = 8.547060012817383 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.8580427169799805E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 -37.25120 9.9411257E-02 HEY,dt,fract,ye,pe -0.4742388 0.9486250 -5.5889799E-03 1.7301399E-02 WAYNE Azimuth compression done, time = 171.6504739522934 Writing 2208 lines of data to file WAYNE write output data 1.330119013786316 ==w out 7 13248 945 271319040 WAYNE PROCESS 222.9672710895538 Processing block number 8 TESTING WHY -5.0834999E-03 1.7357500E-02 1512 8 WAYNE PATCHES: 10585 14680 patch# 8 reference line: 12632 1545.393 seconds. TESTING 10585 before reading done reading WAYNE load raw data , time = 41.02746200561523 ATTN ifrq ipol ln 8 1 14680 18.00000 IPOL, ITOP nblock 1 0 8 ****shift in azimuth (fractional pixel)= -0.4999197 shift in azimuth *fractional pixel= -0.4742363 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.5569410324096680E-03 TESTING 0.0000000E+00 -35.13472 -6.6205278E-02 WAYNE Motion comp. added to patch, time = 8.880870938301086 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 1.6466021537780762E-02 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 -35.13472 -6.6205278E-02 HEY,dt,fract,ye,pe -0.4742363 0.9486250 -5.0834999E-03 1.7357500E-02 WAYNE Azimuth compression done, time = 170.3511420488358 Writing 2208 lines of data to file WAYNE write output data 1.134011983871460 ==w out 8 15456 945 316538880 WAYNE PROCESS 221.4166949987411 Processing block number 9 TESTING WHY -5.0025000E-03 1.7478000E-02 1512 9 WAYNE PATCHES: 12097 16192 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 172.1900700330734 Writing 2208 lines of data to file WAYNE write output data 1.331051945686340 ==w out 24 13248 945 271319040 WAYNE PROCESS 221.8828829526901 Processing block number 25 WAYNE PATCHES: 36289 40384 patch# 25 reference line: 38336 1545.985 seconds. before reading done reading WAYNE load raw data , time = 40.04768300056458 ATTN ifrq ipol ln 8 1 40384 18.00000 IPOL, ITOP nblock 1 0 25 ****shift in azimuth (fractional pixel)= -0.4999073 shift in azimuth *fractional pixel= -0.4742246 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.5919885635375977E-03 WAYNE Motion comp. added to patch, time = 8.740777969360352 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 5.0037026405334473E-02 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.0147279500961 Writing 2208 lines of data to file WAYNE write output data 1.119658946990967 ==w out 25 15456 945 316538880 WAYNE PROCESS 220.9797389507294 ==w out 26 17667 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.6754580736160 Writing 2208 lines of data to file WAYNE write output data 1.373911976814270 ==w out 48 13248 945 271319040 WAYNE PROCESS 221.9823250770569 Processing block number 49 WAYNE PATCHES: 72577 76672 patch# 49 reference line: 74624 1545.340 seconds. before reading done reading WAYNE load raw data , time = 40.99878799915314 ATTN ifrq ipol ln 8 1 76672 18.00000 IPOL, ITOP nblock 1 0 49 ****shift in azimuth (fractional pixel)= -0.4999198 shift in azimuth *fractional pixel= -0.4742364 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.5880546569824219E-03 WAYNE Motion comp. added to patch, time = 8.786656975746155 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 3.2359004020690918E-02 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.0036900043488 Writing 2208 lines of data to file WAYNE write output data 1.116914987564087 ==w out 49 15456 945 316538880 WAYNE PROCESS 221.9455469846725 ==w out 50 17667 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 172.0835720300674 Writing 2208 lines of data to file WAYNE write output data 1.350620985031128 ==w out 56 13248 945 271319040 WAYNE PROCESS 221.5711749792099 Processing block number 57 WAYNE PATCHES: 84673 88768 patch# 57 reference line: 86720 1545.701 seconds. before reading done reading WAYNE load raw data , time = 40.63860797882080 ATTN ifrq ipol ln 8 1 88768 18.00000 IPOL, ITOP nblock 1 0 57 ****shift in azimuth (fractional pixel)= -0.4999190 shift in azimuth *fractional pixel= -0.4742356 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.6669712066650391E-03 WAYNE Motion comp. added to patch, time = 8.596626996994019 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 7.1754097938537598E-02 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.1604850292206 Writing 2208 lines of data to file WAYNE write output data 1.131186962127686 ==w out 57 15456 945 316538880 WAYNE PROCESS 221.6057660579681 ==w out 58 17667 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.7994430065155 Writing 2208 lines of data to file WAYNE write output data 1.544576048851013 ==w out 16 13248 945 271319040 WAYNE PROCESS 221.9013320207596 Processing block number 17 WAYNE PATCHES: 24193 28288 patch# 17 reference line: 26240 1545.852 seconds. before reading done reading WAYNE load raw data , time = 40.08252799510956 ATTN ifrq ipol ln 8 1 28288 18.00000 IPOL, ITOP nblock 1 0 17 ****shift in azimuth (fractional pixel)= -0.4998961 shift in azimuth *fractional pixel= -0.4742140 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.6189298629760742E-03 WAYNE Motion comp. added to patch, time = 8.920166969299316 WAYNE Doppler estimation done, time = 1.3947486877441406E-05 WAYNE write deskew done, time = 6.7939758300781250E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.7274810075760 Writing 2208 lines of data to file WAYNE write output data 1.034615039825439 ==w out 17 15456 945 316538880 WAYNE PROCESS 221.7784359455109 ==w out 18 17667 patch# 9 reference line: 14144 1766.810 seconds. TESTING 12097 before reading done reading WAYNE load raw data , time = 37.22350704669952 ATTN ifrq ipol ln 8 1 16192 18.00000 IPOL, ITOP nblock 1 0 9 ****shift in azimuth (fractional pixel)= -0.4999206 shift in azimuth *fractional pixel= -0.4742372 0.9486250 WAYNE Motion comp. coeff. calculated, time = 5.5890083312988281E-03 TESTING 0.0000000E+00 -33.20081 -0.5272910 WAYNE Motion comp. added to patch, time = 7.833622932434082 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.3870468139648438E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 -33.20081 -0.5272910 HEY,dt,fract,ye,pe -0.4742372 0.9486250 -5.0025000E-03 1.7478000E-02 WAYNE Azimuth compression done, time = 121.9379609823227 Writing 2208 lines of data to file WAYNE write output data 0.8871810436248779 ==w out 9 17664 945 361758720 WAYNE PROCESS 167.8916250467300 ==w out 10 19875 1 7851927 0 2 7853237 0 3 7852385 0 4 7852036 0 5 7853327 0 6 7852422 0 7 7852922 0 8 7851915 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 143520kids= 8 Writing variable header... gather image from processor # 0 9 gather image from processor # 1 8 gather image from processor # 2 8 gather image from processor # 3 8 gather image from processor # 4 8 gather image from processor # 5 8 gather image from processor # 6 8 gather image from processor # 7 8 WAYNE gather images takes: 9.7870945930480957E-02 WAYNE LOOP TIME: 1939.819065928459 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air32/airops/1400/ts1400_c.hh_j /export/air36/airops/1400/ts1400_c.mocomph /export/air36/airops/1400/ts1400_c.dop /export/air36/airops/1400/ts1400_c.glb 2560 143520 update intf hdr ha: 8367.900 UPDATE: 2560 143520 3.331000 0.5144000 mocompfile /export/air36/airops/1400/ts1400_c.mocomph dopfile /export/air36/airops/1400/ts1400_c.dop globalfile /export/air36/airops/1400/ts1400_c.glb /export/air36/airops/1400/ts1400_c.glb 38 deskew line ra ha trc: 132.2092 257 9042.366 8367.900 54.57177 after deskew line ra ha trc: 132.2092 257 9042.366 8367.900 54.57177 lat1 lon1: 257 4.813089 114.7795 143520 last ra n_ns ns: 9042.366 1 1 143776 143520 lati loni: 143776 5.199783 115.3687 143776 1 center ra n_ns ns: 13302.71 1280 1280 72016 143520 lati loni: 72016 5.037969 115.0519 72016 2560 Updated paramater header in /export/air32/airops/1400/ts1400_c.hh_j WAYNE FINAL PROCESS 1943.095294952393 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 8 19872 9 17664 8 17664 8 17664 8 17664 8 17664 8 17664 8 17664 8 Name of data file to be deskewed? /export/air32/airops/1400/ts1400_c.hh_j Name of the doppler parameter file? /export/air36/airops/1400/ts1400_c.dop Name of the deskew file? /export/air32/airops/1400/deskew.ch Line up to another frequency [y/n]? n Name of the output file? /export/air36/airops/1400/ts1400_c.BB Name of the line output file? /export/air36/airops/1400/c_lines.dat NONE-SYMMETRIC PARALLEL JOBS Deskewing 65 patches Processing block number 1 patch iptc,sj,dgj,dgi,id: 1 1 114 114 0 half line dmj dgc: 0 945 256 114 Actual deskew ireclen: 20480 ** 1 1104 0 1104 Writing data negflag .eq. 0 sj>s1: 1 1 Zeroing lines in arrays Total # of output lines = 1 0 1 1105 0 1104 patch iptc,sj,dgj,dgi,id: 1 1105 114 114 1104 half line dmj dgc: 1 945 256 114 Actual deskew ireclen: 20480 ** 1 1104 1 2208 Writing data negflag .eq. 0 sj>s1: 1105 1 Zeroing lines in arrays Total # of output lines = 1 1104 Processing block number 2 1105 1493 -20 408 patch iptc,sj,dgj,dgi,id: 2 1493 94 114 408 half line dmj dgc: 0 2457 249 114 Actual deskew ireclen: 20480 ** 2 1104 0 3312 Writing data negflag .eq. 0 sj>s1: 1493 1105 Zeroing lines in arrays Total # of output lines = 2 1492 1493 2597 0 1104 patch iptc,sj,dgj,dgi,id: 2 2597 94 94 1104 half line dmj dgc: 1 2457 249 114 Actual deskew ireclen: 20480 ** 2 1104 1 4416 Writing data negflag .eq. 0 sj>s1: 2597 1493 Zeroing lines in arrays Total # of output lines = 2 2596 Processing block number 3 2597 2997 -8 408 patch iptc,sj,dgj,dgi,id: 3 2997 86 94 408 half line dmj dgc: 0 3969 245 114 Actual deskew ireclen: 20480 ** 3 1104 0 5520 Writing data negflag .eq. 0 sj>s1: 2997 2597 Zeroing lines in arrays Total # of output lines = 3 2996 2997 4101 0 1104 patch iptc,sj,dgj,dgi,id: 3 4101 86 86 1104 half line dmj dgc: 1 3969 245 114 Actual deskew ireclen: 20480 ** 3 1104 1 6624 Writing data negflag .eq. 0 sj>s1: 4101 2997 Zeroing lines in arrays Total # of output lines = 3 4100 Processing block number 4 4101 4502 -7 408 patch iptc,sj,dgj,dgi,id: 4 4502 79 86 408 half line dmj dgc: 0 5481 241 114 Actual deskew ireclen: 20480 ** 4 1104 0 7728 Writing data negflag .eq. 0 sj>s1: 4502 4101 Zeroing lines in arrays Total # of output lines = 4 4501 4502 5606 0 1104 patch iptc,sj,dgj,dgi,id: 4 5606 79 79 1104 half line dmj dgc: 1 5481 241 114 Actual deskew ireclen: 20480 ** 4 1104 1 8832 Writing data negflag .eq. 0 sj>s1: 5606 4502 Zeroing lines in arrays Total # of output lines = 4 5605 Processing block number 5 5606 6023 9 408 patch iptc,sj,dgj,dgi,id: 5 6023 88 79 408 half line dmj dgc: 0 6993 240 114 Actual deskew ireclen: 20480 ** 5 1104 0 9936 Writing data negflag .eq. 0 sj>s1: 6023 5606 Zeroing lines in arrays Total # of output lines = 5 6022 6023 7127 0 1104 patch iptc,sj,dgj,dgi,id: 5 7127 88 88 1104 half line dmj dgc: 1 6993 240 114 Actual deskew ireclen: 20480 ** 5 1104 1 11040 Writing data negflag .eq. 0 sj>s1: 7127 6023 Zeroing lines in arrays Total # of output lines = 5 7126 Processing block number 6 7127 7548 13 408 patch iptc,sj,dgj,dgi,id: 6 7548 101 88 408 half line dmj dgc: 0 8505 242 114 Actual deskew ireclen: 20480 ** 6 1104 0 12144 Writing data negflag .eq. 0 sj>s1: 7548 7127 Zeroing lines in arrays Total # of output lines = 6 7547 7548 8652 0 1104 patch iptc,sj,dgj,dgi,id: 6 8652 101 101 1104 half line dmj dgc: 1 8505 242 114 Actual deskew ireclen: 20480 ** 6 1104 1 13248 Writing data negflag .eq. 0 sj>s1: 8652 7548 Zeroing lines in arrays Total # of output lines = 6 8651 Processing block number 7 8652 9072 12 408 patch iptc,sj,dgj,dgi,id: 7 9072 113 101 408 half line dmj dgc: 0 10017 244 114 Actual deskew ireclen: 20480 ** 7 1104 0 14352 Writing data negflag .eq. 0 sj>s1: 9072 8652 Zeroing lines in arrays Total # of output lines = 7 9071 9072 10176 0 1104 patch iptc,sj,dgj,dgi,id: 7 10176 113 113 1104 half line dmj dgc: 1 10017 244 114 Actual deskew ireclen: 20480 ** 7 1104 1 15456 Writing data negflag .eq. 0 sj>s1: 10176 9072 Zeroing lines in arrays Total # of output lines = 7 10175 Processing block number 8 10176 10600 16 408 patch iptc,sj,dgj,dgi,id: 8 10600 129 113 408 half line dmj dgc: 0 11529 248 114 Actual deskew ireclen: 20480 ** 8 1104 0 16560 Writing data negflag .eq. 0 sj>s1: 10600 10176 Zeroing lines in arrays Total # of output lines = 8 10599 10600 11704 0 1104 patch iptc,sj,dgj,dgi,id: 8 11704 129 129 1104 half line dmj dgc: 1 11529 248 114 Actual deskew ireclen: 20480 ** 8 1104 1 17664 Writing data negflag .eq. 0 sj>s1: 11704 10600 Zeroing lines in arrays Total # of output lines = 8 11703 Processing block number 9 11704 12117 5 408 patch iptc,sj,dgj,dgi,id: 9 12117 134 129 408 half line dmj dgc: 0 13041 251 114 Actual deskew ireclen: 20480 ** 9 1104 0 18768 Writing data negflag .eq. 0 sj>s1: 12117 11704 Zeroing lines in arrays Total # of output lines = 9 12116 12117 13221 0 1104 patch iptc,sj,dgj,dgi,id: 9 13221 134 134 1104 half line dmj dgc: 1 13041 251 114 Actual deskew ireclen: 20480 ** 9 1104 1 19872 Writing data negflag .eq. 0 sj>s1: 13221 12117 Zeroing lines in arrays Total # of output lines = 9 13220 Processing block number 10 13221 13625 -4 408 patch iptc,sj,dgj,dgi,id: 10 13625 130 134 408 half line dmj dgc: 0 14553 252 114 Actual deskew ireclen: 20480 ** 10 1104 0 20976 Writing data negflag .eq. 0 sj>s1: 13625 13221 Zeroing lines in arrays Total # of output lines = 10 13624 13625 14729 0 1104 patch iptc,sj,dgj,dgi,id: 10 14729 130 130 1104 half line dmj dgc: 1 14553 252 114 Actual deskew ireclen: 20480 ** 10 1104 1 22080 Writing data negflag .eq. 0 sj>s1: 14729 13625 Zeroing lines in arrays Total # of output lines = 10 14728 Processing block number 11 14729 15134 -3 408 patch iptc,sj,dgj,dgi,id: 11 15134 127 130 408 half line dmj dgc: 0 16065 256 114 Actual deskew ireclen: 20480 ** 11 1104 0 23184 Writing data negflag .eq. 0 sj>s1: 15134 14729 Zeroing lines in arrays Total # of output lines = 11 15133 15134 16238 0 1104 patch iptc,sj,dgj,dgi,id: 11 16238 127 127 1104 half line dmj dgc: 1 16065 256 114 Actual deskew ireclen: 20480 ** 11 1104 1 24288 Writing data negflag .eq. 0 sj>s1: 16238 15134 Zeroing lines in arrays Total # of output lines = 11 16237 Processing block number 12 16238 16609 -37 408 patch iptc,sj,dgj,dgi,id: 12 225 90 127 408 half line dmj dgc: 0 17577 252 114 Actual deskew ireclen: 20480 ** 12 1104 0 25392 Writing data negflag .eq. 0 s1>sj: 16238 225 Zeroing lines in arrays Total # of output lines = 12 16608 225 1329 0 1104 patch iptc,sj,dgj,dgi,id: 12 1329 90 90 1104 half line dmj dgc: 1 17577 252 114 Actual deskew ireclen: 20480 ** 12 1104 1 26496 Writing data negflag .eq. 0 sj>s1: 1329 225 Zeroing lines in arrays Total # of output lines = 12 17712 Processing block number 13 1329 1713 -24 408 patch iptc,sj,dgj,dgi,id: 13 1713 66 90 408 half line dmj dgc: 0 19089 251 114 Actual deskew ireclen: 20480 ** 13 1104 0 27600 Writing data negflag .eq. 0 sj>s1: 1713 1329 Zeroing lines in arrays Total # of output lines = 13 18096 1713 2817 0 1104 patch iptc,sj,dgj,dgi,id: 13 2817 66 66 1104 half line dmj dgc: 1 19089 251 114 Actual deskew ireclen: 20480 ** 13 1104 1 28704 Writing data negflag .eq. 0 sj>s1: 2817 1713 Zeroing lines in arrays Total # of output lines = 13 19200 Processing block number 14 2817 3172 -53 408 patch iptc,sj,dgj,dgi,id: 14 3172 13 66 408 half line dmj dgc: 0 20601 241 114 Actual deskew ireclen: 20480 ** 14 1104 0 29808 Writing data negflag .eq. 0 sj>s1: 3172 2817 Zeroing lines in arrays Total # of output lines = 14 19555 3172 4276 0 1104 patch iptc,sj,dgj,dgi,id: 14 4276 13 13 1104 half line dmj dgc: 1 20601 241 114 Actual deskew ireclen: 20480 ** 14 1104 1 30912 Writing data negflag .eq. 0 sj>s1: 4276 3172 Zeroing lines in arrays Total # of output lines = 14 20659 Processing block number 15 4276 4659 -25 408 patch iptc,sj,dgj,dgi,id: 15 4659 -12 13 408 half line dmj dgc: 0 22113 233 114 Actual deskew ireclen: 20480 ** 15 1104 0 32016 Writing data negflag .eq. 0 sj>s1: 4659 4276 Zeroing lines in arrays Total # of output lines = 15 21042 4659 5763 0 1104 patch iptc,sj,dgj,dgi,id: 15 5763 -12 -12 1104 half line dmj dgc: 1 22113 233 114 Actual deskew ireclen: 20480 ** 15 1104 1 33120 Writing data negflag .eq. 0 sj>s1: 5763 4659 Zeroing lines in arrays Total # of output lines = 15 22146 Processing block number 16 5763 6176 5 408 patch iptc,sj,dgj,dgi,id: 16 6176 -7 -12 408 half line dmj dgc: 0 23625 232 114 Actual deskew ireclen: 20480 ** 16 1104 0 34224 Writing data negflag .eq. 0 sj>s1: 6176 5763 Zeroing lines in arrays Total # of output lines = 16 22559 6176 7280 0 1104 patch iptc,sj,dgj,dgi,id: 16 7280 -7 -7 1104 half line dmj dgc: 1 23625 232 114 Actual deskew ireclen: 20480 ** 16 1104 1 35328 Writing data negflag .eq. 0 sj>s1: 7280 6176 Zeroing lines in arrays Total # of output lines = 16 23663 Processing block number 17 7280 7714 26 408 patch iptc,sj,dgj,dgi,id: 17 7714 19 -7 408 half line dmj dgc: 0 25137 240 114 Actual deskew ireclen: 20480 ** 17 1104 0 36432 Writing data negflag .eq. 0 sj>s1: 7714 7280 Zeroing lines in arrays Total # of output lines = 17 24097 7714 8818 0 1104 patch iptc,sj,dgj,dgi,id: 17 8818 19 19 1104 half line dmj dgc: 1 25137 240 114 Actual deskew ireclen: 20480 ** 17 1104 1 37536 Writing data negflag .eq. 0 sj>s1: 8818 7714 Zeroing lines in arrays Total # of output lines = 17 25201 Processing block number 18 8818 9252 26 408 patch iptc,sj,dgj,dgi,id: 18 9252 45 19 408 half line dmj dgc: 0 26649 250 114 Actual deskew ireclen: 20480 ** 18 1104 0 38640 Writing data negflag .eq. 0 sj>s1: 9252 8818 Zeroing lines in arrays Total # of output lines = 18 25635 9252 10356 0 1104 patch iptc,sj,dgj,dgi,id: 18 10356 45 45 1104 half line dmj dgc: 1 26649 250 114 Actual deskew ireclen: 20480 ** 18 1104 1 39744 Writing data negflag .eq. 0 sj>s1: 10356 9252 Zeroing lines in arrays Total # of output lines = 18 26739 Processing block number 19 10356 10776 12 408 patch iptc,sj,dgj,dgi,id: 19 10776 57 45 408 half line dmj dgc: 0 28161 255 114 Actual deskew ireclen: 20480 ** 19 1104 0 40848 Writing data negflag .eq. 0 sj>s1: 10776 10356 Zeroing lines in arrays Total # of output lines = 19 27159 10776 11880 0 1104 patch iptc,sj,dgj,dgi,id: 19 11880 57 57 1104 half line dmj dgc: 1 28161 255 114 Actual deskew ireclen: 20480 ** 19 1104 1 41952 Writing data negflag .eq. 0 sj>s1: 11880 10776 Zeroing lines in arrays Total # of output lines = 19 28263 Processing block number 20 11880 12295 7 408 patch iptc,sj,dgj,dgi,id: 20 12295 64 57 408 half line dmj dgc: 0 29673 258 114 Actual deskew ireclen: 20480 ** 20 1104 0 43056 Writing data negflag .eq. 0 sj>s1: 12295 11880 Zeroing lines in arrays Total # of output lines = 20 28678 12295 13399 0 1104 patch iptc,sj,dgj,dgi,id: 20 13399 64 64 1104 half line dmj dgc: 1 29673 258 114 Actual deskew ireclen: 20480 ** 20 1104 1 44160 Writing data negflag .eq. 0 sj>s1: 13399 12295 Zeroing lines in arrays Total # of output lines = 20 29782 Processing block number 21 13399 13808 1 408 patch iptc,sj,dgj,dgi,id: 21 13808 65 64 408 half line dmj dgc: 0 31185 255 114 Actual deskew ireclen: 20480 ** 21 1104 0 45264 Writing data negflag .eq. 0 sj>s1: 13808 13399 Zeroing lines in arrays Total # of output lines = 21 30191 13808 14912 0 1104 patch iptc,sj,dgj,dgi,id: 21 14912 65 65 1104 half line dmj dgc: 1 31185 255 114 Actual deskew ireclen: 20480 ** 21 1104 1 46368 Writing data negflag .eq. 0 sj>s1: 14912 13808 Zeroing lines in arrays Total # of output lines = 21 31295 Processing block number 22 14912 15332 12 408 patch iptc,sj,dgj,dgi,id: 22 15332 77 65 408 half line dmj dgc: 0 32697 256 114 Actual deskew ireclen: 20480 ** 22 1104 0 47472 Writing data negflag .eq. 0 sj>s1: 15332 14912 Zeroing lines in arrays Total # of output lines = 22 31715 15332 16436 0 1104 patch iptc,sj,dgj,dgi,id: 22 52 77 77 1104 half line dmj dgc: 1 32697 256 114 Actual deskew ireclen: 20480 ** 22 1104 1 48576 Writing data negflag .eq. 0 s1>sj: 15332 52 Zeroing lines in arrays Total # of output lines = 22 32819 Processing block number 23 52 448 -12 408 patch iptc,sj,dgj,dgi,id: 23 448 65 77 408 half line dmj dgc: 0 34209 250 114 Actual deskew ireclen: 20480 ** 23 1104 0 49680 Writing data negflag .eq. 0 sj>s1: 448 52 Zeroing lines in arrays Total # of output lines = 23 33215 448 1552 0 1104 patch iptc,sj,dgj,dgi,id: 23 1552 65 65 1104 half line dmj dgc: 1 34209 250 114 Actual deskew ireclen: 20480 ** 23 1104 1 50784 Writing data negflag .eq. 0 sj>s1: 1552 448 Zeroing lines in arrays Total # of output lines = 23 34319 Processing block number 24 1552 1983 23 408 patch iptc,sj,dgj,dgi,id: 24 1983 88 65 408 half line dmj dgc: 0 35721 254 114 Actual deskew ireclen: 20480 ** 24 1104 0 51888 Writing data negflag .eq. 0 sj>s1: 1983 1552 Zeroing lines in arrays Total # of output lines = 24 34750 1983 3087 0 1104 patch iptc,sj,dgj,dgi,id: 24 3087 88 88 1104 half line dmj dgc: 1 35721 254 114 Actual deskew ireclen: 20480 ** 24 1104 1 52992 Writing data negflag .eq. 0 sj>s1: 3087 1983 Zeroing lines in arrays Total # of output lines = 24 35854 Processing block number 25 3087 3513 18 408 patch iptc,sj,dgj,dgi,id: 25 3513 106 88 408 half line dmj dgc: 0 37233 257 114 Actual deskew ireclen: 20480 ** 25 1104 0 54096 Writing data negflag .eq. 0 sj>s1: 3513 3087 Zeroing lines in arrays Total # of output lines = 25 36280 3513 4617 0 1104 patch iptc,sj,dgj,dgi,id: 25 4617 106 106 1104 half line dmj dgc: 1 37233 257 114 Actual deskew ireclen: 20480 ** 25 1104 1 55200 Writing data negflag .eq. 0 sj>s1: 4617 3513 Zeroing lines in arrays Total # of output lines = 25 37384 Processing block number 26 4617 5062 37 408 patch iptc,sj,dgj,dgi,id: 26 5062 143 106 408 half line dmj dgc: 0 38745 266 114 Actual deskew ireclen: 20480 ** 26 1104 0 56304 Writing data negflag .eq. 0 sj>s1: 5062 4617 Zeroing lines in arrays Total # of output lines = 26 37829 5062 6166 0 1104 patch iptc,sj,dgj,dgi,id: 26 6166 143 143 1104 half line dmj dgc: 1 38745 266 114 Actual deskew ireclen: 20480 ** 26 1104 1 57408 Writing data negflag .eq. 0 sj>s1: 6166 5062 Zeroing lines in arrays Total # of output lines = 26 38933 Processing block number 27 6166 6583 9 408 patch iptc,sj,dgj,dgi,id: 27 6583 152 143 408 half line dmj dgc: 0 40257 267 114 Actual deskew ireclen: 20480 ** 27 1104 0 58512 Writing data negflag .eq. 0 sj>s1: 6583 6166 Zeroing lines in arrays Total # of output lines = 27 39350 6583 7687 0 1104 patch iptc,sj,dgj,dgi,id: 27 7687 152 152 1104 half line dmj dgc: 1 40257 267 114 Actual deskew ireclen: 20480 ** 27 1104 1 59616 Writing data negflag .eq. 0 sj>s1: 7687 6583 Zeroing lines in arrays Total # of output lines = 27 40454 Processing block number 28 7687 8091 -4 408 patch iptc,sj,dgj,dgi,id: 28 8091 148 152 408 half line dmj dgc: 0 41769 272 114 Actual deskew ireclen: 20480 ** 28 1104 0 60720 Writing data negflag .eq. 0 sj>s1: 8091 7687 Zeroing lines in arrays Total # of output lines = 28 40858 8091 9195 0 1104 patch iptc,sj,dgj,dgi,id: 28 9195 148 148 1104 half line dmj dgc: 1 41769 272 114 Actual deskew ireclen: 20480 ** 28 1104 1 61824 Writing data negflag .eq. 0 sj>s1: 9195 8091 Zeroing lines in arrays Total # of output lines = 28 41962 Processing block number 29 9195 9583 -20 408 patch iptc,sj,dgj,dgi,id: 29 9583 128 148 408 half line dmj dgc: 0 43281 271 114 Actual deskew ireclen: 20480 ** 29 1104 0 62928 Writing data negflag .eq. 0 sj>s1: 9583 9195 Zeroing lines in arrays Total # of output lines = 29 42350 9583 10687 0 1104 patch iptc,sj,dgj,dgi,id: 29 10687 128 128 1104 half line dmj dgc: 1 43281 271 114 Actual deskew ireclen: 20480 ** 29 1104 1 64032 Writing data negflag .eq. 0 sj>s1: 10687 9583 Zeroing lines in arrays Total # of output lines = 29 43454 Processing block number 30 10687 11107 12 408 patch iptc,sj,dgj,dgi,id: 30 11107 140 128 408 half line dmj dgc: 0 44793 277 114 Actual deskew ireclen: 20480 ** 30 1104 0 65136 Writing data negflag .eq. 0 sj>s1: 11107 10687 Zeroing lines in arrays Total # of output lines = 30 43874 11107 12211 0 1104 patch iptc,sj,dgj,dgi,id: 30 12211 140 140 1104 half line dmj dgc: 1 44793 277 114 Actual deskew ireclen: 20480 ** 30 1104 1 66240 Writing data negflag .eq. 0 sj>s1: 12211 11107 Zeroing lines in arrays Total # of output lines = 30 44978 Processing block number 31 12211 12634 15 408 patch iptc,sj,dgj,dgi,id: 31 12634 155 140 408 half line dmj dgc: 0 46305 278 114 Actual deskew ireclen: 20480 ** 31 1104 0 67344 Writing data negflag .eq. 0 sj>s1: 12634 12211 Zeroing lines in arrays Total # of output lines = 31 45401 12634 13738 0 1104 patch iptc,sj,dgj,dgi,id: 31 13738 155 155 1104 half line dmj dgc: 1 46305 278 114 Actual deskew ireclen: 20480 ** 31 1104 1 68448 Writing data negflag .eq. 0 sj>s1: 13738 12634 Zeroing lines in arrays Total # of output lines = 31 46505 Processing block number 32 13738 14160 14 408 patch iptc,sj,dgj,dgi,id: 32 14160 169 155 408 half line dmj dgc: 0 47817 283 114 Actual deskew ireclen: 20480 ** 32 1104 0 69552 Writing data negflag .eq. 0 sj>s1: 14160 13738 Zeroing lines in arrays Total # of output lines = 32 46927 14160 15264 0 1104 patch iptc,sj,dgj,dgi,id: 32 15264 169 169 1104 half line dmj dgc: 1 47817 283 114 Actual deskew ireclen: 20480 ** 32 1104 1 70656 Writing data negflag .eq. 0 sj>s1: 15264 14160 Zeroing lines in arrays Total # of output lines = 32 48031 Processing block number 33 15264 15700 28 408 patch iptc,sj,dgj,dgi,id: 33 15700 197 169 408 half line dmj dgc: 0 49329 287 114 Actual deskew ireclen: 20480 ** 33 1104 0 71760 Writing data negflag .eq. 0 sj>s1: 15700 15264 Zeroing lines in arrays Total # of output lines = 33 48467 15700 16804 0 1104 patch iptc,sj,dgj,dgi,id: 33 420 197 197 1104 half line dmj dgc: 1 49329 287 114 Actual deskew ireclen: 20480 ** 33 1104 1 72864 Writing data negflag .eq. 0 s1>sj: 15700 420 Zeroing lines in arrays Total # of output lines = 33 49571 Processing block number 34 420 866 38 408 patch iptc,sj,dgj,dgi,id: 34 866 235 197 408 half line dmj dgc: 0 50841 296 114 Actual deskew ireclen: 20480 ** 34 1104 0 73968 Writing data negflag .eq. 0 sj>s1: 866 420 Zeroing lines in arrays Total # of output lines = 34 50017 866 1970 0 1104 patch iptc,sj,dgj,dgi,id: 34 1970 235 235 1104 half line dmj dgc: 1 50841 296 114 Actual deskew ireclen: 20480 ** 34 1104 1 75072 Writing data negflag .eq. 0 sj>s1: 1970 866 Zeroing lines in arrays Total # of output lines = 34 51121 Processing block number 35 1970 2371 -7 408 patch iptc,sj,dgj,dgi,id: 35 2371 228 235 408 half line dmj dgc: 0 52353 293 114 Actual deskew ireclen: 20480 ** 35 1104 0 76176 Writing data negflag .eq. 0 sj>s1: 2371 1970 Zeroing lines in arrays Total # of output lines = 35 51522 2371 3475 0 1104 patch iptc,sj,dgj,dgi,id: 35 3475 228 228 1104 half line dmj dgc: 1 52353 293 114 Actual deskew ireclen: 20480 ** 35 1104 1 77280 Writing data negflag .eq. 0 sj>s1: 3475 2371 Zeroing lines in arrays Total # of output lines = 35 52626 Processing block number 36 3475 3849 -34 408 patch iptc,sj,dgj,dgi,id: 36 3849 194 228 408 half line dmj dgc: 0 53865 284 114 Actual deskew ireclen: 20480 ** 36 1104 0 78384 Writing data negflag .eq. 0 sj>s1: 3849 3475 Zeroing lines in arrays Total # of output lines = 36 53000 3849 4953 0 1104 patch iptc,sj,dgj,dgi,id: 36 4953 194 194 1104 half line dmj dgc: 1 53865 284 114 Actual deskew ireclen: 20480 ** 36 1104 1 79488 Writing data negflag .eq. 0 sj>s1: 4953 3849 Zeroing lines in arrays Total # of output lines = 36 54104 Processing block number 37 4953 5340 -21 408 patch iptc,sj,dgj,dgi,id: 37 5340 173 194 408 half line dmj dgc: 0 55377 270 114 Actual deskew ireclen: 20480 ** 37 1104 0 80592 Writing data negflag .eq. 0 sj>s1: 5340 4953 Zeroing lines in arrays Total # of output lines = 37 54491 5340 6444 0 1104 patch iptc,sj,dgj,dgi,id: 37 6444 173 173 1104 half line dmj dgc: 1 55377 270 114 Actual deskew ireclen: 20480 ** 37 1104 1 81696 Writing data negflag .eq. 0 sj>s1: 6444 5340 Zeroing lines in arrays Total # of output lines = 37 55595 Processing block number 38 6444 6882 30 408 patch iptc,sj,dgj,dgi,id: 38 6882 203 173 408 half line dmj dgc: 0 56889 268 114 Actual deskew ireclen: 20480 ** 38 1104 0 82800 Writing data negflag .eq. 0 sj>s1: 6882 6444 Zeroing lines in arrays Total # of output lines = 38 56033 6882 7986 0 1104 patch iptc,sj,dgj,dgi,id: 38 7986 203 203 1104 half line dmj dgc: 1 56889 268 114 Actual deskew ireclen: 20480 ** 38 1104 1 83904 Writing data negflag .eq. 0 sj>s1: 7986 6882 Zeroing lines in arrays Total # of output lines = 38 57137 Processing block number 39 7986 8413 19 408 patch iptc,sj,dgj,dgi,id: 39 8413 222 203 408 half line dmj dgc: 0 58401 266 114 Actual deskew ireclen: 20480 ** 39 1104 0 85008 Writing data negflag .eq. 0 sj>s1: 8413 7986 Zeroing lines in arrays Total # of output lines = 39 57564 8413 9517 0 1104 patch iptc,sj,dgj,dgi,id: 39 9517 222 222 1104 half line dmj dgc: 1 58401 266 114 Actual deskew ireclen: 20480 ** 39 1104 1 86112 Writing data negflag .eq. 0 sj>s1: 9517 8413 Zeroing lines in arrays Total # of output lines = 39 58668 Processing block number 40 9517 9958 33 408 patch iptc,sj,dgj,dgi,id: 40 9958 255 222 408 half line dmj dgc: 0 59913 275 114 Actual deskew ireclen: 20480 ** 40 1104 0 87216 Writing data negflag .eq. 0 sj>s1: 9958 9517 Zeroing lines in arrays Total # of output lines = 40 59109 9958 11062 0 1104 patch iptc,sj,dgj,dgi,id: 40 11062 255 255 1104 half line dmj dgc: 1 59913 275 114 Actual deskew ireclen: 20480 ** 40 1104 1 88320 Writing data negflag .eq. 0 sj>s1: 11062 9958 Zeroing lines in arrays Total # of output lines = 40 60213 Processing block number 41 11062 11506 36 408 patch iptc,sj,dgj,dgi,id: 41 11506 291 255 408 half line dmj dgc: 0 61425 292 114 Actual deskew ireclen: 20480 ** 41 1104 0 89424 Writing data negflag .eq. 0 sj>s1: 11506 11062 Zeroing lines in arrays Total # of output lines = 41 60657 11506 12610 0 1104 patch iptc,sj,dgj,dgi,id: 41 12610 291 291 1104 half line dmj dgc: 1 61425 292 114 Actual deskew ireclen: 20480 ** 41 1104 1 90528 Writing data negflag .eq. 0 sj>s1: 12610 11506 Zeroing lines in arrays Total # of output lines = 41 61761 Processing block number 42 12610 13035 17 408 patch iptc,sj,dgj,dgi,id: 42 13035 308 291 408 half line dmj dgc: 0 62937 327 114 Actual deskew ireclen: 20480 ** 42 1104 0 91632 Writing data negflag .eq. 0 sj>s1: 13035 12610 Zeroing lines in arrays Total # of output lines = 42 62186 13035 14139 0 1104 patch iptc,sj,dgj,dgi,id: 42 14139 308 308 1104 half line dmj dgc: 1 62937 327 114 Actual deskew ireclen: 20480 ** 42 1104 1 92736 Writing data negflag .eq. 0 sj>s1: 14139 13035 Zeroing lines in arrays Total # of output lines = 42 63290 Processing block number 43 14139 14553 6 408 patch iptc,sj,dgj,dgi,id: 43 14553 314 308 408 half line dmj dgc: 0 64449 335 114 Actual deskew ireclen: 20480 ** 43 1104 0 93840 Writing data negflag .eq. 0 sj>s1: 14553 14139 Zeroing lines in arrays Total # of output lines = 43 63704 14553 15657 0 1104 patch iptc,sj,dgj,dgi,id: 43 15657 314 314 1104 half line dmj dgc: 1 64449 335 114 Actual deskew ireclen: 20480 ** 43 1104 1 94944 Writing data negflag .eq. 0 sj>s1: 15657 14553 Zeroing lines in arrays Total # of output lines = 43 64808 Processing block number 44 15657 16047 -18 408 patch iptc,sj,dgj,dgi,id: 44 16047 296 314 408 half line dmj dgc: 0 65961 298 114 Actual deskew ireclen: 20480 ** 44 1104 0 96048 Writing data negflag .eq. 0 sj>s1: 16047 15657 Zeroing lines in arrays Total # of output lines = 44 65198 16047 17151 0 1104 patch iptc,sj,dgj,dgi,id: 44 767 296 296 1104 half line dmj dgc: 1 65961 298 114 Actual deskew ireclen: 20480 ** 44 1104 1 97152 Writing data negflag .eq. 0 s1>sj: 16047 767 Zeroing lines in arrays Total # of output lines = 44 66302 Processing block number 45 767 1136 -39 408 patch iptc,sj,dgj,dgi,id: 45 1136 257 296 408 half line dmj dgc: 0 67473 279 114 Actual deskew ireclen: 20480 ** 45 1104 0 98256 Writing data negflag .eq. 0 sj>s1: 1136 767 Zeroing lines in arrays Total # of output lines = 45 66671 1136 2240 0 1104 patch iptc,sj,dgj,dgi,id: 45 2240 257 257 1104 half line dmj dgc: 1 67473 279 114 Actual deskew ireclen: 20480 ** 45 1104 1 99360 Writing data negflag .eq. 0 sj>s1: 2240 1136 Zeroing lines in arrays Total # of output lines = 45 67775 Processing block number 46 2240 2606 -42 408 patch iptc,sj,dgj,dgi,id: 46 2606 215 257 408 half line dmj dgc: 0 68985 262 114 Actual deskew ireclen: 20480 ** 46 1104 0 100464 Writing data negflag .eq. 0 sj>s1: 2606 2240 Zeroing lines in arrays Total # of output lines = 46 68141 2606 3710 0 1104 patch iptc,sj,dgj,dgi,id: 46 3710 215 215 1104 half line dmj dgc: 1 68985 262 114 Actual deskew ireclen: 20480 ** 46 1104 1 101568 Writing data negflag .eq. 0 sj>s1: 3710 2606 Zeroing lines in arrays Total # of output lines = 46 69245 Processing block number 47 3710 4142 24 408 patch iptc,sj,dgj,dgi,id: 47 4142 239 215 408 half line dmj dgc: 0 70497 268 114 Actual deskew ireclen: 20480 ** 47 1104 0 102672 Writing data negflag .eq. 0 sj>s1: 4142 3710 Zeroing lines in arrays Total # of output lines = 47 69677 4142 5246 0 1104 patch iptc,sj,dgj,dgi,id: 47 5246 239 239 1104 half line dmj dgc: 1 70497 268 114 Actual deskew ireclen: 20480 ** 47 1104 1 103776 Writing data negflag .eq. 0 sj>s1: 5246 4142 Zeroing lines in arrays Total # of output lines = 47 70781 Processing block number 48 5246 5692 38 408 patch iptc,sj,dgj,dgi,id: 48 5692 277 239 408 half line dmj dgc: 0 72009 283 114 Actual deskew ireclen: 20480 ** 48 1104 0 104880 Writing data negflag .eq. 0 sj>s1: 5692 5246 Zeroing lines in arrays Total # of output lines = 48 71227 5692 6796 0 1104 patch iptc,sj,dgj,dgi,id: 48 6796 277 277 1104 half line dmj dgc: 1 72009 283 114 Actual deskew ireclen: 20480 ** 48 1104 1 105984 Writing data negflag .eq. 0 sj>s1: 6796 5692 Zeroing lines in arrays Total # of output lines = 48 72331 Processing block number 49 6796 7231 27 408 patch iptc,sj,dgj,dgi,id: 49 7231 304 277 408 half line dmj dgc: 0 73521 331 114 Actual deskew ireclen: 20480 ** 49 1104 0 107088 Writing data negflag .eq. 0 sj>s1: 7231 6796 Zeroing lines in arrays Total # of output lines = 49 72766 7231 8335 0 1104 patch iptc,sj,dgj,dgi,id: 49 8335 304 304 1104 half line dmj dgc: 1 73521 331 114 Actual deskew ireclen: 20480 ** 49 1104 1 108192 Writing data negflag .eq. 0 sj>s1: 8335 7231 Zeroing lines in arrays Total # of output lines = 49 73870 Processing block number 50 8335 8758 15 408 patch iptc,sj,dgj,dgi,id: 50 8758 319 304 408 half line dmj dgc: 0 75033 355 114 Actual deskew ireclen: 20480 ** 50 1104 0 109296 Writing data negflag .eq. 0 sj>s1: 8758 8335 Zeroing lines in arrays Total # of output lines = 50 74293 8758 9862 0 1104 patch iptc,sj,dgj,dgi,id: 50 9862 319 319 1104 half line dmj dgc: 1 75033 355 114 Actual deskew ireclen: 20480 ** 50 1104 1 110400 Writing data negflag .eq. 0 sj>s1: 9862 8758 Zeroing lines in arrays Total # of output lines = 50 75397 Processing block number 51 9862 10278 8 408 patch iptc,sj,dgj,dgi,id: 51 10278 327 319 408 half line dmj dgc: 0 76545 360 114 Actual deskew ireclen: 20480 ** 51 1104 0 111504 Writing data negflag .eq. 0 sj>s1: 10278 9862 Zeroing lines in arrays Total # of output lines = 51 75813 10278 11382 0 1104 patch iptc,sj,dgj,dgi,id: 51 11382 327 327 1104 half line dmj dgc: 1 76545 360 114 Actual deskew ireclen: 20480 ** 51 1104 1 112608 Writing data negflag .eq. 0 sj>s1: 11382 10278 Zeroing lines in arrays Total # of output lines = 51 76917 Processing block number 52 11382 11782 -8 408 patch iptc,sj,dgj,dgi,id: 52 11782 319 327 408 half line dmj dgc: 0 78057 322 114 Actual deskew ireclen: 20480 ** 52 1104 0 113712 Writing data negflag .eq. 0 sj>s1: 11782 11382 Zeroing lines in arrays Total # of output lines = 52 77317 11782 12886 0 1104 patch iptc,sj,dgj,dgi,id: 52 12886 319 319 1104 half line dmj dgc: 1 78057 322 114 Actual deskew ireclen: 20480 ** 52 1104 1 114816 Writing data negflag .eq. 0 sj>s1: 12886 11782 Zeroing lines in arrays Total # of output lines = 52 78421 Processing block number 53 12886 13256 -38 408 patch iptc,sj,dgj,dgi,id: 53 13256 281 319 408 half line dmj dgc: 0 79569 313 114 Actual deskew ireclen: 20480 ** 53 1104 0 115920 Writing data negflag .eq. 0 sj>s1: 13256 12886 Zeroing lines in arrays Total # of output lines = 53 78791 13256 14360 0 1104 patch iptc,sj,dgj,dgi,id: 53 14360 281 281 1104 half line dmj dgc: 1 79569 313 114 Actual deskew ireclen: 20480 ** 53 1104 1 117024 Writing data negflag .eq. 0 sj>s1: 14360 13256 Zeroing lines in arrays Total # of output lines = 53 79895 Processing block number 54 14360 14741 -27 408 patch iptc,sj,dgj,dgi,id: 54 14741 254 281 408 half line dmj dgc: 0 81081 302 114 Actual deskew ireclen: 20480 ** 54 1104 0 118128 Writing data negflag .eq. 0 sj>s1: 14741 14360 Zeroing lines in arrays Total # of output lines = 54 80276 14741 15845 0 1104 patch iptc,sj,dgj,dgi,id: 54 15845 254 254 1104 half line dmj dgc: 1 81081 302 114 Actual deskew ireclen: 20480 ** 54 1104 1 119232 Writing data negflag .eq. 0 sj>s1: 15845 14741 Zeroing lines in arrays Total # of output lines = 54 81380 Processing block number 55 15845 16213 -40 408 patch iptc,sj,dgj,dgi,id: 55 16213 214 254 408 half line dmj dgc: 0 82593 284 114 Actual deskew ireclen: 20480 ** 55 1104 0 120336 Writing data negflag .eq. 0 sj>s1: 16213 15845 Zeroing lines in arrays Total # of output lines = 55 81748 16213 17317 0 1104 patch iptc,sj,dgj,dgi,id: 55 933 214 214 1104 half line dmj dgc: 1 82593 284 114 Actual deskew ireclen: 20480 ** 55 1104 1 121440 Writing data negflag .eq. 0 s1>sj: 16213 933 Zeroing lines in arrays Total # of output lines = 55 82852 Processing block number 56 933 1310 -31 408 patch iptc,sj,dgj,dgi,id: 56 1310 183 214 408 half line dmj dgc: 0 84105 268 114 Actual deskew ireclen: 20480 ** 56 1104 0 122544 Writing data negflag .eq. 0 sj>s1: 1310 933 Zeroing lines in arrays Total # of output lines = 56 83229 1310 2414 0 1104 patch iptc,sj,dgj,dgi,id: 56 2414 183 183 1104 half line dmj dgc: 1 84105 268 114 Actual deskew ireclen: 20480 ** 56 1104 1 123648 Writing data negflag .eq. 0 sj>s1: 2414 1310 Zeroing lines in arrays Total # of output lines = 56 84333 Processing block number 57 2414 2829 7 408 patch iptc,sj,dgj,dgi,id: 57 2829 190 183 408 half line dmj dgc: 0 85617 268 114 Actual deskew ireclen: 20480 ** 57 1104 0 124752 Writing data negflag .eq. 0 sj>s1: 2829 2414 Zeroing lines in arrays Total # of output lines = 57 84748 2829 3933 0 1104 patch iptc,sj,dgj,dgi,id: 57 3933 190 190 1104 half line dmj dgc: 1 85617 268 114 Actual deskew ireclen: 20480 ** 57 1104 1 125856 Writing data negflag .eq. 0 sj>s1: 3933 2829 Zeroing lines in arrays Total # of output lines = 57 85852 Processing block number 58 3933 4373 32 408 patch iptc,sj,dgj,dgi,id: 58 4373 222 190 408 half line dmj dgc: 0 87129 280 114 Actual deskew ireclen: 20480 ** 58 1104 0 126960 Writing data negflag .eq. 0 sj>s1: 4373 3933 Zeroing lines in arrays Total # of output lines = 58 86292 4373 5477 0 1104 patch iptc,sj,dgj,dgi,id: 58 5477 222 222 1104 half line dmj dgc: 1 87129 280 114 Actual deskew ireclen: 20480 ** 58 1104 1 128064 Writing data negflag .eq. 0 sj>s1: 5477 4373 Zeroing lines in arrays Total # of output lines = 58 87396 Processing block number 59 5477 5912 27 408 patch iptc,sj,dgj,dgi,id: 59 5912 249 222 408 half line dmj dgc: 0 88641 291 114 Actual deskew ireclen: 20480 ** 59 1104 0 129168 Writing data negflag .eq. 0 sj>s1: 5912 5477 Zeroing lines in arrays Total # of output lines = 59 87831 5912 7016 0 1104 patch iptc,sj,dgj,dgi,id: 59 7016 249 249 1104 half line dmj dgc: 1 88641 291 114 Actual deskew ireclen: 20480 ** 59 1104 1 130272 Writing data negflag .eq. 0 sj>s1: 7016 5912 Zeroing lines in arrays Total # of output lines = 59 88935 Processing block number 60 7016 7447 23 408 patch iptc,sj,dgj,dgi,id: 60 7447 272 249 408 half line dmj dgc: 0 90153 301 114 Actual deskew ireclen: 20480 ** 60 1104 0 131376 Writing data negflag .eq. 0 sj>s1: 7447 7016 Zeroing lines in arrays Total # of output lines = 60 89366 7447 8551 0 1104 patch iptc,sj,dgj,dgi,id: 60 8551 272 272 1104 half line dmj dgc: 1 90153 301 114 Actual deskew ireclen: 20480 ** 60 1104 1 132480 Writing data negflag .eq. 0 sj>s1: 8551 7447 Zeroing lines in arrays Total # of output lines = 60 90470 Processing block number 61 8551 8955 -4 408 patch iptc,sj,dgj,dgi,id: 61 8955 268 272 408 half line dmj dgc: 0 91665 302 114 Actual deskew ireclen: 20480 ** 61 1104 0 133584 Writing data negflag .eq. 0 sj>s1: 8955 8551 Zeroing lines in arrays Total # of output lines = 61 90874 8955 10059 0 1104 patch iptc,sj,dgj,dgi,id: 61 10059 268 268 1104 half line dmj dgc: 1 91665 302 114 Actual deskew ireclen: 20480 ** 61 1104 1 134688 Writing data negflag .eq. 0 sj>s1: 10059 8955 Zeroing lines in arrays Total # of output lines = 61 91978 Processing block number 62 10059 10460 -7 408 patch iptc,sj,dgj,dgi,id: 62 10460 261 268 408 half line dmj dgc: 0 93177 303 114 Actual deskew ireclen: 20480 ** 62 1104 0 135792 Writing data negflag .eq. 0 sj>s1: 10460 10059 Zeroing lines in arrays Total # of output lines = 62 92379 10460 11564 0 1104 patch iptc,sj,dgj,dgi,id: 62 11564 261 261 1104 half line dmj dgc: 1 93177 303 114 Actual deskew ireclen: 20480 ** 62 1104 1 136896 Writing data negflag .eq. 0 sj>s1: 11564 10460 Zeroing lines in arrays Total # of output lines = 62 93483 Processing block number 63 11564 11961 -11 408 patch iptc,sj,dgj,dgi,id: 63 11961 250 261 408 half line dmj dgc: 0 94689 307 114 Actual deskew ireclen: 20480 ** 63 1104 0 138000 Writing data negflag .eq. 0 sj>s1: 11961 11564 Zeroing lines in arrays Total # of output lines = 63 93880 11961 13065 0 1104 patch iptc,sj,dgj,dgi,id: 63 13065 250 250 1104 half line dmj dgc: 1 94689 307 114 Actual deskew ireclen: 20480 ** 63 1104 1 139104 Writing data negflag .eq. 0 sj>s1: 13065 11961 Zeroing lines in arrays Total # of output lines = 63 94984 Processing block number 64 13065 13452 -21 408 patch iptc,sj,dgj,dgi,id: 64 13452 229 250 408 half line dmj dgc: 0 96201 310 114 Actual deskew ireclen: 20480 ** 64 1104 0 140208 Writing data negflag .eq. 0 sj>s1: 13452 13065 Zeroing lines in arrays Total # of output lines = 64 95371 13452 14556 0 1104 patch iptc,sj,dgj,dgi,id: 64 14556 229 229 1104 half line dmj dgc: 1 96201 310 114 Actual deskew ireclen: 20480 ** 64 1104 1 141312 Writing data negflag .eq. 0 sj>s1: 14556 13452 Zeroing lines in arrays Total # of output lines = 64 96475 Processing block number 65 14556 14086 -13 -457 patch iptc,sj,dgj,dgi,id: 65 14086 216 229 -457 half line dmj dgc: 0 96848 315 114 Actual deskew ireclen: 20480 ** 65 1104 0 142416 Zeroing lines in arrays Total # of output lines = 65 96475 14556 15190 0 1104 patch iptc,sj,dgj,dgi,id: 65 15190 216 216 1104 half line dmj dgc: 1 96848 315 114 Actual deskew ireclen: 20480 ** 65 1104 1 143520 Writing data negflag .eq. 0 sj>s1: 15190 14556 Zeroing lines in arrays Total # of output lines = 65 97109 ia dmi dgi: 15190 315 216 Writing the last 1203 lines last half sj96032Br,fs,T,fc 96068 40.00000 22.50000 90.00000 10.00000 deltaphase -ashift: 0.0000000E+00 0.0000000E+00 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.7474957 start range comp, time = 3.379 WAYNE PREV 3.101899 NUMBER OF PROCESSOR USED = 8 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 9 by # 0 Processing block number 1 TESTING WHY -6.0844002E-03 1.8281801E-02 1 1 WAYNE PATCHES: 1 4096 patch# 1 reference line: 2048 3.610 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 26.78681504726410 ATTN ifrq ipol ln 8 4 4096 18.00000 IPOL, ITOP nblock 4 0 1 WAYNE Motion comp. coeff. calculated, time = 6.2659978866577148E-03 TESTING 0.0000000E+00 -50.41182 1.842947 WAYNE Motion comp. added to patch, time = 9.787418007850647 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.9000043869018555E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 -50.41182 1.842947 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -6.0844002E-03 1.8281801E-02 WAYNE Azimuth compression done, time = 171.5958569049835 Writing 2208 lines of data to file WAYNE write output data 1.149837017059326 ==w out 1 0 945 0 WAYNE PROCESS 209.3304849863052 Processing block number 2 TESTING WHY -6.6268998E-03 1.8027700E-02 1512 2 WAYNE PATCHES: 1513 5608 patch# 2 reference line: 3560 212.941 seconds. TESTING 1513 before reading done reading WAYNE load raw data , time = 39.95932400226593 ATTN ifrq ipol ln 8 4 5608 18.00000 IPOL, ITOP nblock 4 0 2 WAYNE Motion comp. coeff. calculated, time = 5.5429935455322266E-03 TESTING 0.0000000E+00 -48.04758 2.017197 WAYNE Motion comp. added to patch, time = 8.618898987770081 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 3.5218000411987305E-02 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 -48.04758 2.017197 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -6.6268998E-03 1.8027700E-02 WAYNE Azimuth compression done, time = 171.4349330663681 Writing 2208 lines of data to file WAYNE write output data 1.121673941612244 ==w out 2 2208 945 45219840 WAYNE PROCESS 221.1767969131470 Processing block number 3 TESTING WHY -6.7879101E-03 1.7859699E-02 1512 3 WAYNE PATCHES: 3025 7120 patch# 3 reference line: 5072 434.118 seconds. TESTING 3025 before reading done reading WAYNE load raw data , time = 41.63027894496918 ATTN ifrq ipol ln 8 4 7120 18.00000 IPOL, ITOP nblock 4 0 3 WAYNE Motion comp. coeff. calculated, time = 5.5900812149047852E-03 TESTING 0.0000000E+00 -45.62735 2.189896 WAYNE Motion comp. added to patch, time = 8.643907904624939 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.3810863494873047E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 -45.62735 2.189896 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -6.7879101E-03 1.7859699E-02 WAYNE Azimuth compression done, time = 171.5808390378952 Writing 2208 lines of data to file WAYNE write ou PROCESSING KID# 5 ..... WAYNE IS IN Processing 34 to 41 by # 4 Processing block number 34 WAYNE PATCHES: 49897 53992 patch# 34 reference line: 51944 3.670 seconds. before reading done reading WAYNE load raw data , time = 27.05144798755646 ATTN ifrq ipol ln 8 4 53992 18.00000 IPOL, ITOP nblock 4 0 34 WAYNE Motion comp. coeff. calculated, time = 6.1500072479248047E-03 WAYNE Motion comp. added to patch, time = 9.154222965240479 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 3.0759572982788086E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.2042239904404 Writing 2208 lines of data to file WAYNE write output data 1.112391948699951 ==w out 34 0 945 0 WAYNE PROCESS 208.5328819751740 Processing block number 35 WAYNE PATCHES: 51409 55504 patch# 35 reference line: 53456 212.204 seconds. before reading done reading WAYNE load raw data , time = 41.00719296932220 ATTN ifrq ipol ln 8 4 55504 18.00000 IPOL, ITOP nblock 4 0 35 WAYNE Motion comp. coeff. calculated, time = 5.4959058761596680E-03 WAYNE Motion comp. added to patch, time = 8.311720013618469 WAYNE Doppler estimation done, time = 1.1920928955078125E-05 WAYNE write deskew done, time = 0.1282680034637451 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.9434859752655 Writing 2208 lines of data to file WAYNE write output data 1.224449038505554 ==w out 35 2208 945 45219840 WAYNE PROCESS 222.6223880052567 Processing block number 36 WAYNE PATCHES: 52921 57016 patch# 36 reference line: 54968 434.826 seconds. before reading done reading WAYNE load raw data , time = 40.87151706218719 ATTN ifrq ipol ln 8 4 57016 18.00000 IPOL, ITOP nblock 4 0 36 WAYNE Motion comp. coeff. calculated, time = 5.5799484252929688E-03 WAYNE Motion comp. added to patch, time = 8.391250014305115 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.2948980331420898E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.0471580028534 Writing 2208 lines of data to file WAYNE write output data 1.252146959304810 ==w out 36 4416 945 90439680 WAYNE PROCESS 221.5711630582809 Processing block number 37 WAYNE PATCHES: 54433 58528 patch# 37 reference line: 56480 656.398 seconds. before reading done reading WAYNE load raw data , time = 40.83243107795715 ATTN ifrq ipol ln 8 4 58528 18.00000 IPOL, ITOP nblock 4 0 37 WAYNE Motion comp. coeff. calculated, time = 5.5680274963378906E-03 WAYNE Motion comp. added to patch, time = 8.419939994812012 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.3330450057983398E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migrati PROCESSING KID# 7 ..... WAYNE IS IN Processing 50 to 57 by # 6 Processing block number 50 WAYNE PATCHES: 74089 78184 patch# 50 reference line: 76136 3.699 seconds. before reading done reading WAYNE load raw data , time = 28.08218300342560 ATTN ifrq ipol ln 8 4 78184 18.00000 IPOL, ITOP nblock 4 0 50 WAYNE Motion comp. coeff. calculated, time = 6.2550306320190430E-03 WAYNE Motion comp. added to patch, time = 9.097470045089722 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 3.2219886779785156E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.1493300199509 Writing 2208 lines of data to file WAYNE write output data 1.031208992004395 ==w out 50 0 945 0 WAYNE PROCESS 209.3712590932846 Processing block number 51 WAYNE PATCHES: 75601 79696 patch# 51 reference line: 77648 213.070 seconds. before reading done reading WAYNE load raw data , time = 40.48334693908691 ATTN ifrq ipol ln 8 4 79696 18.00000 IPOL, ITOP nblock 4 0 51 WAYNE Motion comp. coeff. calculated, time = 5.5019855499267578E-03 WAYNE Motion comp. added to patch, time = 8.474699974060059 WAYNE Doppler estimation done, time = 1.5020370483398438E-05 WAYNE write deskew done, time = 9.4223022460937500E-02 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 172.2305610179901 Writing 2208 lines of data to file WAYNE write output data 1.054890036582947 ==w out 51 2208 945 45219840 WAYNE PROCESS 222.3450620174408 Processing block number 52 WAYNE PATCHES: 77113 81208 patch# 52 reference line: 79160 435.416 seconds. before reading done reading WAYNE load raw data , time = 40.72779703140259 ATTN ifrq ipol ln 8 4 81208 18.00000 IPOL, ITOP nblock 4 0 52 WAYNE Motion comp. coeff. calculated, time = 5.5290460586547852E-03 WAYNE Motion comp. added to patch, time = 8.380156040191650 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.4340152740478516E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.5659470558167 Writing 2208 lines of data to file WAYNE write output data 1.207810997962952 ==w out 52 4416 945 90439680 WAYNE PROCESS 221.8910979032516 Processing block number 53 WAYNE PATCHES: 78625 82720 patch# 53 reference line: 80672 657.307 seconds. before reading done reading WAYNE load raw data , time = 40.06523597240448 ATTN ifrq ipol ln 8 4 82720 18.00000 IPOL, ITOP nblock 4 0 53 WAYNE Motion comp. coeff. calculated, time = 5.5060386657714844E-03 WAYNE Motion comp. added to patch, time = 8.391085982322693 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.3900270462036133E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migrati PROCESSING KID# 2 ..... WAYNE IS IN Processing 10 to 17 by # 1 Processing block number 10 WAYNE PATCHES: 13609 17704 patch# 10 reference line: 15656 3.625 seconds. before reading done reading WAYNE load raw data , time = 26.54267108440399 ATTN ifrq ipol ln 8 4 17704 18.00000 IPOL, ITOP nblock 4 0 10 WAYNE Motion comp. coeff. calculated, time = 7.3519945144653320E-03 WAYNE Motion comp. added to patch, time = 9.614410042762756 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 3.0149221420288086E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 170.8282001018524 Writing 2208 lines of data to file WAYNE write output data 1.058295011520386 ==w out 10 0 945 0 WAYNE PROCESS 208.0555200576782 Processing block number 11 WAYNE PATCHES: 15121 19216 patch# 11 reference line: 17168 211.681 seconds. before reading done reading WAYNE load raw data , time = 41.56921100616455 ATTN ifrq ipol ln 8 4 19216 18.00000 IPOL, ITOP nblock 4 0 11 WAYNE Motion comp. coeff. calculated, time = 5.5240392684936523E-03 WAYNE Motion comp. added to patch, time = 8.411852955818176 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 1.9845008850097656E-02 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 172.0147169828415 Writing 2208 lines of data to file WAYNE write output data 1.160951972007751 ==w out 11 2208 945 45219840 WAYNE PROCESS 223.1838719844818 Processing block number 12 WAYNE PATCHES: 16633 20728 patch# 12 reference line: 18680 434.865 seconds. before reading done reading WAYNE load raw data , time = 40.86421799659729 ATTN ifrq ipol ln 8 4 20728 18.00000 IPOL, ITOP nblock 4 0 12 WAYNE Motion comp. coeff. calculated, time = 5.5480003356933594E-03 WAYNE Motion comp. added to patch, time = 8.448621034622192 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.3779869079589844E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.3378629684448 Writing 2208 lines of data to file WAYNE write output data 1.256153941154480 ==w out 12 4416 945 90439680 WAYNE PROCESS 221.9158819913864 Processing block number 13 WAYNE PATCHES: 18145 22240 patch# 13 reference line: 20192 656.781 seconds. before reading done reading WAYNE load raw data , time = 40.30244600772858 ATTN ifrq ipol ln 8 4 22240 18.00000 IPOL, ITOP nblock 4 0 13 WAYNE Motion comp. coeff. calculated, time = 5.5279731750488281E-03 WAYNE Motion comp. added to patch, time = 8.515869975090027 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.3000240325927734E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migrati PROCESSING KID# 4 ..... WAYNE IS IN Processing 26 to 33 by # 3 Processing block number 26 WAYNE PATCHES: 37801 41896 patch# 26 reference line: 39848 3.655 seconds. before reading done reading WAYNE load raw data , time = 27.48063898086548 ATTN ifrq ipol ln 8 4 41896 18.00000 IPOL, ITOP nblock 4 0 26 WAYNE Motion comp. coeff. calculated, time = 6.2760114669799805E-03 WAYNE Motion comp. added to patch, time = 9.232102990150452 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.9239654541015625E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.2761610746384 Writing 2208 lines of data to file WAYNE write output data 1.194059014320374 ==w out 26 0 945 0 WAYNE PROCESS 209.1937490701675 Processing block number 27 WAYNE PATCHES: 39313 43408 patch# 27 reference line: 41360 212.849 seconds. before reading done reading WAYNE load raw data , time = 40.89462697505951 ATTN ifrq ipol ln 8 4 43408 18.00000 IPOL, ITOP nblock 4 0 27 WAYNE Motion comp. coeff. calculated, time = 5.5379867553710938E-03 WAYNE Motion comp. added to patch, time = 8.418126940727234 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 7.9009532928466797E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.6979440450668 Writing 2208 lines of data to file WAYNE write output data 1.186223983764648 ==w out 27 2208 945 45219840 WAYNE PROCESS 222.2120959758759 Processing block number 28 WAYNE PATCHES: 40825 44920 patch# 28 reference line: 42872 435.062 seconds. before reading done reading WAYNE load raw data , time = 41.06035196781158 ATTN ifrq ipol ln 8 4 44920 18.00000 IPOL, ITOP nblock 4 0 28 WAYNE Motion comp. coeff. calculated, time = 5.4360628128051758E-03 WAYNE Motion comp. added to patch, time = 8.227853059768677 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.4369955062866211E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.2890179157257 Writing 2208 lines of data to file WAYNE write output data 1.375154018402100 ==w out 28 4416 945 90439680 WAYNE PROCESS 221.9613949060440 Processing block number 29 WAYNE PATCHES: 42337 46432 patch# 29 reference line: 44384 657.023 seconds. before reading done reading WAYNE load raw data , time = 40.62486803531647 ATTN ifrq ipol ln 8 4 46432 18.00000 IPOL, ITOP nblock 4 0 29 WAYNE Motion comp. coeff. calculated, time = 5.5189132690429688E-03 WAYNE Motion comp. added to patch, time = 8.380039930343628 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.3789405822753906E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migrati PROCESSING KID# 6 ..... WAYNE IS IN Processing 42 to 49 by # 5 Processing block number 42 WAYNE PATCHES: 61993 66088 patch# 42 reference line: 64040 3.686 seconds. before reading done reading WAYNE load raw data , time = 26.87925207614899 ATTN ifrq ipol ln 8 4 66088 18.00000 IPOL, ITOP nblock 4 0 42 WAYNE Motion comp. coeff. calculated, time = 6.2860250473022461E-03 WAYNE Motion comp. added to patch, time = 9.298625946044922 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.9898881912231445E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.3622339963913 Writing 2208 lines of data to file WAYNE write output data 1.135600090026855 ==w out 42 0 945 0 WAYNE PROCESS 208.6865119934082 Processing block number 43 WAYNE PATCHES: 63505 67600 patch# 43 reference line: 65552 212.373 seconds. before reading done reading WAYNE load raw data , time = 40.87587499618530 ATTN ifrq ipol ln 8 4 67600 18.00000 IPOL, ITOP nblock 4 0 43 WAYNE Motion comp. coeff. calculated, time = 5.6470632553100586E-03 WAYNE Motion comp. added to patch, time = 8.418113946914673 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 9.0794086456298828E-02 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.3852289915085 Writing 2208 lines of data to file WAYNE write output data 1.055889010429382 ==w out 43 2208 945 45219840 WAYNE PROCESS 221.8333230018616 Processing block number 44 WAYNE PATCHES: 65017 69112 patch# 44 reference line: 67064 434.206 seconds. before reading done reading WAYNE load raw data , time = 41.38136196136475 ATTN ifrq ipol ln 8 4 69112 18.00000 IPOL, ITOP nblock 4 0 44 WAYNE Motion comp. coeff. calculated, time = 5.5840015411376953E-03 WAYNE Motion comp. added to patch, time = 8.369722962379456 WAYNE Doppler estimation done, time = 9.8943710327148438E-06 WAYNE write deskew done, time = 2.3159980773925781E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.7431360483170 Writing 2208 lines of data to file WAYNE write output data 1.309836983680725 ==w out 44 4416 945 90439680 WAYNE PROCESS 222.8131920099258 Processing block number 45 WAYNE PATCHES: 66529 70624 patch# 45 reference line: 68576 657.020 seconds. before reading done reading WAYNE load raw data , time = 40.26983392238617 ATTN ifrq ipol ln 8 4 70624 18.00000 IPOL, ITOP nblock 4 0 45 WAYNE Motion comp. coeff. calculated, time = 5.5789947509765625E-03 WAYNE Motion comp. added to patch, time = 8.382866024971008 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.3440122604370117E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migrati PROCESSING KID# 3 ..... WAYNE IS IN Processing 18 to 25 by # 2 Processing block number 18 WAYNE PATCHES: 25705 29800 patch# 18 reference line: 27752 3.642 seconds. before reading done reading WAYNE load raw data , time = 25.95771801471710 ATTN ifrq ipol ln 8 4 29800 18.00000 IPOL, ITOP nblock 4 0 18 WAYNE Motion comp. coeff. calculated, time = 6.5950155258178711E-03 WAYNE Motion comp. added to patch, time = 9.814174056053162 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 3.0289888381958008E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.4950059652328 Writing 2208 lines of data to file WAYNE write output data 1.076647996902466 ==w out 18 0 945 0 WAYNE PROCESS 208.3546719551086 Processing block number 19 WAYNE PATCHES: 27217 31312 patch# 19 reference line: 29264 211.997 seconds. before reading done reading WAYNE load raw data , time = 41.05313003063202 ATTN ifrq ipol ln 8 4 31312 18.00000 IPOL, ITOP nblock 4 0 19 WAYNE Motion comp. coeff. calculated, time = 5.5820941925048828E-03 WAYNE Motion comp. added to patch, time = 8.577391982078552 WAYNE Doppler estimation done, time = 9.8943710327148438E-06 WAYNE write deskew done, time = 3.7410974502563477E-02 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 172.2248650789261 Writing 2208 lines of data to file WAYNE write output data 1.197968006134033 ==w out 19 2208 945 45219840 WAYNE PROCESS 223.0983459949493 Processing block number 20 WAYNE PATCHES: 28729 32824 patch# 20 reference line: 30776 435.096 seconds. before reading done reading WAYNE load raw data , time = 40.48106992244720 ATTN ifrq ipol ln 8 4 32824 18.00000 IPOL, ITOP nblock 4 0 20 WAYNE Motion comp. coeff. calculated, time = 5.6929588317871094E-03 WAYNE Motion comp. added to patch, time = 8.556470036506653 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.3909807205200195E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.2476570606232 Writing 2208 lines of data to file WAYNE write output data 1.434330940246582 ==w out 20 4416 945 90439680 WAYNE PROCESS 221.7288039922714 Processing block number 21 WAYNE PATCHES: 30241 34336 patch# 21 reference line: 32288 656.825 seconds. before reading done reading WAYNE load raw data , time = 40.31455004215240 ATTN ifrq ipol ln 8 4 34336 18.00000 IPOL, ITOP nblock 4 0 21 WAYNE Motion comp. coeff. calculated, time = 5.5489540100097656E-03 WAYNE Motion comp. added to patch, time = 8.498526930809021 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 2.3519992828369141E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migrati PROCESSING KID# 8 ..... WAYNE IS IN Processing 58 to 65 by # 7 Processing block number 58 WAYNE PATCHES: 86185 90280 patch# 58 reference line: 88232 3.712 seconds. before reading done reading WAYNE load raw data , time = 28.20970404148102 ATTN ifrq ipol ln 8 4 90280 18.00000 IPOL, ITOP nblock 4 0 58 WAYNE Motion comp. coeff. calculated, time = 6.3500404357910156E-03 WAYNE Motion comp. added to patch, time = 9.116564989089966 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 3.0080080032348633E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 170.5204069614410 Writing 2208 lines of data to file WAYNE write output data 1.214545011520386 ==w out 58 0 945 0 WAYNE PROCESS 209.0723279714584 Processing block number 59 WAYNE PATCHES: 87697 91792 patch# 59 reference line: 89744 212.785 seconds. before reading done reading WAYNE load raw data , time = 40.54647099971771 ATTN ifrq ipol ln 8 4 91792 18.00000 IPOL, ITOP nblock 4 0 59 WAYNE Motion comp. coeff. calculated, time = 5.6020021438598633E-03 WAYNE Motion comp. added to patch, time = 8.411187052726746 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 2.4242997169494629E-02 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 172.1685900688171 Writing 2208 lines of data to file WAYNE write output data 1.470000982284546 ==w out 59 2208 945 45219840 WAYNE PROCESS 222.6279809474945 Processing block number 60 WAYNE PATCHES: 89209 93304 patch# 60 reference line: 91256 435.413 seconds. before reading done reading WAYNE load raw data , time = 40.76299703121185 ATTN ifrq ipol ln 8 4 93304 18.00000 IPOL, ITOP nblock 4 0 60 WAYNE Motion comp. coeff. calculated, time = 5.5830478668212891E-03 WAYNE Motion comp. added to patch, time = 8.280246019363403 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.4349689483642578E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 170.8519660234451 Writing 2208 lines of data to file WAYNE write output data 1.322006940841675 ==w out 60 4416 945 90439680 WAYNE PROCESS 221.2264399528503 Processing block number 61 WAYNE PATCHES: 90721 94816 patch# 61 reference line: 92768 656.640 seconds. before reading done reading WAYNE load raw data , time = 41.13869905471802 ATTN ifrq ipol ln 8 4 94816 18.00000 IPOL, ITOP nblock 4 0 61 WAYNE Motion comp. coeff. calculated, time = 5.5090188980102539E-03 WAYNE Motion comp. added to patch, time = 8.467397928237915 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.5919675827026367E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migratitput data 1.385196924209595 ==w out 3 4416 945 90439680 WAYNE PROCESS 223.2493889331818 Processing block number 4 TESTING WHY -6.9331899E-03 1.7697200E-02 1512 4 WAYNE PATCHES: 4537 8632 patch# 4 reference line: 6584 657.373 seconds. TESTING 4537 before reading done reading WAYNE load raw data , time = 40.11805999279022 ATTN ifrq ipol ln 8 4 8632 18.00000 IPOL, ITOP nblock 4 0 4 WAYNE Motion comp. coeff. calculated, time = 5.5580139160156250E-03 TESTING 0.0000000E+00 -43.19695 2.259132 WAYNE Motion comp. added to patch, time = 8.561970949172974 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.2079944610595703E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 -43.19695 2.259132 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -6.9331899E-03 1.7697200E-02 WAYNE Azimuth compression done, time = 171.4165530204773 Writing 2208 lines of data to file WAYNE write output data 1.308859944343567 ==w out 4 6624 945 135659520 WAYNE PROCESS 221.4143069982529 Processing block number 5 TESTING WHY -6.4711901E-03 1.7400300E-02 1512 5 WAYNE PATCHES: 6049 10144 patch# 5 reference line: 8096 878.787 seconds. TESTING 6049 before reading done reading WAYNE load raw data , time = 40.60081303119659 ATTN ifrq ipol ln 8 4 10144 18.00000 IPOL, ITOP nblock 4 0 5 WAYNE Motion comp. coeff. calculated, time = 5.4820775985717773E-03 TESTING 0.0000000E+00 -40.78796 2.209567 WAYNE Motion comp. added to patch, time = 8.753237962722778 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.3539066314697266E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 -40.78796 2.209567 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -6.4711901E-03 1.7400300E-02 WAYNE Azimuth compression done, time = 171.3614929914474 Writing 2208 lines of data to file WAYNE write output data 1.400936007499695 ==w out 5 8832 945 180879360 WAYNE PROCESS 222.1253659725189 Processing block number 6 TESTING WHY -6.0401699E-03 1.7375199E-02 1512 6 WAYNE PATCHES: 7561 11656 patch# 6 reference line: 9608 1100.913 seconds. TESTING 7561 before reading done reading WAYNE load raw data , time = 41.11372101306915 ATTN ifrq ipol ln 8 4 11656 18.00000 IPOL, ITOP nblock 4 0 6 WAYNE Motion comp. coeff. calculated, time = 5.5370330810546875E-03 TESTING 0.0000000E+00 -38.46291 2.258273 WAYNE Motion comp. added to patch, time = 8.479913949966431 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.3629665374755859E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 -38.46291 2.258273 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -6.0401699E-03 1.7375199E-02 WAYNE Azimuth compression done, time = 171.7968159914017 Writing 2208 lineson lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 170.8296569585800 Writing 2208 lines of data to file WAYNE write output data 1.469240903854370 ==w out 61 6624 945 135659520 WAYNE PROCESS 221.9143689870834 Processing block number 62 WAYNE PATCHES: 92233 96328 patch# 62 reference line: 94280 878.555 seconds. before reading done reading WAYNE load raw data , time = 41.71332204341888 ATTN ifrq ipol ln 8 4 96328 18.00000 IPOL, ITOP nblock 4 0 62 WAYNE Motion comp. coeff. calculated, time = 5.5921077728271484E-03 WAYNE Motion comp. added to patch, time = 8.292257070541382 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.4490356445312500E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 170.7563899755478 Writing 2208 lines of data to file WAYNE write output data 1.307839035987854 ==w out 62 8832 945 180879360 WAYNE PROCESS 222.0790740251541 Processing block number 63 WAYNE PATCHES: 93745 97840 patch# 63 reference line: 95792 1100.634 seconds. before reading done reading WAYNE load raw data , time = 42.18124604225159 ATTN ifrq ipol ln 8 4 97840 18.00000 IPOL, ITOP nblock 4 0 63 WAYNE Motion comp. coeff. calculated, time = 5.5580139160156250E-03 WAYNE Motion comp. added to patch, time = 8.152707934379578 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.5351047515869141E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.0843470096588 Writing 2208 lines of data to file WAYNE write output data 1.248067975044250 ==w out 63 11040 945 226099200 WAYNE PROCESS 222.6756720542908 Processing block number 64 WAYNE PATCHES: 95257 99352 patch# 64 reference line: 97304 1323.310 seconds. before reading done reading WAYNE load raw data , time = 41.96063697338104 ATTN ifrq ipol ln 8 4 99352 18.00000 IPOL, ITOP nblock 4 0 64 WAYNE Motion comp. coeff. calculated, time = 5.5030584335327148E-03 WAYNE Motion comp. added to patch, time = 8.464826941490173 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.7359724044799805E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.0761970281601 Writing 2208 lines of data to file WAYNE write output data 1.437738060951233 ==w out 64 13248 945 271319040 WAYNE PROCESS 222.9488270282745 Processing block number 65 WAYNE PATCHES: 95904 99999 patch# 65 reference line: 97951 1546.259 seconds. before reading done reading WAYNE load raw data , time = 35.03614497184753 ATTN ifrq ipol ln 8 4 99999 18.00000 IPOL, ITOP nblock 4 0 65 WAYNE Motion comp. coeff. calculated, time = 5.4920911788940430E-03 WAYNE Motion comp. added to patch,on lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.5444200038910 Writing 2208 lines of data to file WAYNE write output data 1.295184969902039 ==w out 21 6624 945 135659520 WAYNE PROCESS 221.6618000268936 Processing block number 22 WAYNE PATCHES: 31753 35848 patch# 22 reference line: 33800 878.487 seconds. before reading done reading WAYNE load raw data , time = 40.53714299201965 ATTN ifrq ipol ln 8 4 35848 18.00000 IPOL, ITOP nblock 4 0 22 WAYNE Motion comp. coeff. calculated, time = 5.5290460586547852E-03 WAYNE Motion comp. added to patch, time = 8.634248018264771 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.3421049118041992E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.7383708953857 Writing 2208 lines of data to file WAYNE write output data 1.322960019111633 ==w out 22 8832 945 180879360 WAYNE PROCESS 222.2417730093002 Processing block number 23 WAYNE PATCHES: 33265 37360 patch# 23 reference line: 35312 1100.729 seconds. before reading done reading WAYNE load raw data , time = 41.20420098304749 ATTN ifrq ipol ln 8 4 37360 18.00000 IPOL, ITOP nblock 4 0 23 WAYNE Motion comp. coeff. calculated, time = 5.4908990859985352E-03 WAYNE Motion comp. added to patch, time = 8.486284017562866 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.3570060729980469E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 172.0500669479370 Writing 2208 lines of data to file WAYNE write output data 1.323803067207336 ==w out 23 11040 945 226099200 WAYNE PROCESS 223.0733799934387 Processing block number 24 WAYNE PATCHES: 34777 38872 patch# 24 reference line: 36824 1323.803 seconds. before reading done reading WAYNE load raw data , time = 40.53444802761078 ATTN ifrq ipol ln 8 4 38872 18.00000 IPOL, ITOP nblock 4 0 24 WAYNE Motion comp. coeff. calculated, time = 5.5959224700927734E-03 WAYNE Motion comp. added to patch, time = 8.712815999984741 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.7049779891967773E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.0132319927216 Writing 2208 lines of data to file WAYNE write output data 1.323328971862793 ==w out 24 13248 945 271319040 WAYNE PROCESS 221.5932519435883 Processing block number 25 WAYNE PATCHES: 36289 40384 patch# 25 reference line: 38336 1545.396 seconds. before reading done reading WAYNE load raw data , time = 40.81014406681061 ATTN ifrq ipol ln 8 4 40384 18.00000 IPOL, ITOP nblock 4 0 25 WAYNE Motion comp. coeff. calculated, time = 5.5480003356933594E-03 WAYNE Motion comp. added to patch,on lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.7613489627838 Writing 2208 lines of data to file WAYNE write output data 1.258242964744568 ==w out 13 6624 945 135659520 WAYNE PROCESS 221.8469209671021 Processing block number 14 WAYNE PATCHES: 19657 23752 patch# 14 reference line: 21704 878.629 seconds. before reading done reading WAYNE load raw data , time = 40.61649894714355 ATTN ifrq ipol ln 8 4 23752 18.00000 IPOL, ITOP nblock 4 0 14 WAYNE Motion comp. coeff. calculated, time = 5.4719448089599609E-03 WAYNE Motion comp. added to patch, time = 8.695763945579529 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.4030208587646484E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.7056910991669 Writing 2208 lines of data to file WAYNE write output data 1.294975996017456 ==w out 14 8832 945 180879360 WAYNE PROCESS 222.3220649957657 Processing block number 15 WAYNE PATCHES: 21169 25264 patch# 15 reference line: 23216 1100.951 seconds. before reading done reading WAYNE load raw data , time = 41.03940808773041 ATTN ifrq ipol ln 8 4 25264 18.00000 IPOL, ITOP nblock 4 0 15 WAYNE Motion comp. coeff. calculated, time = 5.5090188980102539E-03 WAYNE Motion comp. added to patch, time = 8.577776074409485 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.3210048675537109E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.8445010185242 Writing 2208 lines of data to file WAYNE write output data 1.313688993453979 ==w out 15 11040 945 226099200 WAYNE PROCESS 222.7844309806824 Processing block number 16 WAYNE PATCHES: 22681 26776 patch# 16 reference line: 24728 1323.736 seconds. before reading done reading WAYNE load raw data , time = 40.90115797519684 ATTN ifrq ipol ln 8 4 26776 18.00000 IPOL, ITOP nblock 4 0 16 WAYNE Motion comp. coeff. calculated, time = 5.6478977203369141E-03 WAYNE Motion comp. added to patch, time = 8.760559916496277 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.6370286941528320E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.7287839651108 Writing 2208 lines of data to file WAYNE write output data 1.451215982437134 ==w out 16 13248 945 271319040 WAYNE PROCESS 222.8511350154877 Processing block number 17 WAYNE PATCHES: 24193 28288 patch# 17 reference line: 26240 1546.587 seconds. before reading done reading WAYNE load raw data , time = 39.57432699203491 ATTN ifrq ipol ln 8 4 28288 18.00000 IPOL, ITOP nblock 4 0 17 WAYNE Motion comp. coeff. calculated, time = 4.1705965995788574E-02 WAYNE Motion comp. added to patch,on lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.2972149848938 Writing 2208 lines of data to file WAYNE write output data 1.177809000015259 ==w out 45 6624 945 135659520 WAYNE PROCESS 221.1368360519409 Processing block number 46 WAYNE PATCHES: 68041 72136 patch# 46 reference line: 70088 878.157 seconds. before reading done reading WAYNE load raw data , time = 41.82138299942017 ATTN ifrq ipol ln 8 4 72136 18.00000 IPOL, ITOP nblock 4 0 46 WAYNE Motion comp. coeff. calculated, time = 5.5320262908935547E-03 WAYNE Motion comp. added to patch, time = 8.413827061653137 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.4820566177368164E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 170.6757470369339 Writing 2208 lines of data to file WAYNE write output data 1.311447978019714 ==w out 46 8832 945 180879360 WAYNE PROCESS 222.2316880226135 Processing block number 47 WAYNE PATCHES: 69553 73648 patch# 47 reference line: 71600 1100.389 seconds. before reading done reading WAYNE load raw data , time = 42.11933207511902 ATTN ifrq ipol ln 8 4 73648 18.00000 IPOL, ITOP nblock 4 0 47 WAYNE Motion comp. coeff. calculated, time = 5.4569244384765625E-03 WAYNE Motion comp. added to patch, time = 8.252105951309204 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.3670196533203125E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.9628878831863 Writing 2208 lines of data to file WAYNE write output data 1.244470000267029 ==w out 47 11040 945 226099200 WAYNE PROCESS 223.5881439447403 Processing block number 48 WAYNE PATCHES: 71065 75160 patch# 48 reference line: 73112 1323.978 seconds. before reading done reading WAYNE load raw data , time = 41.36400401592255 ATTN ifrq ipol ln 8 4 75160 18.00000 IPOL, ITOP nblock 4 0 48 WAYNE Motion comp. coeff. calculated, time = 5.7259798049926758E-03 WAYNE Motion comp. added to patch, time = 8.426546931266785 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.8859376907348633E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.3809490203857 Writing 2208 lines of data to file WAYNE write output data 1.488579988479614 ==w out 48 13248 945 271319040 WAYNE PROCESS 222.6699800491333 Processing block number 49 WAYNE PATCHES: 72577 76672 patch# 49 reference line: 74624 1546.648 seconds. before reading done reading WAYNE load raw data , time = 39.94948101043701 ATTN ifrq ipol ln 8 4 76672 18.00000 IPOL, ITOP nblock 4 0 49 WAYNE Motion comp. coeff. calculated, time = 5.6000947952270508E-03 WAYNE Motion comp. added to patch,on lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.3694849014282 Writing 2208 lines of data to file WAYNE write output data 1.262025952339172 ==w out 29 6624 945 135659520 WAYNE PROCESS 221.6455999612808 Processing block number 30 WAYNE PATCHES: 43849 47944 patch# 30 reference line: 45896 878.669 seconds. before reading done reading WAYNE load raw data , time = 41.10368502140045 ATTN ifrq ipol ln 8 4 47944 18.00000 IPOL, ITOP nblock 4 0 30 WAYNE Motion comp. coeff. calculated, time = 5.5190324783325195E-03 WAYNE Motion comp. added to patch, time = 8.520931959152222 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.4440288543701172E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.2819319963455 Writing 2208 lines of data to file WAYNE write output data 1.422389030456543 ==w out 30 8832 945 180879360 WAYNE PROCESS 222.3381201028824 Processing block number 31 WAYNE PATCHES: 45361 49456 patch# 31 reference line: 47408 1101.008 seconds. before reading done reading WAYNE load raw data , time = 41.22068500518799 ATTN ifrq ipol ln 8 4 49456 18.00000 IPOL, ITOP nblock 4 0 31 WAYNE Motion comp. coeff. calculated, time = 5.5619478225708008E-03 WAYNE Motion comp. added to patch, time = 8.346513986587524 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.3490190505981445E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.6958469152451 Writing 2208 lines of data to file WAYNE write output data 1.321880936622620 ==w out 31 11040 945 226099200 WAYNE PROCESS 222.5940139293671 Processing block number 32 WAYNE PATCHES: 46873 50968 patch# 32 reference line: 48920 1323.602 seconds. before reading done reading WAYNE load raw data , time = 41.69305706024170 ATTN ifrq ipol ln 8 4 50968 18.00000 IPOL, ITOP nblock 4 0 32 WAYNE Motion comp. coeff. calculated, time = 5.5919885635375977E-03 WAYNE Motion comp. added to patch, time = 8.526840090751648 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.7149915695190430E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.3313130140305 Writing 2208 lines of data to file WAYNE write output data 1.292067050933838 ==w out 32 13248 945 271319040 WAYNE PROCESS 222.8531380891800 Processing block number 33 WAYNE PATCHES: 48385 52480 patch# 33 reference line: 50432 1546.456 seconds. before reading done reading WAYNE load raw data , time = 40.10483503341675 ATTN ifrq ipol ln 8 4 52480 18.00000 IPOL, ITOP nblock 4 0 33 WAYNE Motion comp. coeff. calculated, time = 5.4850578308105469E-03 WAYNE Motion comp. added to patch,on lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.5610750913620 Writing 2208 lines of data to file WAYNE write output data 1.373468995094299 ==w out 37 6624 945 135659520 WAYNE PROCESS 222.1961270570755 Processing block number 38 WAYNE PATCHES: 55945 60040 patch# 38 reference line: 57992 878.594 seconds. before reading done reading WAYNE load raw data , time = 40.92075502872467 ATTN ifrq ipol ln 8 4 60040 18.00000 IPOL, ITOP nblock 4 0 38 WAYNE Motion comp. coeff. calculated, time = 5.4420232772827148E-03 WAYNE Motion comp. added to patch, time = 8.441174983978271 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.3709535598754883E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.3185930252075 Writing 2208 lines of data to file WAYNE write output data 1.345907092094421 ==w out 38 8832 945 180879360 WAYNE PROCESS 222.0354300737381 Processing block number 39 WAYNE PATCHES: 57457 61552 patch# 39 reference line: 59504 1100.630 seconds. before reading done reading WAYNE load raw data , time = 41.62136495113373 ATTN ifrq ipol ln 8 4 61552 18.00000 IPOL, ITOP nblock 4 0 39 WAYNE Motion comp. coeff. calculated, time = 5.5739879608154297E-03 WAYNE Motion comp. added to patch, time = 8.342078924179077 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.3120641708374023E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.3444240093231 Writing 2208 lines of data to file WAYNE write output data 1.166930079460144 ==w out 39 11040 945 226099200 WAYNE PROCESS 222.4839870929718 Processing block number 40 WAYNE PATCHES: 58969 63064 patch# 40 reference line: 61016 1323.114 seconds. before reading done reading WAYNE load raw data , time = 41.81431293487549 ATTN ifrq ipol ln 8 4 63064 18.00000 IPOL, ITOP nblock 4 0 40 WAYNE Motion comp. coeff. calculated, time = 5.5170059204101563E-03 WAYNE Motion comp. added to patch, time = 8.716988921165466 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 3.0559301376342773E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.2583929300308 Writing 2208 lines of data to file WAYNE write output data 1.467560052871704 ==w out 40 13248 945 271319040 WAYNE PROCESS 223.2670739889145 Processing block number 41 WAYNE PATCHES: 60481 64576 patch# 41 reference line: 62528 1546.382 seconds. before reading done reading WAYNE load raw data , time = 40.23119604587555 ATTN ifrq ipol ln 8 4 64576 18.00000 IPOL, ITOP nblock 4 0 41 WAYNE Motion comp. coeff. calculated, time = 5.5400133132934570E-03 WAYNE Motion comp. added to patch,on lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 170.7696759700775 Writing 2208 lines of data to file WAYNE write output data 1.028210997581482 ==w out 53 6624 945 135659520 WAYNE PROCESS 220.2632550001144 Processing block number 54 WAYNE PATCHES: 80137 84232 patch# 54 reference line: 82184 877.571 seconds. before reading done reading WAYNE load raw data , time = 42.70528495311737 ATTN ifrq ipol ln 8 4 84232 18.00000 IPOL, ITOP nblock 4 0 54 WAYNE Motion comp. coeff. calculated, time = 5.5159330368041992E-03 WAYNE Motion comp. added to patch, time = 8.633705973625183 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 2.6320219039916992E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.1082949638367 Writing 2208 lines of data to file WAYNE write output data 1.182003021240234 ==w out 54 8832 945 180879360 WAYNE PROCESS 223.6388709545135 Processing block number 55 WAYNE PATCHES: 81649 85744 patch# 55 reference line: 83696 1101.210 seconds. before reading done reading WAYNE load raw data , time = 41.47612798213959 ATTN ifrq ipol ln 8 4 85744 18.00000 IPOL, ITOP nblock 4 0 55 WAYNE Motion comp. coeff. calculated, time = 5.6400299072265625E-03 WAYNE Motion comp. added to patch, time = 8.430715918540955 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.3469924926757813E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.2768830060959 Writing 2208 lines of data to file WAYNE write output data 1.329390048980713 ==w out 55 11040 945 226099200 WAYNE PROCESS 222.5223510265350 Processing block number 56 WAYNE PATCHES: 83161 87256 patch# 56 reference line: 85208 1323.732 seconds. before reading done reading WAYNE load raw data , time = 41.86954605579376 ATTN ifrq ipol ln 8 4 87256 18.00000 IPOL, ITOP nblock 4 0 56 WAYNE Motion comp. coeff. calculated, time = 5.4550170898437500E-03 WAYNE Motion comp. added to patch, time = 8.564786911010742 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.7509927749633789E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.4931889772415 Writing 2208 lines of data to file WAYNE write output data 1.205947041511536 ==w out 56 13248 945 271319040 WAYNE PROCESS 223.1432840824127 Processing block number 57 WAYNE PATCHES: 84673 88768 patch# 57 reference line: 86720 1546.876 seconds. before reading done reading WAYNE load raw data , time = 40.06962203979492 ATTN ifrq ipol ln 8 4 88768 18.00000 IPOL, ITOP nblock 4 0 57 WAYNE Motion comp. coeff. calculated, time = 8.5539817810058594E-03 WAYNE Motion comp. added to patch, time = 8.457635045051575 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 5.9491991996765137E-02 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 169.8262540102005 Writing 2208 lines of data to file WAYNE write output data 0.9009879827499390 ==w out 65 15456 945 316538880 WAYNE PROCESS 214.2877980470657 ==w out 66 17667 time = 8.423766970634460 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 4.6756982803344727E-02 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 170.8171049356461 Writing 2208 lines of data to file WAYNE write output data 1.066113948822021 ==w out 25 15456 945 316538880 WAYNE PROCESS 221.1713119745255 ==w out 26 17667 time = 8.448379039764404 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 5.4597020149230957E-02 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 170.6411600112915 Writing 2208 lines of data to file WAYNE write output data 1.161195039749146 ==w out 49 15456 945 316538880 WAYNE PROCESS 220.2622330188751 ==w out 50 17667 time = 8.518115997314453 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 0.1029620170593262 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 170.8373529911041 Writing 2208 lines of data to file WAYNE write output data 1.180691003799438 ==w out 41 15456 945 316538880 WAYNE PROCESS 220.8779569864273 ==w out 42 17667 time = 8.536992907524109 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 1.8489956855773926E-02 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.0787110328674 Writing 2208 lines of data to file WAYNE write output data 1.198967933654785 ==w out 33 15456 945 316538880 WAYNE PROCESS 220.9454469680786 ==w out 34 17667 time = 8.520552992820740 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.0790934562683105E-02 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 171.5569680929184 Writing 2208 lines of data to file WAYNE write output data 1.188563108444214 ==w out 17 15456 945 316538880 WAYNE PROCESS 220.9048540592194 ==w out 18 17667 time = 8.454451084136963 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 2.0461916923522949E-02 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 170.8937079906464 Writing 2208 lines of data to file WAYNE write output data 1.207267999649048 ==w out 57 15456 945 316538880 WAYNE PROCESS 220.6564650535583 ==w out 58 17667 of data to file WAYNE write output data 1.337247967720032 ==w out 6 11040 945 226099200 WAYNE PROCESS 222.7367470264435 Processing block number 7 TESTING WHY -5.5889799E-03 1.7301399E-02 1512 7 WAYNE PATCHES: 9073 13168 patch# 7 reference line: 11120 1323.650 seconds. TESTING 9073 before reading done reading WAYNE load raw data , time = 41.26019692420959 ATTN ifrq ipol ln 8 4 13168 18.00000 IPOL, ITOP nblock 4 0 7 WAYNE Motion comp. coeff. calculated, time = 5.5459737777709961E-03 TESTING 0.0000000E+00 -36.22761 2.366439 WAYNE Motion comp. added to patch, time = 8.796113014221191 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.6720762252807617E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 -36.22761 2.366439 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -5.5889799E-03 1.7301399E-02 WAYNE Azimuth compression done, time = 171.5627959966660 Writing 2208 lines of data to file WAYNE write output data 1.320039987564087 ==w out 7 13248 945 271319040 WAYNE PROCESS 222.9485470056534 Processing block number 8 TESTING WHY -5.0834999E-03 1.7357500E-02 1512 8 WAYNE PATCHES: 10585 14680 patch# 8 reference line: 12632 1546.599 seconds. TESTING 10585 before reading done reading WAYNE load raw data , time = 39.67910897731781 ATTN ifrq ipol ln 8 4 14680 18.00000 IPOL, ITOP nblock 4 0 8 WAYNE Motion comp. coeff. calculated, time = 5.5499076843261719E-03 TESTING 0.0000000E+00 -34.11149 2.201451 WAYNE Motion comp. added to patch, time = 8.505599021911621 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 1.4733076095581055E-02 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 -34.11149 2.201451 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -5.0834999E-03 1.7357500E-02 WAYNE Azimuth compression done, time = 170.9580689668655 Writing 2208 lines of data to file WAYNE write output data 1.146894931793213 ==w out 8 15456 945 316538880 WAYNE PROCESS 220.3111089468002 Processing block number 9 TESTING WHY -5.0025000E-03 1.7478000E-02 1512 9 WAYNE PATCHES: 12097 16192 patch# 9 reference line: 14144 1766.910 seconds. TESTING 12097 before reading done reading WAYNE load raw data , time = 37.22758996486664 ATTN ifrq ipol ln 8 4 16192 18.00000 IPOL, ITOP nblock 4 0 9 WAYNE Motion comp. coeff. calculated, time = 5.5919885635375977E-03 TESTING 0.0000000E+00 -32.17982 1.740020 WAYNE Motion comp. added to patch, time = 7.831830978393555 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.3329257965087891E-03 AZ Wavl Br: 5.6699999E-02 40.00000 2.2961859E-02 207.5876 403.3167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 -32.17982 1.740020 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -5.0025000E-03 1.7478000E-02 WAYNE Azimuth compression done, time = 122.9178290367126 Writing 2208 lines of data to file WAYNE write output data 0.8603420257568359 ==w out 9 17664 945 361758720 WAYNE PROCESS 168.8470449447632 ==w out 10 19875 1 7885832 0 2 7886326 0 3 7887626 0 4 7887905 0 5 7888162 0 6 7887538 0 7 7885346 0 8 7886905 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 143520kids= 8 Writing variable header... gather image from processor # 0 9 gather image from processor # 1 8 gather image from processor # 2 8 gather image from processor # 3 8 gather image from processor # 4 8 gather image from processor # 5 8 gather image from processor # 6 8 gather image from processor # 7 8 WAYNE gather images takes: 0.1017349958419800 WAYNE LOOP TIME: 1940.662881970406 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air32/airops/1400/ts1400_c.vv_j /export/air36/airops/1400/ts1400_c.mocompv /export/air36/airops/1400/ts1400_c.dop /export/air36/airops/1400/ts1400_c.glb 2560 143520 update intf hdr ha: 8367.900 UPDATE: 2560 143520 3.331000 0.5144000 mocompfile /export/air36/airops/1400/ts1400_c.mocompv dopfile /export/air36/airops/1400/ts1400_c.dop globalfile /export/air36/airops/1400/ts1400_c.glb /export/air36/airops/1400/ts1400_c.glb 38 deskew line ra ha trc: 132.2092 257 9042.366 8367.900 54.57177 after deskew line ra ha trc: 132.2092 257 9042.366 8367.900 54.57177 lat1 lon1: 257 4.813089 114.7795 143520 last ra n_ns ns: 9042.366 1 1 143776 143520 lati loni: 143776 5.199783 115.3687 143776 1 center ra n_ns ns: 13302.71 1280 1280 72016 143520 lati loni: 72016 5.037969 115.0519 72016 2560 Updated paramater header in /export/air32/airops/1400/ts1400_c.vv_j WAYNE FINAL PROCESS 1944.122576951981 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 8 19872 9 17664 8 17664 8 17664 8 17664 8 17664 8 17664 8 17664 8 Name of data file to be deskewed? /export/air32/airops/1400/ts1400_c.vv_j Name of the doppler parameter file? /export/air36/airops/1400/ts1400_c.dop Name of the deskew file? /export/air32/airops/1400/deskew.cv Line up to another frequency [y/n]? n Name of the output file? /export/air36/airops/1400/ts1400_c.TT Name of the line output file? /export/air36/airops/1400/c_lines.dat NONE-SYMMETRIC PARALLEL JOBS Deskewing 65 patches Processing block number 1 patch iptc,sj,dgj,dgi,id: 1 1 114 114 0 half line dmj dgc: 0 945 256 114 Actual deskew ireclen: 20480 ** 1 1104 0 1104 Writing data negflag .eq. 0 sj>s1: 1 1 Zeroing lines in arrays Total # of output lines = 1 0 1 1105 0 1104 patch iptc,sj,dgj,dgi,id: 1 1105 114 114 1104 half line dmj dgc: 1 945 256 114 Actual deskew ireclen: 20480 ** 1 1104 1 2208 Writing data negflag .eq. 0 sj>s1: 1105 1 Zeroing lines in arrays Total # of output lines = 1 1104 Processing block number 2 1105 1493 -20 408 patch iptc,sj,dgj,dgi,id: 2 1493 94 114 408 half line dmj dgc: 0 2457 249 114 Actual deskew ireclen: 20480 ** 2 1104 0 3312 Writing data negflag .eq. 0 sj>s1: 1493 1105 Zeroing lines in arrays Total # of output lines = 2 1492 1493 2597 0 1104 patch iptc,sj,dgj,dgi,id: 2 2597 94 94 1104 half line dmj dgc: 1 2457 249 114 Actual deskew ireclen: 20480 ** 2 1104 1 4416 Writing data negflag .eq. 0 sj>s1: 2597 1493 Zeroing lines in arrays Total # of output lines = 2 2596 Processing block number 3 2597 2997 -8 408 patch iptc,sj,dgj,dgi,id: 3 2997 86 94 408 half line dmj dgc: 0 3969 245 114 Actual deskew ireclen: 20480 ** 3 1104 0 5520 Writing data negflag .eq. 0 sj>s1: 2997 2597 Zeroing lines in arrays Total # of output lines = 3 2996 2997 4101 0 1104 patch iptc,sj,dgj,dgi,id: 3 4101 86 86 1104 half line dmj dgc: 1 3969 245 114 Actual deskew ireclen: 20480 ** 3 1104 1 6624 Writing data negflag .eq. 0 sj>s1: 4101 2997 Zeroing lines in arrays Total # of output lines = 3 4100 Processing block number 4 4101 4502 -7 408 patch iptc,sj,dgj,dgi,id: 4 4502 79 86 408 half line dmj dgc: 0 5481 241 114 Actual deskew ireclen: 20480 ** 4 1104 0 7728 Writing data negflag .eq. 0 sj>s1: 4502 4101 Zeroing lines in arrays Total # of output lines = 4 4501 4502 5606 0 1104 patch iptc,sj,dgj,dgi,id: 4 5606 79 79 1104 half line dmj dgc: 1 5481 241 114 Actual deskew ireclen: 20480 ** 4 1104 1 8832 Writing data negflag .eq. 0 sj>s1: 5606 4502 Zeroing lines in arrays Total # of output lines = 4 5605 Processing block number 5 5606 6023 9 408 patch iptc,sj,dgj,dgi,id: 5 6023 88 79 408 half line dmj dgc: 0 6993 240 114 Actual deskew ireclen: 20480 ** 5 1104 0 9936 Writing data negflag .eq. 0 sj>s1: 6023 5606 Zeroing lines in arrays Total # of output lines = 5 6022 6023 7127 0 1104 patch iptc,sj,dgj,dgi,id: 5 7127 88 88 1104 half line dmj dgc: 1 6993 240 114 Actual deskew ireclen: 20480 ** 5 1104 1 11040 Writing data negflag .eq. 0 sj>s1: 7127 6023 Zeroing lines in arrays Total # of output lines = 5 7126 Processing block number 6 7127 7548 13 408 patch iptc,sj,dgj,dgi,id: 6 7548 101 88 408 half line dmj dgc: 0 8505 242 114 Actual deskew ireclen: 20480 ** 6 1104 0 12144 Writing data negflag .eq. 0 sj>s1: 7548 7127 Zeroing lines in arrays Total # of output lines = 6 7547 7548 8652 0 1104 patch iptc,sj,dgj,dgi,id: 6 8652 101 101 1104 half line dmj dgc: 1 8505 242 114 Actual deskew ireclen: 20480 ** 6 1104 1 13248 Writing data negflag .eq. 0 sj>s1: 8652 7548 Zeroing lines in arrays Total # of output lines = 6 8651 Processing block number 7 8652 9072 12 408 patch iptc,sj,dgj,dgi,id: 7 9072 113 101 408 half line dmj dgc: 0 10017 244 114 Actual deskew ireclen: 20480 ** 7 1104 0 14352 Writing data negflag .eq. 0 sj>s1: 9072 8652 Zeroing lines in arrays Total # of output lines = 7 9071 9072 10176 0 1104 patch iptc,sj,dgj,dgi,id: 7 10176 113 113 1104 half line dmj dgc: 1 10017 244 114 Actual deskew ireclen: 20480 ** 7 1104 1 15456 Writing data negflag .eq. 0 sj>s1: 10176 9072 Zeroing lines in arrays Total # of output lines = 7 10175 Processing block number 8 10176 10600 16 408 patch iptc,sj,dgj,dgi,id: 8 10600 129 113 408 half line dmj dgc: 0 11529 248 114 Actual deskew ireclen: 20480 ** 8 1104 0 16560 Writing data negflag .eq. 0 sj>s1: 10600 10176 Zeroing lines in arrays Total # of output lines = 8 10599 10600 11704 0 1104 patch iptc,sj,dgj,dgi,id: 8 11704 129 129 1104 half line dmj dgc: 1 11529 248 114 Actual deskew ireclen: 20480 ** 8 1104 1 17664 Writing data negflag .eq. 0 sj>s1: 11704 10600 Zeroing lines in arrays Total # of output lines = 8 11703 Processing block number 9 11704 12117 5 408 patch iptc,sj,dgj,dgi,id: 9 12117 134 129 408 half line dmj dgc: 0 13041 251 114 Actual deskew ireclen: 20480 ** 9 1104 0 18768 Writing data negflag .eq. 0 sj>s1: 12117 11704 Zeroing lines in arrays Total # of output lines = 9 12116 12117 13221 0 1104 patch iptc,sj,dgj,dgi,id: 9 13221 134 134 1104 half line dmj dgc: 1 13041 251 114 Actual deskew ireclen: 20480 ** 9 1104 1 19872 Writing data negflag .eq. 0 sj>s1: 13221 12117 Zeroing lines in arrays Total # of output lines = 9 13220 Processing block number 10 13221 13625 -4 408 patch iptc,sj,dgj,dgi,id: 10 13625 130 134 408 half line dmj dgc: 0 14553 252 114 Actual deskew ireclen: 20480 ** 10 1104 0 20976 Writing data negflag .eq. 0 sj>s1: 13625 13221 Zeroing lines in arrays Total # of output lines = 10 13624 13625 14729 0 1104 patch iptc,sj,dgj,dgi,id: 10 14729 130 130 1104 half line dmj dgc: 1 14553 252 114 Actual deskew ireclen: 20480 ** 10 1104 1 22080 Writing data negflag .eq. 0 sj>s1: 14729 13625 Zeroing lines in arrays Total # of output lines = 10 14728 Processing block number 11 14729 15134 -3 408 patch iptc,sj,dgj,dgi,id: 11 15134 127 130 408 half line dmj dgc: 0 16065 256 114 Actual deskew ireclen: 20480 ** 11 1104 0 23184 Writing data negflag .eq. 0 sj>s1: 15134 14729 Zeroing lines in arrays Total # of output lines = 11 15133 15134 16238 0 1104 patch iptc,sj,dgj,dgi,id: 11 16238 127 127 1104 half line dmj dgc: 1 16065 256 114 Actual deskew ireclen: 20480 ** 11 1104 1 24288 Writing data negflag .eq. 0 sj>s1: 16238 15134 Zeroing lines in arrays Total # of output lines = 11 16237 Processing block number 12 16238 16609 -37 408 patch iptc,sj,dgj,dgi,id: 12 225 90 127 408 half line dmj dgc: 0 17577 252 114 Actual deskew ireclen: 20480 ** 12 1104 0 25392 Writing data negflag .eq. 0 s1>sj: 16238 225 Zeroing lines in arrays Total # of output lines = 12 16608 225 1329 0 1104 patch iptc,sj,dgj,dgi,id: 12 1329 90 90 1104 half line dmj dgc: 1 17577 252 114 Actual deskew ireclen: 20480 ** 12 1104 1 26496 Writing data negflag .eq. 0 sj>s1: 1329 225 Zeroing lines in arrays Total # of output lines = 12 17712 Processing block number 13 1329 1713 -24 408 patch iptc,sj,dgj,dgi,id: 13 1713 66 90 408 half line dmj dgc: 0 19089 251 114 Actual deskew ireclen: 20480 ** 13 1104 0 27600 Writing data negflag .eq. 0 sj>s1: 1713 1329 Zeroing lines in arrays Total # of output lines = 13 18096 1713 2817 0 1104 patch iptc,sj,dgj,dgi,id: 13 2817 66 66 1104 half line dmj dgc: 1 19089 251 114 Actual deskew ireclen: 20480 ** 13 1104 1 28704 Writing data negflag .eq. 0 sj>s1: 2817 1713 Zeroing lines in arrays Total # of output lines = 13 19200 Processing block number 14 2817 3172 -53 408 patch iptc,sj,dgj,dgi,id: 14 3172 13 66 408 half line dmj dgc: 0 20601 241 114 Actual deskew ireclen: 20480 ** 14 1104 0 29808 Writing data negflag .eq. 0 sj>s1: 3172 2817 Zeroing lines in arrays Total # of output lines = 14 19555 3172 4276 0 1104 patch iptc,sj,dgj,dgi,id: 14 4276 13 13 1104 half line dmj dgc: 1 20601 241 114 Actual deskew ireclen: 20480 ** 14 1104 1 30912 Writing data negflag .eq. 0 sj>s1: 4276 3172 Zeroing lines in arrays Total # of output lines = 14 20659 Processing block number 15 4276 4659 -25 408 patch iptc,sj,dgj,dgi,id: 15 4659 -12 13 408 half line dmj dgc: 0 22113 233 114 Actual deskew ireclen: 20480 ** 15 1104 0 32016 Writing data negflag .eq. 0 sj>s1: 4659 4276 Zeroing lines in arrays Total # of output lines = 15 21042 4659 5763 0 1104 patch iptc,sj,dgj,dgi,id: 15 5763 -12 -12 1104 half line dmj dgc: 1 22113 233 114 Actual deskew ireclen: 20480 ** 15 1104 1 33120 Writing data negflag .eq. 0 sj>s1: 5763 4659 Zeroing lines in arrays Total # of output lines = 15 22146 Processing block number 16 5763 6176 5 408 patch iptc,sj,dgj,dgi,id: 16 6176 -7 -12 408 half line dmj dgc: 0 23625 232 114 Actual deskew ireclen: 20480 ** 16 1104 0 34224 Writing data negflag .eq. 0 sj>s1: 6176 5763 Zeroing lines in arrays Total # of output lines = 16 22559 6176 7280 0 1104 patch iptc,sj,dgj,dgi,id: 16 7280 -7 -7 1104 half line dmj dgc: 1 23625 232 114 Actual deskew ireclen: 20480 ** 16 1104 1 35328 Writing data negflag .eq. 0 sj>s1: 7280 6176 Zeroing lines in arrays Total # of output lines = 16 23663 Processing block number 17 7280 7714 26 408 patch iptc,sj,dgj,dgi,id: 17 7714 19 -7 408 half line dmj dgc: 0 25137 240 114 Actual deskew ireclen: 20480 ** 17 1104 0 36432 Writing data negflag .eq. 0 sj>s1: 7714 7280 Zeroing lines in arrays Total # of output lines = 17 24097 7714 8818 0 1104 patch iptc,sj,dgj,dgi,id: 17 8818 19 19 1104 half line dmj dgc: 1 25137 240 114 Actual deskew ireclen: 20480 ** 17 1104 1 37536 Writing data negflag .eq. 0 sj>s1: 8818 7714 Zeroing lines in arrays Total # of output lines = 17 25201 Processing block number 18 8818 9252 26 408 patch iptc,sj,dgj,dgi,id: 18 9252 45 19 408 half line dmj dgc: 0 26649 250 114 Actual deskew ireclen: 20480 ** 18 1104 0 38640 Writing data negflag .eq. 0 sj>s1: 9252 8818 Zeroing lines in arrays Total # of output lines = 18 25635 9252 10356 0 1104 patch iptc,sj,dgj,dgi,id: 18 10356 45 45 1104 half line dmj dgc: 1 26649 250 114 Actual deskew ireclen: 20480 ** 18 1104 1 39744 Writing data negflag .eq. 0 sj>s1: 10356 9252 Zeroing lines in arrays Total # of output lines = 18 26739 Processing block number 19 10356 10776 12 408 patch iptc,sj,dgj,dgi,id: 19 10776 57 45 408 half line dmj dgc: 0 28161 255 114 Actual deskew ireclen: 20480 ** 19 1104 0 40848 Writing data negflag .eq. 0 sj>s1: 10776 10356 Zeroing lines in arrays Total # of output lines = 19 27159 10776 11880 0 1104 patch iptc,sj,dgj,dgi,id: 19 11880 57 57 1104 half line dmj dgc: 1 28161 255 114 Actual deskew ireclen: 20480 ** 19 1104 1 41952 Writing data negflag .eq. 0 sj>s1: 11880 10776 Zeroing lines in arrays Total # of output lines = 19 28263 Processing block number 20 11880 12295 7 408 patch iptc,sj,dgj,dgi,id: 20 12295 64 57 408 half line dmj dgc: 0 29673 258 114 Actual deskew ireclen: 20480 ** 20 1104 0 43056 Writing data negflag .eq. 0 sj>s1: 12295 11880 Zeroing lines in arrays Total # of output lines = 20 28678 12295 13399 0 1104 patch iptc,sj,dgj,dgi,id: 20 13399 64 64 1104 half line dmj dgc: 1 29673 258 114 Actual deskew ireclen: 20480 ** 20 1104 1 44160 Writing data negflag .eq. 0 sj>s1: 13399 12295 Zeroing lines in arrays Total # of output lines = 20 29782 Processing block number 21 13399 13808 1 408 patch iptc,sj,dgj,dgi,id: 21 13808 65 64 408 half line dmj dgc: 0 31185 255 114 Actual deskew ireclen: 20480 ** 21 1104 0 45264 Writing data negflag .eq. 0 sj>s1: 13808 13399 Zeroing lines in arrays Total # of output lines = 21 30191 13808 14912 0 1104 patch iptc,sj,dgj,dgi,id: 21 14912 65 65 1104 half line dmj dgc: 1 31185 255 114 Actual deskew ireclen: 20480 ** 21 1104 1 46368 Writing data negflag .eq. 0 sj>s1: 14912 13808 Zeroing lines in arrays Total # of output lines = 21 31295 Processing block number 22 14912 15332 12 408 patch iptc,sj,dgj,dgi,id: 22 15332 77 65 408 half line dmj dgc: 0 32697 256 114 Actual deskew ireclen: 20480 ** 22 1104 0 47472 Writing data negflag .eq. 0 sj>s1: 15332 14912 Zeroing lines in arrays Total # of output lines = 22 31715 15332 16436 0 1104 patch iptc,sj,dgj,dgi,id: 22 52 77 77 1104 half line dmj dgc: 1 32697 256 114 Actual deskew ireclen: 20480 ** 22 1104 1 48576 Writing data negflag .eq. 0 s1>sj: 15332 52 Zeroing lines in arrays Total # of output lines = 22 32819 Processing block number 23 52 448 -12 408 patch iptc,sj,dgj,dgi,id: 23 448 65 77 408 half line dmj dgc: 0 34209 250 114 Actual deskew ireclen: 20480 ** 23 1104 0 49680 Writing data negflag .eq. 0 sj>s1: 448 52 Zeroing lines in arrays Total # of output lines = 23 33215 448 1552 0 1104 patch iptc,sj,dgj,dgi,id: 23 1552 65 65 1104 half line dmj dgc: 1 34209 250 114 Actual deskew ireclen: 20480 ** 23 1104 1 50784 Writing data negflag .eq. 0 sj>s1: 1552 448 Zeroing lines in arrays Total # of output lines = 23 34319 Processing block number 24 1552 1983 23 408 patch iptc,sj,dgj,dgi,id: 24 1983 88 65 408 half line dmj dgc: 0 35721 254 114 Actual deskew ireclen: 20480 ** 24 1104 0 51888 Writing data negflag .eq. 0 sj>s1: 1983 1552 Zeroing lines in arrays Total # of output lines = 24 34750 1983 3087 0 1104 patch iptc,sj,dgj,dgi,id: 24 3087 88 88 1104 half line dmj dgc: 1 35721 254 114 Actual deskew ireclen: 20480 ** 24 1104 1 52992 Writing data negflag .eq. 0 sj>s1: 3087 1983 Zeroing lines in arrays Total # of output lines = 24 35854 Processing block number 25 3087 3513 18 408 patch iptc,sj,dgj,dgi,id: 25 3513 106 88 408 half line dmj dgc: 0 37233 257 114 Actual deskew ireclen: 20480 ** 25 1104 0 54096 Writing data negflag .eq. 0 sj>s1: 3513 3087 Zeroing lines in arrays Total # of output lines = 25 36280 3513 4617 0 1104 patch iptc,sj,dgj,dgi,id: 25 4617 106 106 1104 half line dmj dgc: 1 37233 257 114 Actual deskew ireclen: 20480 ** 25 1104 1 55200 Writing data negflag .eq. 0 sj>s1: 4617 3513 Zeroing lines in arrays Total # of output lines = 25 37384 Processing block number 26 4617 5062 37 408 patch iptc,sj,dgj,dgi,id: 26 5062 143 106 408 half line dmj dgc: 0 38745 266 114 Actual deskew ireclen: 20480 ** 26 1104 0 56304 Writing data negflag .eq. 0 sj>s1: 5062 4617 Zeroing lines in arrays Total # of output lines = 26 37829 5062 6166 0 1104 patch iptc,sj,dgj,dgi,id: 26 6166 143 143 1104 half line dmj dgc: 1 38745 266 114 Actual deskew ireclen: 20480 ** 26 1104 1 57408 Writing data negflag .eq. 0 sj>s1: 6166 5062 Zeroing lines in arrays Total # of output lines = 26 38933 Processing block number 27 6166 6583 9 408 patch iptc,sj,dgj,dgi,id: 27 6583 152 143 408 half line dmj dgc: 0 40257 267 114 Actual deskew ireclen: 20480 ** 27 1104 0 58512 Writing data negflag .eq. 0 sj>s1: 6583 6166 Zeroing lines in arrays Total # of output lines = 27 39350 6583 7687 0 1104 patch iptc,sj,dgj,dgi,id: 27 7687 152 152 1104 half line dmj dgc: 1 40257 267 114 Actual deskew ireclen: 20480 ** 27 1104 1 59616 Writing data negflag .eq. 0 sj>s1: 7687 6583 Zeroing lines in arrays Total # of output lines = 27 40454 Processing block number 28 7687 8091 -4 408 patch iptc,sj,dgj,dgi,id: 28 8091 148 152 408 half line dmj dgc: 0 41769 272 114 Actual deskew ireclen: 20480 ** 28 1104 0 60720 Writing data negflag .eq. 0 sj>s1: 8091 7687 Zeroing lines in arrays Total # of output lines = 28 40858 8091 9195 0 1104 patch iptc,sj,dgj,dgi,id: 28 9195 148 148 1104 half line dmj dgc: 1 41769 272 114 Actual deskew ireclen: 20480 ** 28 1104 1 61824 Writing data negflag .eq. 0 sj>s1: 9195 8091 Zeroing lines in arrays Total # of output lines = 28 41962 Processing block number 29 9195 9583 -20 408 patch iptc,sj,dgj,dgi,id: 29 9583 128 148 408 half line dmj dgc: 0 43281 271 114 Actual deskew ireclen: 20480 ** 29 1104 0 62928 Writing data negflag .eq. 0 sj>s1: 9583 9195 Zeroing lines in arrays Total # of output lines = 29 42350 9583 10687 0 1104 patch iptc,sj,dgj,dgi,id: 29 10687 128 128 1104 half line dmj dgc: 1 43281 271 114 Actual deskew ireclen: 20480 ** 29 1104 1 64032 Writing data negflag .eq. 0 sj>s1: 10687 9583 Zeroing lines in arrays Total # of output lines = 29 43454 Processing block number 30 10687 11107 12 408 patch iptc,sj,dgj,dgi,id: 30 11107 140 128 408 half line dmj dgc: 0 44793 277 114 Actual deskew ireclen: 20480 ** 30 1104 0 65136 Writing data negflag .eq. 0 sj>s1: 11107 10687 Zeroing lines in arrays Total # of output lines = 30 43874 11107 12211 0 1104 patch iptc,sj,dgj,dgi,id: 30 12211 140 140 1104 half line dmj dgc: 1 44793 277 114 Actual deskew ireclen: 20480 ** 30 1104 1 66240 Writing data negflag .eq. 0 sj>s1: 12211 11107 Zeroing lines in arrays Total # of output lines = 30 44978 Processing block number 31 12211 12634 15 408 patch iptc,sj,dgj,dgi,id: 31 12634 155 140 408 half line dmj dgc: 0 46305 278 114 Actual deskew ireclen: 20480 ** 31 1104 0 67344 Writing data negflag .eq. 0 sj>s1: 12634 12211 Zeroing lines in arrays Total # of output lines = 31 45401 12634 13738 0 1104 patch iptc,sj,dgj,dgi,id: 31 13738 155 155 1104 half line dmj dgc: 1 46305 278 114 Actual deskew ireclen: 20480 ** 31 1104 1 68448 Writing data negflag .eq. 0 sj>s1: 13738 12634 Zeroing lines in arrays Total # of output lines = 31 46505 Processing block number 32 13738 14160 14 408 patch iptc,sj,dgj,dgi,id: 32 14160 169 155 408 half line dmj dgc: 0 47817 283 114 Actual deskew ireclen: 20480 ** 32 1104 0 69552 Writing data negflag .eq. 0 sj>s1: 14160 13738 Zeroing lines in arrays Total # of output lines = 32 46927 14160 15264 0 1104 patch iptc,sj,dgj,dgi,id: 32 15264 169 169 1104 half line dmj dgc: 1 47817 283 114 Actual deskew ireclen: 20480 ** 32 1104 1 70656 Writing data negflag .eq. 0 sj>s1: 15264 14160 Zeroing lines in arrays Total # of output lines = 32 48031 Processing block number 33 15264 15700 28 408 patch iptc,sj,dgj,dgi,id: 33 15700 197 169 408 half line dmj dgc: 0 49329 287 114 Actual deskew ireclen: 20480 ** 33 1104 0 71760 Writing data negflag .eq. 0 sj>s1: 15700 15264 Zeroing lines in arrays Total # of output lines = 33 48467 15700 16804 0 1104 patch iptc,sj,dgj,dgi,id: 33 420 197 197 1104 half line dmj dgc: 1 49329 287 114 Actual deskew ireclen: 20480 ** 33 1104 1 72864 Writing data negflag .eq. 0 s1>sj: 15700 420 Zeroing lines in arrays Total # of output lines = 33 49571 Processing block number 34 420 866 38 408 patch iptc,sj,dgj,dgi,id: 34 866 235 197 408 half line dmj dgc: 0 50841 296 114 Actual deskew ireclen: 20480 ** 34 1104 0 73968 Writing data negflag .eq. 0 sj>s1: 866 420 Zeroing lines in arrays Total # of output lines = 34 50017 866 1970 0 1104 patch iptc,sj,dgj,dgi,id: 34 1970 235 235 1104 half line dmj dgc: 1 50841 296 114 Actual deskew ireclen: 20480 ** 34 1104 1 75072 Writing data negflag .eq. 0 sj>s1: 1970 866 Zeroing lines in arrays Total # of output lines = 34 51121 Processing block number 35 1970 2371 -7 408 patch iptc,sj,dgj,dgi,id: 35 2371 228 235 408 half line dmj dgc: 0 52353 293 114 Actual deskew ireclen: 20480 ** 35 1104 0 76176 Writing data negflag .eq. 0 sj>s1: 2371 1970 Zeroing lines in arrays Total # of output lines = 35 51522 2371 3475 0 1104 patch iptc,sj,dgj,dgi,id: 35 3475 228 228 1104 half line dmj dgc: 1 52353 293 114 Actual deskew ireclen: 20480 ** 35 1104 1 77280 Writing data negflag .eq. 0 sj>s1: 3475 2371 Zeroing lines in arrays Total # of output lines = 35 52626 Processing block number 36 3475 3849 -34 408 patch iptc,sj,dgj,dgi,id: 36 3849 194 228 408 half line dmj dgc: 0 53865 284 114 Actual deskew ireclen: 20480 ** 36 1104 0 78384 Writing data negflag .eq. 0 sj>s1: 3849 3475 Zeroing lines in arrays Total # of output lines = 36 53000 3849 4953 0 1104 patch iptc,sj,dgj,dgi,id: 36 4953 194 194 1104 half line dmj dgc: 1 53865 284 114 Actual deskew ireclen: 20480 ** 36 1104 1 79488 Writing data negflag .eq. 0 sj>s1: 4953 3849 Zeroing lines in arrays Total # of output lines = 36 54104 Processing block number 37 4953 5340 -21 408 patch iptc,sj,dgj,dgi,id: 37 5340 173 194 408 half line dmj dgc: 0 55377 270 114 Actual deskew ireclen: 20480 ** 37 1104 0 80592 Writing data negflag .eq. 0 sj>s1: 5340 4953 Zeroing lines in arrays Total # of output lines = 37 54491 5340 6444 0 1104 patch iptc,sj,dgj,dgi,id: 37 6444 173 173 1104 half line dmj dgc: 1 55377 270 114 Actual deskew ireclen: 20480 ** 37 1104 1 81696 Writing data negflag .eq. 0 sj>s1: 6444 5340 Zeroing lines in arrays Total # of output lines = 37 55595 Processing block number 38 6444 6882 30 408 patch iptc,sj,dgj,dgi,id: 38 6882 203 173 408 half line dmj dgc: 0 56889 268 114 Actual deskew ireclen: 20480 ** 38 1104 0 82800 Writing data negflag .eq. 0 sj>s1: 6882 6444 Zeroing lines in arrays Total # of output lines = 38 56033 6882 7986 0 1104 patch iptc,sj,dgj,dgi,id: 38 7986 203 203 1104 half line dmj dgc: 1 56889 268 114 Actual deskew ireclen: 20480 ** 38 1104 1 83904 Writing data negflag .eq. 0 sj>s1: 7986 6882 Zeroing lines in arrays Total # of output lines = 38 57137 Processing block number 39 7986 8413 19 408 patch iptc,sj,dgj,dgi,id: 39 8413 222 203 408 half line dmj dgc: 0 58401 266 114 Actual deskew ireclen: 20480 ** 39 1104 0 85008 Writing data negflag .eq. 0 sj>s1: 8413 7986 Zeroing lines in arrays Total # of output lines = 39 57564 8413 9517 0 1104 patch iptc,sj,dgj,dgi,id: 39 9517 222 222 1104 half line dmj dgc: 1 58401 266 114 Actual deskew ireclen: 20480 ** 39 1104 1 86112 Writing data negflag .eq. 0 sj>s1: 9517 8413 Zeroing lines in arrays Total # of output lines = 39 58668 Processing block number 40 9517 9958 33 408 patch iptc,sj,dgj,dgi,id: 40 9958 255 222 408 half line dmj dgc: 0 59913 275 114 Actual deskew ireclen: 20480 ** 40 1104 0 87216 Writing data negflag .eq. 0 sj>s1: 9958 9517 Zeroing lines in arrays Total # of output lines = 40 59109 9958 11062 0 1104 patch iptc,sj,dgj,dgi,id: 40 11062 255 255 1104 half line dmj dgc: 1 59913 275 114 Actual deskew ireclen: 20480 ** 40 1104 1 88320 Writing data negflag .eq. 0 sj>s1: 11062 9958 Zeroing lines in arrays Total # of output lines = 40 60213 Processing block number 41 11062 11506 36 408 patch iptc,sj,dgj,dgi,id: 41 11506 291 255 408 half line dmj dgc: 0 61425 292 114 Actual deskew ireclen: 20480 ** 41 1104 0 89424 Writing data negflag .eq. 0 sj>s1: 11506 11062 Zeroing lines in arrays Total # of output lines = 41 60657 11506 12610 0 1104 patch iptc,sj,dgj,dgi,id: 41 12610 291 291 1104 half line dmj dgc: 1 61425 292 114 Actual deskew ireclen: 20480 ** 41 1104 1 90528 Writing data negflag .eq. 0 sj>s1: 12610 11506 Zeroing lines in arrays Total # of output lines = 41 61761 Processing block number 42 12610 13035 17 408 patch iptc,sj,dgj,dgi,id: 42 13035 308 291 408 half line dmj dgc: 0 62937 327 114 Actual deskew ireclen: 20480 ** 42 1104 0 91632 Writing data negflag .eq. 0 sj>s1: 13035 12610 Zeroing lines in arrays Total # of output lines = 42 62186 13035 14139 0 1104 patch iptc,sj,dgj,dgi,id: 42 14139 308 308 1104 half line dmj dgc: 1 62937 327 114 Actual deskew ireclen: 20480 ** 42 1104 1 92736 Writing data negflag .eq. 0 sj>s1: 14139 13035 Zeroing lines in arrays Total # of output lines = 42 63290 Processing block number 43 14139 14553 6 408 patch iptc,sj,dgj,dgi,id: 43 14553 314 308 408 half line dmj dgc: 0 64449 335 114 Actual deskew ireclen: 20480 ** 43 1104 0 93840 Writing data negflag .eq. 0 sj>s1: 14553 14139 Zeroing lines in arrays Total # of output lines = 43 63704 14553 15657 0 1104 patch iptc,sj,dgj,dgi,id: 43 15657 314 314 1104 half line dmj dgc: 1 64449 335 114 Actual deskew ireclen: 20480 ** 43 1104 1 94944 Writing data negflag .eq. 0 sj>s1: 15657 14553 Zeroing lines in arrays Total # of output lines = 43 64808 Processing block number 44 15657 16047 -18 408 patch iptc,sj,dgj,dgi,id: 44 16047 296 314 408 half line dmj dgc: 0 65961 298 114 Actual deskew ireclen: 20480 ** 44 1104 0 96048 Writing data negflag .eq. 0 sj>s1: 16047 15657 Zeroing lines in arrays Total # of output lines = 44 65198 16047 17151 0 1104 patch iptc,sj,dgj,dgi,id: 44 767 296 296 1104 half line dmj dgc: 1 65961 298 114 Actual deskew ireclen: 20480 ** 44 1104 1 97152 Writing data negflag .eq. 0 s1>sj: 16047 767 Zeroing lines in arrays Total # of output lines = 44 66302 Processing block number 45 767 1136 -39 408 patch iptc,sj,dgj,dgi,id: 45 1136 257 296 408 half line dmj dgc: 0 67473 279 114 Actual deskew ireclen: 20480 ** 45 1104 0 98256 Writing data negflag .eq. 0 sj>s1: 1136 767 Zeroing lines in arrays Total # of output lines = 45 66671 1136 2240 0 1104 patch iptc,sj,dgj,dgi,id: 45 2240 257 257 1104 half line dmj dgc: 1 67473 279 114 Actual deskew ireclen: 20480 ** 45 1104 1 99360 Writing data negflag .eq. 0 sj>s1: 2240 1136 Zeroing lines in arrays Total # of output lines = 45 67775 Processing block number 46 2240 2606 -42 408 patch iptc,sj,dgj,dgi,id: 46 2606 215 257 408 half line dmj dgc: 0 68985 262 114 Actual deskew ireclen: 20480 ** 46 1104 0 100464 Writing data negflag .eq. 0 sj>s1: 2606 2240 Zeroing lines in arrays Total # of output lines = 46 68141 2606 3710 0 1104 patch iptc,sj,dgj,dgi,id: 46 3710 215 215 1104 half line dmj dgc: 1 68985 262 114 Actual deskew ireclen: 20480 ** 46 1104 1 101568 Writing data negflag .eq. 0 sj>s1: 3710 2606 Zeroing lines in arrays Total # of output lines = 46 69245 Processing block number 47 3710 4142 24 408 patch iptc,sj,dgj,dgi,id: 47 4142 239 215 408 half line dmj dgc: 0 70497 268 114 Actual deskew ireclen: 20480 ** 47 1104 0 102672 Writing data negflag .eq. 0 sj>s1: 4142 3710 Zeroing lines in arrays Total # of output lines = 47 69677 4142 5246 0 1104 patch iptc,sj,dgj,dgi,id: 47 5246 239 239 1104 half line dmj dgc: 1 70497 268 114 Actual deskew ireclen: 20480 ** 47 1104 1 103776 Writing data negflag .eq. 0 sj>s1: 5246 4142 Zeroing lines in arrays Total # of output lines = 47 70781 Processing block number 48 5246 5692 38 408 patch iptc,sj,dgj,dgi,id: 48 5692 277 239 408 half line dmj dgc: 0 72009 283 114 Actual deskew ireclen: 20480 ** 48 1104 0 104880 Writing data negflag .eq. 0 sj>s1: 5692 5246 Zeroing lines in arrays Total # of output lines = 48 71227 5692 6796 0 1104 patch iptc,sj,dgj,dgi,id: 48 6796 277 277 1104 half line dmj dgc: 1 72009 283 114 Actual deskew ireclen: 20480 ** 48 1104 1 105984 Writing data negflag .eq. 0 sj>s1: 6796 5692 Zeroing lines in arrays Total # of output lines = 48 72331 Processing block number 49 6796 7231 27 408 patch iptc,sj,dgj,dgi,id: 49 7231 304 277 408 half line dmj dgc: 0 73521 331 114 Actual deskew ireclen: 20480 ** 49 1104 0 107088 Writing data negflag .eq. 0 sj>s1: 7231 6796 Zeroing lines in arrays Total # of output lines = 49 72766 7231 8335 0 1104 patch iptc,sj,dgj,dgi,id: 49 8335 304 304 1104 half line dmj dgc: 1 73521 331 114 Actual deskew ireclen: 20480 ** 49 1104 1 108192 Writing data negflag .eq. 0 sj>s1: 8335 7231 Zeroing lines in arrays Total # of output lines = 49 73870 Processing block number 50 8335 8758 15 408 patch iptc,sj,dgj,dgi,id: 50 8758 319 304 408 half line dmj dgc: 0 75033 355 114 Actual deskew ireclen: 20480 ** 50 1104 0 109296 Writing data negflag .eq. 0 sj>s1: 8758 8335 Zeroing lines in arrays Total # of output lines = 50 74293 8758 9862 0 1104 patch iptc,sj,dgj,dgi,id: 50 9862 319 319 1104 half line dmj dgc: 1 75033 355 114 Actual deskew ireclen: 20480 ** 50 1104 1 110400 Writing data negflag .eq. 0 sj>s1: 9862 8758 Zeroing lines in arrays Total # of output lines = 50 75397 Processing block number 51 9862 10278 8 408 patch iptc,sj,dgj,dgi,id: 51 10278 327 319 408 half line dmj dgc: 0 76545 360 114 Actual deskew ireclen: 20480 ** 51 1104 0 111504 Writing data negflag .eq. 0 sj>s1: 10278 9862 Zeroing lines in arrays Total # of output lines = 51 75813 10278 11382 0 1104 patch iptc,sj,dgj,dgi,id: 51 11382 327 327 1104 half line dmj dgc: 1 76545 360 114 Actual deskew ireclen: 20480 ** 51 1104 1 112608 Writing data negflag .eq. 0 sj>s1: 11382 10278 Zeroing lines in arrays Total # of output lines = 51 76917 Processing block number 52 11382 11782 -8 408 patch iptc,sj,dgj,dgi,id: 52 11782 319 327 408 half line dmj dgc: 0 78057 322 114 Actual deskew ireclen: 20480 ** 52 1104 0 113712 Writing data negflag .eq. 0 sj>s1: 11782 11382 Zeroing lines in arrays Total # of output lines = 52 77317 11782 12886 0 1104 patch iptc,sj,dgj,dgi,id: 52 12886 319 319 1104 half line dmj dgc: 1 78057 322 114 Actual deskew ireclen: 20480 ** 52 1104 1 114816 Writing data negflag .eq. 0 sj>s1: 12886 11782 Zeroing lines in arrays Total # of output lines = 52 78421 Processing block number 53 12886 13256 -38 408 patch iptc,sj,dgj,dgi,id: 53 13256 281 319 408 half line dmj dgc: 0 79569 313 114 Actual deskew ireclen: 20480 ** 53 1104 0 115920 Writing data negflag .eq. 0 sj>s1: 13256 12886 Zeroing lines in arrays Total # of output lines = 53 78791 13256 14360 0 1104 patch iptc,sj,dgj,dgi,id: 53 14360 281 281 1104 half line dmj dgc: 1 79569 313 114 Actual deskew ireclen: 20480 ** 53 1104 1 117024 Writing data negflag .eq. 0 sj>s1: 14360 13256 Zeroing lines in arrays Total # of output lines = 53 79895 Processing block number 54 14360 14741 -27 408 patch iptc,sj,dgj,dgi,id: 54 14741 254 281 408 half line dmj dgc: 0 81081 302 114 Actual deskew ireclen: 20480 ** 54 1104 0 118128 Writing data negflag .eq. 0 sj>s1: 14741 14360 Zeroing lines in arrays Total # of output lines = 54 80276 14741 15845 0 1104 patch iptc,sj,dgj,dgi,id: 54 15845 254 254 1104 half line dmj dgc: 1 81081 302 114 Actual deskew ireclen: 20480 ** 54 1104 1 119232 Writing data negflag .eq. 0 sj>s1: 15845 14741 Zeroing lines in arrays Total # of output lines = 54 81380 Processing block number 55 15845 16213 -40 408 patch iptc,sj,dgj,dgi,id: 55 16213 214 254 408 half line dmj dgc: 0 82593 284 114 Actual deskew ireclen: 20480 ** 55 1104 0 120336 Writing data negflag .eq. 0 sj>s1: 16213 15845 Zeroing lines in arrays Total # of output lines = 55 81748 16213 17317 0 1104 patch iptc,sj,dgj,dgi,id: 55 933 214 214 1104 half line dmj dgc: 1 82593 284 114 Actual deskew ireclen: 20480 ** 55 1104 1 121440 Writing data negflag .eq. 0 s1>sj: 16213 933 Zeroing lines in arrays Total # of output lines = 55 82852 Processing block number 56 933 1310 -31 408 patch iptc,sj,dgj,dgi,id: 56 1310 183 214 408 half line dmj dgc: 0 84105 268 114 Actual deskew ireclen: 20480 ** 56 1104 0 122544 Writing data negflag .eq. 0 sj>s1: 1310 933 Zeroing lines in arrays Total # of output lines = 56 83229 1310 2414 0 1104 patch iptc,sj,dgj,dgi,id: 56 2414 183 183 1104 half line dmj dgc: 1 84105 268 114 Actual deskew ireclen: 20480 ** 56 1104 1 123648 Writing data negflag .eq. 0 sj>s1: 2414 1310 Zeroing lines in arrays Total # of output lines = 56 84333 Processing block number 57 2414 2829 7 408 patch iptc,sj,dgj,dgi,id: 57 2829 190 183 408 half line dmj dgc: 0 85617 268 114 Actual deskew ireclen: 20480 ** 57 1104 0 124752 Writing data negflag .eq. 0 sj>s1: 2829 2414 Zeroing lines in arrays Total # of output lines = 57 84748 2829 3933 0 1104 patch iptc,sj,dgj,dgi,id: 57 3933 190 190 1104 half line dmj dgc: 1 85617 268 114 Actual deskew ireclen: 20480 ** 57 1104 1 125856 Writing data negflag .eq. 0 sj>s1: 3933 2829 Zeroing lines in arrays Total # of output lines = 57 85852 Processing block number 58 3933 4373 32 408 patch iptc,sj,dgj,dgi,id: 58 4373 222 190 408 half line dmj dgc: 0 87129 280 114 Actual deskew ireclen: 20480 ** 58 1104 0 126960 Writing data negflag .eq. 0 sj>s1: 4373 3933 Zeroing lines in arrays Total # of output lines = 58 86292 4373 5477 0 1104 patch iptc,sj,dgj,dgi,id: 58 5477 222 222 1104 half line dmj dgc: 1 87129 280 114 Actual deskew ireclen: 20480 ** 58 1104 1 128064 Writing data negflag .eq. 0 sj>s1: 5477 4373 Zeroing lines in arrays Total # of output lines = 58 87396 Processing block number 59 5477 5912 27 408 patch iptc,sj,dgj,dgi,id: 59 5912 249 222 408 half line dmj dgc: 0 88641 291 114 Actual deskew ireclen: 20480 ** 59 1104 0 129168 Writing data negflag .eq. 0 sj>s1: 5912 5477 Zeroing lines in arrays Total # of output lines = 59 87831 5912 7016 0 1104 patch iptc,sj,dgj,dgi,id: 59 7016 249 249 1104 half line dmj dgc: 1 88641 291 114 Actual deskew ireclen: 20480 ** 59 1104 1 130272 Writing data negflag .eq. 0 sj>s1: 7016 5912 Zeroing lines in arrays Total # of output lines = 59 88935 Processing block number 60 7016 7447 23 408 patch iptc,sj,dgj,dgi,id: 60 7447 272 249 408 half line dmj dgc: 0 90153 301 114 Actual deskew ireclen: 20480 ** 60 1104 0 131376 Writing data negflag .eq. 0 sj>s1: 7447 7016 Zeroing lines in arrays Total # of output lines = 60 89366 7447 8551 0 1104 patch iptc,sj,dgj,dgi,id: 60 8551 272 272 1104 half line dmj dgc: 1 90153 301 114 Actual deskew ireclen: 20480 ** 60 1104 1 132480 Writing data negflag .eq. 0 sj>s1: 8551 7447 Zeroing lines in arrays Total # of output lines = 60 90470 Processing block number 61 8551 8955 -4 408 patch iptc,sj,dgj,dgi,id: 61 8955 268 272 408 half line dmj dgc: 0 91665 302 114 Actual deskew ireclen: 20480 ** 61 1104 0 133584 Writing data negflag .eq. 0 sj>s1: 8955 8551 Zeroing lines in arrays Total # of output lines = 61 90874 8955 10059 0 1104 patch iptc,sj,dgj,dgi,id: 61 10059 268 268 1104 half line dmj dgc: 1 91665 302 114 Actual deskew ireclen: 20480 ** 61 1104 1 134688 Writing data negflag .eq. 0 sj>s1: 10059 8955 Zeroing lines in arrays Total # of output lines = 61 91978 Processing block number 62 10059 10460 -7 408 patch iptc,sj,dgj,dgi,id: 62 10460 261 268 408 half line dmj dgc: 0 93177 303 114 Actual deskew ireclen: 20480 ** 62 1104 0 135792 Writing data negflag .eq. 0 sj>s1: 10460 10059 Zeroing lines in arrays Total # of output lines = 62 92379 10460 11564 0 1104 patch iptc,sj,dgj,dgi,id: 62 11564 261 261 1104 half line dmj dgc: 1 93177 303 114 Actual deskew ireclen: 20480 ** 62 1104 1 136896 Writing data negflag .eq. 0 sj>s1: 11564 10460 Zeroing lines in arrays Total # of output lines = 62 93483 Processing block number 63 11564 11961 -11 408 patch iptc,sj,dgj,dgi,id: 63 11961 250 261 408 half line dmj dgc: 0 94689 307 114 Actual deskew ireclen: 20480 ** 63 1104 0 138000 Writing data negflag .eq. 0 sj>s1: 11961 11564 Zeroing lines in arrays Total # of output lines = 63 93880 11961 13065 0 1104 patch iptc,sj,dgj,dgi,id: 63 13065 250 250 1104 half line dmj dgc: 1 94689 307 114 Actual deskew ireclen: 20480 ** 63 1104 1 139104 Writing data negflag .eq. 0 sj>s1: 13065 11961 Zeroing lines in arrays Total # of output lines = 63 94984 Processing block number 64 13065 13452 -21 408 patch iptc,sj,dgj,dgi,id: 64 13452 229 250 408 half line dmj dgc: 0 96201 310 114 Actual deskew ireclen: 20480 ** 64 1104 0 140208 Writing data negflag .eq. 0 sj>s1: 13452 13065 Zeroing lines in arrays Total # of output lines = 64 95371 13452 14556 0 1104 patch iptc,sj,dgj,dgi,id: 64 14556 229 229 1104 half line dmj dgc: 1 96201 310 114 Actual deskew ireclen: 20480 ** 64 1104 1 141312 Writing data negflag .eq. 0 sj>s1: 14556 13452 Zeroing lines in arrays Total # of output lines = 64 96475 Processing block number 65 14556 14086 -13 -457 patch iptc,sj,dgj,dgi,id: 65 14086 216 229 -457 half line dmj dgc: 0 96848 315 114 Actual deskew ireclen: 20480 ** 65 1104 0 142416 Zeroing lines in arrays Total # of output lines = 65 96475 14556 15190 0 1104 patch iptc,sj,dgj,dgi,id: 65 15190 216 216 1104 half line dmj dgc: 1 96848 315 114 Actual deskew ireclen: 20480 ** 65 1104 1 143520 Writing data negflag .eq. 0 sj>s1: 15190 14556 Zeroing lines in arrays Total # of output lines = 65 97109 ia dmi dgi: 15190 315 216 Writing the last 1203 lines last half sj> At line = 3000 Reading in data.... r_peak,r_snr = 0.8798797 44.04359 146 0.000 3046 0.063 44.04359 0.000086 0.000156 -0.000002 r_peak,r_snr = 0.7517605 44.58575 246 -0.031 3046 0.125 44.58575 0.000223 0.000342 -0.000001 r_peak,r_snr = 0.8154623 96.58914 346 0.000 3046 0.094 96.58914 0.000122 0.000192 0.000002 r_peak,r_snr = 0.8437377 57.09060 446 -0.031 3046 0.094 57.09060 0.000107 0.000183 -0.000005 r_peak,r_snr = 0.8271353 37.05181 546 0.000 3046 0.125 37.05181 0.000134 0.000231 0.000001 r_peak,r_snr = 0.8044544 32.14182 646 -0.063 3046 0.031 32.14182 0.000160 0.000250 -0.000001 r_peak,r_snr = 0.7927277 44.78069 746 -0.063 3046 0.063 44.78069 0.000174 0.000268 -0.000006 r_peak,r_snr = 0.7777731 65.29675 846 -0.031 3046 0.156 65.29675 0.000165 0.000307 -0.000003 r_peak,r_snr = 0.8733354 57.09580 946 -0.031 3046 0.094 57.09580 0.000087 0.000134 0.000000 r_peak,r_snr = 0.8177885 55.37508 1046 0.000 3046 0.094 55.37508 0.000133 0.000208 -0.000003 r_peak,r_snr = 0.8884162 46.40843 1146 0.000 3046 0.031 46.40843 0.000080 0.000129 0.000000 r_peak,r_snr = 0.8901584 115.0431 1246 0.000 3046 0.094 115.04313 0.000060 0.000103 0.000000 r_peak,r_snr = 0.8625261 59.69579 1346 0.000 3046 0.094 59.69579 0.000088 0.000143 -0.000001 r_peak,r_snr = 0.8904890 50.87489 1446 0.000 3046 0.063 50.87489 0.000075 0.000120 -0.000001 r_peak,r_snr = 0.8637412 95.80540 1546 0.000 3046 0.063 95.80540 0.000080 0.000127 0.000001 r_peak,r_snr = 0.8705432 221.6170 1646 0.000 3046 0.063 221.61697 0.000068 0.000094 -0.000001 r_peak,r_snr = 0.8893898 12.19674 1746 0.000 3046 0.063 12.19674 0.000087 0.000142 0.000004 r_peak,r_snr = 0.1373770 37.69221 1846 0.031 3046 0.156 37.69221 0.008223 0.009851 -0.000476 r_peak,r_snr = 0.1849311 46.64463 1946 -0.031 3046 -0.094 46.64463 0.003754 0.008560 -0.000064 r_peak,r_snr = 0.1584001 39.30727 2046 0.125 3046 0.156 39.30727 0.007369 0.011605 0.000934 At line = 3400 Reading in data.... r_peak,r_snr = 0.8207705 113.0813 146 0.000 3446 0.125 113.08131 0.000117 0.000159 -0.000001 r_peak,r_snr = 0.7029195 59.69289 246 0.000 3446 0.094 59.69289 0.000247 0.000383 0.000000 r_peak,r_snr = 0.8555304 107.8154 346 -0.031 3446 0.125 107.81544 0.000085 0.000125 -0.000002 r_peak,r_snr = 0.8320448 72.71384 446 0.000 3446 0.125 72.71384 0.000118 0.000170 0.000002 r_peak,r_snr = 0.7978120 41.73575 546 -0.031 3446 0.125 41.73575 0.000174 0.000269 0.000003 r_peak,r_snr = 0.8040843 100.5415 646 0.000 3446 0.094 100.54147 0.000123 0.000210 -0.000003 r_peak,r_snr = 0.8200482 24.54981 746 0.000 3446 0.031 24.54981 0.000161 0.000288 -0.000007 r_peak,r_snr = 0.8667452 28.52599 846 -0.031 3446 0.125 28.52599 0.000098 0.000157 0.000000 r_peak,r_snr = 0.8411452 46.66147 946 0.031 3446 0.094 46.66147 0.000113 0.000196 -0.000006 r_peak,r_snr = 0.8545710 34.22510 1046 0.000 3446 0.063 34.22510 0.000110 0.000190 0.000002 r_peak,r_snr = 0.8350171 35.40570 1146 0.031 3446 0.094 35.40570 0.000128 0.000236 -0.000001 r_peak,r_snr = 0.8458212 47.21895 1246 0.000 3446 0.094 47.21895 0.000102 0.000172 -0.000005 r_peak,r_snr = 0.8900644 27.20191 1346 0.000 3446 0.063 27.20191 0.000081 0.000136 0.000001 r_peak,r_snr = 0.8618627 72.99754 1446 0.000 3446 0.125 72.99754 0.000086 0.000124 0.000001 r_peak,r_snr = 0.8893670 57.01776 1546 0.000 3446 0.125 57.01776 0.000078 0.000125 0.000002 r_peak,r_snr = 0.8870319 52.02011 1646 0.000 3446 0.125 52.02011 0.000074 0.000109 -0.000001 r_peak,r_snr = 0.9144679 6.721896 1746 0.000 3446 0.063 6.72190 0.000073 0.000104 0.000000 r_peak,r_snr = 0.2108188 44.14325 1846 -0.031 3446 -0.156 44.14325 0.003825 0.006231 0.000011 r_peak,r_snr = 0.1352305 32.07779 1946 -0.063 3446 -0.125 32.07779 0.006209 0.012276 0.001133 r_peak,r_snr = 9.7318992E-02 17.57368 2046 -0.063 3446 0.500 17.57368 0.013357 0.026757 -0.005500 At line = 3800 Reading in data.... r_peak,r_snr = 0.7461767 69.32016 146 -0.031 3846 0.094 69.32016 0.000188 0.000305 -0.000003 r_peak,r_snr = 0.6713536 28.35711 246 -0.031 3846 0.125 28.35711 0.000358 0.000624 -0.000019 r_peak,r_snr = 0.8570728 63.79762 346 0.000 3846 0.094 63.79762 0.000095 0.000156 -0.000002 r_peak,r_snr = 0.8358145 20.24854 446 -0.031 3846 0.125 20.24854 0.000154 0.000225 -0.000007 r_peak,r_snr = 0.7966087 25.41403 546 0.031 3846 0.094 25.41403 0.000183 0.000284 0.000001 r_peak,r_snr = 0.8228990 108.9088 646 0.000 3846 0.125 108.90875 0.000116 0.000185 0.000001 r_peak,r_snr = 0.8643957 33.85310 746 -0.031 3846 0.094 33.85310 0.000106 0.000175 -0.000004 r_peak,r_snr = 0.8525673 44.01854 846 -0.031 3846 0.094 44.01854 0.000109 0.000168 0.000000 r_peak,r_snr = 0.8682756 57.71133 946 0.000 3846 0.094 57.71133 0.000087 0.000152 0.000001 r_peak,r_snr = 0.8599275 32.16322 1046 0.031 3846 0.125 32.16322 0.000109 0.000181 -0.000006 r_peak,r_snr = 0.8835233 67.82920 1146 0.000 3846 0.063 67.82920 0.000080 0.000134 0.000001 r_peak,r_snr = 0.8757355 141.8035 1246 0.000 3846 0.063 141.80351 0.000064 0.000106 0.000000 r_peak,r_snr = 0.8860729 104.5089 1346 0.000 3846 0.094 104.50894 0.000068 0.000109 -0.000001 r_peak,r_snr = 0.8833250 55.31324 1446 -0.031 3846 0.094 55.31324 0.000074 0.000105 -0.000004 r_peak,r_snr = 0.8873796 93.60116 1546 0.031 3846 0.094 93.60116 0.000065 0.000096 -0.000003 r_peak,r_snr = 0.8902007 88.47460 1646 0.031 3846 0.094 88.47460 0.000067 0.000092 0.000000 r_peak,r_snr = 0.9157353 6.974133 1746 0.000 3846 0.094 6.97413 0.000090 0.000127 -0.000003 r_peak,r_snr = 0.1941499 59.86583 1846 0.063 3846 -0.063 59.86583 0.003509 0.004176 0.000297 r_peak,r_snr = 0.1049866 18.85031 1946 0.156 3846 0.156 18.85031 0.017044 0.011137 -0.001513 r_peak,r_snr = 0.1045881 16.65778 2046 0.281 3846 0.188 16.65778 0.014687 0.024459 0.000711 At line = 4200 Reading in data.... r_peak,r_snr = 0.7379113 35.24437 146 0.000 4246 0.063 35.24437 0.000243 0.000413 0.000006 r_peak,r_snr = 0.7581033 70.64443 246 0.000 4246 0.031 70.64443 0.000188 0.000303 -0.000004 r_peak,r_snr = 0.8525561 29.76137 346 0.000 4246 0.125 29.76137 0.000116 0.000186 -0.000002 r_peak,r_snr = 0.8523022 40.97577 446 0.000 4246 0.125 40.97577 0.000118 0.000160 -0.000004 r_peak,r_snr = 0.8657822 81.90892 546 -0.031 4246 0.094 81.90892 0.000083 0.000121 -0.000002 r_peak,r_snr = 0.8342775 53.28164 646 -0.031 4246 0.063 53.28164 0.000109 0.000186 0.000002 r_peak,r_snr = 0.8636383 60.91920 746 0.000 4246 0.031 60.91920 0.000092 0.000150 0.000001 r_peak,r_snr = 0.8581441 62.50399 846 0.000 4246 0.063 62.50399 0.000097 0.000156 -0.000002 r_peak,r_snr = 0.8274986 24.15421 946 0.031 4246 0.125 24.15421 0.000147 0.000240 0.000000 r_peak,r_snr = 0.8168110 34.04972 1046 0.000 4246 0.094 34.04972 0.000154 0.000257 -0.000007 r_peak,r_snr = 0.8052311 77.10863 1146 -0.031 4246 0.063 77.10863 0.000132 0.000201 -0.000003 r_peak,r_snr = 0.8889285 129.7869 1246 0.000 4246 0.063 129.78694 0.000062 0.000087 -0.000002 r_peak,r_snr = 0.8834543 127.4478 1346 -0.031 4246 0.094 127.44777 0.000068 0.000104 0.000002 r_peak,r_snr = 0.8543446 202.6250 1446 -0.031 4246 0.094 202.62503 0.000080 0.000112 -0.000002 r_peak,r_snr = 0.8864029 199.9438 1546 0.000 4246 0.063 199.94383 0.000057 0.000082 0.000001 r_peak,r_snr = 0.9017676 114.8027 1646 0.000 4246 0.094 114.80268 0.000057 0.000080 0.000000 r_peak,r_snr = 0.9159227 10.54621 1746 0.000 4246 0.031 10.54621 0.000076 0.000113 -0.000004 r_peak,r_snr = 0.1584257 34.21601 1846 -0.156 4246 -0.125 34.21601 0.006345 0.008526 0.000087 r_peak,r_snr = 0.1471314 28.35823 1946 0.063 4246 0.156 28.35823 0.007729 0.016666 -0.000699 r_peak,r_snr = 0.1760124 39.13762 2046 0.000 4246 0.094 39.13762 0.007645 0.009495 -0.001040 At line = 4600 Reading in data.... r_peak,r_snr = 0.7057500 29.87762 146 -0.063 4646 0.063 29.87762 0.000308 0.000434 -0.000007 r_peak,r_snr = 0.7887386 43.37766 246 -0.031 4646 0.094 43.37766 0.000183 0.000265 0.000005 r_peak,r_snr = 0.8077886 63.64195 346 -0.031 4646 0.094 63.64195 0.000136 0.000223 0.000000 r_peak,r_snr = 0.8042803 38.34623 446 -0.031 4646 0.125 38.34623 0.000156 0.000253 -0.000001 r_peak,r_snr = 0.8546153 56.98153 546 0.031 4646 0.094 56.98153 0.000101 0.000153 -0.000001 r_peak,r_snr = 0.8469207 86.01019 646 0.000 4646 0.125 86.01019 0.000094 0.000147 0.000002 r_peak,r_snr = 0.8415411 58.61577 746 0.000 4646 0.156 58.61577 0.000107 0.000170 -0.000001 r_peak,r_snr = 0.8647183 35.20854 846 0.031 4646 0.125 35.20854 0.000108 0.000172 -0.000003 r_peak,r_snr = 0.8457922 77.72433 946 0.000 4646 0.094 77.72433 0.000100 0.000153 -0.000001 r_peak,r_snr = 0.8256261 42.42459 1046 0.000 4646 0.125 42.42459 0.000136 0.000226 -0.000003 r_peak,r_snr = 0.8774630 68.81806 1146 0.000 4646 0.094 68.81806 0.000078 0.000137 -0.000004 r_peak,r_snr = 0.8838052 63.65149 1246 0.000 4646 0.125 63.65149 0.000072 0.000119 0.000000 r_peak,r_snr = 0.8717223 79.70894 1346 0.000 4646 0.125 79.70894 0.000084 0.000141 -0.000004 r_peak,r_snr = 0.9016654 31.44765 1446 0.000 4646 0.094 31.44765 0.000065 0.000102 -0.000001 r_peak,r_snr = 0.8861244 67.33142 1546 0.031 4646 0.031 67.33142 0.000067 0.000104 -0.000001 r_peak,r_snr = 0.8665159 88.80246 1646 0.000 4646 0.094 88.80246 0.000081 0.000126 0.000000 r_peak,r_snr = 0.8858910 6.576866 1746 0.000 4646 0.063 6.57687 0.000126 0.000230 -0.000010 r_peak,r_snr = 0.1881363 31.01637 1846 -0.031 4646 -0.313 31.01637 0.004240 0.008033 -0.001047 r_peak,r_snr = 0.1924908 45.02015 1946 0.063 4646 -0.063 45.02015 0.004690 0.008338 -0.000688 r_peak,r_snr = 0.1651775 44.40548 2046 -0.250 4646 -0.219 44.40548 0.005625 0.007966 -0.000783 At line = 5000 Reading in data.... r_peak,r_snr = 0.7400838 34.40133 146 0.000 5046 0.063 34.40133 0.000251 0.000423 -0.000001 r_peak,r_snr = 0.8060313 74.63421 246 0.000 5046 0.094 74.63421 0.000141 0.000235 -0.000001 r_peak,r_snr = 0.7962669 43.05524 346 -0.031 5046 0.094 43.05524 0.000151 0.000247 -0.000006 r_peak,r_snr = 0.8867339 84.60281 446 0.000 5046 0.094 84.60281 0.000068 0.000111 0.000000 r_peak,r_snr = 0.8711111 69.06232 546 -0.031 5046 0.094 69.06232 0.000081 0.000117 -0.000003 r_peak,r_snr = 0.8197968 62.48569 646 -0.031 5046 0.063 62.48569 0.000128 0.000199 0.000000 r_peak,r_snr = 0.8262907 35.36132 746 -0.031 5046 0.000 35.36132 0.000135 0.000231 -0.000001 r_peak,r_snr = 0.8742680 40.41623 846 0.000 5046 0.063 40.41623 0.000093 0.000127 0.000003 r_peak,r_snr = 0.8462652 47.53173 946 0.000 5046 0.063 47.53173 0.000110 0.000180 -0.000003 r_peak,r_snr = 0.7955051 38.10026 1046 0.000 5046 0.125 38.10026 0.000169 0.000296 0.000003 r_peak,r_snr = 0.8322332 57.50853 1146 0.000 5046 0.125 57.50853 0.000123 0.000193 0.000003 r_peak,r_snr = 0.8884470 104.6860 1246 -0.031 5046 0.063 104.68603 0.000064 0.000099 -0.000002 r_peak,r_snr = 0.8893414 58.31519 1346 0.000 5046 0.063 58.31519 0.000075 0.000126 0.000001 r_peak,r_snr = 0.8741390 25.63102 1446 0.000 5046 0.063 25.63102 0.000091 0.000139 -0.000002 r_peak,r_snr = 0.8848743 196.8719 1546 0.031 5046 0.063 196.87187 0.000062 0.000081 -0.000001 r_peak,r_snr = 0.8977239 164.6454 1646 0.000 5046 0.094 164.64536 0.000058 0.000078 -0.000001 r_peak,r_snr = 0.8920435 9.010692 1746 0.000 5046 0.094 9.01069 0.000103 0.000168 -0.000001 r_peak,r_snr = 0.1579457 32.60603 1846 0.188 5046 -0.125 32.60603 0.009029 0.009083 0.002033 r_peak,r_snr = 0.1070503 18.81070 1946 0.281 5046 0.313 18.81070 0.013518 0.028006 -0.001157 r_peak,r_snr = 0.1715889 37.66161 2046 -0.125 5046 -0.031 37.66161 0.004766 0.010006 -0.000271 At line = 5400 Reading in data.... r_peak,r_snr = 0.7407076 20.49125 146 0.000 5446 0.094 20.49125 0.000266 0.000536 0.000006 r_peak,r_snr = 0.8068836 51.03106 246 0.000 5446 0.125 51.03106 0.000145 0.000229 -0.000004 r_peak,r_snr = 0.8137677 45.83994 346 0.000 5446 0.094 45.83994 0.000146 0.000210 -0.000007 r_peak,r_snr = 0.8580601 105.8263 446 -0.031 5446 0.125 105.82635 0.000080 0.000122 -0.000002 r_peak,r_snr = 0.8608465 70.00726 546 0.000 5446 0.156 70.00726 0.000091 0.000139 -0.000001 r_peak,r_snr = 0.8811644 38.14066 646 0.000 5446 0.094 38.14066 0.000085 0.000131 0.000000 r_peak,r_snr = 0.8566604 49.12568 746 0.000 5446 0.125 49.12568 0.000100 0.000170 -0.000003 r_peak,r_snr = 0.8664414 48.02366 846 0.000 5446 0.125 48.02366 0.000095 0.000165 -0.000006 r_peak,r_snr = 0.8301142 92.37477 946 0.000 5446 0.094 92.37477 0.000114 0.000178 0.000001 r_peak,r_snr = 0.8526409 35.87416 1046 0.000 5446 0.188 35.87416 0.000113 0.000206 0.000001 r_peak,r_snr = 0.8777308 55.57788 1146 -0.031 5446 0.094 55.57788 0.000088 0.000148 0.000000 r_peak,r_snr = 0.8715433 46.53465 1246 0.000 5446 0.094 46.53465 0.000092 0.000150 -0.000003 r_peak,r_snr = 0.8800184 116.0729 1346 0.031 5446 0.094 116.07289 0.000070 0.000110 0.000000 r_peak,r_snr = 0.9049664 78.22362 1446 0.031 5446 0.125 78.22362 0.000057 0.000097 0.000002 r_peak,r_snr = 0.8934496 166.0702 1546 0.000 5446 0.125 166.07024 0.000058 0.000080 0.000001 r_peak,r_snr = 0.8847535 134.2125 1646 0.000 5446 0.125 134.21249 0.000063 0.000091 -0.000002 r_peak,r_snr = 0.9004894 7.049483 1746 0.000 5446 0.063 7.04948 0.000095 0.000154 -0.000002 r_peak,r_snr = 0.2053535 44.65542 1846 0.063 5446 0.000 44.65542 0.005537 0.005579 -0.000545 r_peak,r_snr = 0.1315507 32.61893 1946 0.000 5446 0.188 32.61893 0.008506 0.013584 -0.001988 r_peak,r_snr = 0.1638890 38.48779 2046 -0.063 5446 0.125 38.48779 0.005050 0.009171 -0.000765 At line = 5800 Reading in data.... r_peak,r_snr = 0.7470854 38.33039 146 -0.031 5846 0.031 38.33039 0.000221 0.000461 0.000007 r_peak,r_snr = 0.7075295 68.72818 246 0.000 5846 0.031 68.72818 0.000250 0.000427 -0.000001 r_peak,r_snr = 0.7593436 60.19427 346 0.000 5846 0.063 60.19427 0.000187 0.000295 0.000001 r_peak,r_snr = 0.8489973 80.36526 446 -0.031 5846 0.063 80.36526 0.000097 0.000155 -0.000001 r_peak,r_snr = 0.8391029 55.34504 546 -0.031 5846 0.094 55.34504 0.000109 0.000172 -0.000002 r_peak,r_snr = 0.8452184 26.56911 646 -0.031 5846 0.000 26.56911 0.000131 0.000205 -0.000001 r_peak,r_snr = 0.8524492 68.69461 746 -0.031 5846 0.031 68.69461 0.000094 0.000147 -0.000003 r_peak,r_snr = 0.8269622 84.52414 846 0.000 5846 0.063 84.52414 0.000117 0.000187 -0.000004 r_peak,r_snr = 0.8117020 63.99802 946 0.031 5846 0.094 63.99802 0.000142 0.000199 -0.000004 r_peak,r_snr = 0.8257937 33.35939 1046 0.000 5846 0.125 33.35939 0.000146 0.000225 -0.000002 r_peak,r_snr = 0.8713825 43.33360 1146 0.000 5846 0.031 43.33360 0.000097 0.000144 -0.000004 r_peak,r_snr = 0.8688296 41.43489 1246 0.000 5846 0.094 41.43489 0.000094 0.000139 -0.000003 r_peak,r_snr = 0.9024030 26.33832 1346 -0.031 5846 0.063 26.33832 0.000066 0.000095 0.000000 r_peak,r_snr = 0.8636737 131.5320 1446 0.000 5846 0.063 131.53197 0.000077 0.000109 -0.000001 r_peak,r_snr = 0.8807670 152.6510 1546 0.031 5846 0.063 152.65102 0.000064 0.000092 -0.000002 r_peak,r_snr = 0.8765435 230.8565 1646 0.031 5846 0.063 230.85654 0.000066 0.000093 0.000000 r_peak,r_snr = 0.9073148 6.748467 1746 0.000 5846 0.063 6.74847 0.000087 0.000130 0.000001 r_peak,r_snr = 0.1760498 43.49047 1846 -0.219 5846 0.250 43.49047 0.006239 0.007672 0.000164 r_peak,r_snr = 0.1434388 31.35082 1946 0.094 5846 0.156 31.35082 0.008407 0.006955 0.001221 r_peak,r_snr = 0.1142966 28.18357 2046 -0.250 5846 0.219 28.18357 0.009708 0.014042 -0.000409 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Correlation Coefficient Program ***** ***** ***** ***** This program creates a byte file ***** ***** that contains the correlation ***** ***** coeficient of two complex single ***** ***** look files. ***** ***** ***** ************************************************** Enter the name of the first complex file. Enter number of looks Enter the name of the second single look file 9.259200 0.5144000 18 Enter the output file name number of input lines: 98312 number of output lines: 5461 Reading data and doing multi-looking. + 1 + 1153 + 2305 + 3457 + 4609 + 5761 + 6913 + 8065 + 9217 + 10369 + 11521 + 12673 + 13825 + 14977 + 16129 + 17281 + 18433 + 19585 + 20737 + 21889 + 23041 + 24193 + 25345 + 26497 + 27649 + 28801 + 29953 + 31105 + 32257 + 33409 + 34561 + 35713 + 36865 + 38017 + 39169 + 40321 + 41473 + 42625 + 43777 + 44929 + 46081 + 47233 + 48385 + 49537 + 50689 + 51841 + 52993 + 54145 + 55297 + 56449 + 57601 + 58753 + 59905 + 61057 + 62209 + 63361 + 64513 + 65665 + 66817 + 67969 + 69121 + 70273 + 71425 + 72577 + 73729 + 74881 + 76033 + 77185 + 78337 + 79489 + 80641 + 81793 + 82945 + 84097 + 85249 + 86401 + 87553 + 88705 + 89857 + 91009 + 92161 + 93313 + 94465 + 95617 + 96769 + 97921 *** Filtering. o/p nlines: 5461 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Writing data out. ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Multi-look Program ***** ***** ***** ***** This program creates a real multi- ***** ***** look file from a complex single look ***** ***** file. The real values represent ***** ***** POWER, not amplitude. Multi-looking ***** ***** is performed by summing POWER in the ***** ***** azimuth direction only. ***** ***** ***** ************************************************** Enter the name of the complex file. Enter the desired number of looks. Enter the output file name output azspace, azres: 9.259200 21.60000 + 100 + 200 + 300 + 400 + 500 + 600 + 700 + 800 + 900 + 1000 + 1100 + 1200 + 1300 + 1400 + 1500 + 1600 + 1700 + 1800 + 1900 + 2000 + 2100 + 2200 + 2300 + 2400 + 2500 + 2600 + 2700 + 2800 + 2900 + 3000 + 3100 + 3200 + 3300 + 3400 + 3500 + 3600 + 3700 + 3800 + 3900 + 4000 + 4100 + 4200 + 4300 + 4400 + 4500 + 4600 + 4700 + 4800 + 4900 + 5000 + 5100 + 5200 + 5300 + 5400 Enter the name of the top antenna SLC-1 file. /export/air36/airops/1400/ts1400_c.TT Enter the name of the bottom antenna SLC-2 file. /export/air36/airops/1400/ts1400_c.BB Enter the name of the packed amplitude (c1,c2) file. /export/air36/airops/1400/ts1400_c.amp Enter the name of the output interferogram file. /export/air36/airops/1400/ts1400_c.phase Enter number of looks 18 Reading new header..STARTING at 0 after write new header ! Reading data and doing multi-looking. nliner 5461 10240 18 + 1 + 2001 + 4001 *o/p interf amp.: 5461 10240 40960 20480 << PS filtering and unwrapping with random trees 3-Nov-98 CW/PAR/SH >> Error file = SCREEN Reading from: /export/air36/airops/1400/ts1400_c.rdf interferogram width: 2560 number of lines/patch: 256 start line: 3 number of lines: 5461 start sample: 1 end sample: 2560 Interferogram File: /export/air36/airops/1400/ts1400_c.phase SLC Amplitudes File: /export/air36/airops/1400/ts1400_c.amp Filtered Interferogram File: filt_int Phase Gradient File: phase_slp Gradient Corrected Corr. File: gradient_cc Unwrapped Phase File: /export/air36/airops/1400/ts1400_c.unw_phase_mag Unwrapping Flag File: unwrap_flag Branch Cut Tree Type: GZW number of realizations of the trees: 3 minimum unwrap correlation threshold: 0.5000 maximum unwrap correlation threshold: 0.9000 bootstrap phase variance threshold: 2.0000 min. points overlap for the bootstrap: 16 phase gradient neutron flag: 0 phase gradient neutron threshold (radians): 0.5000 intensity neutron flag: 1 intensity neutron thres. (sigma above mean): 10.0000 maximum correlation for intensity neutrons: 0.8000 azimuth buffer size: 256 overlap between azimuth patches: 64 total overlap between azimuth patches: 128 offset in overlap region for phase bootstrap: 64 lines to increment for the next patch: 128 number of patches: 42 PATCH: 1 starting line: 2 lines read: 256 starting output line: 1 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 INIT_UNW_RT: correlation threshold: 0.5000000 GEN_NEUTRONS: average image intensity: 8.52581E-03 GEN_NEUTRONS: image intensity standard deviation: 1.53533E-02 GEN_NEUTRONS: image intensity neutrons: 257 INIT_UNW_RT: number of residues: 300 INIT_UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees INIT_UNW_RT: patch residual charge: 0 INIT_UNW_RT: number of unwrapping seeds: 158 seed: 1 range: 12 azimuth: 64 points unwrapped: 435888 area fraction: 0.6887 average correlation of component: 0.8747 INIT_UNW_RT: largest component area: 0.6887 seed range: 12 INIT_UNW_RT: number of points for phase bootstrap: 5220 PATCH: 2 starting line: 130 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 8.55637E-03 GEN_NEUTRONS: image intensity standard deviation: 2.71466E-02 GEN_NEUTRONS: image intensity neutrons: 18 UNW_RT: number of residues: 336 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 3 range: 44 azimuth: 64 points unwrapped: 429319 area fraction: 0.67834 average correlation of connected component: 0.8722 number of points for phase bootstrap: 5220 bootstrap phase variance : 0.0011 bootstrap phase difference: 6.2832 phase difference (multiples of 2PI): 1.0000 seed: 118 range: 1884 azimuth: 64 points unwrapped: 7 area fraction: 0.00001 average correlation of connected component: 0.5243 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 128 range: 2044 azimuth: 64 points unwrapped: 4 area fraction: 0.00001 average correlation of connected component: 0.5138 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 133 range: 2124 azimuth: 64 points unwrapped: 7 area fraction: 0.00001 average correlation of connected component: 0.5385 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 136 range: 2172 azimuth: 64 points unwrapped: 25 area fraction: 0.00004 average correlation of connected component: 0.5559 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 429319 area fraction: 0.6783 UNW_RT: phase bootstrap points for next patch: 5178 PATCH: 3 starting line: 258 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 8.48771E-03 GEN_NEUTRONS: image intensity standard deviation: 2.72409E-02 GEN_NEUTRONS: image intensity neutrons: 21 UNW_RT: number of residues: 345 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 425834 area fraction: 0.67283 average correlation of connected component: 0.8716 number of points for phase bootstrap: 5178 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 seed: 125 range: 1996 azimuth: 64 points unwrapped: 6 area fraction: 0.00001 average correlation of connected component: 0.5183 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 139 range: 2220 azimuth: 64 points unwrapped: 9 area fraction: 0.00001 average correlation of connected component: 0.5402 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 425834 area fraction: 0.6728 UNW_RT: phase bootstrap points for next patch: 5136 PATCH: 4 starting line: 386 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 8.30262E-03 GEN_NEUTRONS: image intensity standard deviation: 1.48161E-02 GEN_NEUTRONS: image intensity neutrons: 555 UNW_RT: number of residues: 290 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 425060 area fraction: 0.67161 average correlation of connected component: 0.8723 number of points for phase bootstrap: 5136 bootstrap phase variance : 0.0010 bootstrap phase difference: 6.2832 phase difference (multiples of 2PI): 1.0000 seed: 122 range: 1948 azimuth: 64 points unwrapped: 60 area fraction: 0.00009 average correlation of connected component: 0.5440 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 123 range: 1964 azimuth: 64 points unwrapped: 29 area fraction: 0.00005 average correlation of connected component: 0.5560 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 133 range: 2124 azimuth: 64 points unwrapped: 7 area fraction: 0.00001 average correlation of connected component: 0.5148 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 425060 area fraction: 0.6716 UNW_RT: phase bootstrap points for next patch: 5124 PATCH: 5 starting line: 514 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 8.72930E-03 GEN_NEUTRONS: image intensity standard deviation: 2.91068E-02 GEN_NEUTRONS: image intensity neutrons: 33 UNW_RT: number of residues: 246 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 429431 area fraction: 0.67852 average correlation of connected component: 0.8792 number of points for phase bootstrap: 5124 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 seed: 112 range: 1788 azimuth: 64 points unwrapped: 19 area fraction: 0.00003 average correlation of connected component: 0.5686 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 429431 area fraction: 0.6785 UNW_RT: phase bootstrap points for next patch: 5255 PATCH: 6 starting line: 642 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 8.64490E-03 GEN_NEUTRONS: image intensity standard deviation: 2.96178E-02 GEN_NEUTRONS: image intensity neutrons: 6 UNW_RT: number of residues: 212 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 434038 area fraction: 0.68580 average correlation of connected component: 0.8869 number of points for phase bootstrap: 5255 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 seed: 112 range: 1788 azimuth: 64 points unwrapped: 49 area fraction: 0.00008 average correlation of connected component: 0.5607 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 129 range: 2060 azimuth: 64 points unwrapped: 22 area fraction: 0.00003 average correlation of connected component: 0.5366 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 137 range: 2188 azimuth: 64 points unwrapped: 18 area fraction: 0.00003 average correlation of connected component: 0.5543 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 434038 area fraction: 0.6858 UNW_RT: phase bootstrap points for next patch: 5247 PATCH: 7 starting line: 770 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 8.87374E-03 GEN_NEUTRONS: image intensity standard deviation: 3.51711E-02 GEN_NEUTRONS: image intensity neutrons: 8 UNW_RT: number of residues: 230 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 438495 area fraction: 0.69284 average correlation of connected component: 0.8820 number of points for phase bootstrap: 5247 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 seed: 113 range: 1804 azimuth: 64 points unwrapped: 101 area fraction: 0.00016 average correlation of connected component: 0.5478 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 131 range: 2092 azimuth: 64 points unwrapped: 7 area fraction: 0.00001 average correlation of connected component: 0.5324 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 438495 area fraction: 0.6928 UNW_RT: phase bootstrap points for next patch: 5341 PATCH: 8 starting line: 898 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 1.09373E-02 GEN_NEUTRONS: image intensity standard deviation: 0.17971 GEN_NEUTRONS: image intensity neutrons: 8 UNW_RT: number of residues: 320 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 443957 area fraction: 0.70147 average correlation of connected component: 0.8769 number of points for phase bootstrap: 5341 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 seed: 130 range: 2076 azimuth: 64 points unwrapped: 69 area fraction: 0.00011 average correlation of connected component: 0.5386 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 443957 area fraction: 0.7015 UNW_RT: phase bootstrap points for next patch: 5527 PATCH: 9 starting line: 1026 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 1.11687E-02 GEN_NEUTRONS: image intensity standard deviation: 0.18230 GEN_NEUTRONS: image intensity neutrons: 0 UNW_RT: number of residues: 572 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 442296 area fraction: 0.69884 average correlation of connected component: 0.8784 number of points for phase bootstrap: 5524 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 seed: 120 range: 1916 azimuth: 64 points unwrapped: 62 area fraction: 0.00010 average correlation of connected component: 0.5438 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 121 range: 1932 azimuth: 64 points unwrapped: 23 area fraction: 0.00004 average correlation of connected component: 0.5494 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 442296 area fraction: 0.6988 UNW_RT: phase bootstrap points for next patch: 5383 PATCH: 10 starting line: 1154 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 1.16313E-02 GEN_NEUTRONS: image intensity standard deviation: 0.35466 GEN_NEUTRONS: image intensity neutrons: 0 UNW_RT: number of residues: 729 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 440784 area fraction: 0.69646 average correlation of connected component: 0.8751 number of points for phase bootstrap: 5383 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 seed: 117 range: 1868 azimuth: 64 points unwrapped: 19 area fraction: 0.00003 average correlation of connected component: 0.5416 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 118 range: 1884 azimuth: 64 points unwrapped: 22 area fraction: 0.00003 average correlation of connected component: 0.5483 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 440784 area fraction: 0.6965 UNW_RT: phase bootstrap points for next patch: 5363 PATCH: 11 starting line: 1282 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 9.01153E-03 GEN_NEUTRONS: image intensity standard deviation: 2.82511E-02 GEN_NEUTRONS: image intensity neutrons: 113 UNW_RT: number of residues: 709 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 447343 area fraction: 0.70682 average correlation of connected component: 0.8739 number of points for phase bootstrap: 5363 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 seed: 118 range: 1884 azimuth: 64 points unwrapped: 71 area fraction: 0.00011 average correlation of connected component: 0.5441 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 135 range: 2156 azimuth: 64 points unwrapped: 15 area fraction: 0.00002 average correlation of connected component: 0.5604 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 447343 area fraction: 0.7068 UNW_RT: phase bootstrap points for next patch: 5522 PATCH: 12 starting line: 1410 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 9.38701E-03 GEN_NEUTRONS: image intensity standard deviation: 5.86068E-02 GEN_NEUTRONS: image intensity neutrons: 9 UNW_RT: number of residues: 597 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 452969 area fraction: 0.71571 average correlation of connected component: 0.8802 number of points for phase bootstrap: 5522 bootstrap phase variance : 0.0027 bootstrap phase difference: 6.2831 phase difference (multiples of 2PI): 1.0000 seed: 122 range: 1948 azimuth: 64 points unwrapped: 62 area fraction: 0.00010 average correlation of connected component: 0.5663 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 138 range: 2204 azimuth: 64 points unwrapped: 9 area fraction: 0.00001 average correlation of connected component: 0.5275 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 452969 area fraction: 0.7157 UNW_RT: phase bootstrap points for next patch: 5457 PATCH: 13 starting line: 1538 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 1.00414E-02 GEN_NEUTRONS: image intensity standard deviation: 0.14628 GEN_NEUTRONS: image intensity neutrons: 0 UNW_RT: number of residues: 603 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 457662 area fraction: 0.72312 average correlation of connected component: 0.8903 number of points for phase bootstrap: 5457 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 seed: 137 range: 2188 azimuth: 64 points unwrapped: 24 area fraction: 0.00004 average correlation of connected component: 0.6660 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 457662 area fraction: 0.7231 UNW_RT: phase bootstrap points for next patch: 5672 PATCH: 14 starting line: 1666 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 9.93125E-03 GEN_NEUTRONS: image intensity standard deviation: 0.15667 GEN_NEUTRONS: image intensity neutrons: 0 UNW_RT: number of residues: 901 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 444845 area fraction: 0.70287 average correlation of connected component: 0.9006 number of points for phase bootstrap: 5672 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 seed: 120 range: 1916 azimuth: 64 points unwrapped: 14 area fraction: 0.00002 average correlation of connected component: 0.5285 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 444845 area fraction: 0.7029 UNW_RT: phase bootstrap points for next patch: 5281 PATCH: 15 starting line: 1794 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 9.23811E-03 GEN_NEUTRONS: image intensity standard deviation: 8.45279E-02 GEN_NEUTRONS: image intensity neutrons: 4 UNW_RT: number of residues: 866 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 416041 area fraction: 0.65736 average correlation of connected component: 0.9003 number of points for phase bootstrap: 5281 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 416041 area fraction: 0.6574 UNW_RT: phase bootstrap points for next patch: 4874 PATCH: 16 starting line: 1922 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 8.09669E-03 GEN_NEUTRONS: image intensity standard deviation: 4.07491E-02 GEN_NEUTRONS: image intensity neutrons: 15 UNW_RT: number of residues: 701 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 397635 area fraction: 0.62828 average correlation of connected component: 0.8986 number of points for phase bootstrap: 4873 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 397635 area fraction: 0.6283 UNW_RT: phase bootstrap points for next patch: 4738 PATCH: 17 starting line: 2050 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 7.93514E-03 GEN_NEUTRONS: image intensity standard deviation: 0.13436 GEN_NEUTRONS: image intensity neutrons: 9 UNW_RT: number of residues: 649 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 384304 area fraction: 0.60722 average correlation of connected component: 0.8956 number of points for phase bootstrap: 4738 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 seed: 111 range: 1772 azimuth: 64 points unwrapped: 9 area fraction: 0.00001 average correlation of connected component: 0.5401 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 384304 area fraction: 0.6072 UNW_RT: phase bootstrap points for next patch: 4635 PATCH: 18 starting line: 2178 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 8.05078E-03 GEN_NEUTRONS: image intensity standard deviation: 0.13657 GEN_NEUTRONS: image intensity neutrons: 11 UNW_RT: number of residues: 553 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 370621 area fraction: 0.58560 average correlation of connected component: 0.8945 number of points for phase bootstrap: 4635 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 seed: 101 range: 1612 azimuth: 64 points unwrapped: 82 area fraction: 0.00013 average correlation of connected component: 0.5733 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 102 range: 1628 azimuth: 64 points unwrapped: 89 area fraction: 0.00014 average correlation of connected component: 0.5706 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 103 range: 1644 azimuth: 64 points unwrapped: 56 area fraction: 0.00009 average correlation of connected component: 0.5849 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 104 range: 1660 azimuth: 64 points unwrapped: 8 area fraction: 0.00001 average correlation of connected component: 0.5259 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 110 range: 1756 azimuth: 64 points unwrapped: 21 area fraction: 0.00003 average correlation of connected component: 0.5405 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 121 range: 1932 azimuth: 64 points unwrapped: 2 area fraction: 0.00000 average correlation of connected component: 0.5163 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 370621 area fraction: 0.5856 UNW_RT: phase bootstrap points for next patch: 4364 PATCH: 19 starting line: 2306 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 9.63755E-03 GEN_NEUTRONS: image intensity standard deviation: 0.16913 GEN_NEUTRONS: image intensity neutrons: 6 UNW_RT: number of residues: 487 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 355544 area fraction: 0.56177 average correlation of connected component: 0.8973 number of points for phase bootstrap: 4364 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 seed: 28 range: 444 azimuth: 64 points unwrapped: 122 area fraction: 0.00019 average correlation of connected component: 0.7907 WARNING: UNW_RT: insufficient points for phase bootstrap: 3 seed: 94 range: 1500 azimuth: 64 points unwrapped: 17 area fraction: 0.00003 average correlation of connected component: 0.5588 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 96 range: 1532 azimuth: 64 points unwrapped: 81 area fraction: 0.00013 average correlation of connected component: 0.5818 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 99 range: 1580 azimuth: 64 points unwrapped: 100 area fraction: 0.00016 average correlation of connected component: 0.5496 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 100 range: 1596 azimuth: 64 points unwrapped: 160 area fraction: 0.00025 average correlation of connected component: 0.5711 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 101 range: 1612 azimuth: 64 points unwrapped: 244 area fraction: 0.00039 average correlation of connected component: 0.7757 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 102 range: 1628 azimuth: 64 points unwrapped: 98 area fraction: 0.00015 average correlation of connected component: 0.5623 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 108 range: 1724 azimuth: 64 points unwrapped: 13 area fraction: 0.00002 average correlation of connected component: 0.5329 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 117 range: 1868 azimuth: 64 points unwrapped: 29 area fraction: 0.00005 average correlation of connected component: 0.5498 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 355544 area fraction: 0.5618 UNW_RT: phase bootstrap points for next patch: 4212 PATCH: 20 starting line: 2434 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 1.32629E-02 GEN_NEUTRONS: image intensity standard deviation: 0.26791 GEN_NEUTRONS: image intensity neutrons: 0 UNW_RT: number of residues: 518 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 344173 area fraction: 0.54381 average correlation of connected component: 0.9030 number of points for phase bootstrap: 4212 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 seed: 91 range: 1452 azimuth: 64 points unwrapped: 1380 area fraction: 0.00218 average correlation of connected component: 0.5871 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 103 range: 1644 azimuth: 64 points unwrapped: 104 area fraction: 0.00016 average correlation of connected component: 0.5508 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 107 range: 1708 azimuth: 64 points unwrapped: 2 area fraction: 0.00000 average correlation of connected component: 0.5129 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 111 range: 1772 azimuth: 64 points unwrapped: 10 area fraction: 0.00002 average correlation of connected component: 0.5227 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 116 range: 1852 azimuth: 64 points unwrapped: 29 area fraction: 0.00005 average correlation of connected component: 0.5348 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 119 range: 1900 azimuth: 64 points unwrapped: 19 area fraction: 0.00003 average correlation of connected component: 0.5242 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 344173 area fraction: 0.5438 UNW_RT: phase bootstrap points for next patch: 4051 PATCH: 21 starting line: 2562 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 1.06045E-02 GEN_NEUTRONS: image intensity standard deviation: 0.12319 GEN_NEUTRONS: image intensity neutrons: 9 UNW_RT: number of residues: 777 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 335013 area fraction: 0.52933 average correlation of connected component: 0.8965 number of points for phase bootstrap: 4051 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 seed: 90 range: 1436 azimuth: 64 points unwrapped: 21 area fraction: 0.00003 average correlation of connected component: 0.5410 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 93 range: 1484 azimuth: 64 points unwrapped: 618 area fraction: 0.00098 average correlation of connected component: 0.5656 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 98 range: 1564 azimuth: 64 points unwrapped: 9 area fraction: 0.00001 average correlation of connected component: 0.5346 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 102 range: 1628 azimuth: 64 points unwrapped: 26 area fraction: 0.00004 average correlation of connected component: 0.5704 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 116 range: 1852 azimuth: 64 points unwrapped: 10 area fraction: 0.00002 average correlation of connected component: 0.5422 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 335013 area fraction: 0.5293 UNW_RT: phase bootstrap points for next patch: 4090 PATCH: 22 starting line: 2690 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 9.95501E-03 GEN_NEUTRONS: image intensity standard deviation: 0.10404 GEN_NEUTRONS: image intensity neutrons: 8 UNW_RT: number of residues: 921 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 319099 area fraction: 0.50419 average correlation of connected component: 0.8820 number of points for phase bootstrap: 3925 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 seed: 83 range: 1324 azimuth: 64 points unwrapped: 3279 area fraction: 0.00518 average correlation of connected component: 0.5967 number of points for phase bootstrap: 165 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 seed: 91 range: 1452 azimuth: 64 points unwrapped: 1517 area fraction: 0.00240 average correlation of connected component: 0.5833 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 93 range: 1484 azimuth: 64 points unwrapped: 409 area fraction: 0.00065 average correlation of connected component: 0.5751 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 97 range: 1548 azimuth: 64 points unwrapped: 18 area fraction: 0.00003 average correlation of connected component: 0.5378 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 155 range: 2476 azimuth: 64 points unwrapped: 373 area fraction: 0.00059 average correlation of connected component: 0.7655 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 322378 area fraction: 0.5094 UNW_RT: phase bootstrap points for next patch: 3804 PATCH: 23 starting line: 2818 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 1.10285E-02 GEN_NEUTRONS: image intensity standard deviation: 0.42727 GEN_NEUTRONS: image intensity neutrons: 0 UNW_RT: number of residues: 846 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 329678 area fraction: 0.52090 average correlation of connected component: 0.8502 number of points for phase bootstrap: 3804 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 seed: 87 range: 1388 azimuth: 64 points unwrapped: 109 area fraction: 0.00017 average correlation of connected component: 0.5864 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 98 range: 1564 azimuth: 64 points unwrapped: 22 area fraction: 0.00003 average correlation of connected component: 0.5292 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 99 range: 1580 azimuth: 64 points unwrapped: 19 area fraction: 0.00003 average correlation of connected component: 0.5390 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 101 range: 1612 azimuth: 64 points unwrapped: 3 area fraction: 0.00000 average correlation of connected component: 0.5079 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 102 range: 1628 azimuth: 64 points unwrapped: 270 area fraction: 0.00043 average correlation of connected component: 0.5554 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 109 range: 1740 azimuth: 64 points unwrapped: 10 area fraction: 0.00002 average correlation of connected component: 0.5313 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 329678 area fraction: 0.5209 UNW_RT: phase bootstrap points for next patch: 4126 PATCH: 24 starting line: 2946 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 7.81781E-03 GEN_NEUTRONS: image intensity standard deviation: 6.42096E-02 GEN_NEUTRONS: image intensity neutrons: 16 UNW_RT: number of residues: 684 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 328413 area fraction: 0.51891 average correlation of connected component: 0.8309 number of points for phase bootstrap: 4126 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 seed: 97 range: 1548 azimuth: 64 points unwrapped: 125 area fraction: 0.00020 average correlation of connected component: 0.5817 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 98 range: 1564 azimuth: 64 points unwrapped: 20 area fraction: 0.00003 average correlation of connected component: 0.5795 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 103 range: 1644 azimuth: 64 points unwrapped: 39 area fraction: 0.00006 average correlation of connected component: 0.5359 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 118 range: 1884 azimuth: 64 points unwrapped: 35 area fraction: 0.00006 average correlation of connected component: 0.5406 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 328413 area fraction: 0.5189 UNW_RT: phase bootstrap points for next patch: 3864 PATCH: 25 starting line: 3074 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 7.03641E-03 GEN_NEUTRONS: image intensity standard deviation: 5.17040E-02 GEN_NEUTRONS: image intensity neutrons: 3 UNW_RT: number of residues: 652 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 312817 area fraction: 0.49426 average correlation of connected component: 0.8255 number of points for phase bootstrap: 3864 bootstrap phase variance : -0.0006 bootstrap phase difference: 6.2832 phase difference (multiples of 2PI): 1.0000 seed: 71 range: 1132 azimuth: 64 points unwrapped: 39 area fraction: 0.00006 average correlation of connected component: 0.5815 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 81 range: 1292 azimuth: 64 points unwrapped: 168 area fraction: 0.00027 average correlation of connected component: 0.5854 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 99 range: 1580 azimuth: 64 points unwrapped: 456 area fraction: 0.00072 average correlation of connected component: 0.5585 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 102 range: 1628 azimuth: 64 points unwrapped: 111 area fraction: 0.00018 average correlation of connected component: 0.5529 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 104 range: 1660 azimuth: 64 points unwrapped: 8 area fraction: 0.00001 average correlation of connected component: 0.5377 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 107 range: 1708 azimuth: 64 points unwrapped: 13 area fraction: 0.00002 average correlation of connected component: 0.5333 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 112 range: 1788 azimuth: 64 points unwrapped: 16 area fraction: 0.00003 average correlation of connected component: 0.5468 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 312817 area fraction: 0.4943 UNW_RT: phase bootstrap points for next patch: 3613 PATCH: 26 starting line: 3202 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 6.34551E-03 GEN_NEUTRONS: image intensity standard deviation: 1.46980E-02 GEN_NEUTRONS: image intensity neutrons: 261 UNW_RT: number of residues: 726 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 284607 area fraction: 0.44969 average correlation of connected component: 0.8355 number of points for phase bootstrap: 3613 bootstrap phase variance : -0.0010 bootstrap phase difference: 6.2832 phase difference (multiples of 2PI): 1.0000 seed: 103 range: 1644 azimuth: 64 points unwrapped: 9 area fraction: 0.00001 average correlation of connected component: 0.5177 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 134 range: 2140 azimuth: 64 points unwrapped: 8 area fraction: 0.00001 average correlation of connected component: 0.5235 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 284607 area fraction: 0.4497 UNW_RT: phase bootstrap points for next patch: 3170 PATCH: 27 starting line: 3330 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 6.76865E-03 GEN_NEUTRONS: image intensity standard deviation: 2.70938E-02 GEN_NEUTRONS: image intensity neutrons: 29 UNW_RT: number of residues: 726 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 2 range: 28 azimuth: 64 points unwrapped: 241174 area fraction: 0.38106 average correlation of connected component: 0.8428 number of points for phase bootstrap: 2775 bootstrap phase variance : -0.0015 bootstrap phase difference: 6.2832 phase difference (multiples of 2PI): 1.0000 seed: 67 range: 1068 azimuth: 64 points unwrapped: 15 area fraction: 0.00002 average correlation of connected component: 0.5352 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 71 range: 1132 azimuth: 64 points unwrapped: 29670 area fraction: 0.04688 average correlation of connected component: 0.5989 number of points for phase bootstrap: 395 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 seed: 83 range: 1324 azimuth: 64 points unwrapped: 5080 area fraction: 0.00803 average correlation of connected component: 0.5780 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 91 range: 1452 azimuth: 64 points unwrapped: 1762 area fraction: 0.00278 average correlation of connected component: 0.5727 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 97 range: 1548 azimuth: 64 points unwrapped: 14 area fraction: 0.00002 average correlation of connected component: 0.5160 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 102 range: 1628 azimuth: 64 points unwrapped: 14 area fraction: 0.00002 average correlation of connected component: 0.0000 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 103 range: 1644 azimuth: 64 points unwrapped: 48 area fraction: 0.00008 average correlation of connected component: 0.5387 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 114 range: 1820 azimuth: 64 points unwrapped: 5 area fraction: 0.00001 average correlation of connected component: 0.5133 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 270844 area fraction: 0.4279 UNW_RT: phase bootstrap points for next patch: 3170 PATCH: 28 starting line: 3458 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 7.20600E-03 GEN_NEUTRONS: image intensity standard deviation: 4.41483E-02 GEN_NEUTRONS: image intensity neutrons: 2 UNW_RT: number of residues: 738 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 275299 area fraction: 0.43498 average correlation of connected component: 0.7849 number of points for phase bootstrap: 3167 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 seed: 76 range: 1212 azimuth: 64 points unwrapped: 424 area fraction: 0.00067 average correlation of connected component: 0.5654 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 77 range: 1228 azimuth: 64 points unwrapped: 190 area fraction: 0.00030 average correlation of connected component: 0.5685 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 88 range: 1404 azimuth: 64 points unwrapped: 86 area fraction: 0.00014 average correlation of connected component: 0.5695 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 89 range: 1420 azimuth: 64 points unwrapped: 1236 area fraction: 0.00195 average correlation of connected component: 0.5729 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 91 range: 1452 azimuth: 64 points unwrapped: 91 area fraction: 0.00014 average correlation of connected component: 0.5540 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 96 range: 1532 azimuth: 64 points unwrapped: 72 area fraction: 0.00011 average correlation of connected component: 0.5500 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 97 range: 1548 azimuth: 64 points unwrapped: 135 area fraction: 0.00021 average correlation of connected component: 0.5554 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 101 range: 1612 azimuth: 64 points unwrapped: 180 area fraction: 0.00028 average correlation of connected component: 0.5463 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 275299 area fraction: 0.4350 UNW_RT: phase bootstrap points for next patch: 3508 PATCH: 29 starting line: 3586 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 6.36164E-03 GEN_NEUTRONS: image intensity standard deviation: 2.46900E-02 GEN_NEUTRONS: image intensity neutrons: 21 UNW_RT: number of residues: 641 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 291543 area fraction: 0.46065 average correlation of connected component: 0.7686 number of points for phase bootstrap: 3508 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 seed: 83 range: 1324 azimuth: 64 points unwrapped: 32 area fraction: 0.00005 average correlation of connected component: 0.5565 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 89 range: 1420 azimuth: 64 points unwrapped: 32 area fraction: 0.00005 average correlation of connected component: 0.5379 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 91 range: 1452 azimuth: 64 points unwrapped: 370 area fraction: 0.00058 average correlation of connected component: 0.5509 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 93 range: 1484 azimuth: 64 points unwrapped: 9 area fraction: 0.00001 average correlation of connected component: 0.5268 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 96 range: 1532 azimuth: 64 points unwrapped: 92 area fraction: 0.00015 average correlation of connected component: 0.5798 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 98 range: 1564 azimuth: 64 points unwrapped: 6 area fraction: 0.00001 average correlation of connected component: 0.5177 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 99 range: 1580 azimuth: 64 points unwrapped: 12 area fraction: 0.00002 average correlation of connected component: 0.5221 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 108 range: 1724 azimuth: 64 points unwrapped: 3 area fraction: 0.00000 average correlation of connected component: 0.5209 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 291543 area fraction: 0.4606 UNW_RT: phase bootstrap points for next patch: 3488 PATCH: 30 starting line: 3714 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 5.57172E-03 GEN_NEUTRONS: image intensity standard deviation: 1.36273E-02 GEN_NEUTRONS: image intensity neutrons: 362 UNW_RT: number of residues: 637 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 2 range: 28 azimuth: 64 points unwrapped: 300029 area fraction: 0.47406 average correlation of connected component: 0.7536 number of points for phase bootstrap: 3488 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 seed: 56 range: 892 azimuth: 64 points unwrapped: 129 area fraction: 0.00020 average correlation of connected component: 0.5609 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 59 range: 940 azimuth: 64 points unwrapped: 53 area fraction: 0.00008 average correlation of connected component: 0.5436 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 84 range: 1340 azimuth: 64 points unwrapped: 40 area fraction: 0.00006 average correlation of connected component: 0.5558 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 89 range: 1420 azimuth: 64 points unwrapped: 99 area fraction: 0.00016 average correlation of connected component: 0.5413 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 91 range: 1452 azimuth: 64 points unwrapped: 9 area fraction: 0.00001 average correlation of connected component: 0.5405 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 95 range: 1516 azimuth: 64 points unwrapped: 92 area fraction: 0.00015 average correlation of connected component: 0.5451 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 96 range: 1532 azimuth: 64 points unwrapped: 19 area fraction: 0.00003 average correlation of connected component: 0.5386 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 99 range: 1580 azimuth: 64 points unwrapped: 1744 area fraction: 0.00276 average correlation of connected component: 0.5576 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 101 range: 1612 azimuth: 64 points unwrapped: 48 area fraction: 0.00008 average correlation of connected component: 0.5367 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 300029 area fraction: 0.4741 UNW_RT: phase bootstrap points for next patch: 3643 PATCH: 31 starting line: 3842 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 6.37163E-03 GEN_NEUTRONS: image intensity standard deviation: 0.17982 GEN_NEUTRONS: image intensity neutrons: 0 UNW_RT: number of residues: 736 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 1459 area fraction: 0.00231 average correlation of connected component: 0.6891 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 3 range: 44 azimuth: 64 points unwrapped: 306244 area fraction: 0.48388 average correlation of connected component: 0.7449 number of points for phase bootstrap: 3643 bootstrap phase variance : -0.0009 bootstrap phase difference: 6.2832 phase difference (multiples of 2PI): 1.0000 seed: 88 range: 1404 azimuth: 64 points unwrapped: 245 area fraction: 0.00039 average correlation of connected component: 0.5599 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 89 range: 1420 azimuth: 64 points unwrapped: 46 area fraction: 0.00007 average correlation of connected component: 0.5769 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 91 range: 1452 azimuth: 64 points unwrapped: 201 area fraction: 0.00032 average correlation of connected component: 0.5626 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 93 range: 1484 azimuth: 64 points unwrapped: 118 area fraction: 0.00019 average correlation of connected component: 0.5435 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 94 range: 1500 azimuth: 64 points unwrapped: 59 area fraction: 0.00009 average correlation of connected component: 0.5409 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 100 range: 1596 azimuth: 64 points unwrapped: 24 area fraction: 0.00004 average correlation of connected component: 0.5192 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 113 range: 1804 azimuth: 64 points unwrapped: 6 area fraction: 0.00001 average correlation of connected component: 0.5526 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 306244 area fraction: 0.4839 UNW_RT: phase bootstrap points for next patch: 3881 PATCH: 32 starting line: 3970 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 5.89401E-03 GEN_NEUTRONS: image intensity standard deviation: 0.12220 GEN_NEUTRONS: image intensity neutrons: 11 UNW_RT: number of residues: 820 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 2 range: 28 azimuth: 64 points unwrapped: 308059 area fraction: 0.48675 average correlation of connected component: 0.7474 number of points for phase bootstrap: 3881 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 seed: 88 range: 1404 azimuth: 64 points unwrapped: 56 area fraction: 0.00009 average correlation of connected component: 0.5440 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 89 range: 1420 azimuth: 64 points unwrapped: 63 area fraction: 0.00010 average correlation of connected component: 0.5320 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 94 range: 1500 azimuth: 64 points unwrapped: 85 area fraction: 0.00013 average correlation of connected component: 0.5423 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 100 range: 1596 azimuth: 64 points unwrapped: 10 area fraction: 0.00002 average correlation of connected component: 0.5517 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 308059 area fraction: 0.4867 UNW_RT: phase bootstrap points for next patch: 3724 PATCH: 33 starting line: 4098 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 9.37801E-03 GEN_NEUTRONS: image intensity standard deviation: 0.26511 GEN_NEUTRONS: image intensity neutrons: 0 UNW_RT: number of residues: 1743 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 282862 area fraction: 0.44693 average correlation of connected component: 0.7426 number of points for phase bootstrap: 3724 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 seed: 88 range: 1404 azimuth: 64 points unwrapped: 308 area fraction: 0.00049 average correlation of connected component: 0.5554 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 89 range: 1420 azimuth: 64 points unwrapped: 22 area fraction: 0.00003 average correlation of connected component: 0.5652 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 108 range: 1724 azimuth: 64 points unwrapped: 14 area fraction: 0.00002 average correlation of connected component: 0.5397 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 282862 area fraction: 0.4469 UNW_RT: phase bootstrap points for next patch: 3129 PATCH: 34 starting line: 4226 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 6.51818E-03 GEN_NEUTRONS: image intensity standard deviation: 0.22169 GEN_NEUTRONS: image intensity neutrons: 4 UNW_RT: number of residues: 2398 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 133923 area fraction: 0.21160 average correlation of connected component: 0.8469 number of points for phase bootstrap: 1372 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 seed: 44 range: 700 azimuth: 64 points unwrapped: 60 area fraction: 0.00009 average correlation of connected component: 0.5552 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 46 range: 732 azimuth: 64 points unwrapped: 136884 area fraction: 0.21628 average correlation of connected component: 0.6634 number of points for phase bootstrap: 1757 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 seed: 89 range: 1420 azimuth: 64 points unwrapped: 41 area fraction: 0.00006 average correlation of connected component: 0.5352 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 94 range: 1500 azimuth: 64 points unwrapped: 201 area fraction: 0.00032 average correlation of connected component: 0.5440 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 111 range: 1772 azimuth: 64 points unwrapped: 3 area fraction: 0.00000 average correlation of connected component: 0.5097 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 270807 area fraction: 0.4279 UNW_RT: phase bootstrap points for next patch: 3345 PATCH: 35 starting line: 4354 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 1.57766E-03 GEN_NEUTRONS: image intensity standard deviation: 2.31244E-02 GEN_NEUTRONS: image intensity neutrons: 15 UNW_RT: number of residues: 1769 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 173941 area fraction: 0.27483 average correlation of connected component: 0.8653 number of points for phase bootstrap: 1986 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 seed: 47 range: 748 azimuth: 64 points unwrapped: 3449 area fraction: 0.00545 average correlation of connected component: 0.8002 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 53 range: 844 azimuth: 64 points unwrapped: 114760 area fraction: 0.18133 average correlation of connected component: 0.6642 number of points for phase bootstrap: 1359 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 seed: 86 range: 1372 azimuth: 64 points unwrapped: 71 area fraction: 0.00011 average correlation of connected component: 0.5369 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 88 range: 1404 azimuth: 64 points unwrapped: 467 area fraction: 0.00074 average correlation of connected component: 0.5587 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 90 range: 1436 azimuth: 64 points unwrapped: 12 area fraction: 0.00002 average correlation of connected component: 0.5203 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 92 range: 1468 azimuth: 64 points unwrapped: 59 area fraction: 0.00009 average correlation of connected component: 0.5485 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 106 range: 1692 azimuth: 64 points unwrapped: 15 area fraction: 0.00002 average correlation of connected component: 0.5547 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 288701 area fraction: 0.4562 UNW_RT: phase bootstrap points for next patch: 3572 PATCH: 36 starting line: 4482 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 9.19408E-04 GEN_NEUTRONS: image intensity standard deviation: 3.22098E-03 GEN_NEUTRONS: image intensity neutrons: 724 UNW_RT: number of residues: 1196 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 284078 area fraction: 0.44885 average correlation of connected component: 0.8020 number of points for phase bootstrap: 3553 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 seed: 93 range: 1484 azimuth: 64 points unwrapped: 5 area fraction: 0.00001 average correlation of connected component: 0.5148 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 95 range: 1516 azimuth: 64 points unwrapped: 5 area fraction: 0.00001 average correlation of connected component: 0.5103 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 96 range: 1532 azimuth: 64 points unwrapped: 23 area fraction: 0.00004 average correlation of connected component: 0.5762 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 99 range: 1580 azimuth: 64 points unwrapped: 5 area fraction: 0.00001 average correlation of connected component: 0.5530 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 100 range: 1596 azimuth: 64 points unwrapped: 13 area fraction: 0.00002 average correlation of connected component: 0.5354 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 284078 area fraction: 0.4489 UNW_RT: phase bootstrap points for next patch: 3101 PATCH: 37 starting line: 4610 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 8.91111E-04 GEN_NEUTRONS: image intensity standard deviation: 2.55036E-03 GEN_NEUTRONS: image intensity neutrons: 356 UNW_RT: number of residues: 885 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 294550 area fraction: 0.46540 average correlation of connected component: 0.8071 number of points for phase bootstrap: 3101 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 seed: 92 range: 1468 azimuth: 64 points unwrapped: 304 area fraction: 0.00048 average correlation of connected component: 0.5654 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 96 range: 1532 azimuth: 64 points unwrapped: 10 area fraction: 0.00002 average correlation of connected component: 0.5375 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 120 range: 1916 azimuth: 64 points unwrapped: 20 area fraction: 0.00003 average correlation of connected component: 0.5219 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 294550 area fraction: 0.4654 UNW_RT: phase bootstrap points for next patch: 3684 PATCH: 38 starting line: 4738 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 8.61297E-04 GEN_NEUTRONS: image intensity standard deviation: 2.36060E-03 GEN_NEUTRONS: image intensity neutrons: 400 UNW_RT: number of residues: 987 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 310291 area fraction: 0.49027 average correlation of connected component: 0.8066 number of points for phase bootstrap: 3684 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 seed: 70 range: 1116 azimuth: 64 points unwrapped: 17 area fraction: 0.00003 average correlation of connected component: 0.5352 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 87 range: 1388 azimuth: 64 points unwrapped: 61 area fraction: 0.00010 average correlation of connected component: 0.5372 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 88 range: 1404 azimuth: 64 points unwrapped: 6 area fraction: 0.00001 average correlation of connected component: 0.5060 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 91 range: 1452 azimuth: 64 points unwrapped: 157 area fraction: 0.00025 average correlation of connected component: 0.5627 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 101 range: 1612 azimuth: 64 points unwrapped: 280 area fraction: 0.00044 average correlation of connected component: 0.5519 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 102 range: 1628 azimuth: 64 points unwrapped: 151 area fraction: 0.00024 average correlation of connected component: 0.5573 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 103 range: 1644 azimuth: 64 points unwrapped: 7 area fraction: 0.00001 average correlation of connected component: 0.5358 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 116 range: 1852 azimuth: 64 points unwrapped: 9 area fraction: 0.00001 average correlation of connected component: 0.5366 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 310291 area fraction: 0.4903 UNW_RT: phase bootstrap points for next patch: 3810 PATCH: 39 starting line: 4866 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 8.48515E-04 GEN_NEUTRONS: image intensity standard deviation: 2.31085E-03 GEN_NEUTRONS: image intensity neutrons: 483 UNW_RT: number of residues: 1218 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 318051 area fraction: 0.50253 average correlation of connected component: 0.7982 number of points for phase bootstrap: 3793 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 seed: 86 range: 1372 azimuth: 64 points unwrapped: 111 area fraction: 0.00018 average correlation of connected component: 0.5506 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 87 range: 1388 azimuth: 64 points unwrapped: 4 area fraction: 0.00001 average correlation of connected component: 0.5115 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 97 range: 1548 azimuth: 64 points unwrapped: 4 area fraction: 0.00001 average correlation of connected component: 0.5045 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 100 range: 1596 azimuth: 64 points unwrapped: 13 area fraction: 0.00002 average correlation of connected component: 0.5461 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 102 range: 1628 azimuth: 64 points unwrapped: 65 area fraction: 0.00010 average correlation of connected component: 0.5408 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 318051 area fraction: 0.5025 UNW_RT: phase bootstrap points for next patch: 3876 PATCH: 40 starting line: 4994 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 8.69912E-04 GEN_NEUTRONS: image intensity standard deviation: 2.39724E-03 GEN_NEUTRONS: image intensity neutrons: 642 UNW_RT: number of residues: 1596 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 330406 area fraction: 0.52205 average correlation of connected component: 0.7899 number of points for phase bootstrap: 3876 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 seed: 82 range: 1308 azimuth: 64 points unwrapped: 70 area fraction: 0.00011 average correlation of connected component: 0.5832 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 88 range: 1404 azimuth: 64 points unwrapped: 920 area fraction: 0.00145 average correlation of connected component: 0.5567 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 95 range: 1516 azimuth: 64 points unwrapped: 124 area fraction: 0.00020 average correlation of connected component: 0.5548 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 96 range: 1532 azimuth: 64 points unwrapped: 36 area fraction: 0.00006 average correlation of connected component: 0.5268 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 100 range: 1596 azimuth: 64 points unwrapped: 9 area fraction: 0.00001 average correlation of connected component: 0.5430 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 102 range: 1628 azimuth: 64 points unwrapped: 22 area fraction: 0.00003 average correlation of connected component: 0.5531 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 330406 area fraction: 0.5221 UNW_RT: phase bootstrap points for next patch: 4022 PATCH: 41 starting line: 5122 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 8.75950E-04 GEN_NEUTRONS: image intensity standard deviation: 2.42959E-03 GEN_NEUTRONS: image intensity neutrons: 789 UNW_RT: number of residues: 1506 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 345220 area fraction: 0.54546 average correlation of connected component: 0.7853 number of points for phase bootstrap: 4022 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 seed: 86 range: 1372 azimuth: 64 points unwrapped: 63 area fraction: 0.00010 average correlation of connected component: 0.5579 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 92 range: 1468 azimuth: 64 points unwrapped: 4 area fraction: 0.00001 average correlation of connected component: 0.5246 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 97 range: 1548 azimuth: 64 points unwrapped: 93 area fraction: 0.00015 average correlation of connected component: 0.5341 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 345220 area fraction: 0.5455 UNW_RT: phase bootstrap points for next patch: 4237 PATCH: 42 starting line: 5250 lines read: 213 starting output line: 65 ending output line: 213 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 209 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 9.02111E-04 GEN_NEUTRONS: image intensity standard deviation: 2.51769E-03 GEN_NEUTRONS: image intensity neutrons: 530 UNW_RT: number of residues: 855 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 292506 area fraction: 0.55911 average correlation of connected component: 0.7840 number of points for phase bootstrap: 4237 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 seed: 95 range: 1516 azimuth: 64 points unwrapped: 159 area fraction: 0.00030 average correlation of connected component: 0.5501 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 98 range: 1564 azimuth: 64 points unwrapped: 14 area fraction: 0.00003 average correlation of connected component: 0.5249 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 99 range: 1580 azimuth: 64 points unwrapped: 7 area fraction: 0.00001 average correlation of connected component: 0.5059 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 104 range: 1660 azimuth: 64 points unwrapped: 57 area fraction: 0.00011 average correlation of connected component: 0.5487 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 108 range: 1724 azimuth: 64 points unwrapped: 2 area fraction: 0.00000 average correlation of connected component: 0.5151 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 109 range: 1740 azimuth: 64 points unwrapped: 17 area fraction: 0.00003 average correlation of connected component: 0.5389 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 119 range: 1900 azimuth: 64 points unwrapped: 3 area fraction: 0.00001 average correlation of connected component: 0.5237 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 UNW_RT: points unwrapped: 292506 area fraction: 0.5591 UNW_RT: phase bootstrap points for next patch: 4238 *** Normal Completion *** enter I/P file name (unw_phase_mag) /export/air36/airops/1400/ts1400_c.unw_phase_mag enter I/P file name for hdr (amp_file) /export/air36/airops/1400/ts1400_c.amp enter O/P file name for magitude file: /export/air36/airops/1400/ts1400_c.unw_vvvv enter O/P file name for phase file: /export/air36/airops/1400/ts1400_c.unw_intf Reading new header..STARTING at 0 r_new_hdr r_param_hdr ns nl offset : 2560 5461 20480 10921 111861760 55930880 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Phase Screen Generation Program ***** ***** ***** ***** This program calculates ***** ***** a phase screen ***** ***** using flat terrain area ***** ***** ***** ************************************************** Enter the name of the interferogram file. Enter the name of the raw lines file. Enter the name of the output averaged lines file. Enter the file with the global line Without the extension. Please enter the name of the sensor file. /export/air32/airops/1400/sensor.vh96c_pr Number of lines in mocomp file: 100000 Transmit leverarm: 2.490000 1.213828 1.599975 Receive levararm: 2.460000 0.1767171 -0.6599750 Enter the motion compensation file name. Enter the name of the angle file. Enter the name of the output phase screen file Is this pingpong (long baseline) data (def=y)? Reading unwrapped phase Reading mask Ave phase (rad), standard dev: -0.8528171 1.312694 Total number of pixels averaged: 15935726 Phase Adjustment in cycles: -0.1357301 Multi-looking lines 5461 read lines.dat: 1 92160 read lines.dat: 1001 184412160 read lines.dat: 2001 368732160 read lines.dat: 3001 553052160 read lines.dat: 4001 737372160 read lines.dat: 5001 921692160 Cosine angle calculation Writing cos(angle) out. ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** DEM Generation Program ***** ***** ***** ***** This program creates DEM from ***** ***** unwrapped phase file. ***** ***** ***** ************************************************** Enter the heoght bias: 0.0000000E+00 Enter the phase bias (# of 2pi) : 0.0000000E+00 Enter the name of the unwrapped phase file. ns np: 2560 5461 ***del_cp del_hp: 0.0000000E+00 0.0000000E+00 Enter the name of the raw lines file. Enter the file with the global line Please enter the name of the sensor file. sensor file:/export/air32/airops/1400/sensor.vh96c_pr Transmit leverarm: 2.490000 1.213828 1.599975 Receive levararm: 2.460000 0.1767171 -0.6599750 1st &total # lines: 1 100000 How many transmitting antennas for this combination? ping - pong mode long baseline = 2; 1 otherwise. Enter the phase screen filename. Enter the name of the peg point file. peg point file: /export/air36/airops/1400/ts1400_c.peg peglat,peglon,peghdg 4.922175 114.9847 54.56683 peg Ra: 4.922175 114.9847 54.56683 6363984.500000000 Enter the motion compensation file name. motion file: /export/air36/airops/1400/ts1400_c.mocomph xv0,h_p c s xv: 1 8446.469 8446.468 -54.58189 216.8281 0.0000000E+00 1)xr yr zr: 2.470708 0.1921337 -0.6140722 -25673.85 -54.58067 8446.468 1)lat lon r_h: 4.787146 114.7965 8446.468 xv0 ,h_p c s xv: 100 8446.469 8446.477 -54.52778 216.8281 8.7469108E-03 100)xr yr zr: 2.470689 0.1924335 -0.6140547 -25655.07 -54.48157 8446.477 100)lat lon r_h: 4.787245 114.7966 8446.477 Enter the interf. calibration file name. interf. cal: /u/sardine0/airops/OPS/data_proc/intcal0.dat HDDT:96068 ==xv0 h_a== 8446.469 8367.900 78.56836 ==r0 bw wavl dx dr== 9040.540 40.00000 5.6699999E-02 0.5144000 3.331000 ==phbt phtp calf==band -50.80000 73.10000 43.59380 C 5.6699999E-02 40.00000 C-band 2 3 blocks , lines: 13 5 hddt hddt1 hddt2: 96068 96021 96999 hddt ash cln cph0: 96068 0.4820000 0.0000000E+00 -51.79000 6 ==ph0 cal-dph cph0: 72.10999 -123.9000 -51.79000 Enter the name of the DEM file. Enter the name of the s,c file. CP write NewHead: 0 1000 CP write ParHead: 10240 5000 Ambiguity number = 0.0000000E+00 Do I use this (y/n) Enter the ambiguity to use. Enter the flag for calibration output yes=1: 0 Reading unwrapped phase 5461 3 Reading mask Reading line files Translating the phases to height. ==look_agl==: 1 2600 0.3884398 xv ha cos(p): 0.2507478 0.5200275 0.9998338 xv0 maphgt rf: 8446.469 78.56836 9041.480 **Bliine(100) dy dz:** 1.020757 2.267511 plane sch 0.0000000E+00 0.0000000E+00 0.0000000E+00 ==look_agl==: 2560 2756 1.074234 xv ha cos(p): 0.2270977 0.5197248 0.9998356 xv0 maphgt rf: 8446.469 78.56836 17564.63 **Bliine(100) dy dz:** 1.020970 2.267414 plane sch 0.0000000E+00 0.0000000E+00 0.0000000E+00 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 Along-track offset = -25115.53 Writing map out. cal_cp lines: 2560 5461 30720 file cal_cp.dat: 2560 5461 30720 ******************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Scattering area and Incidence Angle ***** ***** Calculations ***** ***** ***** ***** This program usdes the DEM to calculate the ***** ***** size of the scattering area to be used in ***** ***** data calibration. It also calculates the ***** ***** local incidence angle for each pixel. ***** ***** ***** ******************************************************** Enter the name of the dem input file. Enter the name of the correlation file. What is the lowest correlation to use? Enter the name of the scattering area file. Enter the name of the incidence angle file. Enter the global reference line filename headers_sgi: 3 5000 10240 10240 headers_sgi: 3 5000 10240 2560 Reading height information 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 Calculating slopes... Range direction.. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 Azimuth direction.. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 Incidence angle and scattering area.. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 Filtering the results. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 Writing files out. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 ANTENNA_DIR:/u/sardine0/airops/OPS/data_proc/ **************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Single Channel Radiometric Correction ***** ***** ***** ***** This program performs the radiometric ***** ***** correction on single channel data. It ***** ***** is intended to replace the old synoptic ***** ***** data. When topography is available, ***** ***** it is used when corrections are ***** ***** performed. ***** ***** ***** **************************************************** Enter the name of the input file. intf lun: 3 boresight: 50.00000 inunitvvvv lun: 3 Enter the name of output file. Select the polarization combination: (1) HH (2) HV (3) VH (4) VV Is this TOPSAR data? parhead(296:300):96068 HDDT ha: 96068 8367.900 Enter the name of the calibration file. attenuation: 11.00000 11.00000 11.00000 11.00000 +base diff: -0.8500000 0.0000000E+00 -0.8500000 0.0000000E+00 C-band dhh dhv dhh_l dcal_l: 90.84000 90.60000 150.6050 79.60000 topsar C-band: gain caltone: 90.84000 90.60000 -192.4400 ipol ahh,ahv,avh,AVV: 4 -11.85000 -11.00000 -11.85000 -192.4400 C-band ANT: /u/sardine0/airops/OPS/data_proc/TOPSAR_C.ANT Enter the name of the motion compensation file. motion lun: 5 How many lines of raw data? cal vv gain, rosa cal: 90.00000 -192.4400 Input ground spacing ? cross-track ground spacing: 10.00000 Radiometric Correction Vectors file: /export/air36/airops/1400/ts1400_c.rad_vec vec_len Rn ha y0out dyout: 9616 17564.57 8367.900 3421.930 10.00000 3.331000 NSAMP vec_len rg_len nbytes: 2560 1202 9616 Enter the file with the data lines per pixel. lines lun: 6 Is there a DEM available? Enter the name of the DEM file. dem lun: 7 /export/air36/airops/1400/ts1400_c.dem Byte offset to DEM data: 0 20480 Enter the name of the global reference file /export/air36/airops/1400/ts1400_c.glb Enter the scattering area file name. sca lun: 8 /export/air36/airops/1400/ts1400_c.sca Now doing the actual calibration 5461 10240 20480 1 5461 251 5461 501 5461 751 5461 1001 5461 1251 5461 1501 5461 1751 5461 2001 5461 2251 5461 2501 5461 2751 5461 3001 5461 3251 5461 3501 5461 3751 5461 4001 5461 4251 5461 4501 5461 4751 5461 5001 5461 5251 5461 peg points: 4.922175 114.9847 54.56683 4.922175 114.9847 54.56683 BRUNEI-054-2 NAME OF HEADER PARAMETER SITE NAME Brunei-054-2 LATITUDE OF SITE (DEGREES) 4.9300 LONGITUDE OF SITE (DEGREES) 114.8500 IMAGE TITLE BRUNEI-054-2 HDDT ID 96068 FREQUENCY C POLARIZATION VV CCT TYPE TS CCT ID 1400 ARCHIVAL FLAG 0 TRANSFER START FRAMECOUNT 18822709 PROCESSOR START FRAMECOUNT 18822709 LATITUDE AT START OF SCENE (DEGREES) 4.8131 LONGITUDE AT START OF SCENE (DEGREES) 114.7795 LATITUDE AT END OF SCENE (DEGREES) 5.1998 LONGITUDE AT END OF SCENE (DEGREES) 115.3687 APPROXIMATE STARTING HDDT FOOTAGE 409757 DATE OF ACQUISITION (GMT) 25-NOV-96 TIME OF ACQUISITION: GMT DAY 0 TIME OF ACQUISITION: SECONDS IN DAY 21590.0 RECORD WINDOW DURATION (MICROSECONDS) 65 FREQUENCIES COLLECTED LC DIGITAL DELAY (MICROSECONDS) 93.0 CHIRP DELAY (MICROSECONDS) 32.5 PROCESSOR DELAY (RAW SAMPLES) 0 PRF AT START OF TRANSFER (HZ) 842.6 SAMPLING RATE (MHZ) 90.00 CENTER FREQUENCY AT VIDEO (MHZ) 22.50 CHIRP BANDWIDTH (MHZ) 40.00 TYPE OF CHIRP USED (ANALOG OR DIGITAL) ANALOG PULSE LENGTH (MICROSECONDS) 10.00 PROCESSOR WAVELENGTH (METERS) 0.05670 BAROMETRIC ALTITUDE (METERS) 7932.5 RADAR ALTITUDE (METERS) 8367.9 ALTITUDE USED IN PROCESSOR (METERS) 8367.9 ELEVATION OF INVESTIGATOR SITE (METERS) 15 AIRCRAFT TRACK ANGLE (DEGREES) 54.6 AIRCRAFT YAW ANGLE (DEGREES) -0.2 AIRCRAFT PITCH ANGLE (DEGREES) 1.0 AIRCRAFT ROLL ANGLE (DEGREES) 0.5 PROCESSOR YAW ANGLE USED (DEGREES) VARIABLE PROCESSOR PITCH ANGLE USED (DEGREES) VARIABLE PROCESSOR ROLL ANGLE USED (DEGREES) VARIABLE NOMINAL PRF RATIO (HZ/KNOT) 1.000 NOMINAL PRF RATIO (1/METERS) 1.944 PRF RATIO CORRECTION FACTOR USED 1.0000 RANGE FFT SIZE 8192 AZIMUTH FFT SIZE 4096 FRAME SIZE (RANGE LINES) 2208 NUMBER OF FRAMES PROCESSED 65 RANGE ALIGNMENT DELAY USED,HH (MICROSEC) 0.0319 RANGE ALIGNMENT DELAY USED,HV (MICROSEC) 0.0000 RANGE ALIGNMENT DELAY USED,VH (MICROSEC) 0.0000 RANGE ALIGNMENT DELAY USED,VV (MICROSEC) 0.0000 NEAR SLANT RANGE (METERS) 9040.54 FAR SLANT RANGE (METERS) 17564.64 NEAR LOOK ANGLE (DEGREES) 22.2 FAR LOOK ANGLE (DEGEES) 61.5 NUMBER OF LOOKS PROCESSED IN AZIMUTH 18 NUMBER OF LOOKS PROCESSED IN RANGE 1 RANGE WEIGHTING USED COS2 RANGE WEIGHTING COEFFICIENT 0.100 AZIMUTH WEIGHTING USED NONE AZIMUTH WEIGHTING COEFFICIENT 1.000 PERCENT OF PRF BANDWIDTH PROCESSED 42.9 DESKEW FLAG (1=DESKEWED, 2=NOT DESKEWED) 1 SLANT RANGE SAMPLE SPACING (METERS) 3.3310 NOMINAL SLANT RANGE RESOLUTION (METERS) 5.5 AZIMUTH SAMPLE SPACING (METERS) 9.2600 NOMINAL AZIMUTH RESOLUTION (METERS) 21.6 NUMBER OF INTERPOLATION PNTS USED IN RMC 8 AZIMUTH REFERENCE SIZE/LOOK, NEAR RANGE VARIABLE AZIMUTH REFERENCE SIZE/LOOK, FAR RANGE VARIABLE IMAGE CENTER LATITUDE (DEGREES) 5.0380 IMAGE CENTER LONGITUDE (DEGREES) 115.0519 CALTONE VIDEO FREQUENCY 43.5938 CALTONE POWER MEASURED, DB, HH 88.5 CALTONE POWER MEASURED, DB, HV 90.0 CALTONE POWER MEASURED, DB, VH 88.5 CALTONE POWER MEASURED, DB, VV 90.0 CALIBRATION FACTOR APPLIED, DB, HH 0 CALIBRATION FACTOR APPLIED, DB, HV 0 CALIBRATION FACTOR APPLIED, DB, VH 0 CALIBRATION FACTOR APPLIED, DB, VV -102 MEASURED AND CORRECTED HV/VH POWER RATIO 1.000 MEASURED AND CORRECTED HV/VH PHASE (DEG) 0.0 CALTONE PHASE MEASURED, DEG, HH -50.8 CALTONE PHASE MEASURED, DEG, HV 73.1 CALTONE PHASE MEASURED, DEG, VH -51.1 CALTONE PHASE MEASURED, DEG, VV 73.2 GENERAL SCALE FACTOR 0.0 GPS ALTITUDE, M 8402.0 LATITUDE OF PEG POINT 4.9221749 LONGITUDE OF PEG POINT 114.9847488 HEADING AT PEG POINT 54.5668335 P-BAND RFI FILTER APPLIED FLAG NO P-BAND RFI FILTER ALGORITHM ALONG-TRACK OFFSET S0 (M) 8402.00 CROSS-TRACK OFFSET C0 (M) 8402.00 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Projection Program ***** ***** ***** ***** This program projects from slant ***** ***** range to ground range. ***** ***** ***** ***** It uses an array of values produced ***** ***** by the GENLOC program to perform a ***** ***** nearest neighbor interpolation. ***** ***** ***** ************************************************** Enter the name of the input file. Projecting real*4 data. Projecting dem? Enter the name of the s,c file. Enter the range and azimuth pixel spacing. Enter the output file name. prf bw len: 842.6000 40.00000 10.00000 proj4 nsampr 1202 13041.07 8367.900 3421.930 10.00000 9040.540 # header output no1 no2 no3: 4 1 2 1 Byte offset to cali header out: 0 Byte offset to calheader in: 0 Byte offset to dem header 14424 Byte offset to first data line: 19232 Peg point parameters: 4.922175 114.9847 54.56683 Offset Parameters: s0 (m) = -25115.50 c0 (m) = 3421.930 Reading data. 10240 1202 5461 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Initializing output array. Resampling the data: one pass (DEM version). + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Normalizing feathers + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 + 6400 + 6656 + 6912 + 7168 + 7424 + 7680 + 7936 + 8192 + 8448 + 8704 + 8960 + 9216 + 9472 + 9728 + 9984 +10240 +10496 +10752 +11008 +11264 +11520 +11776 +12032 +12288 +12544 +12800 +13056 +13312 +13568 +13824 +14080 +14336 +14592 +14848 +15104 +15360 Filling in 1 and 2 pixel holes. Number of pixels without data = 2158389 1202 5056 -10000.00 Number of holes filled by WAYNE (real*4) = 0 Neighborhood Pixel Distance Used = 0 Writing map out. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Projection Program ***** ***** ***** ***** This program projects from slant ***** ***** range to ground range. ***** ***** ***** ***** It uses an array of values produced ***** ***** by the GENLOC program to perform a ***** ***** nearest neighbor interpolation. ***** ***** ***** ************************************************** Enter the name of the input file. Projecting real*4 data. Projecting dem? Enter the name of the s,c file. Enter the range and azimuth pixel spacing. Enter the output file name. prf bw len: 842.6000 40.00000 10.00000 nsampr O/p: 1202 13041.07 17564.57 2560 ha,y0out,dyout,rspace: 8367.900 3421.930 10.00000 3.331000 # header output no1 no2 no3: 3 1 2 0 Byte offset to cali header out: 0 Byte offset to calheader in: 0 Byte offset to dem header 0 Byte offset to first data line: 14424 Reading data. 10240 1202 5461 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Initializing output array. Near Range = 3421.930 Resampling the data: first pass. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Resampling the data: second pass. 2560 5461 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Normalizing feathers + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 + 6400 + 6656 + 6912 + 7168 + 7424 + 7680 + 7936 + 8192 + 8448 + 8704 + 8960 + 9216 + 9472 + 9728 + 9984 +10240 +10496 +10752 +11008 +11264 +11520 +11776 +12032 +12288 +12544 +12800 +13056 +13312 +13568 +13824 +14080 +14336 +14592 +14848 +15104 +15360 Filling in 1 and 2 pixel holes. Number of pixels without data = 2161890 1202 5056 0.0000000E+00 Number of holes filled by WAYNE (real*4) = 0 Neighborhood Pixel Distance Used = 0 Writing map out. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Projection Program ***** ***** ***** ***** This program projects from slant ***** ***** range to ground range. ***** ***** ***** ***** It uses an array of values produced ***** ***** by the GENLOC program to perform a ***** ***** nearest neighbor interpolation. ***** ***** ***** ************************************************** Enter the name of the input file. Projecting real*4 data. Projecting dem? Enter the name of the s,c file. Enter the range and azimuth pixel spacing. Enter the output file name. prf bw len: 842.6000 40.00000 10.00000 nsampr O/p: 1202 13041.07 17564.57 2560 ha,y0out,dyout,rspace: 8367.900 3421.930 10.00000 3.331000 # header output no1 no2 no3: 6 1 2 3 Byte offset to cali header out: 14424 Byte offset to calheader in: 20480 Byte offset to dem header 0 Byte offset to first data line: 28848 headers_sgi: 3 9616 30720 19232 Reading data. 10240 1202 5461 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Initializing output array. Near Range = 3421.930 Resampling the data: first pass. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Resampling the data: second pass. 2560 5461 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Normalizing feathers + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 + 6400 + 6656 + 6912 + 7168 + 7424 + 7680 + 7936 + 8192 + 8448 + 8704 + 8960 + 9216 + 9472 + 9728 + 9984 +10240 +10496 +10752 +11008 +11264 +11520 +11776 +12032 +12288 +12544 +12800 +13056 +13312 +13568 +13824 +14080 +14336 +14592 +14848 +15104 +15360 Filling in 1 and 2 pixel holes. Number of pixels without data = 2162050 1202 5056 0.0000000E+00 Number of holes filled by WAYNE (real*4) = 0 Neighborhood Pixel Distance Used = 0 Writing map out. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Projection Program ***** ***** ***** ***** This program projects from slant ***** ***** range to ground range. ***** ***** ***** ***** It uses an array of values produced ***** ***** by the GENLOC program to perform a ***** ***** nearest neighbor interpolation. ***** ***** ***** ************************************************** Enter the name of the input file. Projecting BYTE data. Projecting dem? Enter the name of the s,c file. Enter the range and azimuth pixel spacing. Enter the output file name. prf bw len: 842.6000 40.00000 10.00000 nsampr O/p: 1202 13041.07 8367.900 3421.930 10.00000 Number of header no123: 6 1 5 0 Byte offset to calibration header: 0 Byte offset to dem header: 0 Byte offset to first data line: 7212 Reading data. 2560 1202 5461 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Initializing output array. Near Range = 3421.930 Resampling the data: first pass. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Resampling the data: second pass--fill only. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Number of holes filled by WAYNE (byte) = 0 Neighborhood Pixel Distance Used = 0 Writing map out. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Projection Program ***** ***** ***** ***** This program projects from slant ***** ***** range to ground range. ***** ***** ***** ***** It uses an array of values produced ***** ***** by the GENLOC program to perform a ***** ***** nearest neighbor interpolation. ***** ***** ***** ************************************************** Enter the name of the input file. Projecting BYTE data. Projecting dem? Enter the name of the s,c file. Enter the range and azimuth pixel spacing. Enter the output file name. prf bw len: 842.6000 40.00000 10.00000 nsampr O/p: 1202 13041.07 8367.900 3421.930 10.00000 Number of header no123: 6 1 5 0 Byte offset to calibration header: 0 Byte offset to dem header: 0 Byte offset to first data line: 7212 Reading data. 2560 1202 5461 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Initializing output array. Near Range = 3421.930 Resampling the data: first pass. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Resampling the data: second pass--fill only. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Number of holes filled by WAYNE (byte) = 0 Neighborhood Pixel Distance Used = 0 Writing map out. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 frequency that is currently being worked on Enter filename (c band demgr): Enter filename (l band demgr): Enter filename (c band vvgr): Enter filename (l band vvgr): Enter filename (c band incgr): Enter filename (l band incgr): Enter filename (c band corgr): Enter filename (l band corgr): working on c band now working on dem load values from dem & update param header working on vv load values update param header only from passing in parameters working on inc load values update param header only from passing in parameters working on cor load values update param header only from passing in parameters ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** DEM Format Program ***** ***** ***** ***** This program outputs heights in ***** ***** 16 bit numbers. ***** ***** ***** ************************************************** Enter the name of the file to be formatted. ibytesdemheadin: 14424 Reading the data .. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 Enter the output file name. ibytesdemheadin: 14424 Finding the maximum and minimum heights.. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 Minimum, Maximum heights: 17.30094 209.0237 Suggest we use 1.1701830E-02 as increment. Do you agree? Changing to INTEGER*2 format... 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** CVV Format Program ***** ***** ***** ***** This program outputs C-band RCS in ***** ***** 16 bit numbers. ***** ***** ***** ************************************************** Enter the name of the file to be formatted. ns np offset: 1202 5056 28848 ns np offset: 1202 5056 28848 ibytesvectorin nvector: 19232 9616 Reading the data .. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 Finding the average RCS.. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 Average RCS (dB) = -28.96884 Enter the output file name. cal offset: 9616 1 3 data offset: 21636 1 3 1 4 9616 Changing to INTEGER*2 format... 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 *** Convert real*4 to Byte image *** Enter data file to be converted: /export/air36/airops/1400/ts1400_c.vvgr channel= 3 Reading the header. New header present. Record length = 4808 Number of samples per line = 1202 Number of lines in image = 5056 Offset to data = 28848 Status = 0 New header is OK nsamp,nlines,ioff 1202 5056 28848 Enter data file for saving byte output: 33 0.9943795 0.0000000E+00 65 0.9943795 0.0000000E+00 97 0.9943795 0.0000000E+00 129 0.9943795 0.0000000E+00 161 0.9943795 0.0000000E+00 193 0.9943795 0.0000000E+00 225 0.9943795 0.0000000E+00 257 0.9943795 0.0000000E+00 289 0.9943795 0.0000000E+00 321 0.9943795 0.0000000E+00 353 0.9943795 0.0000000E+00 385 0.9943795 0.0000000E+00 417 0.9943795 0.0000000E+00 449 0.9943795 0.0000000E+00 481 0.9943795 0.0000000E+00 513 0.9943795 0.0000000E+00 545 0.9943795 0.0000000E+00 577 0.9943795 0.0000000E+00 609 0.9943795 0.0000000E+00 641 0.9943795 0.0000000E+00 673 0.9943795 0.0000000E+00 705 0.9943795 0.0000000E+00 737 0.9943795 0.0000000E+00 769 0.9943795 0.0000000E+00 801 0.9943795 0.0000000E+00 833 0.9943795 0.0000000E+00 865 0.9943795 0.0000000E+00 897 0.9943795 0.0000000E+00 929 0.9943795 0.0000000E+00 961 0.9943795 0.0000000E+00 993 0.9943795 0.0000000E+00 1025 0.9943795 0.0000000E+00 1057 0.9943795 0.0000000E+00 1089 0.9943795 0.0000000E+00 1121 0.9943795 0.0000000E+00 1153 0.9943795 0.0000000E+00 1185 0.9943795 0.0000000E+00 1217 0.9943795 0.0000000E+00 1249 0.9943795 0.0000000E+00 1281 0.9943795 0.0000000E+00 1313 1.058598 0.0000000E+00 1345 1.074258 0.0000000E+00 1377 1.074258 0.0000000E+00 1409 1.074258 0.0000000E+00 1441 1.074258 0.0000000E+00 1473 1.074258 0.0000000E+00 1505 1.074258 0.0000000E+00 1537 2.361877 0.0000000E+00 1569 2.361877 0.0000000E+00 1601 2.950215 0.0000000E+00 1633 2.950215 0.0000000E+00 1665 2.950215 0.0000000E+00 1697 2.950215 0.0000000E+00 1729 2.950215 0.0000000E+00 1761 2.950215 0.0000000E+00 1793 2.950215 0.0000000E+00 1825 2.950215 0.0000000E+00 1857 2.950215 0.0000000E+00 1889 2.950215 0.0000000E+00 1921 2.950215 0.0000000E+00 1953 2.950215 0.0000000E+00 1985 2.950215 0.0000000E+00 2017 2.950215 0.0000000E+00 2049 2.950215 0.0000000E+00 2081 2.950215 0.0000000E+00 2113 2.950215 0.0000000E+00 2145 2.950215 0.0000000E+00 2177 2.950215 0.0000000E+00 2209 2.950215 0.0000000E+00 2241 2.950215 0.0000000E+00 2273 2.950215 0.0000000E+00 2305 2.950215 0.0000000E+00 2337 2.950215 0.0000000E+00 2369 2.950215 0.0000000E+00 2401 2.950215 0.0000000E+00 2433 2.950215 0.0000000E+00 2465 2.950215 0.0000000E+00 2497 2.950215 0.0000000E+00 2529 2.950215 0.0000000E+00 2561 2.950215 0.0000000E+00 2593 2.950215 0.0000000E+00 2625 2.950215 0.0000000E+00 2657 2.950215 0.0000000E+00 2689 2.950215 0.0000000E+00 2721 2.950215 0.0000000E+00 2753 2.950215 0.0000000E+00 2785 2.950215 0.0000000E+00 2817 2.950215 0.0000000E+00 2849 2.950215 0.0000000E+00 2881 2.950215 0.0000000E+00 2913 2.950215 0.0000000E+00 2945 2.950215 0.0000000E+00 2977 2.950215 0.0000000E+00 3009 2.950215 0.0000000E+00 3041 2.950215 0.0000000E+00 3073 2.950215 0.0000000E+00 3105 2.950215 0.0000000E+00 3137 2.950215 0.0000000E+00 3169 2.950215 0.0000000E+00 3201 2.950215 0.0000000E+00 3233 2.950215 0.0000000E+00 3265 2.950215 0.0000000E+00 3297 2.950215 0.0000000E+00 3329 2.950215 0.0000000E+00 3361 2.950215 0.0000000E+00 3393 2.950215 0.0000000E+00 3425 2.950215 0.0000000E+00 3457 2.950215 0.0000000E+00 3489 2.950215 0.0000000E+00 3521 2.950215 0.0000000E+00 3553 2.950215 0.0000000E+00 3585 2.950215 0.0000000E+00 3617 2.950215 0.0000000E+00 3649 2.950215 0.0000000E+00 3681 2.950215 0.0000000E+00 3713 2.950215 0.0000000E+00 3745 2.950215 0.0000000E+00 3777 2.950215 0.0000000E+00 3809 2.950215 0.0000000E+00 3841 2.950215 0.0000000E+00 3873 2.950215 0.0000000E+00 3905 2.950215 0.0000000E+00 3937 2.950215 0.0000000E+00 3969 2.950215 0.0000000E+00 4001 2.950215 0.0000000E+00 4033 2.950215 0.0000000E+00 4065 2.950215 0.0000000E+00 4097 2.950215 0.0000000E+00 4129 2.950215 0.0000000E+00 4161 2.950215 0.0000000E+00 4193 2.950215 0.0000000E+00 4225 2.950215 0.0000000E+00 4257 2.950215 0.0000000E+00 4289 2.950215 0.0000000E+00 4321 2.950215 0.0000000E+00 4353 2.950215 0.0000000E+00 4385 2.950215 0.0000000E+00 4417 2.950215 0.0000000E+00 4449 2.950215 0.0000000E+00 4481 2.950215 0.0000000E+00 4513 2.950215 0.0000000E+00 4545 2.950215 0.0000000E+00 4577 2.950215 0.0000000E+00 4609 2.950215 0.0000000E+00 4641 2.950215 0.0000000E+00 4673 2.950215 0.0000000E+00 4705 2.950215 0.0000000E+00 4737 2.950215 0.0000000E+00 4769 2.950215 0.0000000E+00 4801 2.950215 0.0000000E+00 4833 2.950215 0.0000000E+00 4865 2.950215 0.0000000E+00 4897 2.950215 0.0000000E+00 4929 2.950215 0.0000000E+00 4961 2.950215 0.0000000E+00 4993 2.950215 0.0000000E+00 5025 2.950215 0.0000000E+00 Min, Max r_scale = 0.0000000E+00 2.950215 0.5000000 Do you want to change these variables? yes=1 0 50 100 150 200 250 300 350 400 450 500 550 600 650 700 750 800 850 900 950 1000 1050 1100 1150 1200 1250 1300 1350 1400 1450 1500 1550 1600 1650 1700 1750 1800 1850 1900 1950 2000 2050 2100 2150 2200 2250 2300 2350 2400 2450 2500 2550 2600 2650 2700 2750 2800 2850 2900 2950 3000 3050 3100 3150 3200 3250 3300 3350 3400 3450 3500 3550 3600 3650 3700 3750 3800 3850 3900 3950 4000 4050 4100 4150 4200 4250 4300 4350 4400 4450 4500 4550 4600 4650 4700 4750 4800 4850 4900 4950 5000 5050 done Fri Nov 8 19:12:25 PST 2002 Fri Nov 8 19:12:25 PST 2002 ***************************************************** * * * AIRSAR INTEGRATED PROCESSOR * * * * HEADER PREPROCESSOR * * * * This program reads the raw data header and cal- * * culates the parameters necessary for the motion * * compensation in the integrated processor. * * * ***************************************************** Enter command file name ==> Opening command file... CRD-xdealy: 0.2380000 Reading and decoding header file... fsize_max min: 11907 11863 fsize_max min/ 2: 5954 5932 Finished reading the header file... Data acquired after 1994. J2000 time = -97839530.15473801 GPS J2000 time = -97839532.12479001 Message 1 Time = -97839530.15473801 INS Time = 1.704192000000000 Roll angle = 0.4888916015625000 Pitch angle = 1.038208007812500 Heading angle = 54.35485839843750 Long. acc = 0.1700000000000000 Lat. acc = -1.0000000000000000E-02 Norm. acc = -9.650000000000000 East vel. = 176.2770000000000 North vel. = 126.2550000000000 Up vel. = 0.1210000000000000 True Grnd Spd = 216.8125000000000 Altitude = 8446.000000000000 Latitude = 4.787130374461412 Longitude = 114.7964306641370 Message 6 Week = 881 GPS Time = -97839532.12479001 GDOP = 2.093750000000000 PDOP = 1.937500000000000 HDOP = 1.093750000000000 VDOP = 1.593750000000000 TDOP = 0.7968750000000000 Spherical Acc = 11.00000000000000 Time Acc = 8.0000000000000005E-09 GPS Lat = 4.784968094021508 GPS Lon = 114.7934315981008 GPS Alt = 8449.000000000000 GPS East Vel = 176.2400000000000 GPS North Vel = 126.3000000000000 GPS Up Vel = -0.1100000000000000 Message 3 Del INU Time = 0.7441920000000000 Del vel east = -3.4179687500000000E-03 Del vel north = 1.0253906250000000E-02 Del vel up = 6.4941406250000000E-02 Del pos east = 0.6250000000000000 Del pos north = 0.5000000000000000 Del pos up = -0.1250000000000000 Message 4 Sigma Pos x = 1.250000000000000 Sigma Pos y = 1.500000000000000 Sigma Pos z = 2.000000000000000 Sigma Vel x = 7.0800781250000000E-03 Sigma Vel y = 8.5449218750000000E-03 Sigma Vel z = 1.0009765625000000E-02 Message 7 Satellites used = 10 26 23 30 9 10 Retrived Honeywell data... 11880 Operator Comments: - - - - - - - - - - - - - - - - - - - - - PV RFI near urban areas, but no RX overloading; rebooted HP748i after DIR-1000 interface lockup; getting bumpy at end of run; IG I is OKng Lou, Leon Maldonado, Michael Kobrick, Timothy William Miller van Zyl, David Ryan Haub, Lori Ann Carrico, Timothy W. - - - - - - - - - - - - - - - - - - - - - enter filename for headers (entire path): Which frequency? (C,L or P) number of channels transferred: number of bytes/chan: total # of lines transferred: window delay: enter the .par filename : enter first header to read: enter year data taken: enter HDDT ID for raw data: SONY tapeid: 596068 96068 enter HDDT footage number <0> : enter the title of image: enter the CCT ID: cct: 1400 prod ID1:14001400 prod ID:1400 SONY tapeid: 96068 96068 tapeid:9606896068 tapeid par:96068 prod ID:1400 chrp_delay from subcomm header tapeID: 32.45000 96068 New DCG: chrp_delay is 32.5 usec 32.45000 chrp_delay is 32.5 usec 96068 32.45000 Is this 98039< x >98001 for P-bnad?: 96068 1998 P-band fc? 22.50000 idelay,chrp_delay,xdelay 93 32.45000 0.2380000 near range delr windela: 9040.541 3.331027 0 f_cal 43.59375 1216.406 Parameter header created .. >> Record # : 128 >> GPS Stuff = 1.80 6 9 1 24 26 17 digdelay startrng(us):93 93.00000000000000 startrng(m) elecdelay: 9863.173249999998 2.7200000000000000E-05 >> start range = 9863.1732 >> ccal_amp = -90.39999 >> ccal_atn = 32 >> ratn_phh = 0 14 0 >> ratn_phv = 0 8 0 >> ratn_pvh = 0 8 0 >> ratn_pvv = 0 14 0 >> ratn_lhh = 0 8 0 >> ratn_lhv = 0 8 0 >> ratn_lvh = 0 8 0 >> ratn_lvv = 0 8 0 >> ratn_chh = 0 8 10 >> ratn_chv = 0 8 10 >> ratn_cvh = 0 8 10 >> ratn_cvv = 0 8 10 >> rcvr_chh = >> rcvr_chv = >> rcvr_cvh = >> rcvr_cvv = >> rcvr_cpz = 0.0 >> rcvr_cbw = 1 >> chrp_bnd = 40 >> chrp_len = 10 >> chrp_mod = DN Done decoding data from header array... Data collected on ==> 00-JAN-1996 Starting and end GPS times for SAR data -126338399.2900 -126338162.5340 Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000012 0 hdg 54.32401 53.90442 54.75037 0.1839573 0 trc 54.50528 54.36068 54.69053 0.0875469 0 tgs 216.44132 216.10938 216.82813 0.2168183 0 roll 0.30822 -0.23621 0.72510 0.1837461 0 pitch 1.07499 0.93933 1.30188 0.0565628 0 lati 4.92007 4.78497 5.05509 0.0778559 0 loni 114.98201 114.79343 115.17108 0.1088849 0 latd 4.91742 4.78333 5.05167 0.0779833 0 lond 114.97929 114.79167 115.16833 0.1088942 0 balt 7932.54489 7929.37200 7934.85840 0.9798892 0 ralt 8367.86036 8254.28880 8399.67840 40.1363318 0 dpth 0.99341 0.90000 1.90000 0.0665699 0 droll 0.23431 -0.30000 0.60000 0.1833685 0 thd 54.23086 53.80000 54.60000 0.1842948 0 dad 0.46901 0.20000 0.80000 0.1405592 0 latg 4.92181 4.78635 5.05648 0.0779550 7 long 114.67821 46.71303 115.17265 4.5613505 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8401.98819 8379.99023 8411.06934 6.7947893 7 phh_aten 14.00000 14.00000 14.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 8.00000 8.00000 8.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 8.00000 8.00000 8.00000 0.0000000 0 lhv_aten 8.00000 8.00000 8.00000 0.0000000 0 lvh_aten 8.00000 8.00000 8.00000 0.0000000 0 lvv_aten 8.00000 8.00000 8.00000 0.0000000 0 chh_aten 18.00000 18.00000 18.00000 0.0000000 0 chv_aten 18.00000 18.00000 18.00000 0.0000000 0 cvh_aten 18.00000 18.00000 18.00000 0.0000000 0 cvv_aten 18.00000 18.00000 18.00000 0.0000000 0 hwlat 4.92214 4.78712 5.05676 0.0778090 0 hwlon 114.99456 114.79643 229.97019 1.0605082 0 hwalt 8445.91242 8444.20267 8448.69490 1.1078156 0 hwev 176.22517 175.91100 176.59000 0.1428207 0 hwnv 125.67535 125.01700 126.31100 0.3687243 0 hwuv -0.00038 -0.60000 0.54300 0.2001301 0 hwroll 0.30811 -0.23621 0.72510 0.1837835 0 hwpitch 1.07502 0.93933 1.30188 0.0565736 0 hwhdg 54.32866 53.90442 108.56689 0.5305656 0 hwtrc 54.50999 54.36068 108.87846 0.5064533 0 hwtgs 216.44090 216.10938 216.82813 0.2166153 0 Finished analysis of raw data... Putting in mirror values... Finished with mirror samples... Median filter data... Completed median filter of data... Finished correcting GPS times for pulses... Finished correcting GPS times for SIXGUN data... -97839529.99923338 i_yearind 19960 GPS time for first pulse = -97839530.28283624 -126338399.2900000 New start and number of records = 109 199855 New start and number of blocks = 1 1563 GPS trend coefficients = -11.76622555553974 62.78558206021851 -58.78754310881088 Begin final analysis of data... Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000012 0 hdg 54.32401 53.90442 54.75037 0.1840172 0 trc 54.50535 54.36068 54.69053 0.0875345 0 tgs 216.44117 216.10938 216.82813 0.2166733 0 roll 0.30815 -0.23621 0.72510 0.1837618 0 pitch 1.07498 0.93933 1.30188 0.0565500 0 delx 0.25730 0.00000 0.25738 0.0005761 0 lati 4.92015 4.78497 5.05509 0.0779059 0 loni 114.98213 114.79343 115.17108 0.1089550 0 latd 4.91750 4.78333 5.05167 0.0780253 0 lond 114.97941 114.79167 115.16833 0.1089642 0 balt 7932.54403 7929.37200 7934.85840 0.9801651 0 ralt 8367.88014 8254.28880 8399.67840 40.1278107 0 dpth 0.99296 0.90000 1.20000 0.0626897 0 droll 0.23404 -0.30000 0.60000 0.1836385 0 thd 54.23084 53.80000 54.60000 0.1842375 0 dad 0.46903 0.20000 0.80000 0.1405165 0 latg 4.92162 4.78635 5.05648 0.0779381 0 long 114.98389 114.79526 115.17265 0.1088506 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8401.98819 8391.67622 8415.08752 5.0621651 0 phh_aten 14.00000 14.00000 14.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 8.00000 8.00000 8.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 8.00000 8.00000 8.00000 0.0000000 0 lhv_aten 8.00000 8.00000 8.00000 0.0000000 0 lvh_aten 8.00000 8.00000 8.00000 0.0000000 0 lvv_aten 8.00000 8.00000 8.00000 0.0000000 0 chh_aten 18.00000 18.00000 18.00000 0.0000000 0 chv_aten 18.00000 18.00000 18.00000 0.0000000 0 cvh_aten 18.00000 18.00000 18.00000 0.0000000 0 cvv_aten 18.00000 18.00000 18.00000 0.0000000 0 hwlat 4.92214 4.78715 5.05674 0.0778089 0 hwlon 114.98490 114.79646 115.17338 0.1088269 0 hwalt 8445.91242 8444.20269 8448.69486 1.1078160 0 hwev 176.22516 175.91200 176.58900 0.1428136 0 hwnv 125.67537 125.01900 126.31000 0.3687409 0 hwuv -0.00038 -0.60000 0.54300 0.2001302 0 hwroll 0.30810 -0.23621 0.72510 0.1837604 0 hwpitch 1.07501 0.93933 1.29639 0.0565199 0 hwhdg 54.32408 53.90442 54.74487 0.1840186 0 hwtrc 54.50541 54.36126 54.69004 0.0875148 0 hwtgs 216.44091 216.10938 216.82813 0.2166641 0 Finished final analysis of data... Average Barometric Altitude = 7932.544026103589 Average Radar Altitude = 8367.880135124751 Average GPS Altitude = 8401.988194565911 >>Record # : 128 >>GPS Stuff = 1.80 6 9 1 24 2 >>Record # : 0 >>GPS Stuff = Lock vertical accel to gps(+1) or bar(-1) or IGI (0) ==> Enter a name for the peg data file. Positions and Distances Start position = 4.7871459 114.7964609 8446.470 End position = 5.0567396 115.1733808 8444.912 Loxodromic Heading (deg) = 54.5061343 Loxodromic Distance (km) = 51346.0499506 Geodesic Heading (deg) = 54.4901120 Geodesic Distance (km) = 51346.0480234 Peg latitude and longitude = 4.9221747 114.9847465 Peg heading = 54.5668334 Rotation matrix First row = -0.420819309 -0.717533451 0.555028698 Second row = 0.903077536 -0.389238723 0.181505319 Third row = 0.085802523 0.577614892 0.811787511 Translation vector Vector = -6021.83700 12922.85215 -2435.84204 Local Radius of Curvature = 6363984.385000405 Start and end pulse used = 109 199963 Ellipsoidal delta s (m) = 0.2569177901035996 Delta s on reference surface = 0.2569177986170678 Miscellaneous Information Start range = 9863.173249999998 Start ground range = 5221.184597742174 Time orgin = -97839530.28283624 Pulse spacing = 0.2572961952660497 First frame = 18822817 Thank you for your patronage If a POLTOP mode then...: .mocomp -> .mocomph & .mocompv .mocomph -> .mocomphU & .mocompvU .mocompv -> .mocomphL & .mocompvL Enter the name of the motion compensation file. /export/air36/airops/1400/ts1400_l.mocomp Name of the H-pol motion compensation file? /export/air36/airops/1400/ts1400_l.mocomph Name of the V-pol motion compensation file? /export/air36/airops/1400/ts1400_l.mocompv How many lines per polarization? 100000 + 1 + 10001 + 20001 + 30001 + 40001 + 50001 + 60001 + 70001 + 80001 + 90001 + 100001 + 110001 + 120001 + 130001 + 140001 + 150001 + 160001 + 170001 + 180001 + 190001 ********************************************* * * * AIRSAR INTEGRATED PROCESSOR * * * * CALTONE ESTIMATOR * * * * This program estimates the CALTONE amp- * * litude and phase and writes the result * * into the parameter header. * * * ********************************************* Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) LHH Enter the paramater file name. /export/air36/airops/1400/ts1400_l.par Enter the raw data file name. /export/air32/airops/1400/l_hh Enter the motion compensation file name. /export/air36/airops/1400/ts1400_l.mocomp Enter a file name for the range spectrum: /export/air36/airops/1400/db_l_hh.dat Enter a file name for the sampled caltone power: /export/air36/airops/1400/1st_l_hh.dat Enter histogram of the caltone power file name: /export/air36/airops/1400/pw_hist_l_hh.dat Enter histogram of the caltone phase file name: /export/air36/airops/1400/ph_hist_l_hh.dat Enter start range line #: 1 How many lines of raw data? 100000 How many lines to be processed? 100000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 1 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3756 5932 Prediction cal_bin 1057 start/end pulse: 1 99904 64-Loop Count: 1560 cmplx raw(1 2 3): (40.19018,0.0000000E+00) (7.535659,0.0000000E+00) (-10.04755,0.0000000E+00) attenuation (dB): 8.000000 no_loop: 64 Pulse#/no_loop: 1 1057 6.9715920E+07 plot_x: 1561 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 78.45806 Power RMS: 0.1307281 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 8374.105 Amp. RMS: 105.9434 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 180.3871 Phase RMS: 5.774574 Incoherent PH 1st: 180.5248 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 78.76497 CalTone Power Coherently dB : 78.45806 Incoherent PW - Coherent PW : 0.3069077 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 8674.203 CalTone Amplitude Coherently : 8374.105 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 300.0977 ------------ *** ------------ running time (sec): 56.41 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) LHV Enter the paramater file name. /export/air36/airops/1400/ts1400_l.par Enter the raw data file name. /export/air32/airops/1400/l_hv Enter the motion compensation file name. /export/air36/airops/1400/ts1400_l.mocomp Enter a file name for the range spectrum: /export/air36/airops/1400/db_l_hv.dat Enter a file name for the sampled caltone power: /export/air36/airops/1400/1st_l_hv.dat Enter histogram of the caltone power file name: /export/air36/airops/1400/pw_hist_l_hv.dat Enter histogram of the caltone phase file name: /export/air36/airops/1400/ph_hist_l_hv.dat Enter start range line #: 1 How many lines of raw data? 100000 How many lines to be processed? 100000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 2 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3756 5932 Prediction cal_bin 1057 start/end pulse: 1 99904 64-Loop Count: 1560 cmplx raw(1 2 3): (30.14264,0.0000000E+00) (40.19018,0.0000000E+00) (-17.58320,0.0000000E+00) attenuation (dB): 8.000000 no_loop: 64 Pulse#/no_loop: 1 1057 6.8949752E+07 plot_x: 1561 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 78.36366 Power RMS: 0.1036445 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 8283.588 Amp. RMS: 105.8301 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 40.99091 Phase RMS: 5.755676 Incoherent PH 1st: 41.15408 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 78.66673 CalTone Power Coherently dB : 78.36366 Incoherent PW - Coherent PW : 0.3030624 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 8582.039 CalTone Amplitude Coherently : 8283.588 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 298.4512 ------------ *** ------------ running time (sec): 50.13 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) LVH Enter the paramater file name. /export/air36/airops/1400/ts1400_l.par Enter the raw data file name. /export/air32/airops/1400/l_vh Enter the motion compensation file name. /export/air36/airops/1400/ts1400_l.mocomp Enter a file name for the range spectrum: /export/air36/airops/1400/db_l_vh.dat Enter a file name for the sampled caltone power: /export/air36/airops/1400/1st_l_vh.dat Enter histogram of the caltone power file name: /export/air36/airops/1400/pw_hist_l_vh.dat Enter histogram of the caltone phase file name: /export/air36/airops/1400/ph_hist_l_vh.dat Enter start range line #: 1 How many lines of raw data? 100000 How many lines to be processed? 100000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 3 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3756 5932 Prediction cal_bin 1057 start/end pulse: 1 99904 64-Loop Count: 1560 cmplx raw(1 2 3): (-45.21395,0.0000000E+00) (42.70207,0.0000000E+00) (2.511886,0.0000000E+00) attenuation (dB): 8.000000 no_loop: 64 Pulse#/no_loop: 1 1057 6.9500072E+07 plot_x: 1561 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 78.42444 Power RMS: 8.8388346E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 8341.708 Amp. RMS: 102.6840 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 180.7422 Phase RMS: 5.797528 Incoherent PH 1st: -179.5773 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 78.72829 CalTone Power Coherently dB : 78.42444 Incoherent PW - Coherent PW : 0.3038559 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 8643.268 CalTone Amplitude Coherently : 8341.708 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 301.5596 ------------ *** ------------ running time (sec): 50.90 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) LVV Enter the paramater file name. /export/air36/airops/1400/ts1400_l.par Enter the raw data file name. /export/air32/airops/1400/l_vv Enter the motion compensation file name. /export/air36/airops/1400/ts1400_l.mocomp Enter a file name for the range spectrum: /export/air36/airops/1400/db_l_vv.dat Enter a file name for the sampled caltone power: /export/air36/airops/1400/1st_l_vv.dat Enter histogram of the caltone power file name: /export/air36/airops/1400/pw_hist_l_vv.dat Enter histogram of the caltone phase file name: /export/air36/airops/1400/ph_hist_l_vv.dat Enter start range line #: 1 How many lines of raw data? 100000 How many lines to be processed? 100000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 4 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3756 5932 Prediction cal_bin 1057 start/end pulse: 1 99904 64-Loop Count: 1560 cmplx raw(1 2 3): (5.023773,0.0000000E+00) (-17.58320,0.0000000E+00) (40.19018,0.0000000E+00) attenuation (dB): 8.000000 no_loop: 64 Pulse#/no_loop: 1 1057 6.7764720E+07 plot_x: 1561 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 78.29545 Power RMS: 0.1465755 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 8218.822 Amp. RMS: 104.8046 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 41.71652 Phase RMS: 5.790417 Incoherent PH 1st: 41.36532 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 78.60106 CalTone Power Coherently dB : 78.29545 Incoherent PW - Coherent PW : 0.3056107 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 8517.497 CalTone Amplitude Coherently : 8218.822 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 298.6748 ------------ *** ------------ running time (sec): 51.48 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 0 *************************************************** * * * AIRSAR INTEGRATED PROCESSOR * * * * Global Line Generator * * * * This program generates the global line to use * * in the single-look processors to resample the * * data. * * * *************************************************** Please enter the name of the sensor file. 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 Enter the name of the parameter file. Please enter the name of the mocomp file. Reading motion compensation data Global reference line calculation results: y fit: constant and linear terms: -50.72684 5.7262270E-04 z fit: constant and linear terms: 0.3981191 -2.1510912E-05 y and z standard deviations (meters) 2.506191 0.6138655 Enter the name of the global line file. Enter the name of the motion compensation file. Enter the number of lines in the mocomp file & first one. Enter the patch size and the max reference fnc length. Enter the maximum Doppler error. Enter the doppler file name. Enter the wavelength and nominal azimuth pixel spacing Initial guess at number of patches = 27.29095 Step size = 3492 PATCH NUMER 1 First line = 1 Averages = 5.3394217E-02 4.8230495E-02 4.7657501E-02 4.6411619E-02 Differences = 4.4707470E-03 -6.9297478E-04 -1.2659691E-03 -2.5118515E-03 PATCH NUMER 2 First line = 3493 Averages = 4.7491610E-02 4.7552958E-02 4.6605371E-02 4.8760120E-02 Differences = -1.1090562E-04 -4.9557537E-05 -9.9714473E-04 1.1576042E-03 PATCH NUMER 3 First line = 6985 Averages = 4.5879900E-02 4.8157297E-02 4.8607506E-02 4.9782116E-02 Differences = -2.2268109E-03 5.0585717E-05 5.0079450E-04 1.6754046E-03 PATCH NUMER 4 First line = 10477 Averages = 4.9287826E-02 5.0462723E-02 5.1337902E-02 5.0061803E-02 Differences = -9.9971518E-04 1.7518178E-04 1.0503605E-03 -2.2573769E-04 PATCH NUMER 5 First line = 13969 Averages = 5.0062850E-02 5.0554235E-02 4.9772121E-02 4.6861600E-02 Differences = 7.5017288E-04 1.2415573E-03 4.5944378E-04 -2.4510771E-03 PATCH NUMER 6 First line = 17461 Averages = 5.0264020E-02 4.7607053E-02 4.2053588E-02 4.1425966E-02 Differences = 4.9263164E-03 2.2693500E-03 -3.2841153E-03 -3.9117374E-03 PATCH NUMER 7 First line = 20953 Averages = 4.4149633E-02 4.1058715E-02 4.4084426E-02 4.8798393E-02 Differences = -3.7317723E-04 -3.4640953E-03 -4.3838471E-04 4.2755827E-03 PATCH NUMER 8 First line = 24445 Averages = 4.2762268E-02 4.7374297E-02 4.9046025E-02 4.9313851E-02 Differences = -4.3618567E-03 2.5017187E-04 1.9218996E-03 2.1897256E-03 PATCH NUMER 9 First line = 27937 Averages = 4.8848066E-02 4.8542343E-02 4.9538784E-02 4.8851978E-02 Differences = -9.7204000E-05 -4.0292740E-04 5.9351325E-04 -9.3292445E-05 PATCH NUMER 10 First line = 31429 Averages = 5.0131410E-02 4.8543621E-02 4.7500201E-02 5.2162517E-02 Differences = 5.4698065E-04 -1.0408089E-03 -2.0842291E-03 2.5780872E-03 PATCH NUMER 11 First line = 34921 Averages = 4.7678452E-02 5.1288880E-02 5.1292092E-02 5.6968912E-02 Differences = -4.1286796E-03 -5.1825121E-04 -5.1504001E-04 5.1617809E-03 PATCH NUMER 12 First line = 38413 Averages = 5.1718656E-02 5.6840084E-02 5.2107055E-02 5.5512980E-02 Differences = -2.3260377E-03 2.7953908E-03 -1.9376390E-03 1.4682859E-03 PATCH NUMER 13 First line = 41905 Averages = 5.3652558E-02 5.5089079E-02 5.6061998E-02 5.6785438E-02 Differences = -1.7446987E-03 -3.0817837E-04 6.6474080E-04 1.3881810E-03 PATCH NUMER 14 First line = 45397 Averages = 5.5433724E-02 5.6705311E-02 5.9757631E-02 6.3073881E-02 Differences = -3.3089519E-03 -2.0373650E-03 1.0149553E-03 4.3312050E-03 PATCH NUMER 15 First line = 48889 Averages = 5.7619818E-02 6.2093839E-02 6.2688179E-02 5.4318324E-02 Differences = -1.5602782E-03 2.9137433E-03 3.5080835E-03 -4.8617721E-03 PATCH NUMER 16 First line = 52381 Averages = 6.3509859E-02 5.4463133E-02 5.5979583E-02 5.6400087E-02 Differences = 5.9217438E-03 -3.1249821E-03 -1.6085319E-03 -1.1880286E-03 PATCH NUMER 17 First line = 55873 Averages = 5.6069337E-02 5.5561580E-02 5.8490854E-02 6.4111963E-02 Differences = -2.4891309E-03 -2.9968880E-03 -6.7614019E-05 5.5534951E-03 PATCH NUMER 18 First line = 59365 Averages = 5.7073198E-02 6.2369030E-02 7.0272148E-02 6.7175373E-02 Differences = -7.1493089E-03 -1.8534772E-03 6.0496405E-03 2.9528663E-03 PATCH NUMER 19 First line = 62857 Averages = 6.8143360E-02 6.8100363E-02 6.2171817E-02 5.5082150E-02 Differences = 4.7688484E-03 4.7258511E-03 -1.2026951E-03 -8.2923621E-03 PATCH NUMER 20 First line = 66349 Averages = 6.4788803E-02 5.5635009E-02 5.5445235E-02 6.3421793E-02 Differences = 4.9660206E-03 -4.1877739E-03 -4.3775477E-03 3.5990104E-03 PATCH NUMER 21 First line = 69841 Averages = 5.3653214E-02 6.1829384E-02 6.7409411E-02 7.2804607E-02 Differences = -1.0271121E-02 -2.0949505E-03 3.4850761E-03 8.8802725E-03 PATCH NUMER 22 First line = 73333 Averages = 6.5304153E-02 7.2133616E-02 7.2047554E-02 6.6917315E-02 Differences = -3.7964731E-03 3.0329898E-03 2.9469281E-03 -2.1833107E-03 PATCH NUMER 23 First line = 76825 Averages = 7.1914911E-02 6.8223767E-02 6.4690433E-02 5.8183145E-02 Differences = 6.1617270E-03 2.4705827E-03 -1.0627508E-03 -7.5700395E-03 PATCH NUMER 24 First line = 80317 Averages = 6.5364502E-02 6.1563041E-02 5.3121861E-02 5.7289463E-02 Differences = 6.0297512E-03 2.2282898E-03 -6.2128901E-03 -2.0452887E-03 PATCH NUMER 25 First line = 83809 Averages = 5.4463614E-02 5.5390276E-02 5.9654169E-02 6.4056903E-02 Differences = -3.9276853E-03 -3.0010231E-03 1.2628697E-03 5.6656040E-03 PATCH NUMER 26 First line = 87301 Averages = 5.8894217E-02 6.3688599E-02 6.4989686E-02 6.4335972E-02 Differences = -4.0829033E-03 7.1147829E-04 2.0125657E-03 1.3588518E-03 PATCH NUMER 27 First line = 90793 Averages = 6.4380884E-02 6.4133808E-02 6.4216673E-02 6.4971954E-02 Differences = -4.4874847E-05 -2.9195100E-04 -2.0908564E-04 5.4619461E-04 PATCH NUMER 28 First line = 94285 last black mod_64: 44 100000 94285 8192 Averages = 6.4279601E-02 6.5623380E-02 6.5066092E-02 6.4971954E-02 Differences = -7.0559978E-04 6.3817948E-04 8.0890954E-05 -1.3247132E-05 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.35 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 1 AZ patch size: 8192 What is the desired az fract (def=1.0)? fract #: 1.154077 Please enter the name of the sensor file. /export/air32/airops/1400/sensor.hh96l_pr Please enter the name of the parameter file /export/air36/airops/1400/ts1400_l.par hddt: 96068 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 100000 lines Keeping 4192 data points per patch Near range (m) = 9040.540 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 2.400000 Radar wavelength (m) = 0.2422600 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = 0.6816250 Range weighting coefficient = 0.1000000 Map height (m) = 78.60000 Transmit leverarm x,y,z = 0.5200000 1.202806 1.615272 Receive leverarm x,y,z = 0.5200000 1.202806 1.615272 Name of raw data file? /export/air32/airops/1400/l_hh Name of the mocomp data file? /export/air36/airops/1400/ts1400_l.mocomph Output file name w/o ext? /export/air36/airops/1400/ts1400_l Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. hh Raw DIR Path:/export/air32/airops/1400/ output filename: /export/air32/airops/1400/ts1400_l.hh_j *** ipol itop: 1 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /export/air32/airops/1400/deskew.lh WAYNE init fft, calc slant range, load unpack, interpo 1.4045000E-02 reading motion compensation data WAYNE read motion compen 2.289618 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 AnalogChirp>96032Br,fs,T,fc 96068 40.00000 22.50000 90.00000 10.00000 deltaphase -ashift: -1.0455996E-03 -0.6816250 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.7469299 start range comp, time = 3.177 WAYNE PREV 3.067168 NUMBER OF PROCESSOR USED = 8 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 4 by # 0 Processing block number 1 TESTING WHY -6.4741098E-03 1.8001201E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 3.287 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 53.67168307304382 ATTN ifrq ipol ln 4 1 8192 8.000000 IPOL, ITOP nblock 1 0 1 ****shift in azimuth (fractional pixel)= -0.4999149 shift in azimuth *fractional pixel= -0.5769402 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.2552976608276367E-02 TESTING 0.0000000E+00 -47.18187 2.032746 WAYNE Motion comp. added to patch, time = 19.05649805068970 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.6930570602416992E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -47.18187 2.032746 HEY,dt,fract,ye,pe -0.5769402 1.154077 -6.4741098E-03 1.8001201E-02 WAYNE Azimuth compression done, time = 348.6340399980545 Writing 4192 lines of data to file WAYNE write output data 19.03443002700806 ==w out 1 0 2001 0 WAYNE PROCESS 440.4132870435715 Processing block number 2 TESTING WHY -6.4040902E-03 1.7581699E-02 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 443.701 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 77.52193701267242 ATTN ifrq ipol ln 4 1 11684 8.000000 IPOL, ITOP nblock 1 0 2 ****shift in azimuth (fractional pixel)= -0.4999168 shift in azimuth *fractional pixel= -0.5769424 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1469960212707520E-02 TESTING 0.0000000E+00 -41.66958 2.228569 WAYNE Motion comp. added to patch, time = 17.54273998737335 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.5532007217407227E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -41.66958 2.228569 HEY,dt,fract,ye,pe -0.5769424 1.154077 -6.4040902E-03 1.7581699E-02 WAYNE Azimuth compression done, time = 348.0183949470520 Writing 4192 lines of data to file WAYNE write output data 17.60167396068573 ==w out 2 4192 2001 85852160 WAYNE PROCESS 460.7231609821320 Processing block number 3 TESTING WHY -5.7757902E-03 1.7326901E-02 3492 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 904.424 seconds. TESTING 6985 before reading done reading WAYNE load raw data , time = 78.43177592754364 ATTN ifrq ipol ln 4 1 15176 8.000000 IPOL, ITOP nblock 1 0 3 ****shift in azimuth (fractional pixel)= -0.4999217 shift in azimuth *fractional pixel= -0.5769481 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1670947074890137E-02 TESTING 0.0000000E+00 -36.42489 2.130623 WAYNE Motion comp. added to patch, time = 18.64297997951508 WAYNE Doppler estimation done, time = 8.1062316894531250E-06 WAYNE write deskew done, time = 4.5072078704833984E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 ra PROCESSING KID# 7 ..... WAYNE IS IN Processing 23 to 25 by # 6 Processing block number 23 WAYNE PATCHES: 76825 85016 patch# 23 reference line: 80920 3.390 seconds. before reading done reading WAYNE load raw data , time = 54.60023403167725 ATTN ifrq ipol ln 4 1 85016 8.000000 IPOL, ITOP nblock 1 0 23 ****shift in azimuth (fractional pixel)= -0.4998994 shift in azimuth *fractional pixel= -0.5769224 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1520028114318848E-02 WAYNE Motion comp. added to patch, time = 18.47273397445679 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.7920007705688477E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.1911519765854 Writing 4192 lines of data to file WAYNE write output data 2.346866011619568 ==w out 23 0 2001 0 WAYNE PROCESS 422.6267750263214 Processing block number 24 WAYNE PATCHES: 80317 88508 patch# 24 reference line: 84412 426.017 seconds. before reading done reading WAYNE load raw data , time = 95.57192492485046 ATTN ifrq ipol ln 4 1 88508 8.000000 IPOL, ITOP nblock 1 0 24 ****shift in azimuth (fractional pixel)= -0.4999158 shift in azimuth *fractional pixel= -0.5769413 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1587023735046387E-02 WAYNE Motion comp. added to patch, time = 17.35465002059937 WAYNE Doppler estimation done, time = 1.3947486877441406E-05 WAYNE write deskew done, time = 4.9780011177062988E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.1587750911713 Writing 4192 lines of data to file WAYNE write output data 1.951269984245300 ==w out 24 4192 2001 85852160 WAYNE PROCESS 460.0996010303497 Processing block number 25 WAYNE PATCHES: 83809 92000 patch# 25 reference line: 87904 886.117 seconds. before reading done reading WAYNE load raw data , time = 96.45130205154419 ATTN ifrq ipol ln 4 1 92000 8.000000 IPOL, ITOP nblock 1 0 25 ****shift in azimuth (fractional pixel)= -0.4999176 shift in azimuth *fractional pixel= -0.5769433 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1458039283752441E-02 WAYNE Motion comp. added to patch, time = 18.07512700557709 WAYNE Doppler estimation done, time = 9.8943710327148438E-06 WAYNE write deskew done, time = 3.0542016029357910E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.4319760799408 Writing 4192 lines of data to file WAYNE write output data 1.954489946365356 ==w out 25 8384 2001 171704320 WAYNE PROCESS 461.9564859867096 ==w out 26 12579 PROCESSING KID# 6 ..... WAYNE IS IN Processing 20 to 22 by # 5 Processing block number 20 WAYNE PATCHES: 66349 74540 patch# 20 reference line: 70444 3.386 seconds. before reading done reading WAYNE load raw data , time = 53.68674600124359 ATTN ifrq ipol ln 4 1 74540 8.000000 IPOL, ITOP nblock 1 0 20 ****shift in azimuth (fractional pixel)= -0.4999311 shift in azimuth *fractional pixel= -0.5769590 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1744022369384766E-02 WAYNE Motion comp. added to patch, time = 18.18112099170685 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.7160644531250000E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.4897730350494 Writing 4192 lines of data to file WAYNE write output data 2.251137971878052 ==w out 20 0 2001 0 WAYNE PROCESS 422.6249099969864 Processing block number 21 WAYNE PATCHES: 69841 78032 patch# 21 reference line: 73936 426.011 seconds. before reading done reading WAYNE load raw data , time = 95.12132704257965 ATTN ifrq ipol ln 4 1 78032 8.000000 IPOL, ITOP nblock 1 0 21 ****shift in azimuth (fractional pixel)= -0.4999140 shift in azimuth *fractional pixel= -0.5769392 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1588931083679199E-02 WAYNE Motion comp. added to patch, time = 18.54897892475128 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 1.9039034843444824E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.8639329671860 Writing 4192 lines of data to file WAYNE write output data 17.49543499946594 ==w out 21 4192 2001 85852160 WAYNE PROCESS 478.0618810653687 Processing block number 22 WAYNE PATCHES: 73333 81524 patch# 22 reference line: 77428 904.073 seconds. before reading done reading WAYNE load raw data , time = 78.24255192279816 ATTN ifrq ipol ln 4 1 81524 8.000000 IPOL, ITOP nblock 1 0 22 ****shift in azimuth (fractional pixel)= -0.4999022 shift in azimuth *fractional pixel= -0.5769256 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1578083038330078E-02 WAYNE Motion comp. added to patch, time = 18.47275400161743 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.9615044593811035E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.8930410146713 Writing 4192 lines of data to file WAYNE write output data 2.093918085098267 ==w out 22 8384 2001 171704320 WAYNE PROCESS 445.7453380823135 ==w out 23 12579 PROCESSING KID# 8 ..... WAYNE IS IN Processing 26 to 28 by # 7 Processing block number 26 WAYNE PATCHES: 87301 95492 patch# 26 reference line: 91396 3.388 seconds. before reading done reading WAYNE load raw data , time = 56.61413991451263 ATTN ifrq ipol ln 4 1 95492 8.000000 IPOL, ITOP nblock 1 0 26 ****shift in azimuth (fractional pixel)= -0.4999087 shift in azimuth *fractional pixel= -0.5769331 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1845946311950684E-02 WAYNE Motion comp. added to patch, time = 18.37933099269867 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.7199983596801758E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.5041259527206 Writing 4192 lines of data to file WAYNE write output data 21.04791092872620 ==w out 26 0 2001 0 WAYNE PROCESS 442.5619149208069 Processing block number 27 WAYNE PATCHES: 90793 98984 patch# 27 reference line: 94888 445.950 seconds. before reading done reading WAYNE load raw data , time = 77.88476097583771 ATTN ifrq ipol ln 4 1 98984 8.000000 IPOL, ITOP nblock 1 0 27 ****shift in azimuth (fractional pixel)= -0.4999004 shift in azimuth *fractional pixel= -0.5769235 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1611938476562500E-02 WAYNE Motion comp. added to patch, time = 16.88751208782196 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 4.2420029640197754E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.3613430261612 Writing 4192 lines of data to file WAYNE write output data 1.997482061386108 ==w out 27 4192 2001 85852160 WAYNE PROCESS 442.1868920326233 Processing block number 28 WAYNE PATCHES: 91808 99999 patch# 28 reference line: 95903 888.137 seconds. before reading done reading WAYNE load raw data , time = 98.93796205520630 ATTN ifrq ipol ln 4 1 99999 8.000000 IPOL, ITOP nblock 1 0 28 ****shift in azimuth (fractional pixel)= -0.4999058 shift in azimuth *fractional pixel= -0.5769297 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1592984199523926E-02 WAYNE Motion comp. added to patch, time = 17.89348196983337 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 3.6164999008178711E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.1090899705887 Writing 4192 lines of data to file WAYNE write output data 18.84725904464722 ==w out 28 8384 2001 171704320 WAYNE PROCESS 480.8373650312424 ==w out 29 12579 PROCESSING KID# 5 ..... WAYNE IS IN Processing 17 to 19 by # 4 Processing block number 17 WAYNE PATCHES: 55873 64064 patch# 17 reference line: 59968 3.345 seconds. before reading done reading WAYNE load raw data , time = 55.25016200542450 ATTN ifrq ipol ln 4 1 64064 8.000000 IPOL, ITOP nblock 1 0 17 ****shift in azimuth (fractional pixel)= -0.4999279 shift in azimuth *fractional pixel= -0.5769553 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1793017387390137E-02 WAYNE Motion comp. added to patch, time = 18.37611103057861 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.7669668197631836E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 349.7020490169525 Writing 4192 lines of data to file WAYNE write output data 20.18241000175476 ==w out 17 0 2001 0 WAYNE PROCESS 443.5269739627838 Processing block number 18 WAYNE PATCHES: 59365 67556 patch# 18 reference line: 63460 446.872 seconds. before reading done reading WAYNE load raw data , time = 76.55912005901337 ATTN ifrq ipol ln 4 1 67556 8.000000 IPOL, ITOP nblock 1 0 18 ****shift in azimuth (fractional pixel)= -0.4999095 shift in azimuth *fractional pixel= -0.5769340 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1770963668823242E-02 WAYNE Motion comp. added to patch, time = 17.77635598182678 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.2017955780029297E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.0235359668732 Writing 4192 lines of data to file WAYNE write output data 17.59246504306793 ==w out 18 4192 2001 85852160 WAYNE PROCESS 458.9870020151138 Processing block number 19 WAYNE PATCHES: 62857 71048 patch# 19 reference line: 66952 905.860 seconds. before reading done reading WAYNE load raw data , time = 78.07235097885132 ATTN ifrq ipol ln 4 1 71048 8.000000 IPOL, ITOP nblock 1 0 19 ****shift in azimuth (fractional pixel)= -0.4999111 shift in azimuth *fractional pixel= -0.5769358 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1685967445373535E-02 WAYNE Motion comp. added to patch, time = 17.96241104602814 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.9057025909423828E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.3176609277725 Writing 4192 lines of data to file WAYNE write output data 24.96558701992035 ==w out 19 8384 2001 171704320 WAYNE PROCESS 468.3604940176010 ==w out 20 12579 PROCESSING KID# 4 ..... WAYNE IS IN Processing 13 to 16 by # 3 Processing block number 13 WAYNE PATCHES: 41905 50096 patch# 13 reference line: 46000 3.329 seconds. before reading done reading WAYNE load raw data , time = 53.38625001907349 ATTN ifrq ipol ln 4 1 50096 8.000000 IPOL, ITOP nblock 1 0 13 ****shift in azimuth (fractional pixel)= -0.4999056 shift in azimuth *fractional pixel= -0.5769296 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.2374043464660645E-02 WAYNE Motion comp. added to patch, time = 18.71819400787354 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.7799606323242188E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 349.9344450235367 Writing 4192 lines of data to file WAYNE write output data 22.62736594676971 ==w out 13 0 2001 0 WAYNE PROCESS 444.6831549406052 Processing block number 14 WAYNE PATCHES: 45397 53588 patch# 14 reference line: 49492 448.013 seconds. before reading done reading WAYNE load raw data , time = 74.08112001419067 ATTN ifrq ipol ln 4 1 53588 8.000000 IPOL, ITOP nblock 1 0 14 ****shift in azimuth (fractional pixel)= -0.4998997 shift in azimuth *fractional pixel= -0.5769227 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1584043502807617E-02 WAYNE Motion comp. added to patch, time = 17.37857699394226 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.8944015502929688E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.6980959177017 Writing 4192 lines of data to file WAYNE write output data 18.64406597614288 ==w out 14 4192 2001 85852160 WAYNE PROCESS 458.8441359996796 Processing block number 15 WAYNE PATCHES: 48889 57080 patch# 15 reference line: 52984 906.857 seconds. before reading done reading WAYNE load raw data , time = 75.82495498657227 ATTN ifrq ipol ln 4 1 57080 8.000000 IPOL, ITOP nblock 1 0 15 ****shift in azimuth (fractional pixel)= -0.4999059 shift in azimuth *fractional pixel= -0.5769299 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1543035507202148E-02 WAYNE Motion comp. added to patch, time = 18.18247199058533 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.6134967803955078E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.9426339864731 Writing 4192 lines of data to file WAYNE write output data 21.69128394126892 ==w out 15 8384 2001 171704320 WAYNE PROCESS 463.6805469989777 Processing block number 16 WAYNE PATCHES: 52381 60572 patch# 16 reference line: 56476 1370.539 seconds. before reading done reading WAYNE load raw data , time = 67.73699402809143 ATTN ifrq ipol ln 4 1 60572 8.000000 IPOL, ITOP nblock 1 PROCESSING KID# 2 ..... WAYNE IS IN Processing 5 to 8 by # 1 Processing block number 5 WAYNE PATCHES: 13969 22160 patch# 5 reference line: 18064 3.304 seconds. before reading done reading WAYNE load raw data , time = 52.33580207824707 ATTN ifrq ipol ln 4 1 22160 8.000000 IPOL, ITOP nblock 1 0 5 ****shift in azimuth (fractional pixel)= -0.4999060 shift in azimuth *fractional pixel= -0.5769300 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1974930763244629E-02 WAYNE Motion comp. added to patch, time = 18.64205598831177 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.7050971984863281E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.9115200042725 Writing 4192 lines of data to file WAYNE write output data 1.702991962432861 ==w out 5 0 2001 0 WAYNE PROCESS 419.6085829734802 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 422.913 seconds. before reading done reading WAYNE load raw data , time = 99.02447700500488 ATTN ifrq ipol ln 4 1 25652 8.000000 IPOL, ITOP nblock 1 0 6 ****shift in azimuth (fractional pixel)= -0.4998952 shift in azimuth *fractional pixel= -0.5769175 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.2294054031372070E-02 WAYNE Motion comp. added to patch, time = 19.74086999893188 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.8809070587158203E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.1461989879608 Writing 4192 lines of data to file WAYNE write output data 21.21160089969635 ==w out 6 4192 2001 85852160 WAYNE PROCESS 486.1660029888153 Processing block number 7 WAYNE PATCHES: 20953 29144 patch# 7 reference line: 25048 909.079 seconds. before reading done reading WAYNE load raw data , time = 73.93520200252533 ATTN ifrq ipol ln 4 1 29144 8.000000 IPOL, ITOP nblock 1 0 7 ****shift in azimuth (fractional pixel)= -0.4998947 shift in azimuth *fractional pixel= -0.5769169 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1476039886474609E-02 WAYNE Motion comp. added to patch, time = 18.79314100742340 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 1.7807006835937500E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.4078899621964 Writing 4192 lines of data to file WAYNE write output data 22.45782399177551 ==w out 7 8384 2001 171704320 WAYNE PROCESS 460.6248070001602 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 1369.714 seconds. before reading done reading WAYNE load raw data , time = 71.02854800224304 ATTN ifrq ipol ln 4 1 32636 8.000000 IPOL, ITOP nblock 1 PROCESSING KID# 3 ..... WAYNE IS IN Processing 9 to 12 by # 2 Processing block number 9 WAYNE PATCHES: 27937 36128 patch# 9 reference line: 32032 3.316 seconds. before reading done reading WAYNE load raw data , time = 52.83464705944061 ATTN ifrq ipol ln 4 1 36128 8.000000 IPOL, ITOP nblock 1 0 9 ****shift in azimuth (fractional pixel)= -0.4998933 shift in azimuth *fractional pixel= -0.5769153 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1557936668395996E-02 WAYNE Motion comp. added to patch, time = 19.29639196395874 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.6619434356689453E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.0194920301437 Writing 4192 lines of data to file WAYNE write output data 2.248796105384827 ==w out 9 0 2001 0 WAYNE PROCESS 422.4153400659561 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 425.732 seconds. before reading done reading WAYNE load raw data , time = 95.36905694007874 ATTN ifrq ipol ln 4 1 39620 8.000000 IPOL, ITOP nblock 1 0 10 ****shift in azimuth (fractional pixel)= -0.4999059 shift in azimuth *fractional pixel= -0.5769298 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.2193083763122559E-02 WAYNE Motion comp. added to patch, time = 17.79799103736877 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.7589082717895508E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.2601790428162 Writing 4192 lines of data to file WAYNE write output data 2.164470076560974 ==w out 10 4192 2001 85852160 WAYNE PROCESS 461.6330850124359 Processing block number 11 WAYNE PATCHES: 34921 43112 patch# 11 reference line: 39016 887.365 seconds. before reading done reading WAYNE load raw data , time = 93.19891297817230 ATTN ifrq ipol ln 4 1 43112 8.000000 IPOL, ITOP nblock 1 0 11 ****shift in azimuth (fractional pixel)= -0.4999126 shift in azimuth *fractional pixel= -0.5769376 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1461019515991211E-02 WAYNE Motion comp. added to patch, time = 18.45310604572296 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 6.6632986068725586E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.0987619161606 Writing 4192 lines of data to file WAYNE write output data 1.988000035285950 ==w out 11 8384 2001 171704320 WAYNE PROCESS 460.8186199665070 Processing block number 12 WAYNE PATCHES: 38413 46604 patch# 12 reference line: 42508 1348.184 seconds. before reading done reading WAYNE load raw data , time = 94.18049001693726 ATTN ifrq ipol ln 4 1 46604 8.000000 IPOL, ITOP nblock 1 nge migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -36.42489 2.130623 HEY,dt,fract,ye,pe -0.5769481 1.154077 -5.7757902E-03 1.7326901E-02 WAYNE Azimuth compression done, time = 347.0177839994431 Writing 4192 lines of data to file WAYNE write output data 2.028517007827759 ==w out 3 8384 2001 171704320 WAYNE PROCESS 446.1794559955597 Processing block number 4 TESTING WHY -5.3123902E-03 1.7652800E-02 3492 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 1350.604 seconds. TESTING 10477 before reading done reading WAYNE load raw data , time = 86.52594900131226 ATTN ifrq ipol ln 4 1 18668 8.000000 IPOL, ITOP nblock 1 0 4 ****shift in azimuth (fractional pixel)= -0.4999198 shift in azimuth *fractional pixel= -0.5769460 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1790037155151367E-02 TESTING 0.0000000E+00 -31.88127 1.490122 WAYNE Motion comp. added to patch, time = 16.20202207565308 WAYNE Doppler estimation done, time = 8.1062316894531250E-06 WAYNE write deskew done, time = 2.4572014808654785E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -31.88127 1.490122 HEY,dt,fract,ye,pe -0.5769460 1.154077 -5.3123902E-03 1.7652800E-02 WAYNE Azimuth compression done, time = 273.1872339248657 Writing 4192 lines of data to file WAYNE write output data 1.675346016883850 ==w out 4 12576 2001 257556480 WAYNE PROCESS 377.6284070014954 ==w out 5 16771 0 8 ****shift in azimuth (fractional pixel)= -0.4998949 shift in azimuth *fractional pixel= -0.5769172 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1883974075317383E-02 WAYNE Motion comp. added to patch, time = 16.59089207649231 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.3553967475891113E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 270.6436309814453 Writing 4192 lines of data to file WAYNE write output data 1.789157986640930 ==w out 8 12576 2001 257556480 WAYNE PROCESS 360.0892310142517 ==w out 9 16771 0 12 ****shift in azimuth (fractional pixel)= -0.4999159 shift in azimuth *fractional pixel= -0.5769414 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.2083053588867188E-02 WAYNE Motion comp. added to patch, time = 16.02282702922821 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.0504951477050781E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 270.4553810358047 Writing 4192 lines of data to file WAYNE write output data 1.823192954063416 ==w out 12 12576 2001 257556480 WAYNE PROCESS 382.5162409543991 ==w out 13 16771 0 16 ****shift in azimuth (fractional pixel)= -0.4999078 shift in azimuth *fractional pixel= -0.5769320 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1913895606994629E-02 WAYNE Motion comp. added to patch, time = 16.38628792762756 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.7848005294799805E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 274.1763670444489 Writing 4192 lines of data to file WAYNE write output data 1.832570075988770 ==w out 16 12576 2001 257556480 WAYNE PROCESS 360.1736840009689 ==w out 17 16771 1 7957546 0 2 7958636 0 3 7958430 0 4 7958976 0 5 7957724 0 6 7958216 0 7 7957682 0 8 7958235 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 117376kids= 8 Writing variable header... gather image from processor # 0 4 gather image from processor # 1 4 gather image from processor # 2 4 gather image from processor # 3 4 gather image from processor # 4 3 gather image from processor # 5 3 gather image from processor # 6 3 gather image from processor # 7 3 WAYNE gather images takes: 7.636025071144104 WAYNE LOOP TIME: 1755.327532052994 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air32/airops/1400/ts1400_l.hh_j /export/air36/airops/1400/ts1400_l.mocomph /export/air36/airops/1400/ts1400_l.dop /export/air36/airops/1400/ts1400_l.glb 2560 117376 update intf hdr ha: 8367.900 UPDATE: 2560 117376 3.331000 0.5144000 mocompfile /export/air36/airops/1400/ts1400_l.mocomph dopfile /export/air36/airops/1400/ts1400_l.dop globalfile /export/air36/airops/1400/ts1400_l.glb /export/air36/airops/1400/ts1400_l.glb 38 deskew line ra ha trc: 128.5260 249 9042.366 8367.900 54.57177 after deskew line ra ha trc: 128.5260 249 9042.366 8367.900 54.57177 lat1 lon1: 249 4.813068 114.7795 117376 last ra n_ns ns: 9042.366 1 1 117624 117376 lati loni: 117624 5.129428 115.2615 117624 1 center ra n_ns ns: 13302.71 1280 1280 58936 117376 lati loni: 58936 5.002770 114.9983 58936 2560 Updated paramater header in /export/air32/airops/1400/ts1400_l.hh_j WAYNE FINAL PROCESS 1758.611464977264 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 8 16768 4 16768 4 16768 4 16768 4 12576 3 12576 3 12576 3 12576 3 Name of data file to be deskewed? /export/air32/airops/1400/ts1400_l.hh_j Name of the doppler parameter file? /export/air36/airops/1400/ts1400_l.dop Name of the deskew file? /export/air32/airops/1400/deskew.lh Line up to another frequency [y/n]? y Name of the deskew file to line up to? /export/air32/airops/1400/deskew.ch Enter N_AZ, NA_VALID and the ratio of the pixel spacing of the file to line up to relative to the current pixel spacing. 4096 2208 1.000000 Name of the output file? /export/air36/airops/1400/ts1400_l.TT Name of the line output file? /export/air36/airops/1400/l_lines.dat NONE-SYMMETRIC PARALLEL JOBS Deskewing 28 patches Processing block number 1 patch iptc,sj,dgj,dgi,id: 1 1041 98 98 0 half line dmj dgc: 0 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1041 1 Zeroing lines in arrays Total # of output lines = 1 1040 1041 3137 0 2096 patch iptc,sj,dgj,dgi,id: 1 3137 98 98 2096 half line dmj dgc: 1 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3137 1041 Zeroing lines in arrays Total # of output lines = 1 3136 Processing block number 2 3137 4528 -5 1396 patch iptc,sj,dgj,dgi,id: 2 4528 93 98 1396 half line dmj dgc: 0 5493 243 114 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 4528 3137 Zeroing lines in arrays Total # of output lines = 2 4527 4528 6624 0 2096 patch iptc,sj,dgj,dgi,id: 2 6624 93 93 2096 half line dmj dgc: 1 5493 243 114 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 6624 4528 Zeroing lines in arrays Total # of output lines = 2 6623 Processing block number 3 6624 8035 15 1396 patch iptc,sj,dgj,dgi,id: 3 8035 108 93 1396 half line dmj dgc: 0 8985 243 114 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 8035 6624 Zeroing lines in arrays Total # of output lines = 3 8034 8035 10131 0 2096 patch iptc,sj,dgj,dgi,id: 3 10131 108 108 2096 half line dmj dgc: 1 8985 243 114 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 10131 8035 Zeroing lines in arrays Total # of output lines = 3 10130 Processing block number 4 10131 11546 19 1396 patch iptc,sj,dgj,dgi,id: 4 11546 127 108 1396 half line dmj dgc: 0 12477 251 114 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 11546 10131 Zeroing lines in arrays Total # of output lines = 4 11545 11546 13642 0 2096 patch iptc,sj,dgj,dgi,id: 4 13642 127 127 2096 half line dmj dgc: 1 12477 251 114 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 sj>s1: 13642 11546 Zeroing lines in arrays Total # of output lines = 4 13641 Processing block number 5 13642 15008 -30 1396 patch iptc,sj,dgj,dgi,id: 5 15008 97 127 1396 half line dmj dgc: 0 15969 251 114 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 15008 13642 Zeroing lines in arrays Total # of output lines = 5 15007 15008 17104 0 2096 patch iptc,sj,dgj,dgi,id: 5 720 97 97 2096 half line dmj dgc: 1 15969 251 114 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 s1>sj: 15008 720 Zeroing lines in arrays Total # of output lines = 5 17103 Processing block number 6 720 2050 -66 1396 patch iptc,sj,dgj,dgi,id: 6 2050 31 97 1396 half line dmj dgc: 0 19461 242 114 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 2050 720 Zeroing lines in arrays Total # of output lines = 6 18433 2050 4146 0 2096 patch iptc,sj,dgj,dgi,id: 6 4146 31 31 2096 half line dmj dgc: 1 19461 242 114 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 4146 2050 Zeroing lines in arrays Total # of output lines = 6 20529 Processing block number 7 4146 5525 -17 1396 patch iptc,sj,dgj,dgi,id: 7 5525 14 31 1396 half line dmj dgc: 0 22953 241 114 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 5525 4146 Zeroing lines in arrays Total # of output lines = 7 21908 5525 7621 0 2096 patch iptc,sj,dgj,dgi,id: 7 7621 14 14 2096 half line dmj dgc: 1 22953 241 114 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 7621 5525 Zeroing lines in arrays Total # of output lines = 7 24004 Processing block number 8 7621 9046 29 1396 patch iptc,sj,dgj,dgi,id: 8 9046 43 14 1396 half line dmj dgc: 0 26445 249 114 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 sj>s1: 9046 7621 Zeroing lines in arrays Total # of output lines = 8 25429 9046 11142 0 2096 patch iptc,sj,dgj,dgi,id: 8 11142 43 43 2096 half line dmj dgc: 1 26445 249 114 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 sj>s1: 11142 9046 Zeroing lines in arrays Total # of output lines = 8 27525 Processing block number 9 11142 12562 24 1396 patch iptc,sj,dgj,dgi,id: 9 12562 67 43 1396 half line dmj dgc: 0 29937 255 114 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 12562 11142 Zeroing lines in arrays Total # of output lines = 9 28945 12562 14658 0 2096 patch iptc,sj,dgj,dgi,id: 9 14658 67 67 2096 half line dmj dgc: 1 29937 255 114 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 14658 12562 Zeroing lines in arrays Total # of output lines = 9 31041 Processing block number 10 14658 16072 18 1396 patch iptc,sj,dgj,dgi,id: 10 16072 85 67 1396 half line dmj dgc: 0 33429 255 114 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 16072 14658 Zeroing lines in arrays Total # of output lines = 10 32455 16072 18168 0 2096 patch iptc,sj,dgj,dgi,id: 10 1784 85 85 2096 half line dmj dgc: 1 33429 255 114 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 s1>sj: 16072 1784 Zeroing lines in arrays Total # of output lines = 10 34551 Processing block number 11 1784 3217 37 1396 patch iptc,sj,dgj,dgi,id: 11 3217 122 85 1396 half line dmj dgc: 0 36921 260 114 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 3217 1784 Zeroing lines in arrays Total # of output lines = 11 35984 3217 5313 0 2096 patch iptc,sj,dgj,dgi,id: 11 5313 122 122 2096 half line dmj dgc: 1 36921 260 114 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 sj>s1: 5313 3217 Zeroing lines in arrays Total # of output lines = 11 38080 Processing block number 12 5313 6728 19 1396 patch iptc,sj,dgj,dgi,id: 12 6728 141 122 1396 half line dmj dgc: 0 40413 269 114 Actual deskew ireclen: 20480 ** 12 2096 0 48208 Writing data negflag .eq. 0 sj>s1: 6728 5313 Zeroing lines in arrays Total # of output lines = 12 39495 6728 8824 0 2096 patch iptc,sj,dgj,dgi,id: 12 8824 141 141 2096 half line dmj dgc: 1 40413 269 114 Actual deskew ireclen: 20480 ** 12 2096 1 50304 Writing data negflag .eq. 0 sj>s1: 8824 6728 Zeroing lines in arrays Total # of output lines = 12 41591 Processing block number 13 8824 10226 6 1396 patch iptc,sj,dgj,dgi,id: 13 10226 147 141 1396 half line dmj dgc: 0 43905 276 114 Actual deskew ireclen: 20480 ** 13 2096 0 52400 Writing data negflag .eq. 0 sj>s1: 10226 8824 Zeroing lines in arrays Total # of output lines = 13 42993 10226 12322 0 2096 patch iptc,sj,dgj,dgi,id: 13 12322 147 147 2096 half line dmj dgc: 1 43905 276 114 Actual deskew ireclen: 20480 ** 13 2096 1 54496 Writing data negflag .eq. 0 sj>s1: 12322 10226 Zeroing lines in arrays Total # of output lines = 13 45089 Processing block number 14 12322 13761 43 1396 patch iptc,sj,dgj,dgi,id: 14 13761 190 147 1396 half line dmj dgc: 0 47397 286 114 Actual deskew ireclen: 20480 ** 14 2096 0 56592 Writing data negflag .eq. 0 sj>s1: 13761 12322 Zeroing lines in arrays Total # of output lines = 14 46528 13761 15857 0 2096 patch iptc,sj,dgj,dgi,id: 14 15857 190 190 2096 half line dmj dgc: 1 47397 286 114 Actual deskew ireclen: 20480 ** 14 2096 1 58688 Writing data negflag .eq. 0 sj>s1: 15857 13761 Zeroing lines in arrays Total # of output lines = 14 48624 Processing block number 15 15857 17263 10 1396 patch iptc,sj,dgj,dgi,id: 15 879 200 190 1396 half line dmj dgc: 0 50889 286 114 Actual deskew ireclen: 20480 ** 15 2096 0 60784 Writing data negflag .eq. 0 s1>sj: 15857 879 Zeroing lines in arrays Total # of output lines = 15 50030 879 2975 0 2096 patch iptc,sj,dgj,dgi,id: 15 2975 200 200 2096 half line dmj dgc: 1 50889 286 114 Actual deskew ireclen: 20480 ** 15 2096 1 62880 Writing data negflag .eq. 0 sj>s1: 2975 879 Zeroing lines in arrays Total # of output lines = 15 52126 Processing block number 16 2975 4377 6 1396 patch iptc,sj,dgj,dgi,id: 16 4377 206 200 1396 half line dmj dgc: 0 54381 277 114 Actual deskew ireclen: 20480 ** 16 2096 0 64976 Writing data negflag .eq. 0 sj>s1: 4377 2975 Zeroing lines in arrays Total # of output lines = 16 53528 4377 6473 0 2096 patch iptc,sj,dgj,dgi,id: 16 6473 206 206 2096 half line dmj dgc: 1 54381 277 114 Actual deskew ireclen: 20480 ** 16 2096 1 67072 Writing data negflag .eq. 0 sj>s1: 6473 4377 Zeroing lines in arrays Total # of output lines = 16 55624 Processing block number 17 6473 7900 31 1396 patch iptc,sj,dgj,dgi,id: 17 7900 237 206 1396 half line dmj dgc: 0 57873 276 114 Actual deskew ireclen: 20480 ** 17 2096 0 69168 Writing data negflag .eq. 0 sj>s1: 7900 6473 Zeroing lines in arrays Total # of output lines = 17 57051 7900 9996 0 2096 patch iptc,sj,dgj,dgi,id: 17 9996 237 237 2096 half line dmj dgc: 1 57873 276 114 Actual deskew ireclen: 20480 ** 17 2096 1 71264 Writing data negflag .eq. 0 sj>s1: 9996 7900 Zeroing lines in arrays Total # of output lines = 17 59147 Processing block number 18 9996 11451 59 1396 patch iptc,sj,dgj,dgi,id: 18 11451 296 237 1396 half line dmj dgc: 0 61365 298 114 Actual deskew ireclen: 20480 ** 18 2096 0 73360 Writing data negflag .eq. 0 sj>s1: 11451 9996 Zeroing lines in arrays Total # of output lines = 18 60602 11451 13547 0 2096 patch iptc,sj,dgj,dgi,id: 18 13547 296 296 2096 half line dmj dgc: 1 61365 298 114 Actual deskew ireclen: 20480 ** 18 2096 1 75456 Writing data negflag .eq. 0 sj>s1: 13547 11451 Zeroing lines in arrays Total # of output lines = 18 62698 Processing block number 19 13547 14936 -7 1396 patch iptc,sj,dgj,dgi,id: 19 14936 289 296 1396 half line dmj dgc: 0 64857 293 114 Actual deskew ireclen: 20480 ** 19 2096 0 77552 Writing data negflag .eq. 0 sj>s1: 14936 13547 Zeroing lines in arrays Total # of output lines = 19 64087 14936 17032 0 2096 patch iptc,sj,dgj,dgi,id: 19 648 289 289 2096 half line dmj dgc: 1 64857 293 114 Actual deskew ireclen: 20480 ** 19 2096 1 79648 Writing data negflag .eq. 0 s1>sj: 14936 648 Zeroing lines in arrays Total # of output lines = 19 66183 Processing block number 20 648 2015 -29 1396 patch iptc,sj,dgj,dgi,id: 20 2015 260 289 1396 half line dmj dgc: 0 68349 279 114 Actual deskew ireclen: 20480 ** 20 2096 0 81744 Writing data negflag .eq. 0 sj>s1: 2015 648 Zeroing lines in arrays Total # of output lines = 20 67550 2015 4111 0 2096 patch iptc,sj,dgj,dgi,id: 20 4111 260 260 2096 half line dmj dgc: 1 68349 279 114 Actual deskew ireclen: 20480 ** 20 2096 1 83840 Writing data negflag .eq. 0 sj>s1: 4111 2015 Zeroing lines in arrays Total # of output lines = 20 69646 Processing block number 21 4111 5541 34 1396 patch iptc,sj,dgj,dgi,id: 21 5541 294 260 1396 half line dmj dgc: 0 71841 300 114 Actual deskew ireclen: 20480 ** 21 2096 0 85936 Writing data negflag .eq. 0 sj>s1: 5541 4111 Zeroing lines in arrays Total # of output lines = 21 71076 5541 7637 0 2096 patch iptc,sj,dgj,dgi,id: 21 7637 294 294 2096 half line dmj dgc: 1 71841 300 114 Actual deskew ireclen: 20480 ** 21 2096 1 88032 Writing data negflag .eq. 0 sj>s1: 7637 5541 Zeroing lines in arrays Total # of output lines = 21 73172 Processing block number 22 7637 9056 23 1396 patch iptc,sj,dgj,dgi,id: 22 9056 317 294 1396 half line dmj dgc: 0 75333 330 114 Actual deskew ireclen: 20480 ** 22 2096 0 90128 Writing data negflag .eq. 0 sj>s1: 9056 7637 Zeroing lines in arrays Total # of output lines = 22 74591 9056 11152 0 2096 patch iptc,sj,dgj,dgi,id: 22 11152 317 317 2096 half line dmj dgc: 1 75333 330 114 Actual deskew ireclen: 20480 ** 22 2096 1 92224 Writing data negflag .eq. 0 sj>s1: 11152 9056 Zeroing lines in arrays Total # of output lines = 22 76687 Processing block number 23 11152 12510 -38 1396 patch iptc,sj,dgj,dgi,id: 23 12510 279 317 1396 half line dmj dgc: 0 78825 308 114 Actual deskew ireclen: 20480 ** 23 2096 0 94320 Writing data negflag .eq. 0 sj>s1: 12510 11152 Zeroing lines in arrays Total # of output lines = 23 78045 12510 14606 0 2096 patch iptc,sj,dgj,dgi,id: 23 14606 279 279 2096 half line dmj dgc: 1 78825 308 114 Actual deskew ireclen: 20480 ** 23 2096 1 96416 Writing data negflag .eq. 0 sj>s1: 14606 12510 Zeroing lines in arrays Total # of output lines = 23 80141 Processing block number 24 14606 15942 -60 1396 patch iptc,sj,dgj,dgi,id: 24 15942 219 279 1396 half line dmj dgc: 0 82317 284 114 Actual deskew ireclen: 20480 ** 24 2096 0 98512 Writing data negflag .eq. 0 sj>s1: 15942 14606 Zeroing lines in arrays Total # of output lines = 24 81477 15942 18038 0 2096 patch iptc,sj,dgj,dgi,id: 24 1654 219 219 2096 half line dmj dgc: 1 82317 284 114 Actual deskew ireclen: 20480 ** 24 2096 1 100608 Writing data negflag .eq. 0 s1>sj: 15942 1654 Zeroing lines in arrays Total # of output lines = 24 83573 Processing block number 25 1654 3047 -3 1396 patch iptc,sj,dgj,dgi,id: 25 3047 216 219 1396 half line dmj dgc: 0 85809 279 114 Actual deskew ireclen: 20480 ** 25 2096 0 102704 Writing data negflag .eq. 0 sj>s1: 3047 1654 Zeroing lines in arrays Total # of output lines = 25 84966 3047 5143 0 2096 patch iptc,sj,dgj,dgi,id: 25 5143 216 216 2096 half line dmj dgc: 1 85809 279 114 Actual deskew ireclen: 20480 ** 25 2096 1 104800 Writing data negflag .eq. 0 sj>s1: 5143 3047 Zeroing lines in arrays Total # of output lines = 25 87062 Processing block number 26 5143 6581 42 1396 patch iptc,sj,dgj,dgi,id: 26 6581 258 216 1396 half line dmj dgc: 0 89301 297 114 Actual deskew ireclen: 20480 ** 26 2096 0 106896 Writing data negflag .eq. 0 sj>s1: 6581 5143 Zeroing lines in arrays Total # of output lines = 26 88500 6581 8677 0 2096 patch iptc,sj,dgj,dgi,id: 26 8677 258 258 2096 half line dmj dgc: 1 89301 297 114 Actual deskew ireclen: 20480 ** 26 2096 1 108992 Writing data negflag .eq. 0 sj>s1: 8677 6581 Zeroing lines in arrays Total # of output lines = 26 90596 Processing block number 27 8677 10067 -6 1396 patch iptc,sj,dgj,dgi,id: 27 10067 252 258 1396 half line dmj dgc: 0 92793 306 114 Actual deskew ireclen: 20480 ** 27 2096 0 111088 Writing data negflag .eq. 0 sj>s1: 10067 8677 Zeroing lines in arrays Total # of output lines = 27 91986 10067 12163 0 2096 patch iptc,sj,dgj,dgi,id: 27 12163 252 252 2096 half line dmj dgc: 1 92793 306 114 Actual deskew ireclen: 20480 ** 27 2096 1 113184 Writing data negflag .eq. 0 sj>s1: 12163 10067 Zeroing lines in arrays Total # of output lines = 27 94082 Processing block number 28 12163 11063 -19 -1081 patch iptc,sj,dgj,dgi,id: 28 11063 233 252 -1081 half line dmj dgc: 0 93808 312 114 Actual deskew ireclen: 20480 ** 28 2096 0 115280 Zeroing lines in arrays Total # of output lines = 28 94082 12163 13159 0 2096 patch iptc,sj,dgj,dgi,id: 28 13159 233 233 2096 half line dmj dgc: 1 93808 312 114 Actual deskew ireclen: 20480 ** 28 2096 1 117376 Writing data negflag .eq. 0 sj>s1: 13159 12163 Zeroing lines in arrays Total # of output lines = 28 95078 ia dmi dgi: 13159 312 233 Writing the last 2175 lines last half sj>s1 15334 13159 95078 Total # of output lines = 97253 Writing new header.. Closing files .. ileni= 39 ilend= 35 /export/air32/airops/1400/ts1400_l.hh_j.0 /export/air32/airops/1400/deskew.lh.0 /export/air32/airops/1400/ts1400_l.hh_j.1 /export/air32/airops/1400/deskew.lh.1 /export/air32/airops/1400/ts1400_l.hh_j.2 /export/air32/airops/1400/deskew.lh.2 /export/air32/airops/1400/ts1400_l.hh_j.3 /export/air32/airops/1400/deskew.lh.3 /export/air32/airops/1400/ts1400_l.hh_j.4 /export/air32/airops/1400/deskew.lh.4 /export/air32/airops/1400/ts1400_l.hh_j.5 /export/air32/airops/1400/deskew.lh.5 /export/air32/airops/1400/ts1400_l.hh_j.6 /export/air32/airops/1400/deskew.lh.6 /export/air32/airops/1400/ts1400_l.hh_j.7 /export/air32/airops/1400/deskew.lh.7 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.35 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 1 AZ patch size: 8192 What is the desired az fract (def=1.0)? fract #: 0.0000000E+00 Please enter the name of the sensor file. /export/air32/airops/1400/sensor.vv96l_pr Please enter the name of the parameter file /export/air36/airops/1400/ts1400_l.par hddt: 96068 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 100000 lines Keeping 4192 data points per patch Near range (m) = 9040.540 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 2.400000 Radar wavelength (m) = 0.2422600 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = 0.0000000E+00 Range weighting coefficient = 0.1000000 Map height (m) = 78.60000 Transmit leverarm x,y,z = 0.5400000 0.5371945 -0.2652719 Receive leverarm x,y,z = 0.5400000 0.5371945 -0.2652719 Name of raw data file? /export/air32/airops/1400/l_vv Name of the mocomp data file? /export/air36/airops/1400/ts1400_l.mocompv Output file name w/o ext? /export/air36/airops/1400/ts1400_l Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. vv Raw DIR Path:/export/air32/airops/1400/ output filename: /export/air32/airops/1400/ts1400_l.vv_j *** ipol itop: 4 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /export/air32/airops/1400/deskew.lv WAYNE init fft, calc slant range, load unpack, interpo 1.5897997E-02 reading motion compensation data WAYNE read motion compen 2.318777 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 AnalogChirp>96032Br,fs,T,fc 96068 40.00000 22.50000 90.00000 10.00000 deltaphase -ashift: 0.0000000E+00 0.0000000E+00 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.7484491 start range comp, time = 3.323 WAYNE PREV 3.103282 NUMBER OF PROCESSOR USED = 8 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 8 ..... WAYNE IS IN Processing 26 to 28 by # 7 Processing block number 26 WAYNE PATCHES: 87301 95492 patch# 26 reference line: 91396 3.661 seconds. before reading done reading WAYNE load raw data , time = 55.60054099559784 ATTN ifrq ipol ln 4 4 95492 8.000000 IPOL, ITOP nblock 4 0 26 WAYNE Motion comp. coeff. calculated, time = 1.1787056922912598E-02 WAYNE Motion comp. added to patch, time = 18.33502399921417 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 3.0000209808349609E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.2064840793610 Writing 4192 lines of data to file WAYNE write output data 33.08949291706085 ==w out 26 0 2001 0 WAYNE PROCESS 453.2485519647598 Processing block number 27 WAYNE PATCHES: 90793 98984 patch# 27 reference line: 94888 456.910 seconds. before reading done reading WAYNE load raw data , time = 56.26396000385284 ATTN ifrq ipol ln 4 4 98984 8.000000 IPOL, ITOP nblock 4 0 27 WAYNE Motion comp. coeff. calculated, time = 1.2063026428222656E-02 WAYNE Motion comp. added to patch, time = 17.17879104614258 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.5441050529479980E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 343.1795010566711 Writing 4192 lines of data to file WAYNE write output data 1.778771042823792 ==w out 27 4192 2001 85852160 WAYNE PROCESS 418.4404740333557 Processing block number 28 WAYNE PATCHES: 91808 99999 patch# 28 reference line: 95903 875.351 seconds. before reading done reading WAYNE load raw data , time = 95.19858300685883 ATTN ifrq ipol ln 4 4 99999 8.000000 IPOL, ITOP nblock 4 0 28 WAYNE Motion comp. coeff. calculated, time = 1.1545062065124512E-02 WAYNE Motion comp. added to patch, time = 16.87733399868011 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.3255944252014160E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.0227329730988 Writing 4192 lines of data to file WAYNE write output data 1.954601049423218 ==w out 28 8384 2001 171704320 WAYNE PROCESS 461.0893380641937 ==w out 29 12579 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 4 by # 0 Processing block number 1 TESTING WHY -6.4741098E-03 1.8001201E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 3.561 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 53.50091302394867 ATTN ifrq ipol ln 4 4 8192 8.000000 IPOL, ITOP nblock 4 0 1 WAYNE Motion comp. coeff. calculated, time = 1.1675953865051270E-02 TESTING 0.0000000E+00 -47.83472 0.1490096 WAYNE Motion comp. added to patch, time = 19.11095201969147 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.6530027389526367E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -47.83472 0.1490096 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -6.4741098E-03 1.8001201E-02 WAYNE Azimuth compression done, time = 344.9420100450516 Writing 4192 lines of data to file WAYNE write output data 13.37173104286194 ==w out 1 0 2001 0 WAYNE PROCESS 430.9414880275726 Processing block number 2 TESTING WHY -6.4040902E-03 1.7581699E-02 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 434.504 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 98.13119900226593 ATTN ifrq ipol ln 4 4 11684 8.000000 IPOL, ITOP nblock 4 0 2 WAYNE Motion comp. coeff. calculated, time = 1.1618018150329590E-02 TESTING 0.0000000E+00 -42.32136 0.3445536 WAYNE Motion comp. added to patch, time = 17.99747002124786 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 8.9173913002014160E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -42.32136 0.3445536 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -6.4040902E-03 1.7581699E-02 WAYNE Azimuth compression done, time = 341.4169819355011 Writing 4192 lines of data to file WAYNE write output data 11.43220305442810 ==w out 2 4192 2001 85852160 WAYNE PROCESS 469.0803160667419 Processing block number 3 TESTING WHY -5.7757902E-03 1.7326901E-02 3492 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 903.584 seconds. TESTING 6985 before reading done reading WAYNE load raw data , time = 73.77383792400360 ATTN ifrq ipol ln 4 4 15176 8.000000 IPOL, ITOP nblock 4 0 3 WAYNE Motion comp. coeff. calculated, time = 1.1240959167480469E-02 TESTING 0.0000000E+00 -37.07353 0.2460370 WAYNE Motion comp. added to patch, time = 17.54276394844055 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 6.1514019966125488E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -37.07353 0.2460370 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -5.7757902E-03 1.7326901E-02 WAYNE Azimuth compression done, time = 345.1399520635605 Writing 4192 lines of data to file WAYNE write ou PROCESSING KID# 5 ..... WAYNE IS IN Processing 17 to 19 by # 4 Processing block number 17 WAYNE PATCHES: 55873 64064 patch# 17 reference line: 59968 3.615 seconds. before reading done reading WAYNE load raw data , time = 52.95174896717072 ATTN ifrq ipol ln 4 4 64064 8.000000 IPOL, ITOP nblock 4 0 17 WAYNE Motion comp. coeff. calculated, time = 1.1693954467773438E-02 WAYNE Motion comp. added to patch, time = 18.72176599502563 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.7680397033691406E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 344.6362110376358 Writing 4192 lines of data to file WAYNE write output data 2.101210951805115 ==w out 17 0 2001 0 WAYNE PROCESS 418.4269989728928 Processing block number 18 WAYNE PATCHES: 59365 67556 patch# 18 reference line: 63460 422.043 seconds. before reading done reading WAYNE load raw data , time = 118.7650899887085 ATTN ifrq ipol ln 4 4 67556 8.000000 IPOL, ITOP nblock 4 0 18 WAYNE Motion comp. coeff. calculated, time = 1.1883020401000977E-02 WAYNE Motion comp. added to patch, time = 18.23794198036194 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.4003982543945313E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 339.9226909875870 Writing 4192 lines of data to file WAYNE write output data 11.92976200580597 ==w out 18 4192 2001 85852160 WAYNE PROCESS 488.8936229944229 Processing block number 19 WAYNE PATCHES: 62857 71048 patch# 19 reference line: 66952 910.937 seconds. before reading done reading WAYNE load raw data , time = 66.88946199417114 ATTN ifrq ipol ln 4 4 71048 8.000000 IPOL, ITOP nblock 4 0 19 WAYNE Motion comp. coeff. calculated, time = 1.1170983314514160E-02 WAYNE Motion comp. added to patch, time = 17.03486192226410 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.1113991737365723E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.1019539833069 Writing 4192 lines of data to file WAYNE write output data 2.032873988151550 ==w out 19 8384 2001 171704320 WAYNE PROCESS 431.0929960012436 ==w out 20 12579 PROCESSING KID# 6 ..... WAYNE IS IN Processing 20 to 22 by # 5 Processing block number 20 WAYNE PATCHES: 66349 74540 patch# 20 reference line: 70444 3.632 seconds. before reading done reading WAYNE load raw data , time = 53.98728692531586 ATTN ifrq ipol ln 4 4 74540 8.000000 IPOL, ITOP nblock 4 0 20 WAYNE Motion comp. coeff. calculated, time = 1.2729048728942871E-02 WAYNE Motion comp. added to patch, time = 18.19742894172668 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.7660131454467773E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.6023709774017 Writing 4192 lines of data to file WAYNE write output data 12.47859394550323 ==w out 20 0 2001 0 WAYNE PROCESS 430.2830899953842 Processing block number 21 WAYNE PATCHES: 69841 78032 patch# 21 reference line: 73936 433.916 seconds. before reading done reading WAYNE load raw data , time = 99.16071498394012 ATTN ifrq ipol ln 4 4 78032 8.000000 IPOL, ITOP nblock 4 0 21 WAYNE Motion comp. coeff. calculated, time = 1.1487960815429688E-02 WAYNE Motion comp. added to patch, time = 17.44629108905792 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 9.3638062477111816E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 341.3905960321426 Writing 4192 lines of data to file WAYNE write output data 1.825626015663147 ==w out 21 4192 2001 85852160 WAYNE PROCESS 459.9302760362625 Processing block number 22 WAYNE PATCHES: 73333 81524 patch# 22 reference line: 77428 893.847 seconds. before reading done reading WAYNE load raw data , time = 83.64788401126862 ATTN ifrq ipol ln 4 4 81524 8.000000 IPOL, ITOP nblock 4 0 22 WAYNE Motion comp. coeff. calculated, time = 1.4665007591247559E-02 WAYNE Motion comp. added to patch, time = 17.23843491077423 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.6854038238525391E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.5042749643326 Writing 4192 lines of data to file WAYNE write output data 2.072432041168213 ==w out 22 8384 2001 171704320 WAYNE PROCESS 448.5061069726944 ==w out 23 12579 PROCESSING KID# 7 ..... WAYNE IS IN Processing 23 to 25 by # 6 Processing block number 23 WAYNE PATCHES: 76825 85016 patch# 23 reference line: 80920 3.646 seconds. before reading done reading WAYNE load raw data , time = 52.78552901744843 ATTN ifrq ipol ln 4 4 85016 8.000000 IPOL, ITOP nblock 4 0 23 WAYNE Motion comp. coeff. calculated, time = 1.1813998222351074E-02 WAYNE Motion comp. added to patch, time = 18.62647306919098 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.6589632034301758E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.8100159168243 Writing 4192 lines of data to file WAYNE write output data 10.24092495441437 ==w out 23 0 2001 0 WAYNE PROCESS 428.4791409969330 Processing block number 24 WAYNE PATCHES: 80317 88508 patch# 24 reference line: 84412 432.126 seconds. before reading done reading WAYNE load raw data , time = 103.8178319931030 ATTN ifrq ipol ln 4 4 88508 8.000000 IPOL, ITOP nblock 4 0 24 WAYNE Motion comp. coeff. calculated, time = 1.1554002761840820E-02 WAYNE Motion comp. added to patch, time = 17.85330009460449 WAYNE Doppler estimation done, time = 8.1062316894531250E-06 WAYNE write deskew done, time = 3.2723069190979004E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 341.9574489593506 Writing 4192 lines of data to file WAYNE write output data 9.152470946311951 ==w out 24 4192 2001 85852160 WAYNE PROCESS 472.8275319337845 Processing block number 25 WAYNE PATCHES: 83809 92000 patch# 25 reference line: 87904 904.954 seconds. before reading done reading WAYNE load raw data , time = 71.76545894145966 ATTN ifrq ipol ln 4 4 92000 8.000000 IPOL, ITOP nblock 4 0 25 WAYNE Motion comp. coeff. calculated, time = 1.1093020439147949E-02 WAYNE Motion comp. added to patch, time = 16.90779209136963 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 3.0732035636901855E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.6012840270996 Writing 4192 lines of data to file WAYNE write output data 22.69193994998932 ==w out 25 8384 2001 171704320 WAYNE PROCESS 458.0099059343338 ==w out 26 12579 PROCESSING KID# 3 ..... WAYNE IS IN Processing 9 to 12 by # 2 Processing block number 9 WAYNE PATCHES: 27937 36128 patch# 9 reference line: 32032 3.589 seconds. before reading done reading WAYNE load raw data , time = 54.20092189311981 ATTN ifrq ipol ln 4 4 36128 8.000000 IPOL, ITOP nblock 4 0 9 WAYNE Motion comp. coeff. calculated, time = 1.2210011482238770E-02 WAYNE Motion comp. added to patch, time = 19.19902706146240 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.7329921722412109E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.0283290147781 Writing 4192 lines of data to file WAYNE write output data 10.10580301284790 ==w out 9 0 2001 0 WAYNE PROCESS 428.5506889820099 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 432.140 seconds. before reading done reading WAYNE load raw data , time = 104.2796429395676 ATTN ifrq ipol ln 4 4 39620 8.000000 IPOL, ITOP nblock 4 0 10 WAYNE Motion comp. coeff. calculated, time = 1.1819958686828613E-02 WAYNE Motion comp. added to patch, time = 18.16388106346130 WAYNE Doppler estimation done, time = 9.8943710327148438E-06 WAYNE write deskew done, time = 4.6840071678161621E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 341.6116260290146 Writing 4192 lines of data to file WAYNE write output data 8.745242953300476 ==w out 10 4192 2001 85852160 WAYNE PROCESS 472.8611990213394 Processing block number 11 WAYNE PATCHES: 34921 43112 patch# 11 reference line: 39016 905.002 seconds. before reading done reading WAYNE load raw data , time = 72.71523702144623 ATTN ifrq ipol ln 4 4 43112 8.000000 IPOL, ITOP nblock 4 0 11 WAYNE Motion comp. coeff. calculated, time = 1.1556029319763184E-02 WAYNE Motion comp. added to patch, time = 16.90126204490662 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 3.2925009727478027E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.3040030002594 Writing 4192 lines of data to file WAYNE write output data 22.62556397914886 ==w out 11 8384 2001 171704320 WAYNE PROCESS 457.5919929742813 Processing block number 12 WAYNE PATCHES: 38413 46604 patch# 12 reference line: 42508 1362.594 seconds. before reading done reading WAYNE load raw data , time = 61.92942798137665 ATTN ifrq ipol ln 4 4 46604 8.000000 IPOL, ITOP nblock 4 0 12 WAYNE Motion comp. coeff. calculated, time = 1.1027932167053223E-02 WAYNE Motion comp. added to patch, time = 15.52840697765350 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.4079084396362305E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migrati PROCESSING KID# 2 ..... WAYNE IS IN Processing 5 to 8 by # 1 Processing block number 5 WAYNE PATCHES: 13969 22160 patch# 5 reference line: 18064 3.577 seconds. before reading done reading WAYNE load raw data , time = 54.26703894138336 ATTN ifrq ipol ln 4 4 22160 8.000000 IPOL, ITOP nblock 4 0 5 WAYNE Motion comp. coeff. calculated, time = 1.2158989906311035E-02 WAYNE Motion comp. added to patch, time = 18.70011699199677 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.7539730072021484E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 344.1725820302963 Writing 4192 lines of data to file WAYNE write output data 2.204921007156372 ==w out 5 0 2001 0 WAYNE PROCESS 419.3613520860672 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 422.939 seconds. before reading done reading WAYNE load raw data , time = 92.84565401077271 ATTN ifrq ipol ln 4 4 25652 8.000000 IPOL, ITOP nblock 4 0 6 WAYNE Motion comp. coeff. calculated, time = 1.1958003044128418E-02 WAYNE Motion comp. added to patch, time = 18.09029698371887 WAYNE Doppler estimation done, time = 6.9141387939453125E-06 WAYNE write deskew done, time = 2.3203015327453613E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 341.5637060403824 Writing 4192 lines of data to file WAYNE write output data 1.796522974967957 ==w out 6 4192 2001 85852160 WAYNE PROCESS 454.3331799507141 Processing block number 7 WAYNE PATCHES: 20953 29144 patch# 7 reference line: 25048 877.273 seconds. before reading done reading WAYNE load raw data , time = 95.10856795310974 ATTN ifrq ipol ln 4 4 29144 8.000000 IPOL, ITOP nblock 4 0 7 WAYNE Motion comp. coeff. calculated, time = 1.1043071746826172E-02 WAYNE Motion comp. added to patch, time = 17.69710302352905 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 9.5848083496093750E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 344.8989390134811 Writing 4192 lines of data to file WAYNE write output data 1.848355054855347 ==w out 7 8384 2001 171704320 WAYNE PROCESS 459.6614800691605 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 1336.934 seconds. before reading done reading WAYNE load raw data , time = 87.68878006935120 ATTN ifrq ipol ln 4 4 32636 8.000000 IPOL, ITOP nblock 4 0 8 WAYNE Motion comp. coeff. calculated, time = 1.1131048202514648E-02 WAYNE Motion comp. added to patch, time = 16.08992505073547 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.4539232254028320E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migrati PROCESSING KID# 4 ..... WAYNE IS IN Processing 13 to 16 by # 3 Processing block number 13 WAYNE PATCHES: 41905 50096 patch# 13 reference line: 46000 3.603 seconds. before reading done reading WAYNE load raw data , time = 54.19449305534363 ATTN ifrq ipol ln 4 4 50096 8.000000 IPOL, ITOP nblock 4 0 13 WAYNE Motion comp. coeff. calculated, time = 1.1902928352355957E-02 WAYNE Motion comp. added to patch, time = 18.18259191513062 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.7350187301635742E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.6225229501724 Writing 4192 lines of data to file WAYNE write output data 9.974347949028015 ==w out 13 0 2001 0 WAYNE PROCESS 427.9902650117874 Processing block number 14 WAYNE PATCHES: 45397 53588 patch# 14 reference line: 49492 431.593 seconds. before reading done reading WAYNE load raw data , time = 90.02257800102234 ATTN ifrq ipol ln 4 4 53588 8.000000 IPOL, ITOP nblock 4 0 14 WAYNE Motion comp. coeff. calculated, time = 1.1942028999328613E-02 WAYNE Motion comp. added to patch, time = 17.63187205791473 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 8.8715076446533203E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 342.5339130163193 Writing 4192 lines of data to file WAYNE write output data 1.849878072738647 ==w out 14 4192 2001 85852160 WAYNE PROCESS 452.1409391164780 Processing block number 15 WAYNE PATCHES: 48889 57080 patch# 15 reference line: 52984 883.735 seconds. before reading done reading WAYNE load raw data , time = 94.32294702529907 ATTN ifrq ipol ln 4 4 57080 8.000000 IPOL, ITOP nblock 4 0 15 WAYNE Motion comp. coeff. calculated, time = 1.1219024658203125E-02 WAYNE Motion comp. added to patch, time = 17.10236501693726 WAYNE Doppler estimation done, time = 1.5974044799804688E-05 WAYNE write deskew done, time = 2.2133946418762207E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.6443649530411 Writing 4192 lines of data to file WAYNE write output data 21.73033201694489 ==w out 15 8384 2001 171704320 WAYNE PROCESS 478.8350189924240 Processing block number 16 WAYNE PATCHES: 52381 60572 patch# 16 reference line: 56476 1362.570 seconds. before reading done reading WAYNE load raw data , time = 62.99119794368744 ATTN ifrq ipol ln 4 4 60572 8.000000 IPOL, ITOP nblock 4 0 16 WAYNE Motion comp. coeff. calculated, time = 1.1258006095886230E-02 WAYNE Motion comp. added to patch, time = 15.88421607017517 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.4191141128540039E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migratitput data 2.087753057479858 ==w out 3 8384 2001 171704320 WAYNE PROCESS 438.6186580657959 Processing block number 4 TESTING WHY -5.3123902E-03 1.7652800E-02 3492 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 1342.204 seconds. TESTING 10477 before reading done reading WAYNE load raw data , time = 81.67472696304321 ATTN ifrq ipol ln 4 4 18668 8.000000 IPOL, ITOP nblock 4 0 4 WAYNE Motion comp. coeff. calculated, time = 1.1185050010681152E-02 TESTING 0.0000000E+00 -32.53064 -0.3945903 WAYNE Motion comp. added to patch, time = 15.94052505493164 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.5249719619750977E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -32.53064 -0.3945903 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -5.3123902E-03 1.7652800E-02 WAYNE Azimuth compression done, time = 267.5232379436493 Writing 4192 lines of data to file WAYNE write output data 1.689602971076965 ==w out 4 12576 2001 257556480 WAYNE PROCESS 366.8429529666901 ==w out 5 16771 on lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 268.2782269716263 Writing 4192 lines of data to file WAYNE write output data 1.779974937438965 ==w out 12 12576 2001 257556480 WAYNE PROCESS 347.5307679176331 ==w out 13 16771 on lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 268.2056699991226 Writing 4192 lines of data to file WAYNE write output data 1.796684980392456 ==w out 8 12576 2001 257556480 WAYNE PROCESS 373.7959649562836 ==w out 9 16771 on lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 267.8842099905014 Writing 4192 lines of data to file WAYNE write output data 1.768615007400513 ==w out 16 12576 2001 257556480 WAYNE PROCESS 348.5432540178299 ==w out 17 16771 1 7988970 0 2 7982550 0 3 7987460 0 4 7987293 0 5 7987837 0 6 7987714 0 7 7988640 0 8 7989077 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 117376kids= 8 Writing variable header... gather image from processor # 0 4 gather image from processor # 1 4 gather image from processor # 2 4 gather image from processor # 3 4 gather image from processor # 4 3 gather image from processor # 5 3 gather image from processor # 6 3 gather image from processor # 7 3 WAYNE gather images takes: 18.67888796329498 WAYNE LOOP TIME: 1735.892596960068 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air32/airops/1400/ts1400_l.vv_j /export/air36/airops/1400/ts1400_l.mocompv /export/air36/airops/1400/ts1400_l.dop /export/air36/airops/1400/ts1400_l.glb 2560 117376 update intf hdr ha: 8367.900 UPDATE: 2560 117376 3.331000 0.5144000 mocompfile /export/air36/airops/1400/ts1400_l.mocompv dopfile /export/air36/airops/1400/ts1400_l.dop globalfile /export/air36/airops/1400/ts1400_l.glb /export/air36/airops/1400/ts1400_l.glb 38 deskew line ra ha trc: 128.5260 249 9042.366 8367.900 54.57177 after deskew line ra ha trc: 128.5260 249 9042.366 8367.900 54.57177 lat1 lon1: 249 4.813068 114.7795 117376 last ra n_ns ns: 9042.366 1 1 117624 117376 lati loni: 117624 5.129428 115.2615 117624 1 center ra n_ns ns: 13302.71 1280 1280 58936 117376 lati loni: 58936 5.002770 114.9983 58936 2560 Updated paramater header in /export/air32/airops/1400/ts1400_l.vv_j WAYNE FINAL PROCESS 1739.345810055733 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 8 16768 4 16768 4 16768 4 16768 4 12576 3 12576 3 12576 3 12576 3 Name of data file to be deskewed? /export/air32/airops/1400/ts1400_l.vv_j Name of the doppler parameter file? /export/air36/airops/1400/ts1400_l.dop Name of the deskew file? /export/air32/airops/1400/deskew.lv Line up to another frequency [y/n]? y Name of the deskew file to line up to? /export/air32/airops/1400/deskew.ch Enter N_AZ, NA_VALID and the ratio of the pixel spacing of the file to line up to relative to the current pixel spacing. 4096 2208 1.000000 Name of the output file? /export/air36/airops/1400/ts1400_l.BB Name of the line output file? /export/air36/airops/1400/l_lines.dat NONE-SYMMETRIC PARALLEL JOBS Deskewing 28 patches Processing block number 1 patch iptc,sj,dgj,dgi,id: 1 1041 98 98 0 half line dmj dgc: 0 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1041 1 Zeroing lines in arrays Total # of output lines = 1 1040 1041 3137 0 2096 patch iptc,sj,dgj,dgi,id: 1 3137 98 98 2096 half line dmj dgc: 1 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3137 1041 Zeroing lines in arrays Total # of output lines = 1 3136 Processing block number 2 3137 4528 -5 1396 patch iptc,sj,dgj,dgi,id: 2 4528 93 98 1396 half line dmj dgc: 0 5493 243 114 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 4528 3137 Zeroing lines in arrays Total # of output lines = 2 4527 4528 6624 0 2096 patch iptc,sj,dgj,dgi,id: 2 6624 93 93 2096 half line dmj dgc: 1 5493 243 114 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 6624 4528 Zeroing lines in arrays Total # of output lines = 2 6623 Processing block number 3 6624 8035 15 1396 patch iptc,sj,dgj,dgi,id: 3 8035 108 93 1396 half line dmj dgc: 0 8985 243 114 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 8035 6624 Zeroing lines in arrays Total # of output lines = 3 8034 8035 10131 0 2096 patch iptc,sj,dgj,dgi,id: 3 10131 108 108 2096 half line dmj dgc: 1 8985 243 114 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 10131 8035 Zeroing lines in arrays Total # of output lines = 3 10130 Processing block number 4 10131 11546 19 1396 patch iptc,sj,dgj,dgi,id: 4 11546 127 108 1396 half line dmj dgc: 0 12477 251 114 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 11546 10131 Zeroing lines in arrays Total # of output lines = 4 11545 11546 13642 0 2096 patch iptc,sj,dgj,dgi,id: 4 13642 127 127 2096 half line dmj dgc: 1 12477 251 114 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 sj>s1: 13642 11546 Zeroing lines in arrays Total # of output lines = 4 13641 Processing block number 5 13642 15008 -30 1396 patch iptc,sj,dgj,dgi,id: 5 15008 97 127 1396 half line dmj dgc: 0 15969 251 114 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 15008 13642 Zeroing lines in arrays Total # of output lines = 5 15007 15008 17104 0 2096 patch iptc,sj,dgj,dgi,id: 5 720 97 97 2096 half line dmj dgc: 1 15969 251 114 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 s1>sj: 15008 720 Zeroing lines in arrays Total # of output lines = 5 17103 Processing block number 6 720 2050 -66 1396 patch iptc,sj,dgj,dgi,id: 6 2050 31 97 1396 half line dmj dgc: 0 19461 242 114 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 2050 720 Zeroing lines in arrays Total # of output lines = 6 18433 2050 4146 0 2096 patch iptc,sj,dgj,dgi,id: 6 4146 31 31 2096 half line dmj dgc: 1 19461 242 114 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 4146 2050 Zeroing lines in arrays Total # of output lines = 6 20529 Processing block number 7 4146 5525 -17 1396 patch iptc,sj,dgj,dgi,id: 7 5525 14 31 1396 half line dmj dgc: 0 22953 241 114 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 5525 4146 Zeroing lines in arrays Total # of output lines = 7 21908 5525 7621 0 2096 patch iptc,sj,dgj,dgi,id: 7 7621 14 14 2096 half line dmj dgc: 1 22953 241 114 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 7621 5525 Zeroing lines in arrays Total # of output lines = 7 24004 Processing block number 8 7621 9046 29 1396 patch iptc,sj,dgj,dgi,id: 8 9046 43 14 1396 half line dmj dgc: 0 26445 249 114 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 sj>s1: 9046 7621 Zeroing lines in arrays Total # of output lines = 8 25429 9046 11142 0 2096 patch iptc,sj,dgj,dgi,id: 8 11142 43 43 2096 half line dmj dgc: 1 26445 249 114 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 sj>s1: 11142 9046 Zeroing lines in arrays Total # of output lines = 8 27525 Processing block number 9 11142 12562 24 1396 patch iptc,sj,dgj,dgi,id: 9 12562 67 43 1396 half line dmj dgc: 0 29937 255 114 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 12562 11142 Zeroing lines in arrays Total # of output lines = 9 28945 12562 14658 0 2096 patch iptc,sj,dgj,dgi,id: 9 14658 67 67 2096 half line dmj dgc: 1 29937 255 114 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 14658 12562 Zeroing lines in arrays Total # of output lines = 9 31041 Processing block number 10 14658 16072 18 1396 patch iptc,sj,dgj,dgi,id: 10 16072 85 67 1396 half line dmj dgc: 0 33429 255 114 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 16072 14658 Zeroing lines in arrays Total # of output lines = 10 32455 16072 18168 0 2096 patch iptc,sj,dgj,dgi,id: 10 1784 85 85 2096 half line dmj dgc: 1 33429 255 114 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 s1>sj: 16072 1784 Zeroing lines in arrays Total # of output lines = 10 34551 Processing block number 11 1784 3217 37 1396 patch iptc,sj,dgj,dgi,id: 11 3217 122 85 1396 half line dmj dgc: 0 36921 260 114 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 3217 1784 Zeroing lines in arrays Total # of output lines = 11 35984 3217 5313 0 2096 patch iptc,sj,dgj,dgi,id: 11 5313 122 122 2096 half line dmj dgc: 1 36921 260 114 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 sj>s1: 5313 3217 Zeroing lines in arrays Total # of output lines = 11 38080 Processing block number 12 5313 6728 19 1396 patch iptc,sj,dgj,dgi,id: 12 6728 141 122 1396 half line dmj dgc: 0 40413 269 114 Actual deskew ireclen: 20480 ** 12 2096 0 48208 Writing data negflag .eq. 0 sj>s1: 6728 5313 Zeroing lines in arrays Total # of output lines = 12 39495 6728 8824 0 2096 patch iptc,sj,dgj,dgi,id: 12 8824 141 141 2096 half line dmj dgc: 1 40413 269 114 Actual deskew ireclen: 20480 ** 12 2096 1 50304 Writing data negflag .eq. 0 sj>s1: 8824 6728 Zeroing lines in arrays Total # of output lines = 12 41591 Processing block number 13 8824 10226 6 1396 patch iptc,sj,dgj,dgi,id: 13 10226 147 141 1396 half line dmj dgc: 0 43905 276 114 Actual deskew ireclen: 20480 ** 13 2096 0 52400 Writing data negflag .eq. 0 sj>s1: 10226 8824 Zeroing lines in arrays Total # of output lines = 13 42993 10226 12322 0 2096 patch iptc,sj,dgj,dgi,id: 13 12322 147 147 2096 half line dmj dgc: 1 43905 276 114 Actual deskew ireclen: 20480 ** 13 2096 1 54496 Writing data negflag .eq. 0 sj>s1: 12322 10226 Zeroing lines in arrays Total # of output lines = 13 45089 Processing block number 14 12322 13761 43 1396 patch iptc,sj,dgj,dgi,id: 14 13761 190 147 1396 half line dmj dgc: 0 47397 286 114 Actual deskew ireclen: 20480 ** 14 2096 0 56592 Writing data negflag .eq. 0 sj>s1: 13761 12322 Zeroing lines in arrays Total # of output lines = 14 46528 13761 15857 0 2096 patch iptc,sj,dgj,dgi,id: 14 15857 190 190 2096 half line dmj dgc: 1 47397 286 114 Actual deskew ireclen: 20480 ** 14 2096 1 58688 Writing data negflag .eq. 0 sj>s1: 15857 13761 Zeroing lines in arrays Total # of output lines = 14 48624 Processing block number 15 15857 17263 10 1396 patch iptc,sj,dgj,dgi,id: 15 879 200 190 1396 half line dmj dgc: 0 50889 286 114 Actual deskew ireclen: 20480 ** 15 2096 0 60784 Writing data negflag .eq. 0 s1>sj: 15857 879 Zeroing lines in arrays Total # of output lines = 15 50030 879 2975 0 2096 patch iptc,sj,dgj,dgi,id: 15 2975 200 200 2096 half line dmj dgc: 1 50889 286 114 Actual deskew ireclen: 20480 ** 15 2096 1 62880 Writing data negflag .eq. 0 sj>s1: 2975 879 Zeroing lines in arrays Total # of output lines = 15 52126 Processing block number 16 2975 4377 6 1396 patch iptc,sj,dgj,dgi,id: 16 4377 206 200 1396 half line dmj dgc: 0 54381 277 114 Actual deskew ireclen: 20480 ** 16 2096 0 64976 Writing data negflag .eq. 0 sj>s1: 4377 2975 Zeroing lines in arrays Total # of output lines = 16 53528 4377 6473 0 2096 patch iptc,sj,dgj,dgi,id: 16 6473 206 206 2096 half line dmj dgc: 1 54381 277 114 Actual deskew ireclen: 20480 ** 16 2096 1 67072 Writing data negflag .eq. 0 sj>s1: 6473 4377 Zeroing lines in arrays Total # of output lines = 16 55624 Processing block number 17 6473 7900 31 1396 patch iptc,sj,dgj,dgi,id: 17 7900 237 206 1396 half line dmj dgc: 0 57873 276 114 Actual deskew ireclen: 20480 ** 17 2096 0 69168 Writing data negflag .eq. 0 sj>s1: 7900 6473 Zeroing lines in arrays Total # of output lines = 17 57051 7900 9996 0 2096 patch iptc,sj,dgj,dgi,id: 17 9996 237 237 2096 half line dmj dgc: 1 57873 276 114 Actual deskew ireclen: 20480 ** 17 2096 1 71264 Writing data negflag .eq. 0 sj>s1: 9996 7900 Zeroing lines in arrays Total # of output lines = 17 59147 Processing block number 18 9996 11451 59 1396 patch iptc,sj,dgj,dgi,id: 18 11451 296 237 1396 half line dmj dgc: 0 61365 298 114 Actual deskew ireclen: 20480 ** 18 2096 0 73360 Writing data negflag .eq. 0 sj>s1: 11451 9996 Zeroing lines in arrays Total # of output lines = 18 60602 11451 13547 0 2096 patch iptc,sj,dgj,dgi,id: 18 13547 296 296 2096 half line dmj dgc: 1 61365 298 114 Actual deskew ireclen: 20480 ** 18 2096 1 75456 Writing data negflag .eq. 0 sj>s1: 13547 11451 Zeroing lines in arrays Total # of output lines = 18 62698 Processing block number 19 13547 14936 -7 1396 patch iptc,sj,dgj,dgi,id: 19 14936 289 296 1396 half line dmj dgc: 0 64857 293 114 Actual deskew ireclen: 20480 ** 19 2096 0 77552 Writing data negflag .eq. 0 sj>s1: 14936 13547 Zeroing lines in arrays Total # of output lines = 19 64087 14936 17032 0 2096 patch iptc,sj,dgj,dgi,id: 19 648 289 289 2096 half line dmj dgc: 1 64857 293 114 Actual deskew ireclen: 20480 ** 19 2096 1 79648 Writing data negflag .eq. 0 s1>sj: 14936 648 Zeroing lines in arrays Total # of output lines = 19 66183 Processing block number 20 648 2015 -29 1396 patch iptc,sj,dgj,dgi,id: 20 2015 260 289 1396 half line dmj dgc: 0 68349 279 114 Actual deskew ireclen: 20480 ** 20 2096 0 81744 Writing data negflag .eq. 0 sj>s1: 2015 648 Zeroing lines in arrays Total # of output lines = 20 67550 2015 4111 0 2096 patch iptc,sj,dgj,dgi,id: 20 4111 260 260 2096 half line dmj dgc: 1 68349 279 114 Actual deskew ireclen: 20480 ** 20 2096 1 83840 Writing data negflag .eq. 0 sj>s1: 4111 2015 Zeroing lines in arrays Total # of output lines = 20 69646 Processing block number 21 4111 5541 34 1396 patch iptc,sj,dgj,dgi,id: 21 5541 294 260 1396 half line dmj dgc: 0 71841 300 114 Actual deskew ireclen: 20480 ** 21 2096 0 85936 Writing data negflag .eq. 0 sj>s1: 5541 4111 Zeroing lines in arrays Total # of output lines = 21 71076 5541 7637 0 2096 patch iptc,sj,dgj,dgi,id: 21 7637 294 294 2096 half line dmj dgc: 1 71841 300 114 Actual deskew ireclen: 20480 ** 21 2096 1 88032 Writing data negflag .eq. 0 sj>s1: 7637 5541 Zeroing lines in arrays Total # of output lines = 21 73172 Processing block number 22 7637 9056 23 1396 patch iptc,sj,dgj,dgi,id: 22 9056 317 294 1396 half line dmj dgc: 0 75333 330 114 Actual deskew ireclen: 20480 ** 22 2096 0 90128 Writing data negflag .eq. 0 sj>s1: 9056 7637 Zeroing lines in arrays Total # of output lines = 22 74591 9056 11152 0 2096 patch iptc,sj,dgj,dgi,id: 22 11152 317 317 2096 half line dmj dgc: 1 75333 330 114 Actual deskew ireclen: 20480 ** 22 2096 1 92224 Writing data negflag .eq. 0 sj>s1: 11152 9056 Zeroing lines in arrays Total # of output lines = 22 76687 Processing block number 23 11152 12510 -38 1396 patch iptc,sj,dgj,dgi,id: 23 12510 279 317 1396 half line dmj dgc: 0 78825 308 114 Actual deskew ireclen: 20480 ** 23 2096 0 94320 Writing data negflag .eq. 0 sj>s1: 12510 11152 Zeroing lines in arrays Total # of output lines = 23 78045 12510 14606 0 2096 patch iptc,sj,dgj,dgi,id: 23 14606 279 279 2096 half line dmj dgc: 1 78825 308 114 Actual deskew ireclen: 20480 ** 23 2096 1 96416 Writing data negflag .eq. 0 sj>s1: 14606 12510 Zeroing lines in arrays Total # of output lines = 23 80141 Processing block number 24 14606 15942 -60 1396 patch iptc,sj,dgj,dgi,id: 24 15942 219 279 1396 half line dmj dgc: 0 82317 284 114 Actual deskew ireclen: 20480 ** 24 2096 0 98512 Writing data negflag .eq. 0 sj>s1: 15942 14606 Zeroing lines in arrays Total # of output lines = 24 81477 15942 18038 0 2096 patch iptc,sj,dgj,dgi,id: 24 1654 219 219 2096 half line dmj dgc: 1 82317 284 114 Actual deskew ireclen: 20480 ** 24 2096 1 100608 Writing data negflag .eq. 0 s1>sj: 15942 1654 Zeroing lines in arrays Total # of output lines = 24 83573 Processing block number 25 1654 3047 -3 1396 patch iptc,sj,dgj,dgi,id: 25 3047 216 219 1396 half line dmj dgc: 0 85809 279 114 Actual deskew ireclen: 20480 ** 25 2096 0 102704 Writing data negflag .eq. 0 sj>s1: 3047 1654 Zeroing lines in arrays Total # of output lines = 25 84966 3047 5143 0 2096 patch iptc,sj,dgj,dgi,id: 25 5143 216 216 2096 half line dmj dgc: 1 85809 279 114 Actual deskew ireclen: 20480 ** 25 2096 1 104800 Writing data negflag .eq. 0 sj>s1: 5143 3047 Zeroing lines in arrays Total # of output lines = 25 87062 Processing block number 26 5143 6581 42 1396 patch iptc,sj,dgj,dgi,id: 26 6581 258 216 1396 half line dmj dgc: 0 89301 297 114 Actual deskew ireclen: 20480 ** 26 2096 0 106896 Writing data negflag .eq. 0 sj>s1: 6581 5143 Zeroing lines in arrays Total # of output lines = 26 88500 6581 8677 0 2096 patch iptc,sj,dgj,dgi,id: 26 8677 258 258 2096 half line dmj dgc: 1 89301 297 114 Actual deskew ireclen: 20480 ** 26 2096 1 108992 Writing data negflag .eq. 0 sj>s1: 8677 6581 Zeroing lines in arrays Total # of output lines = 26 90596 Processing block number 27 8677 10067 -6 1396 patch iptc,sj,dgj,dgi,id: 27 10067 252 258 1396 half line dmj dgc: 0 92793 306 114 Actual deskew ireclen: 20480 ** 27 2096 0 111088 Writing data negflag .eq. 0 sj>s1: 10067 8677 Zeroing lines in arrays Total # of output lines = 27 91986 10067 12163 0 2096 patch iptc,sj,dgj,dgi,id: 27 12163 252 252 2096 half line dmj dgc: 1 92793 306 114 Actual deskew ireclen: 20480 ** 27 2096 1 113184 Writing data negflag .eq. 0 sj>s1: 12163 10067 Zeroing lines in arrays Total # of output lines = 27 94082 Processing block number 28 12163 11063 -19 -1081 patch iptc,sj,dgj,dgi,id: 28 11063 233 252 -1081 half line dmj dgc: 0 93808 312 114 Actual deskew ireclen: 20480 ** 28 2096 0 115280 Zeroing lines in arrays Total # of output lines = 28 94082 12163 13159 0 2096 patch iptc,sj,dgj,dgi,id: 28 13159 233 233 2096 half line dmj dgc: 1 93808 312 114 Actual deskew ireclen: 20480 ** 28 2096 1 117376 Writing data negflag .eq. 0 sj>s1: 13159 12163 Zeroing lines in arrays Total # of output lines = 28 95078 ia dmi dgi: 13159 312 233 Writing the last 2175 lines last half sj>s1 15334 13159 95078 Total # of output lines = 97253 Writing new header.. Closing files .. ileni= 39 ilend= 35 /export/air32/airops/1400/ts1400_l.vv_j.0 /export/air32/airops/1400/deskew.lv.0 /export/air32/airops/1400/ts1400_l.vv_j.1 /export/air32/airops/1400/deskew.lv.1 /export/air32/airops/1400/ts1400_l.vv_j.2 /export/air32/airops/1400/deskew.lv.2 /export/air32/airops/1400/ts1400_l.vv_j.3 /export/air32/airops/1400/deskew.lv.3 /export/air32/airops/1400/ts1400_l.vv_j.4 /export/air32/airops/1400/deskew.lv.4 /export/air32/airops/1400/ts1400_l.vv_j.5 /export/air32/airops/1400/deskew.lv.5 /export/air32/airops/1400/ts1400_l.vv_j.6 /export/air32/airops/1400/deskew.lv.6 /export/air32/airops/1400/ts1400_l.vv_j.7 /export/air32/airops/1400/deskew.lv.7 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.9281048 38.99767 146 0.031 3046 0.031 38.99767 0.000048 0.000262 -0.000010 r_peak,r_snr = 0.9532144 31.14080 246 0.031 3046 0.031 31.14080 0.000033 0.000174 0.000000 r_peak,r_snr = 0.9255561 62.31972 346 0.063 3046 0.000 62.31972 0.000042 0.000178 -0.000002 r_peak,r_snr = 0.9318345 31.24902 446 0.031 3046 0.000 31.24902 0.000047 0.000194 -0.000002 r_peak,r_snr = 0.9434606 37.87152 546 0.031 3046 0.000 37.87152 0.000038 0.000159 -0.000004 r_peak,r_snr = 0.9396176 55.51963 646 0.000 3046 -0.031 55.51963 0.000039 0.000137 -0.000004 r_peak,r_snr = 0.9281983 46.30222 746 0.000 3046 0.031 46.30222 0.000040 0.000187 -0.000001 r_peak,r_snr = 0.9402596 52.70801 846 0.000 3046 0.094 52.70801 0.000036 0.000154 -0.000005 r_peak,r_snr = 0.9190528 60.20825 946 -0.031 3046 0.000 60.20825 0.000046 0.000209 0.000001 r_peak,r_snr = 0.9256803 58.56564 1046 0.000 3046 0.000 58.56564 0.000049 0.000190 -0.000002 r_peak,r_snr = 0.9321237 37.48821 1146 0.031 3046 0.031 37.48821 0.000047 0.000205 0.000001 r_peak,r_snr = 0.9274457 74.02586 1246 -0.031 3046 0.000 74.02586 0.000038 0.000179 -0.000002 r_peak,r_snr = 0.9294135 38.35514 1346 -0.031 3046 0.063 38.35514 0.000046 0.000170 -0.000001 r_peak,r_snr = 0.9360220 47.58535 1446 -0.031 3046 0.063 47.58535 0.000040 0.000184 -0.000004 r_peak,r_snr = 0.9146285 59.42477 1546 -0.031 3046 0.063 59.42477 0.000051 0.000212 0.000001 r_peak,r_snr = 0.9122787 111.1644 1646 -0.063 3046 0.000 111.16441 0.000043 0.000183 0.000000 r_peak,r_snr = 0.9382249 9.343948 1746 -0.063 3046 0.063 9.34395 0.000049 0.000249 -0.000002 r_peak,r_snr = 0.8326458 99.28879 1846 -0.031 3046 0.000 99.28879 0.000098 0.000425 -0.000004 r_peak,r_snr = 0.8816834 101.2454 1946 0.000 3046 0.031 101.24540 0.000060 0.000267 0.000002 r_peak,r_snr = 0.8940810 95.08922 2046 0.000 3046 0.063 95.08922 0.000057 0.000221 -0.000001 At line = 3400 Reading in data.... r_peak,r_snr = 0.9290052 37.46167 146 0.063 3446 0.063 37.46167 0.000045 0.000210 -0.000001 r_peak,r_snr = 0.9183169 74.94866 246 0.031 3446 0.063 74.94866 0.000044 0.000187 -0.000003 r_peak,r_snr = 0.9241632 65.38408 346 0.031 3446 0.125 65.38408 0.000042 0.000187 -0.000002 r_peak,r_snr = 0.9274061 39.63660 446 0.031 3446 0.094 39.63660 0.000048 0.000226 -0.000006 r_peak,r_snr = 0.9482955 38.63915 546 0.031 3446 0.031 38.63915 0.000035 0.000137 0.000001 r_peak,r_snr = 0.9284036 66.83979 646 0.000 3446 0.063 66.83979 0.000039 0.000168 0.000002 r_peak,r_snr = 0.9430355 26.98601 746 0.031 3446 0.063 26.98601 0.000038 0.000153 0.000001 r_peak,r_snr = 0.9357799 31.62175 846 -0.031 3446 -0.063 31.62175 0.000041 0.000194 -0.000003 r_peak,r_snr = 0.9204623 72.51879 946 0.000 3446 0.000 72.51879 0.000046 0.000195 0.000000 r_peak,r_snr = 0.9427571 29.91521 1046 0.000 3446 0.063 29.91521 0.000040 0.000169 0.000002 r_peak,r_snr = 0.9305727 31.29737 1146 0.000 3446 -0.031 31.29737 0.000049 0.000187 0.000008 r_peak,r_snr = 0.9442482 34.23160 1246 -0.031 3446 0.031 34.23160 0.000039 0.000168 0.000000 r_peak,r_snr = 0.9329982 38.10531 1346 0.000 3446 0.063 38.10531 0.000042 0.000196 -0.000004 r_peak,r_snr = 0.9364583 23.99333 1446 -0.063 3446 0.063 23.99333 0.000051 0.000192 -0.000002 r_peak,r_snr = 0.9165566 55.43457 1546 -0.063 3446 0.125 55.43457 0.000054 0.000236 0.000000 r_peak,r_snr = 0.9217317 79.06357 1646 -0.031 3446 0.063 79.06357 0.000042 0.000179 0.000001 r_peak,r_snr = 0.9490072 9.968287 1746 -0.031 3446 0.094 9.96829 0.000040 0.000183 0.000000 r_peak,r_snr = 0.8443431 80.83772 1846 0.000 3446 0.094 80.83772 0.000089 0.000418 -0.000004 r_peak,r_snr = 0.8691902 83.91218 1946 0.000 3446 0.063 83.91218 0.000074 0.000308 -0.000003 r_peak,r_snr = 0.8915246 91.95137 2046 0.000 3446 0.031 91.95137 0.000059 0.000255 0.000001 At line = 3800 Reading in data.... r_peak,r_snr = 0.9084110 53.59606 146 0.063 3846 -0.031 53.59606 0.000057 0.000214 0.000003 r_peak,r_snr = 0.9332951 39.77290 246 0.063 3846 0.031 39.77290 0.000044 0.000160 -0.000002 r_peak,r_snr = 0.9641311 35.12206 346 0.063 3846 -0.031 35.12206 0.000023 0.000132 -0.000001 r_peak,r_snr = 0.9567165 22.56117 446 0.094 3846 -0.063 22.56117 0.000032 0.000184 0.000003 r_peak,r_snr = 0.9353982 46.28221 546 0.000 3846 -0.031 46.28221 0.000038 0.000150 0.000001 r_peak,r_snr = 0.9378235 71.45074 646 0.031 3846 -0.031 71.45074 0.000034 0.000136 -0.000003 r_peak,r_snr = 0.9378097 37.87061 746 0.000 3846 -0.063 37.87061 0.000039 0.000168 0.000001 r_peak,r_snr = 0.9338835 40.71094 846 0.031 3846 -0.063 40.71094 0.000042 0.000164 -0.000002 r_peak,r_snr = 0.9232499 61.81705 946 -0.031 3846 0.000 61.81705 0.000045 0.000178 -0.000002 r_peak,r_snr = 0.9375547 33.37133 1046 0.000 3846 -0.094 33.37133 0.000043 0.000185 0.000000 r_peak,r_snr = 0.9335854 52.32518 1146 -0.031 3846 -0.063 52.32518 0.000043 0.000170 -0.000001 r_peak,r_snr = 0.9218256 59.14589 1246 -0.031 3846 -0.063 59.14589 0.000045 0.000192 -0.000002 r_peak,r_snr = 0.9172837 31.06472 1346 -0.031 3846 -0.094 31.06472 0.000056 0.000244 0.000000 r_peak,r_snr = 0.9270440 25.23959 1446 -0.031 3846 -0.031 25.23959 0.000055 0.000247 -0.000002 r_peak,r_snr = 0.9061449 40.20797 1546 -0.063 3846 -0.063 40.20797 0.000057 0.000289 -0.000005 r_peak,r_snr = 0.9238028 66.63482 1646 -0.031 3846 -0.063 66.63482 0.000047 0.000181 0.000001 r_peak,r_snr = 0.9627551 7.351585 1746 0.000 3846 0.063 7.35159 0.000043 0.000167 -0.000001 r_peak,r_snr = 0.8974295 77.92229 1846 0.000 3846 0.000 77.92229 0.000057 0.000232 0.000000 r_peak,r_snr = 0.8522748 83.73135 1946 0.031 3846 -0.063 83.73135 0.000085 0.000383 0.000001 r_peak,r_snr = 0.8987622 97.49083 2046 0.000 3846 -0.125 97.49083 0.000053 0.000234 -0.000002 At line = 4200 Reading in data.... r_peak,r_snr = 0.9374036 29.18479 146 0.063 4246 -0.094 29.18479 0.000042 0.000251 -0.000001 r_peak,r_snr = 0.9119622 66.66971 246 0.063 4246 -0.031 66.66971 0.000052 0.000214 -0.000002 r_peak,r_snr = 0.9653083 23.82385 346 0.063 4246 -0.031 23.82385 0.000026 0.000152 0.000001 r_peak,r_snr = 0.9525975 26.98238 446 0.031 4246 -0.125 26.98238 0.000031 0.000147 -0.000002 r_peak,r_snr = 0.9557506 48.98731 546 0.000 4246 -0.063 48.98731 0.000026 0.000126 0.000001 r_peak,r_snr = 0.9406943 57.44046 646 0.000 4246 -0.063 57.44046 0.000032 0.000154 -0.000002 r_peak,r_snr = 0.9185760 62.03861 746 0.031 4246 0.031 62.03861 0.000043 0.000202 -0.000001 r_peak,r_snr = 0.9223538 60.83550 846 0.000 4246 -0.125 60.83550 0.000044 0.000189 -0.000004 r_peak,r_snr = 0.9477338 24.85966 946 -0.031 4246 0.000 24.85966 0.000037 0.000170 0.000001 r_peak,r_snr = 0.9443975 25.97542 1046 0.000 4246 -0.094 25.97542 0.000037 0.000157 0.000003 r_peak,r_snr = 0.9365084 64.72127 1146 0.000 4246 -0.094 64.72127 0.000038 0.000156 -0.000004 r_peak,r_snr = 0.9326647 33.76028 1246 0.000 4246 -0.063 33.76028 0.000044 0.000194 -0.000005 r_peak,r_snr = 0.9164162 86.30009 1346 0.000 4246 -0.063 86.30009 0.000043 0.000197 -0.000005 r_peak,r_snr = 0.8814672 74.45988 1446 -0.031 4246 -0.063 74.45988 0.000069 0.000299 0.000006 r_peak,r_snr = 0.9102270 86.93569 1546 -0.063 4246 -0.094 86.93569 0.000046 0.000176 -0.000003 r_peak,r_snr = 0.9258590 77.32377 1646 -0.031 4246 -0.063 77.32377 0.000042 0.000161 -0.000001 r_peak,r_snr = 0.9470865 6.656360 1746 -0.031 4246 -0.063 6.65636 0.000054 0.000238 -0.000004 r_peak,r_snr = 0.8677965 41.77319 1846 0.000 4246 -0.094 41.77319 0.000086 0.000372 0.000012 r_peak,r_snr = 0.8960170 72.78187 1946 -0.031 4246 -0.031 72.78187 0.000062 0.000243 0.000002 r_peak,r_snr = 0.8967581 112.7743 2046 0.000 4246 0.031 112.77433 0.000054 0.000209 0.000001 At line = 4600 Reading in data.... r_peak,r_snr = 0.9070623 40.52074 146 0.094 4646 -0.031 40.52074 0.000060 0.000259 -0.000008 r_peak,r_snr = 0.9270756 49.45476 246 0.063 4646 -0.031 49.45476 0.000046 0.000194 -0.000003 r_peak,r_snr = 0.9412643 53.60756 346 0.063 4646 -0.031 53.60756 0.000034 0.000147 -0.000003 r_peak,r_snr = 0.9630499 24.92660 446 0.031 4646 0.000 24.92660 0.000026 0.000124 0.000004 r_peak,r_snr = 0.9446599 26.29694 546 0.000 4646 -0.031 26.29694 0.000039 0.000177 -0.000001 r_peak,r_snr = 0.9304792 82.16912 646 0.000 4646 -0.063 82.16912 0.000035 0.000160 0.000000 r_peak,r_snr = 0.9381226 49.22959 746 0.000 4646 -0.063 49.22959 0.000038 0.000156 -0.000004 r_peak,r_snr = 0.9363700 44.66683 846 0.031 4646 -0.094 44.66683 0.000038 0.000178 -0.000005 r_peak,r_snr = 0.9328361 62.12620 946 -0.031 4646 -0.063 62.12620 0.000037 0.000176 0.000001 r_peak,r_snr = 0.9516292 37.49068 1046 -0.031 4646 0.000 37.49068 0.000033 0.000146 -0.000003 r_peak,r_snr = 0.9279744 64.41869 1146 0.000 4646 -0.094 64.41869 0.000043 0.000184 -0.000002 r_peak,r_snr = 0.9372366 50.17408 1246 0.000 4646 -0.063 50.17408 0.000039 0.000166 0.000001 r_peak,r_snr = 0.9310194 66.42829 1346 -0.031 4646 -0.031 66.42829 0.000039 0.000183 -0.000003 r_peak,r_snr = 0.9262939 36.30149 1446 -0.063 4646 -0.031 36.30149 0.000044 0.000206 0.000002 r_peak,r_snr = 0.9239315 41.72333 1546 -0.031 4646 -0.094 41.72333 0.000043 0.000188 0.000000 r_peak,r_snr = 0.9131176 65.90985 1646 -0.031 4646 -0.063 65.90985 0.000054 0.000210 0.000003 r_peak,r_snr = 0.9479952 6.635213 1746 -0.063 4646 -0.031 6.63521 0.000060 0.000222 0.000002 r_peak,r_snr = 0.8665239 77.90436 1846 -0.031 4646 -0.031 77.90436 0.000079 0.000365 -0.000004 r_peak,r_snr = 0.9068762 102.0574 1946 -0.031 4646 -0.031 102.05741 0.000047 0.000193 0.000002 r_peak,r_snr = 0.9002728 102.6754 2046 0.031 4646 0.000 102.67540 0.000054 0.000225 0.000003 At line = 5000 Reading in data.... r_peak,r_snr = 0.9073943 21.99582 146 0.063 5046 0.031 21.99582 0.000075 0.000358 -0.000014 r_peak,r_snr = 0.9308639 57.96667 246 0.063 5046 0.031 57.96667 0.000040 0.000171 0.000004 r_peak,r_snr = 0.9352272 38.46661 346 0.063 5046 0.031 38.46661 0.000046 0.000191 -0.000005 r_peak,r_snr = 0.9553785 32.62365 446 0.000 5046 0.000 32.62365 0.000030 0.000153 0.000002 r_peak,r_snr = 0.9336200 37.20427 546 0.000 5046 -0.094 37.20427 0.000041 0.000192 -0.000001 r_peak,r_snr = 0.9478344 55.89056 646 0.031 5046 -0.031 55.89056 0.000030 0.000123 -0.000003 r_peak,r_snr = 0.9592878 27.99076 746 0.000 5046 0.063 27.99076 0.000031 0.000128 -0.000001 r_peak,r_snr = 0.9409273 32.58336 846 0.000 5046 0.063 32.58336 0.000039 0.000163 -0.000004 r_peak,r_snr = 0.9418144 40.52057 946 -0.031 5046 -0.063 40.52057 0.000036 0.000170 -0.000003 r_peak,r_snr = 0.9324819 56.50228 1046 -0.031 5046 0.094 56.50228 0.000041 0.000174 0.000000 r_peak,r_snr = 0.9450761 66.10531 1146 0.000 5046 -0.063 66.10531 0.000030 0.000138 0.000000 r_peak,r_snr = 0.9171383 69.36967 1246 0.031 5046 -0.031 69.36967 0.000048 0.000196 0.000001 r_peak,r_snr = 0.9285309 73.87497 1346 0.000 5046 0.000 73.87497 0.000037 0.000170 0.000001 r_peak,r_snr = 0.9380504 29.01429 1446 -0.031 5046 0.125 29.01429 0.000041 0.000187 -0.000003 r_peak,r_snr = 0.9211565 96.25756 1546 -0.031 5046 0.063 96.25756 0.000041 0.000174 0.000001 r_peak,r_snr = 0.9188899 76.87286 1646 -0.063 5046 0.000 76.87286 0.000047 0.000188 0.000002 r_peak,r_snr = 0.9283332 6.820948 1746 -0.031 5046 0.094 6.82095 0.000066 0.000283 0.000006 r_peak,r_snr = 0.8520089 107.8250 1846 0.000 5046 0.094 107.82498 0.000079 0.000321 0.000000 r_peak,r_snr = 0.9002945 96.73788 1946 0.031 5046 -0.031 96.73788 0.000054 0.000209 0.000003 r_peak,r_snr = 0.9039176 101.6810 2046 0.000 5046 -0.031 101.68103 0.000049 0.000213 -0.000003 At line = 5400 Reading in data.... r_peak,r_snr = 0.9550673 22.03295 146 0.031 5446 0.094 22.03295 0.000034 0.000156 0.000001 r_peak,r_snr = 0.9314505 62.38766 246 0.063 5446 0.063 62.38766 0.000040 0.000162 -0.000001 r_peak,r_snr = 0.9556609 32.59077 346 0.031 5446 0.094 32.59077 0.000030 0.000133 -0.000001 r_peak,r_snr = 0.9165795 65.69044 446 0.031 5446 0.031 65.69044 0.000049 0.000192 -0.000003 r_peak,r_snr = 0.9265496 35.63869 546 0.000 5446 0.063 35.63869 0.000045 0.000213 0.000005 r_peak,r_snr = 0.9347848 38.59779 646 0.000 5446 0.063 38.59779 0.000040 0.000169 -0.000001 r_peak,r_snr = 0.9286978 65.89040 746 0.031 5446 0.031 65.89040 0.000041 0.000164 0.000000 r_peak,r_snr = 0.9382645 40.61938 846 0.000 5446 0.063 40.61938 0.000042 0.000192 -0.000006 r_peak,r_snr = 0.9208136 79.45458 946 -0.031 5446 0.063 79.45458 0.000043 0.000187 -0.000002 r_peak,r_snr = 0.9359882 44.39922 1046 0.000 5446 0.000 44.39922 0.000041 0.000161 0.000001 r_peak,r_snr = 0.9212943 46.68072 1146 0.000 5446 0.000 46.68072 0.000053 0.000208 0.000000 r_peak,r_snr = 0.9262642 62.47209 1246 0.000 5446 0.031 62.47209 0.000042 0.000183 -0.000001 r_peak,r_snr = 0.9236110 59.42962 1346 0.000 5446 0.125 59.42962 0.000041 0.000177 -0.000005 r_peak,r_snr = 0.9098413 105.8980 1446 -0.031 5446 0.063 105.89803 0.000046 0.000179 0.000003 r_peak,r_snr = 0.9135631 98.91962 1546 -0.031 5446 0.094 98.91962 0.000046 0.000173 -0.000004 r_peak,r_snr = 0.9156052 91.00199 1646 -0.031 5446 0.063 91.00199 0.000045 0.000201 -0.000004 r_peak,r_snr = 0.9340309 7.835358 1746 -0.031 5446 0.031 7.83536 0.000052 0.000304 0.000005 r_peak,r_snr = 0.8675595 85.24089 1846 0.000 5446 0.063 85.24089 0.000075 0.000336 0.000004 r_peak,r_snr = 0.9072742 92.98642 1946 0.000 5446 0.031 92.98642 0.000051 0.000206 0.000006 r_peak,r_snr = 0.8871090 88.99332 2046 0.000 5446 0.000 88.99332 0.000063 0.000277 -0.000008 At line = 5800 Reading in data.... r_peak,r_snr = 0.9443018 33.68190 146 0.031 5846 0.000 33.68190 0.000038 0.000194 0.000002 r_peak,r_snr = 0.9130298 30.39930 246 0.063 5846 0.000 30.39930 0.000058 0.000285 0.000000 r_peak,r_snr = 0.9197430 49.82839 346 0.063 5846 0.063 49.82839 0.000048 0.000190 -0.000001 r_peak,r_snr = 0.9260399 65.92896 446 0.031 5846 0.000 65.92896 0.000042 0.000186 0.000003 r_peak,r_snr = 0.9306899 37.61616 546 0.000 5846 0.031 37.61616 0.000044 0.000171 -0.000002 r_peak,r_snr = 0.9312111 21.46645 646 0.000 5846 0.031 21.46645 0.000053 0.000203 -0.000005 r_peak,r_snr = 0.9355634 49.58272 746 0.000 5846 -0.063 49.58272 0.000038 0.000152 -0.000003 r_peak,r_snr = 0.9334130 61.86008 846 0.000 5846 -0.031 61.86008 0.000039 0.000153 -0.000002 r_peak,r_snr = 0.9263844 41.86873 946 -0.031 5846 -0.031 41.86873 0.000048 0.000211 -0.000004 r_peak,r_snr = 0.9359792 39.59603 1046 -0.031 5846 -0.031 39.59603 0.000041 0.000183 0.000003 r_peak,r_snr = 0.9293750 28.65035 1146 0.000 5846 0.031 28.65035 0.000046 0.000211 0.000004 r_peak,r_snr = 0.9169385 36.05652 1246 0.000 5846 0.125 36.05652 0.000051 0.000251 -0.000001 r_peak,r_snr = 0.9521305 22.18193 1346 0.000 5846 0.031 22.18193 0.000033 0.000142 -0.000002 r_peak,r_snr = 0.9209283 36.29377 1446 -0.063 5846 0.063 36.29377 0.000053 0.000241 -0.000001 r_peak,r_snr = 0.8998643 91.01010 1546 -0.063 5846 -0.063 91.01010 0.000054 0.000240 -0.000001 r_peak,r_snr = 0.9098584 109.7567 1646 -0.031 5846 -0.031 109.75666 0.000044 0.000201 -0.000003 r_peak,r_snr = 0.9351300 12.32253 1746 -0.031 5846 0.031 12.32253 0.000051 0.000255 0.000005 r_peak,r_snr = 0.8752750 90.82303 1846 -0.031 5846 0.094 90.82303 0.000070 0.000287 -0.000004 r_peak,r_snr = 0.8848102 94.27486 1946 0.000 5846 0.000 94.27486 0.000061 0.000248 0.000003 r_peak,r_snr = 0.8929181 83.81799 2046 0.000 5846 -0.031 83.81799 0.000061 0.000260 -0.000001 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Correlation Coefficient Program ***** ***** ***** ***** This program creates a byte file ***** ***** that contains the correlation ***** ***** coeficient of two complex single ***** ***** look files. ***** ***** ***** ************************************************** Enter the name of the first complex file. Enter number of looks Enter the name of the second single look file 9.259200 0.5144000 18 Enter the output file name number of input lines: 97253 number of output lines: 5402 Reading data and doing multi-looking. + 1 + 1153 + 2305 + 3457 + 4609 + 5761 + 6913 + 8065 + 9217 + 10369 + 11521 + 12673 + 13825 + 14977 + 16129 + 17281 + 18433 + 19585 + 20737 + 21889 + 23041 + 24193 + 25345 + 26497 + 27649 + 28801 + 29953 + 31105 + 32257 + 33409 + 34561 + 35713 + 36865 + 38017 + 39169 + 40321 + 41473 + 42625 + 43777 + 44929 + 46081 + 47233 + 48385 + 49537 + 50689 + 51841 + 52993 + 54145 + 55297 + 56449 + 57601 + 58753 + 59905 + 61057 + 62209 + 63361 + 64513 + 65665 + 66817 + 67969 + 69121 + 70273 + 71425 + 72577 + 73729 + 74881 + 76033 + 77185 + 78337 + 79489 + 80641 + 81793 + 82945 + 84097 + 85249 + 86401 + 87553 + 88705 + 89857 + 91009 + 92161 + 93313 + 94465 + 95617 + 96769 *** Filtering. o/p nlines: 5402 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Writing data out. ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Multi-look Program ***** ***** ***** ***** This program creates a real multi- ***** ***** look file from a complex single look ***** ***** file. The real values represent ***** ***** POWER, not amplitude. Multi-looking ***** ***** is performed by summing POWER in the ***** ***** azimuth direction only. ***** ***** ***** ************************************************** Enter the name of the complex file. Enter the desired number of looks. Enter the output file name output azspace, azres: 9.259200 43.20000 + 100 + 200 + 300 + 400 + 500 + 600 + 700 + 800 + 900 + 1000 + 1100 + 1200 + 1300 + 1400 + 1500 + 1600 + 1700 + 1800 + 1900 + 2000 + 2100 + 2200 + 2300 + 2400 + 2500 + 2600 + 2700 + 2800 + 2900 + 3000 + 3100 + 3200 + 3300 + 3400 + 3500 + 3600 + 3700 + 3800 + 3900 + 4000 + 4100 + 4200 + 4300 + 4400 + 4500 + 4600 + 4700 + 4800 + 4900 + 5000 + 5100 + 5200 + 5300 + 5400 Enter the name of the top antenna SLC-1 file. /export/air36/airops/1400/ts1400_l.TT Enter the name of the bottom antenna SLC-2 file. /export/air36/airops/1400/ts1400_l.BB Enter the name of the packed amplitude (c1,c2) file. /export/air36/airops/1400/ts1400_l.amp Enter the name of the output interferogram file. /export/air36/airops/1400/ts1400_l.phase Enter number of looks 18 Reading new header..STARTING at 0 after write new header ! Reading data and doing multi-looking. nliner 5402 10240 18 + 1 + 2001 + 4001 *o/p interf amp.: 5402 10240 40960 20480 << PS filtering and unwrapping with random trees 3-Nov-98 CW/PAR/SH >> Error file = SCREEN Reading from: /export/air36/airops/1400/ts1400_l.rdf interferogram width: 2560 number of lines/patch: 256 start line: 3 number of lines: 5402 start sample: 1 end sample: 2560 Interferogram File: /export/air36/airops/1400/ts1400_l.phase SLC Amplitudes File: /export/air36/airops/1400/ts1400_l.amp Filtered Interferogram File: filt_int Phase Gradient File: phase_slp Gradient Corrected Corr. File: gradient_cc Unwrapped Phase File: /export/air36/airops/1400/ts1400_l.unw_phase_mag Unwrapping Flag File: unwrap_flag Branch Cut Tree Type: GZW number of realizations of the trees: 3 minimum unwrap correlation threshold: 0.5000 maximum unwrap correlation threshold: 0.9000 bootstrap phase variance threshold: 2.0000 min. points overlap for the bootstrap: 16 phase gradient neutron flag: 0 phase gradient neutron threshold (radians): 0.5000 intensity neutron flag: 1 intensity neutron thres. (sigma above mean): 10.0000 maximum correlation for intensity neutrons: 0.8000 azimuth buffer size: 256 overlap between azimuth patches: 64 total overlap between azimuth patches: 128 offset in overlap region for phase bootstrap: 64 lines to increment for the next patch: 128 number of patches: 42 PATCH: 1 starting line: 2 lines read: 256 starting output line: 1 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 INIT_UNW_RT: correlation threshold: 0.5000000 GEN_NEUTRONS: average image intensity: 2.65311E-04 GEN_NEUTRONS: image intensity standard deviation: 7.56953E-04 GEN_NEUTRONS: image intensity neutrons: 6 INIT_UNW_RT: number of residues: 5 INIT_UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees INIT_UNW_RT: patch residual charge: 0 INIT_UNW_RT: number of unwrapping seeds: 158 seed: 1 range: 12 azimuth: 64 points unwrapped: 492015 area fraction: 0.7774 average correlation of component: 0.9436 INIT_UNW_RT: largest component area: 0.7774 seed range: 12 INIT_UNW_RT: number of points for phase bootstrap: 7647 PATCH: 2 starting line: 130 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 3.34635E-04 GEN_NEUTRONS: image intensity standard deviation: 7.29605E-04 GEN_NEUTRONS: image intensity neutrons: 7 UNW_RT: number of residues: 9 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 632288 area fraction: 0.99904 average correlation of connected component: 0.9431 number of points for phase bootstrap: 7647 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 632288 area fraction: 0.9990 UNW_RT: phase bootstrap points for next patch: 7655 PATCH: 3 starting line: 258 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 3.27468E-04 GEN_NEUTRONS: image intensity standard deviation: 6.18950E-04 GEN_NEUTRONS: image intensity neutrons: 17 UNW_RT: number of residues: 10 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 632076 area fraction: 0.99870 average correlation of connected component: 0.9444 number of points for phase bootstrap: 7655 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 632076 area fraction: 0.9987 UNW_RT: phase bootstrap points for next patch: 7656 PATCH: 4 starting line: 386 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 3.29053E-04 GEN_NEUTRONS: image intensity standard deviation: 8.38482E-04 GEN_NEUTRONS: image intensity neutrons: 4 UNW_RT: number of residues: 8 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 631961 area fraction: 0.99852 average correlation of connected component: 0.9463 number of points for phase bootstrap: 7656 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 631961 area fraction: 0.9985 UNW_RT: phase bootstrap points for next patch: 7647 PATCH: 5 starting line: 514 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 3.33997E-04 GEN_NEUTRONS: image intensity standard deviation: 8.64667E-04 GEN_NEUTRONS: image intensity neutrons: 10 UNW_RT: number of residues: 10 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 632397 area fraction: 0.99921 average correlation of connected component: 0.9450 number of points for phase bootstrap: 7647 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 632397 area fraction: 0.9992 UNW_RT: phase bootstrap points for next patch: 7656 PATCH: 6 starting line: 642 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 3.17378E-04 GEN_NEUTRONS: image intensity standard deviation: 6.78954E-04 GEN_NEUTRONS: image intensity neutrons: 3 UNW_RT: number of residues: 12 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 631819 area fraction: 0.99830 average correlation of connected component: 0.9435 number of points for phase bootstrap: 7656 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 631819 area fraction: 0.9983 UNW_RT: phase bootstrap points for next patch: 7656 PATCH: 7 starting line: 770 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 3.22874E-04 GEN_NEUTRONS: image intensity standard deviation: 9.20519E-04 GEN_NEUTRONS: image intensity neutrons: 4 UNW_RT: number of residues: 14 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 631692 area fraction: 0.99810 average correlation of connected component: 0.9444 number of points for phase bootstrap: 7656 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 631692 area fraction: 0.9981 UNW_RT: phase bootstrap points for next patch: 7622 PATCH: 8 starting line: 898 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 3.38172E-04 GEN_NEUTRONS: image intensity standard deviation: 1.46877E-03 GEN_NEUTRONS: image intensity neutrons: 2 UNW_RT: number of residues: 64 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 630546 area fraction: 0.99629 average correlation of connected component: 0.9398 number of points for phase bootstrap: 7622 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 630546 area fraction: 0.9963 UNW_RT: phase bootstrap points for next patch: 7619 PATCH: 9 starting line: 1026 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 3.95346E-04 GEN_NEUTRONS: image intensity standard deviation: 1.10545E-02 GEN_NEUTRONS: image intensity neutrons: 0 UNW_RT: number of residues: 176 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 626586 area fraction: 0.99003 average correlation of connected component: 0.9316 number of points for phase bootstrap: 7619 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 626586 area fraction: 0.9900 UNW_RT: phase bootstrap points for next patch: 7624 PATCH: 10 starting line: 1154 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 3.28171E-04 GEN_NEUTRONS: image intensity standard deviation: 1.48900E-03 GEN_NEUTRONS: image intensity neutrons: 8 UNW_RT: number of residues: 118 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 626114 area fraction: 0.98928 average correlation of connected component: 0.9297 number of points for phase bootstrap: 7624 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 626114 area fraction: 0.9893 UNW_RT: phase bootstrap points for next patch: 7627 PATCH: 11 starting line: 1282 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 3.43466E-04 GEN_NEUTRONS: image intensity standard deviation: 1.08470E-03 GEN_NEUTRONS: image intensity neutrons: 14 UNW_RT: number of residues: 11 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 629227 area fraction: 0.99420 average correlation of connected component: 0.9317 number of points for phase bootstrap: 7627 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 629227 area fraction: 0.9942 UNW_RT: phase bootstrap points for next patch: 7562 PATCH: 12 starting line: 1410 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 3.50087E-04 GEN_NEUTRONS: image intensity standard deviation: 1.28724E-03 GEN_NEUTRONS: image intensity neutrons: 2 UNW_RT: number of residues: 20 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 629720 area fraction: 0.99498 average correlation of connected component: 0.9353 number of points for phase bootstrap: 7562 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 629720 area fraction: 0.9950 UNW_RT: phase bootstrap points for next patch: 7599 PATCH: 13 starting line: 1538 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 3.09595E-04 GEN_NEUTRONS: image intensity standard deviation: 8.68162E-04 GEN_NEUTRONS: image intensity neutrons: 12 UNW_RT: number of residues: 26 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 627512 area fraction: 0.99149 average correlation of connected component: 0.9380 number of points for phase bootstrap: 7599 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 627512 area fraction: 0.9915 UNW_RT: phase bootstrap points for next patch: 7581 PATCH: 14 starting line: 1666 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 2.64182E-04 GEN_NEUTRONS: image intensity standard deviation: 9.19300E-04 GEN_NEUTRONS: image intensity neutrons: 12 UNW_RT: number of residues: 21 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 628753 area fraction: 0.99345 average correlation of connected component: 0.9356 number of points for phase bootstrap: 7581 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 628753 area fraction: 0.9935 UNW_RT: phase bootstrap points for next patch: 7638 PATCH: 15 starting line: 1794 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 2.88294E-04 GEN_NEUTRONS: image intensity standard deviation: 1.24586E-03 GEN_NEUTRONS: image intensity neutrons: 12 UNW_RT: number of residues: 20 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 630740 area fraction: 0.99659 average correlation of connected component: 0.9367 number of points for phase bootstrap: 7638 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 630740 area fraction: 0.9966 UNW_RT: phase bootstrap points for next patch: 7649 PATCH: 16 starting line: 1922 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 2.91511E-04 GEN_NEUTRONS: image intensity standard deviation: 1.53361E-03 GEN_NEUTRONS: image intensity neutrons: 2 UNW_RT: number of residues: 30 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 629653 area fraction: 0.99488 average correlation of connected component: 0.9347 number of points for phase bootstrap: 7649 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 629653 area fraction: 0.9949 UNW_RT: phase bootstrap points for next patch: 7603 PATCH: 17 starting line: 2050 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 2.09887E-04 GEN_NEUTRONS: image intensity standard deviation: 1.30938E-03 GEN_NEUTRONS: image intensity neutrons: 14 UNW_RT: number of residues: 28 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 629258 area fraction: 0.99425 average correlation of connected component: 0.9314 number of points for phase bootstrap: 7603 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 629258 area fraction: 0.9943 UNW_RT: phase bootstrap points for next patch: 7611 PATCH: 18 starting line: 2178 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 2.05205E-04 GEN_NEUTRONS: image intensity standard deviation: 1.28932E-03 GEN_NEUTRONS: image intensity neutrons: 9 UNW_RT: number of residues: 24 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 628793 area fraction: 0.99352 average correlation of connected component: 0.9328 number of points for phase bootstrap: 7611 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 628793 area fraction: 0.9935 UNW_RT: phase bootstrap points for next patch: 7564 PATCH: 19 starting line: 2306 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 2.54372E-04 GEN_NEUTRONS: image intensity standard deviation: 2.34002E-03 GEN_NEUTRONS: image intensity neutrons: 1 UNW_RT: number of residues: 38 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 629009 area fraction: 0.99386 average correlation of connected component: 0.9374 number of points for phase bootstrap: 7564 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 629009 area fraction: 0.9939 UNW_RT: phase bootstrap points for next patch: 7608 PATCH: 20 starting line: 2434 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 3.54211E-04 GEN_NEUTRONS: image intensity standard deviation: 7.13767E-03 GEN_NEUTRONS: image intensity neutrons: 0 UNW_RT: number of residues: 25 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 631525 area fraction: 0.99783 average correlation of connected component: 0.9455 number of points for phase bootstrap: 7608 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 631525 area fraction: 0.9978 UNW_RT: phase bootstrap points for next patch: 7648 PATCH: 21 starting line: 2562 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 3.73098E-04 GEN_NEUTRONS: image intensity standard deviation: 6.98994E-03 GEN_NEUTRONS: image intensity neutrons: 3 UNW_RT: number of residues: 16 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 631223 area fraction: 0.99736 average correlation of connected component: 0.9453 number of points for phase bootstrap: 7648 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 631223 area fraction: 0.9974 UNW_RT: phase bootstrap points for next patch: 7626 PATCH: 22 starting line: 2690 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 2.95389E-04 GEN_NEUTRONS: image intensity standard deviation: 2.71995E-03 GEN_NEUTRONS: image intensity neutrons: 1 UNW_RT: number of residues: 10 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 631291 area fraction: 0.99746 average correlation of connected component: 0.9397 number of points for phase bootstrap: 7626 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 631291 area fraction: 0.9975 UNW_RT: phase bootstrap points for next patch: 7654 PATCH: 23 starting line: 2818 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 2.55058E-04 GEN_NEUTRONS: image intensity standard deviation: 1.13652E-03 GEN_NEUTRONS: image intensity neutrons: 11 UNW_RT: number of residues: 0 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 632606 area fraction: 0.99954 average correlation of connected component: 0.9446 number of points for phase bootstrap: 7654 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 632606 area fraction: 0.9995 UNW_RT: phase bootstrap points for next patch: 7652 PATCH: 24 starting line: 2946 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 2.46259E-04 GEN_NEUTRONS: image intensity standard deviation: 8.56089E-04 GEN_NEUTRONS: image intensity neutrons: 8 UNW_RT: number of residues: 34 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 631348 area fraction: 0.99755 average correlation of connected component: 0.9462 number of points for phase bootstrap: 7652 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 631348 area fraction: 0.9976 UNW_RT: phase bootstrap points for next patch: 7631 PATCH: 25 starting line: 3074 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 2.42524E-04 GEN_NEUTRONS: image intensity standard deviation: 8.56334E-04 GEN_NEUTRONS: image intensity neutrons: 15 UNW_RT: number of residues: 48 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 630386 area fraction: 0.99603 average correlation of connected component: 0.9448 number of points for phase bootstrap: 7631 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 630386 area fraction: 0.9960 UNW_RT: phase bootstrap points for next patch: 7639 PATCH: 26 starting line: 3202 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 2.40271E-04 GEN_NEUTRONS: image intensity standard deviation: 6.31217E-04 GEN_NEUTRONS: image intensity neutrons: 10 UNW_RT: number of residues: 22 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 629907 area fraction: 0.99528 average correlation of connected component: 0.9459 number of points for phase bootstrap: 7639 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 629907 area fraction: 0.9953 UNW_RT: phase bootstrap points for next patch: 7619 PATCH: 27 starting line: 3330 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 2.40762E-04 GEN_NEUTRONS: image intensity standard deviation: 6.48578E-04 GEN_NEUTRONS: image intensity neutrons: 24 UNW_RT: number of residues: 8 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 629768 area fraction: 0.99506 average correlation of connected component: 0.9394 number of points for phase bootstrap: 7619 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 629768 area fraction: 0.9951 UNW_RT: phase bootstrap points for next patch: 7619 PATCH: 28 starting line: 3458 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 2.45686E-04 GEN_NEUTRONS: image intensity standard deviation: 6.48952E-04 GEN_NEUTRONS: image intensity neutrons: 33 UNW_RT: number of residues: 10 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 3 range: 44 azimuth: 64 points unwrapped: 626836 area fraction: 0.99042 average correlation of connected component: 0.9338 number of points for phase bootstrap: 7619 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 626836 area fraction: 0.9904 UNW_RT: phase bootstrap points for next patch: 7592 PATCH: 29 starting line: 3586 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 2.25247E-04 GEN_NEUTRONS: image intensity standard deviation: 8.23294E-04 GEN_NEUTRONS: image intensity neutrons: 3 UNW_RT: number of residues: 124 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 622214 area fraction: 0.98312 average correlation of connected component: 0.9386 number of points for phase bootstrap: 7592 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 622214 area fraction: 0.9831 UNW_RT: phase bootstrap points for next patch: 7488 PATCH: 30 starting line: 3714 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 1.93766E-04 GEN_NEUTRONS: image intensity standard deviation: 5.27325E-04 GEN_NEUTRONS: image intensity neutrons: 85 UNW_RT: number of residues: 120 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 2 range: 28 azimuth: 64 points unwrapped: 626335 area fraction: 0.98963 average correlation of connected component: 0.9393 number of points for phase bootstrap: 7488 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 626335 area fraction: 0.9896 UNW_RT: phase bootstrap points for next patch: 7642 PATCH: 31 starting line: 3842 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 1.76088E-04 GEN_NEUTRONS: image intensity standard deviation: 5.41682E-04 GEN_NEUTRONS: image intensity neutrons: 65 UNW_RT: number of residues: 18 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 631247 area fraction: 0.99739 average correlation of connected component: 0.9389 number of points for phase bootstrap: 7642 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 631247 area fraction: 0.9974 UNW_RT: phase bootstrap points for next patch: 7639 PATCH: 32 starting line: 3970 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 1.51661E-04 GEN_NEUTRONS: image intensity standard deviation: 5.25292E-04 GEN_NEUTRONS: image intensity neutrons: 28 UNW_RT: number of residues: 40 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 628732 area fraction: 0.99342 average correlation of connected component: 0.9383 number of points for phase bootstrap: 7639 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 628732 area fraction: 0.9934 UNW_RT: phase bootstrap points for next patch: 7581 PATCH: 33 starting line: 4098 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 2.43113E-04 GEN_NEUTRONS: image intensity standard deviation: 5.08461E-03 GEN_NEUTRONS: image intensity neutrons: 0 UNW_RT: number of residues: 332 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 607849 area fraction: 0.96042 average correlation of connected component: 0.9392 number of points for phase bootstrap: 7581 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 607849 area fraction: 0.9604 UNW_RT: phase bootstrap points for next patch: 7168 PATCH: 34 starting line: 4226 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 2.22834E-04 GEN_NEUTRONS: image intensity standard deviation: 5.10145E-03 GEN_NEUTRONS: image intensity neutrons: 3 UNW_RT: number of residues: 337 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 2 range: 28 azimuth: 64 points unwrapped: 601971 area fraction: 0.95114 average correlation of connected component: 0.9415 number of points for phase bootstrap: 7168 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 601971 area fraction: 0.9511 UNW_RT: phase bootstrap points for next patch: 7575 PATCH: 35 starting line: 4354 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 8.56023E-05 GEN_NEUTRONS: image intensity standard deviation: 3.34822E-04 GEN_NEUTRONS: image intensity neutrons: 6 UNW_RT: number of residues: 53 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 3 range: 44 azimuth: 64 points unwrapped: 620982 area fraction: 0.98118 average correlation of connected component: 0.9412 number of points for phase bootstrap: 7575 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 620982 area fraction: 0.9812 UNW_RT: phase bootstrap points for next patch: 7606 PATCH: 36 starting line: 4482 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 7.92100E-05 GEN_NEUTRONS: image intensity standard deviation: 1.47142E-04 GEN_NEUTRONS: image intensity neutrons: 72 UNW_RT: number of residues: 56 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 625759 area fraction: 0.98872 average correlation of connected component: 0.9395 number of points for phase bootstrap: 7606 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 625759 area fraction: 0.9887 UNW_RT: phase bootstrap points for next patch: 7553 PATCH: 37 starting line: 4610 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 7.71530E-05 GEN_NEUTRONS: image intensity standard deviation: 1.31933E-04 GEN_NEUTRONS: image intensity neutrons: 66 UNW_RT: number of residues: 48 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 30 area fraction: 0.00005 average correlation of connected component: 0.5562 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 2 range: 28 azimuth: 64 points unwrapped: 627000 area fraction: 0.99068 average correlation of connected component: 0.9477 number of points for phase bootstrap: 7553 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 627000 area fraction: 0.9907 UNW_RT: phase bootstrap points for next patch: 7612 PATCH: 38 starting line: 4738 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 7.50743E-05 GEN_NEUTRONS: image intensity standard deviation: 1.22435E-04 GEN_NEUTRONS: image intensity neutrons: 49 UNW_RT: number of residues: 4 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 2 range: 28 azimuth: 64 points unwrapped: 628635 area fraction: 0.99327 average correlation of connected component: 0.9511 number of points for phase bootstrap: 7612 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 628635 area fraction: 0.9933 UNW_RT: phase bootstrap points for next patch: 7617 PATCH: 39 starting line: 4866 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 7.80804E-05 GEN_NEUTRONS: image intensity standard deviation: 1.29183E-04 GEN_NEUTRONS: image intensity neutrons: 81 UNW_RT: number of residues: 3 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 631057 area fraction: 0.99709 average correlation of connected component: 0.9464 number of points for phase bootstrap: 7617 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 631057 area fraction: 0.9971 UNW_RT: phase bootstrap points for next patch: 7645 PATCH: 40 starting line: 4994 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 8.22277E-05 GEN_NEUTRONS: image intensity standard deviation: 1.38009E-04 GEN_NEUTRONS: image intensity neutrons: 100 UNW_RT: number of residues: 20 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 631595 area fraction: 0.99794 average correlation of connected component: 0.9460 number of points for phase bootstrap: 7645 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 631595 area fraction: 0.9979 UNW_RT: phase bootstrap points for next patch: 7645 PATCH: 41 starting line: 5122 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 8.39751E-05 GEN_NEUTRONS: image intensity standard deviation: 1.42249E-04 GEN_NEUTRONS: image intensity neutrons: 94 UNW_RT: number of residues: 25 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 631473 area fraction: 0.99775 average correlation of connected component: 0.9513 number of points for phase bootstrap: 7645 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 631473 area fraction: 0.9978 UNW_RT: phase bootstrap points for next patch: 7648 PATCH: 42 starting line: 5250 lines read: 154 starting output line: 65 ending output line: 154 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 150 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 8.60524E-05 GEN_NEUTRONS: image intensity standard deviation: 1.49385E-04 GEN_NEUTRONS: image intensity neutrons: 37 UNW_RT: number of residues: 6 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 371984 area fraction: 0.99837 average correlation of connected component: 0.9542 number of points for phase bootstrap: 7648 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 371984 area fraction: 0.9984 UNW_RT: phase bootstrap points for next patch: 7639 *** Normal Completion *** enter I/P file name (unw_phase_mag) /export/air36/airops/1400/ts1400_l.unw_phase_mag enter I/P file name for hdr (amp_file) /export/air36/airops/1400/ts1400_l.amp enter O/P file name for magitude file: /export/air36/airops/1400/ts1400_l.unw_vvvv enter O/P file name for phase file: /export/air36/airops/1400/ts1400_l.unw_intf Reading new header..STARTING at 0 r_new_hdr r_param_hdr ns nl offset : 2560 5402 20480 5401 55336960 27668480 10803 110653440 55326720 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Phase Screen Generation Program ***** ***** ***** ***** This program calculates ***** ***** a phase screen ***** ***** using flat terrain area ***** ***** ***** ************************************************** Enter the name of the interferogram file. Enter the name of the raw lines file. Enter the name of the output averaged lines file. Enter the file with the global line Without the extension. Please enter the name of the sensor file. /export/air32/airops/1400/sensor.hv96l_pr Number of lines in mocomp file: 100000 Transmit leverarm: 0.5200000 1.202806 1.615272 Receive levararm: 0.5400000 0.5371945 -0.2652719 Enter the motion compensation file name. Enter the name of the angle file. Enter the name of the output phase screen file Is this pingpong (long baseline) data (def=y)? Reading unwrapped phase Reading mask Ave phase (rad), standard dev: -0.5128917 0.1986469 Total number of pixels averaged: 27054276 Phase Adjustment in cycles: -8.1629246E-02 Multi-looking lines 5402 read lines.dat: 1 92160 read lines.dat: 1001 184412160 read lines.dat: 2001 368732160 read lines.dat: 3001 553052160 read lines.dat: 4001 737372160 read lines.dat: 5001 921692160 Cosine angle calculation Writing cos(angle) out. ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** DEM Generation Program ***** ***** ***** ***** This program creates DEM from ***** ***** unwrapped phase file. ***** ***** ***** ************************************************** Enter the heoght bias: 0.0000000E+00 Enter the phase bias (# of 2pi) : 0.0000000E+00 Enter the name of the unwrapped phase file. ns np: 2560 5402 ***del_cp del_hp: 0.0000000E+00 0.0000000E+00 Enter the name of the raw lines file. Enter the file with the global line Please enter the name of the sensor file. sensor file:/export/air32/airops/1400/sensor.hv96l_pr Transmit leverarm: 0.5200000 1.202806 1.615272 Receive levararm: 0.5400000 0.5371945 -0.2652719 1st &total # lines: 1 100000 How many transmitting antennas for this combination? ping - pong mode long baseline = 2; 1 otherwise. Enter the phase screen filename. Enter the name of the peg point file. peg point file: /export/air36/airops/1400/ts1400_l.peg peglat,peglon,peghdg 4.922175 114.9847 54.56683 peg Ra: 4.922175 114.9847 54.56683 6363984.500000000 Enter the motion compensation file name. motion file: /export/air36/airops/1400/ts1400_l.mocompv xv0,h_p c s xv: 1 8446.469 8446.468 -54.58189 216.8281 0.0000000E+00 1)xr yr zr: 0.5425376 0.5416690 -0.2505887 -25673.85 -54.58067 8446.468 1)lat lon r_h: 4.787146 114.7965 8446.468 xv0 ,h_p c s xv: 100 8446.469 8446.477 -54.52705 216.8281 8.8663436E-03 100)xr yr zr: 0.5424847 0.5417460 -0.2505370 -25654.98 -54.35270 8446.477 100)lat lon r_h: 4.787247 114.7966 8446.477 Enter the interf. calibration file name. interf. cal: /u/sardine0/airops/OPS/data_proc/intcal0.dat HDDT:96068 ==xv0 h_a== 8446.469 8367.900 78.56836 ==r0 bw wavl dx dr== 9040.540 40.00000 0.2422600 0.5144000 3.331000 ==phbt phtp calf==band 180.4000 41.00000 43.59380 L 0.2422600 40.00000 L-band 0 1 blocks , lines: 13 5 hddt hddt1 hddt2: 96068 96021 96999 hddt ash cln cph0: 96068 0.4000000 0.0000000E+00 195.7800 6 L-band cal ph: -139.4000 41.00000 180.4000 ==ph0 cal-dph cph0: 335.1800 -139.4000 195.7800 Enter the name of the DEM file. Enter the name of the s,c file. CP write NewHead: 0 1000 CP write ParHead: 10240 5000 Ambiguity number = 0.0000000E+00 Do I use this (y/n) Enter the ambiguity to use. Enter the flag for calibration output yes=1: 0 Reading unwrapped phase 5402 3 Reading mask Reading line files Translating the phases to height. ==look_agl==: 1 2601 0.3884400 xv ha cos(p): 0.2504976 0.6907813 0.9998338 xv0 maphgt rf: 8446.469 78.56836 9041.481 **Bliine(100) dy dz:** 0.6517220 1.884598 plane sch 0.0000000E+00 0.0000000E+00 0.0000000E+00 ==look_agl==: 2560 2752 1.074234 xv ha cos(p): 0.2275733 0.6906488 0.9998356 xv0 maphgt rf: 8446.469 78.56836 17564.63 **Bliine(100) dy dz:** 0.6518863 1.884541 plane sch 0.0000000E+00 0.0000000E+00 0.0000000E+00 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 Along-track offset = -24603.37 Writing map out. cal_cp lines: 2560 5402 30720 file cal_cp.dat: 2560 5402 30720 ******************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Scattering area and Incidence Angle ***** ***** Calculations ***** ***** ***** ***** This program usdes the DEM to calculate the ***** ***** size of the scattering area to be used in ***** ***** data calibration. It also calculates the ***** ***** local incidence angle for each pixel. ***** ***** ***** ******************************************************** Enter the name of the dem input file. Enter the name of the correlation file. What is the lowest correlation to use? Enter the name of the scattering area file. Enter the name of the incidence angle file. Enter the global reference line filename headers_sgi: 3 5000 10240 10240 headers_sgi: 3 5000 10240 2560 Reading height information 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 Calculating slopes... Range direction.. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 Azimuth direction.. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 Incidence angle and scattering area.. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 Filtering the results. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 Writing files out. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 ANTENNA_DIR:/u/sardine0/airops/OPS/data_proc/ **************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Single Channel Radiometric Correction ***** ***** ***** ***** This program performs the radiometric ***** ***** correction on single channel data. It ***** ***** is intended to replace the old synoptic ***** ***** data. When topography is available, ***** ***** it is used when corrections are ***** ***** performed. ***** ***** ***** **************************************************** Enter the name of the input file. intf lun: 3 boresight: 50.00000 inunitvvvv lun: 3 Enter the name of output file. Select the polarization combination: (1) HH (2) HV (3) VH (4) VV Is this TOPSAR data? parhead(296:300):96068 HDDT ha: 96068 8367.900 Enter the name of the calibration file. attenuation: 6.000000 6.000000 6.000000 6.000000 +base diff: -1.190000 0.0000000E+00 -1.190000 0.0000000E+00 L-band dhh dhv dhh_l dcal_l: 90.84000 90.60000 150.6050 79.60000 topsar L-band: gain caltone: 150.6050 79.60000 -236.2050 ipol ahh,ahv,avh,AVV: 4 -7.190000 -6.000000 -7.190000 -236.2050 L-band ANT: /u/sardine0/airops/OPS/data_proc/TOPSAR_L.ANT Enter the name of the motion compensation file. motion lun: 5 How many lines of raw data? cal vv gain, rosa cal: 78.30000 -236.2050 Input ground spacing ? cross-track ground spacing: 10.00000 Radiometric Correction Vectors file: /export/air36/airops/1400/ts1400_l.rad_vec vec_len Rn ha y0out dyout: 9616 17564.57 8367.900 3421.930 10.00000 3.331000 NSAMP vec_len rg_len nbytes: 2560 1202 9616 Enter the file with the data lines per pixel. lines lun: 6 Is there a DEM available? Enter the name of the DEM file. dem lun: 7 /export/air36/airops/1400/ts1400_c.dem Byte offset to DEM data: 0 20480 Enter the name of the global reference file /export/air36/airops/1400/ts1400_l.glb Enter the scattering area file name. sca lun: 8 /export/air36/airops/1400/ts1400_c.sca Now doing the actual calibration 5402 10240 20480 1 5402 251 5402 501 5402 751 5402 1001 5402 1251 5402 1501 5402 1751 5402 2001 5402 2251 5402 2501 5402 2751 5402 3001 5402 3251 5402 3501 5402 3751 5402 4001 5402 4251 5402 4501 5402 4751 5402 5001 5402 5251 5402 peg points: 4.922175 114.9847 54.56683 4.922175 114.9847 54.56683 BRUNEI-054-2 NAME OF HEADER PARAMETER SITE NAME Brunei-054-2 LATITUDE OF SITE (DEGREES) 4.9300 LONGITUDE OF SITE (DEGREES) 114.8500 IMAGE TITLE BRUNEI-054-2 HDDT ID 96068 FREQUENCY L POLARIZATION VV CCT TYPE TS CCT ID 1400 ARCHIVAL FLAG 0 TRANSFER START FRAMECOUNT 18822709 PROCESSOR START FRAMECOUNT 18822709 LATITUDE AT START OF SCENE (DEGREES) 4.8131 LONGITUDE AT START OF SCENE (DEGREES) 114.7795 LATITUDE AT END OF SCENE (DEGREES) 5.1294 LONGITUDE AT END OF SCENE (DEGREES) 115.2615 APPROXIMATE STARTING HDDT FOOTAGE 409757 DATE OF ACQUISITION (GMT) 25-NOV-96 TIME OF ACQUISITION: GMT DAY 0 TIME OF ACQUISITION: SECONDS IN DAY 21590.0 RECORD WINDOW DURATION (MICROSECONDS) 65 FREQUENCIES COLLECTED LC DIGITAL DELAY (MICROSECONDS) 93.0 CHIRP DELAY (MICROSECONDS) 32.5 PROCESSOR DELAY (RAW SAMPLES) 0 PRF AT START OF TRANSFER (HZ) 842.6 SAMPLING RATE (MHZ) 90.00 CENTER FREQUENCY AT VIDEO (MHZ) 22.50 CHIRP BANDWIDTH (MHZ) 40.00 TYPE OF CHIRP USED (ANALOG OR DIGITAL) ANALOG PULSE LENGTH (MICROSECONDS) 10.00 PROCESSOR WAVELENGTH (METERS) 0.24226 BAROMETRIC ALTITUDE (METERS) 7932.5 RADAR ALTITUDE (METERS) 8367.9 ALTITUDE USED IN PROCESSOR (METERS) 8367.9 ELEVATION OF INVESTIGATOR SITE (METERS) 15 AIRCRAFT TRACK ANGLE (DEGREES) 54.6 AIRCRAFT YAW ANGLE (DEGREES) -0.2 AIRCRAFT PITCH ANGLE (DEGREES) 1.0 AIRCRAFT ROLL ANGLE (DEGREES) 0.5 PROCESSOR YAW ANGLE USED (DEGREES) VARIABLE PROCESSOR PITCH ANGLE USED (DEGREES) VARIABLE PROCESSOR ROLL ANGLE USED (DEGREES) VARIABLE NOMINAL PRF RATIO (HZ/KNOT) 1.000 NOMINAL PRF RATIO (1/METERS) 1.944 PRF RATIO CORRECTION FACTOR USED 1.0000 RANGE FFT SIZE 8192 AZIMUTH FFT SIZE 8192 FRAME SIZE (RANGE LINES) 4192 NUMBER OF FRAMES PROCESSED 28 RANGE ALIGNMENT DELAY USED,HH (MICROSEC) 0.0000 RANGE ALIGNMENT DELAY USED,HV (MICROSEC) 0.0000 RANGE ALIGNMENT DELAY USED,VH (MICROSEC) 0.0000 RANGE ALIGNMENT DELAY USED,VV (MICROSEC) 0.0000 NEAR SLANT RANGE (METERS) 9040.54 FAR SLANT RANGE (METERS) 17564.64 NEAR LOOK ANGLE (DEGREES) 22.2 FAR LOOK ANGLE (DEGEES) 61.5 NUMBER OF LOOKS PROCESSED IN AZIMUTH 18 NUMBER OF LOOKS PROCESSED IN RANGE 1 RANGE WEIGHTING USED COS2 RANGE WEIGHTING COEFFICIENT 0.100 AZIMUTH WEIGHTING USED NONE AZIMUTH WEIGHTING COEFFICIENT 1.000 PERCENT OF PRF BANDWIDTH PROCESSED 21.4 DESKEW FLAG (1=DESKEWED, 2=NOT DESKEWED) 1 SLANT RANGE SAMPLE SPACING (METERS) 3.3310 NOMINAL SLANT RANGE RESOLUTION (METERS) 5.5 AZIMUTH SAMPLE SPACING (METERS) 9.2600 NOMINAL AZIMUTH RESOLUTION (METERS) 43.2 NUMBER OF INTERPOLATION PNTS USED IN RMC 8 AZIMUTH REFERENCE SIZE/LOOK, NEAR RANGE VARIABLE AZIMUTH REFERENCE SIZE/LOOK, FAR RANGE VARIABLE IMAGE CENTER LATITUDE (DEGREES) 5.0028 IMAGE CENTER LONGITUDE (DEGREES) 114.9983 CALTONE VIDEO FREQUENCY 43.5938 CALTONE POWER MEASURED, DB, HH 78.5 CALTONE POWER MEASURED, DB, HV 78.4 CALTONE POWER MEASURED, DB, VH 78.4 CALTONE POWER MEASURED, DB, VV 78.3 CALIBRATION FACTOR APPLIED, DB, HH 0 CALIBRATION FACTOR APPLIED, DB, HV 0 CALIBRATION FACTOR APPLIED, DB, VH 0 CALIBRATION FACTOR APPLIED, DB, VV -158 MEASURED AND CORRECTED HV/VH POWER RATIO 1.000 MEASURED AND CORRECTED HV/VH PHASE (DEG) 0.0 CALTONE PHASE MEASURED, DEG, HH 180.4 CALTONE PHASE MEASURED, DEG, HV 41.0 CALTONE PHASE MEASURED, DEG, VH 180.7 CALTONE PHASE MEASURED, DEG, VV 41.7 GENERAL SCALE FACTOR 0.0 GPS ALTITUDE, M 8402.0 LATITUDE OF PEG POINT 4.9221749 LONGITUDE OF PEG POINT 114.9847488 HEADING AT PEG POINT 54.5668335 P-BAND RFI FILTER APPLIED FLAG NO P-BAND RFI FILTER ALGORITHM ALONG-TRACK OFFSET S0 (M) 8402.00 CROSS-TRACK OFFSET C0 (M) 8402.00 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Projection Program ***** ***** ***** ***** This program projects from slant ***** ***** range to ground range. ***** ***** ***** ***** It uses an array of values produced ***** ***** by the GENLOC program to perform a ***** ***** nearest neighbor interpolation. ***** ***** ***** ************************************************** Enter the name of the input file. Projecting real*4 data. Projecting dem? Enter the name of the s,c file. Enter the range and azimuth pixel spacing. Enter the output file name. prf bw len: 842.6000 40.00000 10.00000 proj4 nsampr 1202 13041.07 8367.900 3421.930 10.00000 9040.540 # header output no1 no2 no3: 4 1 2 1 Byte offset to cali header out: 0 Byte offset to calheader in: 0 Byte offset to dem header 14424 Byte offset to first data line: 19232 Peg point parameters: 4.922175 114.9847 54.56683 Offset Parameters: s0 (m) = -24603.40 c0 (m) = 3421.930 Reading data. 10240 1202 5402 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Initializing output array. Resampling the data: one pass (DEM version). + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Normalizing feathers + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 + 6400 + 6656 + 6912 + 7168 + 7424 + 7680 + 7936 + 8192 + 8448 + 8704 + 8960 + 9216 + 9472 + 9728 + 9984 +10240 +10496 +10752 +11008 +11264 +11520 +11776 +12032 +12288 +12544 +12800 +13056 +13312 +13568 +13824 +14080 +14336 +14592 +14848 +15104 +15360 Filling in 1 and 2 pixel holes. Number of pixels without data = 2195247 1202 5001 -10000.00 Number of holes filled by WAYNE (real*4) = 0 Neighborhood Pixel Distance Used = 0 Writing map out. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Projection Program ***** ***** ***** ***** This program projects from slant ***** ***** range to ground range. ***** ***** ***** ***** It uses an array of values produced ***** ***** by the GENLOC program to perform a ***** ***** nearest neighbor interpolation. ***** ***** ***** ************************************************** Enter the name of the input file. Projecting real*4 data. Projecting dem? Enter the name of the s,c file. Enter the range and azimuth pixel spacing. Enter the output file name. prf bw len: 842.6000 40.00000 10.00000 nsampr O/p: 1202 13041.07 17564.57 2560 ha,y0out,dyout,rspace: 8367.900 3421.930 10.00000 3.331000 # header output no1 no2 no3: 3 1 2 0 Byte offset to cali header out: 0 Byte offset to calheader in: 0 Byte offset to dem header 0 Byte offset to first data line: 14424 Reading data. 10240 1202 5402 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Initializing output array. Near Range = 3421.930 Resampling the data: first pass. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Resampling the data: second pass. 2560 5402 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Normalizing feathers + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 + 6400 + 6656 + 6912 + 7168 + 7424 + 7680 + 7936 + 8192 + 8448 + 8704 + 8960 + 9216 + 9472 + 9728 + 9984 +10240 +10496 +10752 +11008 +11264 +11520 +11776 +12032 +12288 +12544 +12800 +13056 +13312 +13568 +13824 +14080 +14336 +14592 +14848 +15104 +15360 Filling in 1 and 2 pixel holes. Number of pixels without data = 2215661 1202 5001 0.0000000E+00 Number of holes filled by WAYNE (real*4) = 0 Neighborhood Pixel Distance Used = 0 Writing map out. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Projection Program ***** ***** ***** ***** This program projects from slant ***** ***** range to ground range. ***** ***** ***** ***** It uses an array of values produced ***** ***** by the GENLOC program to perform a ***** ***** nearest neighbor interpolation. ***** ***** ***** ************************************************** Enter the name of the input file. Projecting real*4 data. Projecting dem? Enter the name of the s,c file. Enter the range and azimuth pixel spacing. Enter the output file name. prf bw len: 842.6000 40.00000 10.00000 nsampr O/p: 1202 13041.07 17564.57 2560 ha,y0out,dyout,rspace: 8367.900 3421.930 10.00000 3.331000 # header output no1 no2 no3: 6 1 2 3 Byte offset to cali header out: 14424 Byte offset to calheader in: 20480 Byte offset to dem header 0 Byte offset to first data line: 28848 headers_sgi: 3 9616 30720 19232 Reading data. 10240 1202 5402 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Initializing output array. Near Range = 3421.930 Resampling the data: first pass. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Resampling the data: second pass. 2560 5402 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Normalizing feathers + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 + 6400 + 6656 + 6912 + 7168 + 7424 + 7680 + 7936 + 8192 + 8448 + 8704 + 8960 + 9216 + 9472 + 9728 + 9984 +10240 +10496 +10752 +11008 +11264 +11520 +11776 +12032 +12288 +12544 +12800 +13056 +13312 +13568 +13824 +14080 +14336 +14592 +14848 +15104 +15360 Filling in 1 and 2 pixel holes. Number of pixels without data = 2183879 1202 5001 0.0000000E+00 Number of holes filled by WAYNE (real*4) = 0 Neighborhood Pixel Distance Used = 0 Writing map out. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Projection Program ***** ***** ***** ***** This program projects from slant ***** ***** range to ground range. ***** ***** ***** ***** It uses an array of values produced ***** ***** by the GENLOC program to perform a ***** ***** nearest neighbor interpolation. ***** ***** ***** ************************************************** Enter the name of the input file. Projecting BYTE data. Projecting dem? Enter the name of the s,c file. Enter the range and azimuth pixel spacing. Enter the output file name. prf bw len: 842.6000 40.00000 10.00000 nsampr O/p: 1202 13041.07 8367.900 3421.930 10.00000 Number of header no123: 6 1 5 0 Byte offset to calibration header: 0 Byte offset to dem header: 0 Byte offset to first data line: 7212 Reading data. 2560 1202 5402 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Initializing output array. Near Range = 3421.930 Resampling the data: first pass. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Resampling the data: second pass--fill only. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Number of holes filled by WAYNE (byte) = 0 Neighborhood Pixel Distance Used = 0 Writing map out. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Projection Program ***** ***** ***** ***** This program projects from slant ***** ***** range to ground range. ***** ***** ***** ***** It uses an array of values produced ***** ***** by the GENLOC program to perform a ***** ***** nearest neighbor interpolation. ***** ***** ***** ************************************************** Enter the name of the input file. Projecting BYTE data. Projecting dem? Enter the name of the s,c file. Enter the range and azimuth pixel spacing. Enter the output file name. prf bw len: 842.6000 40.00000 10.00000 nsampr O/p: 1202 13041.07 8367.900 3421.930 10.00000 Number of header no123: 6 1 5 0 Byte offset to calibration header: 0 Byte offset to dem header: 0 Byte offset to first data line: 7212 Reading data. 2560 1202 5402 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Initializing output array. Near Range = 3421.930 Resampling the data: first pass. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Resampling the data: second pass--fill only. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Number of holes filled by WAYNE (byte) = 0 Neighborhood Pixel Distance Used = 0 Writing map out. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 frequency that is currently being worked on Enter filename (c band demgr): Enter filename (l band demgr): Enter filename (c band vvgr): Enter filename (l band vvgr): Enter filename (c band incgr): Enter filename (l band incgr): Enter filename (c band corgr): Enter filename (l band corgr): working on l band now working on dem Reading dem header..STARTING at 14424 working on vv load values update param header only from passing in parameters working on inc load values update param header only from passing in parameters working on cor load values update param header only from passing in parameters Enter number of set to convert: Enter the cband filename: Enter the output filename: Reading new header..STARTING at 0 1202 1202 dumping the rest 1 dumping the rest 2 dumping the rest 3 dumping the rest 4 dumping the rest 5 dumping the rest 6 dumping the rest 7 dumping the rest 8 dumping the rest 9 dumping the rest 10 dumping the rest 11 dumping the rest 12 dumping the rest 13 dumping the rest 14 dumping the rest 15 dumping the rest 16 dumping the rest 17 dumping the rest 18 dumping the rest 19 dumping the rest 20 dumping the rest 21 dumping the rest 22 dumping the rest 23 dumping the rest 24 dumping the rest 25 dumping the rest 26 dumping the rest 27 dumping the rest 28 dumping the rest 29 dumping the rest 30 dumping the rest 31 dumping the rest 32 dumping the rest 33 dumping the rest 34 dumping the rest 35 dumping the rest 36 dumping the rest 37 dumping the rest 38 dumping the rest 39 dumping the rest 40 dumping the rest 41 dumping the rest 42 dumping the rest 43 dumping the rest 44 dumping the rest 45 dumping the rest 46 dumping the rest 47 dumping the rest 48 dumping the rest 49 dumping the rest 50 dumping the rest 51 dumping the rest 52 dumping the rest 53 dumping the rest 54 dumping the rest 55 Enter the cband filename: Enter the output filename: Reading new header..STARTING at 0 1202 1202 dumping the rest 1 dumping the rest 2 dumping the rest 3 dumping the rest 4 dumping the rest 5 dumping the rest 6 dumping the rest 7 dumping the rest 8 dumping the rest 9 dumping the rest 10 dumping the rest 11 dumping the rest 12 dumping the rest 13 dumping the rest 14 dumping the rest 15 dumping the rest 16 dumping the rest 17 dumping the rest 18 dumping the rest 19 dumping the rest 20 dumping the rest 21 dumping the rest 22 dumping the rest 23 dumping the rest 24 dumping the rest 25 dumping the rest 26 dumping the rest 27 dumping the rest 28 dumping the rest 29 dumping the rest 30 dumping the rest 31 dumping the rest 32 dumping the rest 33 dumping the rest 34 dumping the rest 35 dumping the rest 36 dumping the rest 37 dumping the rest 38 dumping the rest 39 dumping the rest 40 dumping the rest 41 dumping the rest 42 dumping the rest 43 dumping the rest 44 dumping the rest 45 dumping the rest 46 dumping the rest 47 dumping the rest 48 dumping the rest 49 dumping the rest 50 dumping the rest 51 dumping the rest 52 dumping the rest 53 dumping the rest 54 dumping the rest 55 Enter the cband filename: Enter the output filename: Reading new header..STARTING at 0 4808 192 4808 4808 192 4808 4808 0 19232 4808 0 33656 4808 0 48080 4808 192 4808 4808 0 19232 4808 0 33656 4808 192 4808 4808 0 19232 4808 0 33656 4808 192 4808 4808 0 19232 4808 0 33656 62504 9616 4808 4808 dumping the rest 1 dumping the rest 2 dumping the rest 3 dumping the rest 4 dumping the rest 5 dumping the rest 6 dumping the rest 7 dumping the rest 8 dumping the rest 9 dumping the rest 10 dumping the rest 11 dumping the rest 12 dumping the rest 13 dumping the rest 14 dumping the rest 15 dumping the rest 16 dumping the rest 17 dumping the rest 18 dumping the rest 19 dumping the rest 20 dumping the rest 21 dumping the rest 22 dumping the rest 23 dumping the rest 24 dumping the rest 25 dumping the rest 26 dumping the rest 27 dumping the rest 28 dumping the rest 29 dumping the rest 30 dumping the rest 31 dumping the rest 32 dumping the rest 33 dumping the rest 34 dumping the rest 35 dumping the rest 36 dumping the rest 37 dumping the rest 38 dumping the rest 39 dumping the rest 40 dumping the rest 41 dumping the rest 42 dumping the rest 43 dumping the rest 44 dumping the rest 45 dumping the rest 46 dumping the rest 47 dumping the rest 48 dumping the rest 49 dumping the rest 50 dumping the rest 51 dumping the rest 52 dumping the rest 53 dumping the rest 54 dumping the rest 55 Enter the cband filename: Enter the output filename: Reading new header..STARTING at 0 4808 192 4808 4808 192 4808 4808 4808 dumping the rest 1 dumping the rest 2 dumping the rest 3 dumping the rest 4 dumping the rest 5 dumping the rest 6 dumping the rest 7 dumping the rest 8 dumping the rest 9 dumping the rest 10 dumping the rest 11 dumping the rest 12 dumping the rest 13 dumping the rest 14 dumping the rest 15 dumping the rest 16 dumping the rest 17 dumping the rest 18 dumping the rest 19 dumping the rest 20 dumping the rest 21 dumping the rest 22 dumping the rest 23 dumping the rest 24 dumping the rest 25 dumping the rest 26 dumping the rest 27 dumping the rest 28 dumping the rest 29 dumping the rest 30 dumping the rest 31 dumping the rest 32 dumping the rest 33 dumping the rest 34 dumping the rest 35 dumping the rest 36 dumping the rest 37 dumping the rest 38 dumping the rest 39 dumping the rest 40 dumping the rest 41 dumping the rest 42 dumping the rest 43 dumping the rest 44 dumping the rest 45 dumping the rest 46 dumping the rest 47 dumping the rest 48 dumping the rest 49 dumping the rest 50 dumping the rest 51 dumping the rest 52 dumping the rest 53 dumping the rest 54 dumping the rest 55 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** DEM Format Program ***** ***** ***** ***** This program outputs heights in ***** ***** 16 bit numbers. ***** ***** ***** ************************************************** Enter the name of the file to be formatted. ibytesdemheadin: 14424 Reading the data .. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 Enter the output file name. ibytesdemheadin: 14424 Finding the maximum and minimum heights.. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 Minimum, Maximum heights: -624.5578 -60.61739 Suggest we use 3.4420192E-02 as increment. Do you agree? Changing to INTEGER*2 format... 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** CVV Format Program ***** ***** ***** ***** This program outputs C-band RCS in ***** ***** 16 bit numbers. ***** ***** ***** ************************************************** Enter the name of the file to be formatted. ns np offset: 1202 5056 62504 ns np offset: 1202 5056 62504 ibytesvectorin nvector: 48080 9616 Reading the data .. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 Finding the average RCS.. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 Average RCS (dB) = -70.99713 Enter the output file name. cal offset: 9616 1 3 data offset: 21636 1 3 1 4 9616 Changing to INTEGER*2 format... 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 *** Convert real*4 to Byte image *** Enter data file to be converted: /export/air36/airops/1400/ts1400_l.vvgr channel= 3 Reading the header. New header present. Record length = 4808 Number of samples per line = 1202 Number of lines in image = 5056 Offset to data = 62504 Status = 0 New header is OK nsamp,nlines,ioff 1202 5056 62504 Enter data file for saving byte output: 33 0.0000000E+00 0.0000000E+00 65 3.5256732E-03 0.0000000E+00 97 5.2447678E-03 0.0000000E+00 129 5.2447678E-03 0.0000000E+00 161 8.3521008E-03 0.0000000E+00 193 8.3521008E-03 0.0000000E+00 225 9.5844530E-03 0.0000000E+00 257 9.5844530E-03 0.0000000E+00 289 9.5844530E-03 0.0000000E+00 321 9.5844530E-03 0.0000000E+00 353 9.5844530E-03 0.0000000E+00 385 9.5844530E-03 0.0000000E+00 417 9.5844530E-03 0.0000000E+00 449 9.5844530E-03 0.0000000E+00 481 9.5844530E-03 0.0000000E+00 513 1.1943843E-02 0.0000000E+00 545 1.1943843E-02 0.0000000E+00 577 1.1943843E-02 0.0000000E+00 609 1.1943843E-02 0.0000000E+00 641 1.1943843E-02 0.0000000E+00 673 1.1943843E-02 0.0000000E+00 705 1.1943843E-02 0.0000000E+00 737 1.1943843E-02 0.0000000E+00 769 1.1943843E-02 0.0000000E+00 801 1.1943843E-02 0.0000000E+00 833 1.1943843E-02 0.0000000E+00 865 1.1943843E-02 0.0000000E+00 897 1.1943843E-02 0.0000000E+00 929 1.1943843E-02 0.0000000E+00 961 1.3736009E-02 0.0000000E+00 993 1.3736009E-02 0.0000000E+00 1025 1.3736009E-02 0.0000000E+00 1057 1.3736009E-02 0.0000000E+00 1089 1.3736009E-02 0.0000000E+00 1121 1.3736009E-02 0.0000000E+00 1153 7.2401419E-02 0.0000000E+00 1185 7.2401419E-02 0.0000000E+00 1217 7.2401419E-02 0.0000000E+00 1249 7.2401419E-02 0.0000000E+00 1281 7.2401419E-02 0.0000000E+00 1313 7.2401419E-02 0.0000000E+00 1345 7.2401419E-02 0.0000000E+00 1377 7.2401419E-02 0.0000000E+00 1409 7.2401419E-02 0.0000000E+00 1441 7.2401419E-02 0.0000000E+00 1473 7.2401419E-02 0.0000000E+00 1505 7.2401419E-02 0.0000000E+00 1537 7.2401419E-02 0.0000000E+00 1569 7.2401419E-02 0.0000000E+00 1601 7.2401419E-02 0.0000000E+00 1633 7.2401419E-02 0.0000000E+00 1665 7.2401419E-02 0.0000000E+00 1697 7.2401419E-02 0.0000000E+00 1729 7.2401419E-02 0.0000000E+00 1761 7.2401419E-02 0.0000000E+00 1793 7.2401419E-02 0.0000000E+00 1825 7.2401419E-02 0.0000000E+00 1857 0.1290040 0.0000000E+00 1889 0.1290040 0.0000000E+00 1921 0.1290040 0.0000000E+00 1953 0.1290040 0.0000000E+00 1985 0.1290040 0.0000000E+00 2017 0.1290040 0.0000000E+00 2049 0.1290040 0.0000000E+00 2081 0.1290040 0.0000000E+00 2113 0.1290040 0.0000000E+00 2145 0.1290040 0.0000000E+00 2177 0.1290040 0.0000000E+00 2209 0.1290040 0.0000000E+00 2241 0.1290040 0.0000000E+00 2273 0.1290040 0.0000000E+00 2305 0.1290040 0.0000000E+00 2337 0.1290040 0.0000000E+00 2369 0.1290040 0.0000000E+00 2401 0.1290040 0.0000000E+00 2433 0.1290040 0.0000000E+00 2465 0.1290040 0.0000000E+00 2497 0.1290040 0.0000000E+00 2529 0.1290040 0.0000000E+00 2561 0.1290040 0.0000000E+00 2593 0.1290040 0.0000000E+00 2625 0.1290040 0.0000000E+00 2657 0.1290040 0.0000000E+00 2689 0.1290040 0.0000000E+00 2721 0.1290040 0.0000000E+00 2753 0.1290040 0.0000000E+00 2785 0.1290040 0.0000000E+00 2817 0.1290040 0.0000000E+00 2849 0.1290040 0.0000000E+00 2881 0.1290040 0.0000000E+00 2913 0.1290040 0.0000000E+00 2945 0.1290040 0.0000000E+00 2977 0.1290040 0.0000000E+00 3009 0.1290040 0.0000000E+00 3041 0.1290040 0.0000000E+00 3073 0.1290040 0.0000000E+00 3105 0.1290040 0.0000000E+00 3137 0.1290040 0.0000000E+00 3169 0.1290040 0.0000000E+00 3201 0.1290040 0.0000000E+00 3233 0.1290040 0.0000000E+00 3265 0.1290040 0.0000000E+00 3297 0.1290040 0.0000000E+00 3329 0.1290040 0.0000000E+00 3361 0.1290040 0.0000000E+00 3393 0.1290040 0.0000000E+00 3425 0.1290040 0.0000000E+00 3457 0.1290040 0.0000000E+00 3489 0.1290040 0.0000000E+00 3521 0.1290040 0.0000000E+00 3553 0.1290040 0.0000000E+00 3585 0.1290040 0.0000000E+00 3617 0.1290040 0.0000000E+00 3649 0.1290040 0.0000000E+00 3681 0.1290040 0.0000000E+00 3713 0.1290040 0.0000000E+00 3745 0.1290040 0.0000000E+00 3777 0.1290040 0.0000000E+00 3809 0.1290040 0.0000000E+00 3841 0.1290040 0.0000000E+00 3873 0.1290040 0.0000000E+00 3905 0.1290040 0.0000000E+00 3937 0.1290040 0.0000000E+00 3969 0.1290040 0.0000000E+00 4001 0.1290040 0.0000000E+00 4033 0.1290040 0.0000000E+00 4065 0.1290040 0.0000000E+00 4097 0.1290040 0.0000000E+00 4129 0.1290040 0.0000000E+00 4161 0.1290040 0.0000000E+00 4193 0.1290040 0.0000000E+00 4225 0.1290040 0.0000000E+00 4257 0.1290040 0.0000000E+00 4289 0.1290040 0.0000000E+00 4321 0.1290040 0.0000000E+00 4353 0.1290040 0.0000000E+00 4385 0.1290040 0.0000000E+00 4417 0.1290040 0.0000000E+00 4449 0.1290040 0.0000000E+00 4481 0.1290040 0.0000000E+00 4513 0.1290040 0.0000000E+00 4545 0.1290040 0.0000000E+00 4577 0.1290040 0.0000000E+00 4609 0.1290040 0.0000000E+00 4641 0.1290040 0.0000000E+00 4673 0.1290040 0.0000000E+00 4705 0.1290040 0.0000000E+00 4737 0.1290040 0.0000000E+00 4769 0.1290040 0.0000000E+00 4801 0.1290040 0.0000000E+00 4833 0.1290040 0.0000000E+00 4865 0.1290040 0.0000000E+00 4897 0.1290040 0.0000000E+00 4929 0.1290040 0.0000000E+00 4961 0.1290040 0.0000000E+00 4993 0.1290040 0.0000000E+00 5025 0.1290040 0.0000000E+00 Min, Max r_scale = 0.0000000E+00 0.1290040 0.5000000 Do you want to change these variables? yes=1 0 50 100 150 200 250 300 350 400 450 500 550 600 650 700 750 800 850 900 950 1000 1050 1100 1150 1200 1250 1300 1350 1400 1450 1500 1550 1600 1650 1700 1750 1800 1850 1900 1950 2000 2050 2100 2150 2200 2250 2300 2350 2400 2450 2500 2550 2600 2650 2700 2750 2800 2850 2900 2950 3000 3050 3100 3150 3200 3250 3300 3350 3400 3450 3500 3550 3600 3650 3700 3750 3800 3850 3900 3950 4000 4050 4100 4150 4200 4250 4300 4350 4400 4450 4500 4550 4600 4650 4700 4750 4800 4850 4900 4950 5000 5050 done Fri Nov 8 20:59:42 PST 2002 Fri Nov 8 20:59:42 PST 2002 Fri Nov 8 20:59:42 PST 2002 No match No match ***************************************************** * * * AIRSAR INTEGRATED PROCESSOR * * * * HEADER PREPROCESSOR * * * * This program reads the raw data header and cal- * * culates the parameters necessary for the motion * * compensation in the integrated processor. * * * ***************************************************** Enter command file name ==> Opening command file... CRD-xdealy: 0.2380000 Reading and decoding header file... fsize_max min: 11907 11863 fsize_max min/ 2: 5954 5932 Finished reading the header file... Data acquired after 1994. J2000 time = -97839530.15473801 GPS J2000 time = -97839532.12479001 Message 1 Time = -97839530.15473801 INS Time = 1.704192000000000 Roll angle = 0.4888916015625000 Pitch angle = 1.038208007812500 Heading angle = 54.35485839843750 Long. acc = 0.1700000000000000 Lat. acc = -1.0000000000000000E-02 Norm. acc = -9.650000000000000 East vel. = 176.2770000000000 North vel. = 126.2550000000000 Up vel. = 0.1210000000000000 True Grnd Spd = 216.8125000000000 Altitude = 8446.000000000000 Latitude = 4.787130374461412 Longitude = 114.7964306641370 Message 6 Week = 881 GPS Time = -97839532.12479001 GDOP = 2.093750000000000 PDOP = 1.937500000000000 HDOP = 1.093750000000000 VDOP = 1.593750000000000 TDOP = 0.7968750000000000 Spherical Acc = 11.00000000000000 Time Acc = 8.0000000000000005E-09 GPS Lat = 4.784968094021508 GPS Lon = 114.7934315981008 GPS Alt = 8449.000000000000 GPS East Vel = 176.2400000000000 GPS North Vel = 126.3000000000000 GPS Up Vel = -0.1100000000000000 Message 3 Del INU Time = 0.7441920000000000 Del vel east = -3.4179687500000000E-03 Del vel north = 1.0253906250000000E-02 Del vel up = 6.4941406250000000E-02 Del pos east = 0.6250000000000000 Del pos north = 0.5000000000000000 Del pos up = -0.1250000000000000 Message 4 Sigma Pos x = 1.250000000000000 Sigma Pos y = 1.500000000000000 Sigma Pos z = 2.000000000000000 Sigma Vel x = 7.0800781250000000E-03 Sigma Vel y = 8.5449218750000000E-03 Sigma Vel z = 1.0009765625000000E-02 Message 7 Satellites used = 10 26 23 30 9 10 Retrived Honeywell data... 11880 Operator Comments: - - - - - - - - - - - - - - - - - - - - - PV RFI near urban areas, but no RX overloading; rebooted HP748i after DIR-1000 interface lockup; getting bumpy at end of run; IG I is OKng Lou, Leon Maldonado, Michael Kobrick, Timothy William Miller van Zyl, David Ryan Haub, Lori Ann Carrico, Timothy W. - - - - - - - - - - - - - - - - - - - - - enter filename for headers (entire path): Which frequency? (C,L or P) number of channels transferred: number of bytes/chan: total # of lines transferred: window delay: enter the .par filename : enter first header to read: enter year data taken: enter HDDT ID for raw data: SONY tapeid: 596068 96068 enter HDDT footage number <0> : enter the title of image: enter the CCT ID: cct: 1400 prod ID1:14001400 prod ID:1400 SONY tapeid: 96068 96068 tapeid:9606896068 tapeid par:96068 prod ID:1400 chrp_delay from subcomm header tapeID: 32.45000 96068 New DCG: chrp_delay is 32.5 usec 32.45000 chrp_delay is 32.5 usec 96068 32.45000 Is this 98039< x >98001 for P-bnad?: 96068 1998 P-band fc? 22.50000 idelay,chrp_delay,xdelay 93 32.45000 0.2380000 near range delr windela: 9040.541 3.331027 0 f_cal 43.59375 1216.406 Parameter header created .. >> Record # : 128 >> GPS Stuff = 1.80 6 9 1 24 26 17 digdelay startrng(us):93 93.00000000000000 startrng(m) elecdelay: 9863.173249999998 2.7200000000000000E-05 >> start range = 9863.1732 >> ccal_amp = -90.39999 >> ccal_atn = 32 >> ratn_phh = 0 14 0 >> ratn_phv = 0 8 0 >> ratn_pvh = 0 8 0 >> ratn_pvv = 0 14 0 >> ratn_lhh = 0 8 0 >> ratn_lhv = 0 8 0 >> ratn_lvh = 0 8 0 >> ratn_lvv = 0 8 0 >> ratn_chh = 0 8 10 >> ratn_chv = 0 8 10 >> ratn_cvh = 0 8 10 >> ratn_cvv = 0 8 10 >> rcvr_chh = >> rcvr_chv = >> rcvr_cvh = >> rcvr_cvv = >> rcvr_cpz = 0.0 >> rcvr_cbw = 1 >> chrp_bnd = 40 >> chrp_len = 10 >> chrp_mod = DN Done decoding data from header array... Data collected on ==> 00-JAN-1996 Starting and end GPS times for SAR data -126338399.2900 -126338162.5340 Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000012 0 hdg 54.32401 53.90442 54.75037 0.1839573 0 trc 54.50528 54.36068 54.69053 0.0875469 0 tgs 216.44132 216.10938 216.82813 0.2168183 0 roll 0.30822 -0.23621 0.72510 0.1837461 0 pitch 1.07499 0.93933 1.30188 0.0565628 0 lati 4.92007 4.78497 5.05509 0.0778559 0 loni 114.98201 114.79343 115.17108 0.1088849 0 latd 4.91742 4.78333 5.05167 0.0779833 0 lond 114.97929 114.79167 115.16833 0.1088942 0 balt 7932.54489 7929.37200 7934.85840 0.9798892 0 ralt 8367.86036 8254.28880 8399.67840 40.1363318 0 dpth 0.99341 0.90000 1.90000 0.0665699 0 droll 0.23431 -0.30000 0.60000 0.1833685 0 thd 54.23086 53.80000 54.60000 0.1842948 0 dad 0.46901 0.20000 0.80000 0.1405592 0 latg 4.92181 4.78635 5.05648 0.0779550 7 long 114.67821 46.71303 115.17265 4.5613505 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8401.98819 8379.99023 8411.06934 6.7947893 7 phh_aten 14.00000 14.00000 14.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 8.00000 8.00000 8.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 8.00000 8.00000 8.00000 0.0000000 0 lhv_aten 8.00000 8.00000 8.00000 0.0000000 0 lvh_aten 8.00000 8.00000 8.00000 0.0000000 0 lvv_aten 8.00000 8.00000 8.00000 0.0000000 0 chh_aten 18.00000 18.00000 18.00000 0.0000000 0 chv_aten 18.00000 18.00000 18.00000 0.0000000 0 cvh_aten 18.00000 18.00000 18.00000 0.0000000 0 cvv_aten 18.00000 18.00000 18.00000 0.0000000 0 hwlat 4.92214 4.78712 5.05676 0.0778090 0 hwlon 114.99456 114.79643 229.97019 1.0605082 0 hwalt 8445.91242 8444.20267 8448.69490 1.1078156 0 hwev 176.22517 175.91100 176.59000 0.1428207 0 hwnv 125.67535 125.01700 126.31100 0.3687243 0 hwuv -0.00038 -0.60000 0.54300 0.2001301 0 hwroll 0.30811 -0.23621 0.72510 0.1837835 0 hwpitch 1.07502 0.93933 1.30188 0.0565736 0 hwhdg 54.32866 53.90442 108.56689 0.5305656 0 hwtrc 54.50999 54.36068 108.87846 0.5064533 0 hwtgs 216.44090 216.10938 216.82813 0.2166153 0 Finished analysis of raw data... Putting in mirror values... Finished with mirror samples... Median filter data... Completed median filter of data... Finished correcting GPS times for pulses... Finished correcting GPS times for SIXGUN data... -97839529.99923338 i_yearind 19960 GPS time for first pulse = -97839530.28283624 -126338399.2900000 New start and number of records = 109 199855 New start and number of blocks = 1 1563 GPS trend coefficients = -11.76622555553974 62.78558206021851 -58.78754310881088 Begin final analysis of data... Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000012 0 hdg 54.32401 53.90442 54.75037 0.1840172 0 trc 54.50535 54.36068 54.69053 0.0875345 0 tgs 216.44117 216.10938 216.82813 0.2166733 0 roll 0.30815 -0.23621 0.72510 0.1837618 0 pitch 1.07498 0.93933 1.30188 0.0565500 0 delx 0.25730 0.00000 0.25738 0.0005761 0 lati 4.92015 4.78497 5.05509 0.0779059 0 loni 114.98213 114.79343 115.17108 0.1089550 0 latd 4.91750 4.78333 5.05167 0.0780253 0 lond 114.97941 114.79167 115.16833 0.1089642 0 balt 7932.54403 7929.37200 7934.85840 0.9801651 0 ralt 8367.88014 8254.28880 8399.67840 40.1278107 0 dpth 0.99296 0.90000 1.20000 0.0626897 0 droll 0.23404 -0.30000 0.60000 0.1836385 0 thd 54.23084 53.80000 54.60000 0.1842375 0 dad 0.46903 0.20000 0.80000 0.1405165 0 latg 4.92162 4.78635 5.05648 0.0779381 0 long 114.98389 114.79526 115.17265 0.1088506 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8401.98819 8391.67622 8415.08752 5.0621651 0 phh_aten 14.00000 14.00000 14.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 8.00000 8.00000 8.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 8.00000 8.00000 8.00000 0.0000000 0 lhv_aten 8.00000 8.00000 8.00000 0.0000000 0 lvh_aten 8.00000 8.00000 8.00000 0.0000000 0 lvv_aten 8.00000 8.00000 8.00000 0.0000000 0 chh_aten 18.00000 18.00000 18.00000 0.0000000 0 chv_aten 18.00000 18.00000 18.00000 0.0000000 0 cvh_aten 18.00000 18.00000 18.00000 0.0000000 0 cvv_aten 18.00000 18.00000 18.00000 0.0000000 0 hwlat 4.92214 4.78715 5.05674 0.0778089 0 hwlon 114.98490 114.79646 115.17338 0.1088269 0 hwalt 8445.91242 8444.20269 8448.69486 1.1078160 0 hwev 176.22516 175.91200 176.58900 0.1428136 0 hwnv 125.67537 125.01900 126.31000 0.3687409 0 hwuv -0.00038 -0.60000 0.54300 0.2001302 0 hwroll 0.30810 -0.23621 0.72510 0.1837604 0 hwpitch 1.07501 0.93933 1.29639 0.0565199 0 hwhdg 54.32408 53.90442 54.74487 0.1840186 0 hwtrc 54.50541 54.36126 54.69004 0.0875148 0 hwtgs 216.44091 216.10938 216.82813 0.2166641 0 Finished final analysis of data... Average Barometric Altitude = 7932.544026103589 Average Radar Altitude = 8367.880135124751 Average GPS Altitude = 8401.988194565911 >>Record # : 128 >>GPS Stuff = 1.80 6 9 1 24 2 >>Record # : 0 >>GPS Stuff = Lock vertical accel to gps(+1) or bar(-1) or IGI (0) ==> Enter a name for the peg data file. Positions and Distances Start position = 4.7871459 114.7964609 8446.470 End position = 5.0567396 115.1733808 8444.912 Loxodromic Heading (deg) = 54.5061343 Loxodromic Distance (km) = 51346.0499506 Geodesic Heading (deg) = 54.4901120 Geodesic Distance (km) = 51346.0480234 Peg latitude and longitude = 4.9221747 114.9847465 Peg heading = 54.5668334 Rotation matrix First row = -0.420819309 -0.717533451 0.555028698 Second row = 0.903077536 -0.389238723 0.181505319 Third row = 0.085802523 0.577614892 0.811787511 Translation vector Vector = -6021.83700 12922.85215 -2435.84204 Local Radius of Curvature = 6363984.385000405 Start and end pulse used = 109 199963 Ellipsoidal delta s (m) = 0.2569177901035996 Delta s on reference surface = 0.2569177986170678 Miscellaneous Information Start range = 9863.173249999998 Start ground range = 5221.184597742174 Time orgin = -97839530.28283624 Pulse spacing = 0.2572961952660497 First frame = 18822817 Thank you for your patronage If a POLTOP mode then...: .mocomp -> .mocomph & .mocompv .mocomph -> .mocomphU & .mocompvU .mocompv -> .mocomphL & .mocompvL Enter the name of the motion compensation file. /export/air36/airops/1400/ts1400_p.mocomp Name of the H-pol motion compensation file? /export/air36/airops/1400/ts1400_p.mocomph Name of the V-pol motion compensation file? /export/air36/airops/1400/ts1400_p.mocompv How many lines per polarization? 100000 + 1 + 10001 + 20001 + 30001 + 40001 + 50001 + 60001 + 70001 + 80001 + 90001 + 100001 + 110001 + 120001 + 130001 + 140001 + 150001 + 160001 + 170001 + 180001 + 190001 ********************************************* * * * AIRSAR INTEGRATED PROCESSOR * * * * CALTONE ESTIMATOR * * * * This program estimates the CALTONE amp- * * litude and phase and writes the result * * into the parameter header. * * * ********************************************* Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) PHH Enter the paramater file name. /export/air36/airops/1400/ts1400_p.par Enter the raw data file name. /export/air32/airops/1400/p_hh Enter the motion compensation file name. /export/air36/airops/1400/ts1400_p.mocomp Enter a file name for the range spectrum: /export/air36/airops/1400/db_p_hh.dat Enter a file name for the sampled caltone power: /export/air36/airops/1400/1st_p_hh.dat Enter histogram of the caltone power file name: /export/air36/airops/1400/pw_hist_p_hh.dat Enter histogram of the caltone phase file name: /export/air36/airops/1400/ph_hist_p_hh.dat Enter start range line #: 1 How many lines of raw data? 100000 How many lines to be processed? 100000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 1 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3756 5932 Prediction cal_bin 1057 start/end pulse: 1 99904 64-Loop Count: 1560 cmplx raw(1 2 3): (-10.02374,0.0000000E+00) (35.08311,0.0000000E+00) (-10.02374,0.0000000E+00) attenuation (dB): 14.00000 no_loop: 64 Pulse#/no_loop: 1 1057 9.5658160E+07 plot_x: 1561 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 79.90935 Power RMS: 0.1653595 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 9898.361 Amp. RMS: 212.7910 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -174.8167 Phase RMS: 5.799380 Incoherent PH 1st: 185.3230 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 80.21677 CalTone Power Coherently dB : 79.90935 Incoherent PW - Coherent PW : 0.3074188 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 10250.65 CalTone Amplitude Coherently : 9898.361 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 352.2910 ------------ *** ------------ running time (sec): 57.05 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) PHV Enter the paramater file name. /export/air36/airops/1400/ts1400_p.par Enter the raw data file name. /export/air32/airops/1400/p_hv Enter the motion compensation file name. /export/air36/airops/1400/ts1400_p.mocomp Enter a file name for the range spectrum: /export/air36/airops/1400/db_p_hv.dat Enter a file name for the sampled caltone power: /export/air36/airops/1400/1st_p_hv.dat Enter histogram of the caltone power file name: /export/air36/airops/1400/pw_hist_p_hv.dat Enter histogram of the caltone phase file name: /export/air36/airops/1400/ph_hist_p_hv.dat Enter start range line #: 1 How many lines of raw data? 100000 How many lines to be processed? 100000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 2 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3756 5932 Prediction cal_bin 1057 start/end pulse: 1 99904 64-Loop Count: 1560 cmplx raw(1 2 3): (52.74961,0.0000000E+00) (-80.38036,0.0000000E+00) (-45.21395,0.0000000E+00) attenuation (dB): 8.000000 no_loop: 64 Pulse#/no_loop: 1 1057 3.4699514E+08 plot_x: 1561 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 85.35898 Power RMS: 0.1189965 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 18535.25 Amp. RMS: 287.3326 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 61.68927 Phase RMS: 5.790027 Incoherent PH 1st: 61.80263 max_bin with Incoherent averaging: 1965 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 91.60779 CalTone Power Coherently dB : 85.35898 WARNING!!! CalTone freq is drifting!!! Using Incoherently pw ph ph_sd: 91.60779 61.80263 16.18983 Incoherent PW - Coherent PW : 6.248810 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 19204.59 CalTone Amplitude Coherently : 18535.25 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 669.3457 ------------ *** ------------ running time (sec): 51.00 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) PVH Enter the paramater file name. /export/air36/airops/1400/ts1400_p.par Enter the raw data file name. /export/air32/airops/1400/p_vh Enter the motion compensation file name. /export/air36/airops/1400/ts1400_p.mocomp Enter a file name for the range spectrum: /export/air36/airops/1400/db_p_vh.dat Enter a file name for the sampled caltone power: /export/air36/airops/1400/1st_p_vh.dat Enter histogram of the caltone power file name: /export/air36/airops/1400/pw_hist_p_vh.dat Enter histogram of the caltone phase file name: /export/air36/airops/1400/ph_hist_p_vh.dat Enter start range line #: 1 How many lines of raw data? 100000 How many lines to be processed? 100000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 3 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3756 5932 Prediction cal_bin 1057 start/end pulse: 1 99904 64-Loop Count: 1560 cmplx raw(1 2 3): (5.023773,0.0000000E+00) (0.0000000E+00,0.0000000E+00) (-15.07132,0.0000000E+00) attenuation (dB): 8.000000 no_loop: 64 Pulse#/no_loop: 1 1057 9.8889504E+07 plot_x: 1561 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 79.96500 Power RMS: 7.9672180E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 9960.702 Amp. RMS: 139.4561 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -175.5450 Phase RMS: 5.797022 Incoherent PH 1st: -175.9487 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 80.27005 CalTone Power Coherently dB : 79.96500 Incoherent PW - Coherent PW : 0.3050461 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 10327.69 CalTone Amplitude Coherently : 9960.702 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 366.9863 ------------ *** ------------ running time (sec): 51.98 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) PVV Enter the paramater file name. /export/air36/airops/1400/ts1400_p.par Enter the raw data file name. /export/air32/airops/1400/p_vv Enter the motion compensation file name. /export/air36/airops/1400/ts1400_p.mocomp Enter a file name for the range spectrum: /export/air36/airops/1400/db_p_vv.dat Enter a file name for the sampled caltone power: /export/air36/airops/1400/1st_p_vv.dat Enter histogram of the caltone power file name: /export/air36/airops/1400/pw_hist_p_vv.dat Enter histogram of the caltone phase file name: /export/air36/airops/1400/ph_hist_p_vv.dat Enter start range line #: 1 How many lines of raw data? 100000 How many lines to be processed? 100000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 4 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3756 5932 Prediction cal_bin 1057 start/end pulse: 1 99904 64-Loop Count: 1560 cmplx raw(1 2 3): (-80.18996,0.0000000E+00) (0.0000000E+00,0.0000000E+00) (-70.16621,0.0000000E+00) attenuation (dB): 14.00000 no_loop: 64 Pulse#/no_loop: 1 1057 3.7481674E+08 plot_x: 1561 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 85.74935 Power RMS: 5.8463398E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 19387.25 Amp. RMS: 301.9404 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 62.31248 Phase RMS: 5.919009 Incoherent PH 1st: 61.95293 max_bin with Incoherent averaging: 1965 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 92.00930 CalTone Power Coherently dB : 85.74935 WARNING!!! CalTone freq is drifting!!! Using Incoherently pw ph ph_sd: 92.00930 61.95293 16.08243 Incoherent PW - Coherent PW : 6.259949 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 20086.01 CalTone Amplitude Coherently : 19387.25 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 698.7598 ------------ *** ------------ running time (sec): 51.95 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 0 *************************************************** * * * AIRSAR INTEGRATED PROCESSOR * * * * Global Line Generator * * * * This program generates the global line to use * * in the single-look processors to resample the * * data. * * * *************************************************** Please enter the name of the sensor file. 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 Enter the name of the parameter file. Please enter the name of the mocomp file. Reading motion compensation data Global reference line calculation results: y fit: constant and linear terms: -50.72684 5.7262270E-04 z fit: constant and linear terms: 0.3981186 -2.1510899E-05 y and z standard deviations (meters) 2.506191 0.6138655 Enter the name of the global line file. Enter the name of the motion compensation file. Enter the number of lines in the mocomp file & first one. Enter the patch size and the max reference fnc length. Enter the maximum Doppler error. Enter the doppler file name. Enter the wavelength and nominal azimuth pixel spacing Initial guess at number of patches = 27.29095 Step size = 3492 PATCH NUMER 1 First line = 1 Averages = 1.8845018E-02 1.7022528E-02 1.6820293E-02 1.6380571E-02 Differences = 1.5779119E-03 -2.4457835E-04 -4.4681318E-04 -8.8653527E-04 PATCH NUMER 2 First line = 3493 Averages = 1.6761744E-02 1.6783398E-02 1.6448954E-02 1.7209454E-02 Differences = -3.9143488E-05 -1.7490238E-05 -3.5193376E-04 4.0856563E-04 PATCH NUMER 3 First line = 6985 Averages = 1.6192906E-02 1.6996693E-02 1.7155590E-02 1.7570158E-02 Differences = -7.8593381E-04 1.7853454E-05 1.7675012E-04 5.9131905E-04 PATCH NUMER 4 First line = 10477 Averages = 1.7395703E-02 1.7810371E-02 1.8119259E-02 1.7668871E-02 Differences = -3.5283901E-04 6.1828643E-05 3.7071668E-04 -7.9670921E-05 PATCH NUMER 5 First line = 13969 Averages = 1.7669240E-02 1.7842671E-02 1.7566631E-02 1.6539387E-02 Differences = 2.6476569E-04 4.3819658E-04 1.6215630E-04 -8.6508691E-04 PATCH NUMER 6 First line = 17461 Averages = 1.7740242E-02 1.6802490E-02 1.4842442E-02 1.4620929E-02 Differences = 1.7387010E-03 8.0094859E-04 -1.1590989E-03 -1.3806121E-03 PATCH NUMER 7 First line = 20953 Averages = 1.5582223E-02 1.4491310E-02 1.5559209E-02 1.7222961E-02 Differences = -1.3171043E-04 -1.2226235E-03 -1.5472528E-04 1.5090276E-03 PATCH NUMER 8 First line = 24445 Averages = 1.5092564E-02 1.6720340E-02 1.7310360E-02 1.7404888E-02 Differences = -1.5394790E-03 8.8296831E-05 6.7831762E-04 7.7284500E-04 PATCH NUMER 9 First line = 27937 Averages = 1.7240494E-02 1.7132591E-02 1.7484276E-02 1.7241875E-02 Differences = -3.4306198E-05 -1.4220923E-04 2.0947494E-04 -3.2925978E-05 PATCH NUMER 10 First line = 31429 Averages = 1.7693439E-02 1.7133042E-02 1.6764775E-02 1.8410299E-02 Differences = 1.9305386E-04 -3.6734343E-04 -7.3561072E-04 9.0991333E-04 PATCH NUMER 11 First line = 34921 Averages = 1.6827688E-02 1.8101959E-02 1.8103091E-02 2.0106675E-02 Differences = -1.4571827E-03 -1.8291175E-04 -1.8177927E-04 1.8218048E-03 PATCH NUMER 12 First line = 38413 Averages = 1.8253643E-02 2.0061206E-02 1.8390724E-02 1.9592816E-02 Differences = -8.2095340E-04 9.8660961E-04 -6.8387203E-04 5.1821955E-04 PATCH NUMER 13 First line = 41905 Averages = 1.8936196E-02 1.9443203E-02 1.9786587E-02 2.0041918E-02 Differences = -6.1577559E-04 -1.0876916E-04 2.3461506E-04 4.8994645E-04 PATCH NUMER 14 First line = 45397 Averages = 1.9564843E-02 2.0013638E-02 2.1090928E-02 2.2261368E-02 Differences = -1.1678655E-03 -7.1907043E-04 3.5822019E-04 1.5286598E-03 PATCH NUMER 15 First line = 48889 Averages = 2.0336406E-02 2.1915471E-02 2.2125240E-02 1.9171173E-02 Differences = -5.5068545E-04 1.0283794E-03 1.2381487E-03 -1.7159190E-03 PATCH NUMER 16 First line = 52381 Averages = 2.2415243E-02 1.9222282E-02 1.9757498E-02 1.9905912E-02 Differences = 2.0900257E-03 -1.1029355E-03 -5.6771934E-04 -4.1930564E-04 PATCH NUMER 17 First line = 55873 Averages = 1.9789178E-02 1.9609969E-02 2.0643830E-02 2.2627750E-02 Differences = -8.7851658E-04 -1.0577254E-03 -2.3864210E-05 1.9600559E-03 PATCH NUMER 18 First line = 59365 Averages = 2.0143481E-02 2.2012597E-02 2.4801934E-02 2.3708954E-02 Differences = -2.5232844E-03 -6.5416843E-04 2.1351688E-03 1.0421891E-03 PATCH NUMER 19 First line = 62857 Averages = 2.4050597E-02 2.4035422E-02 2.1942994E-02 1.9440759E-02 Differences = 1.6831234E-03 1.6679484E-03 -4.2448007E-04 -2.9267147E-03 PATCH NUMER 20 First line = 66349 Averages = 2.2866635E-02 1.9635884E-02 1.9568905E-02 2.2384163E-02 Differences = 1.7527118E-03 -1.4780387E-03 -1.5450176E-03 1.2702402E-03 PATCH NUMER 21 First line = 69841 Averages = 1.8936429E-02 2.1822136E-02 2.3791555E-02 2.5695743E-02 Differences = -3.6251005E-03 -7.3939376E-04 1.2300257E-03 3.1342134E-03 PATCH NUMER 22 First line = 73333 Averages = 2.3048524E-02 2.5458921E-02 2.5428547E-02 2.3617875E-02 Differences = -1.3399329E-03 1.0704640E-03 1.0400899E-03 -7.7058189E-04 PATCH NUMER 23 First line = 76825 Averages = 2.5381735E-02 2.4078975E-02 2.2831917E-02 2.0535227E-02 Differences = 2.1747295E-03 8.7196939E-04 -3.7508830E-04 -2.6717782E-03 PATCH NUMER 24 First line = 80317 Averages = 2.3069825E-02 2.1728132E-02 1.8748891E-02 2.0219810E-02 Differences = 2.1281485E-03 7.8645535E-04 -2.1927860E-03 -7.2186626E-04 PATCH NUMER 25 First line = 83809 Averages = 1.9222451E-02 1.9549508E-02 2.1054411E-02 2.2608317E-02 Differences = -1.3862420E-03 -1.0591857E-03 4.4571795E-04 1.9996241E-03 PATCH NUMER 26 First line = 87301 Averages = 2.0786194E-02 2.2478327E-02 2.2937536E-02 2.2706812E-02 Differences = -1.4410242E-03 2.5110878E-04 7.1031787E-04 4.7959387E-04 PATCH NUMER 27 First line = 90793 Averages = 2.2722665E-02 2.2635460E-02 2.2664709E-02 2.2931278E-02 Differences = -1.5836209E-05 -1.0304153E-04 -7.3792413E-05 1.9277632E-04 PATCH NUMER 28 First line = 94285 last black mod_64: 44 100000 94285 8192 Averages = 2.2686917E-02 2.3161191E-02 2.2964502E-02 2.2931278E-02 Differences = -2.4903566E-04 2.2523850E-04 2.8548762E-05 -4.6752393E-06 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.35 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 1 AZ patch size: 8192 What is the desired az fract (def=1.0)? fract #: 1.000000 Please enter the name of the sensor file. /export/air32/airops/1400/sensor.pp Please enter the name of the parameter file /export/air36/airops/1400/ts1400_p.par hddt: 96068 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 100000 lines Keeping 4192 data points per patch Near range (m) = 9040.540 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 3.500000 Radar wavelength (m) = 0.7012700 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = -1.450000 Range weighting coefficient = 0.1000000 Map height (m) = 78.60000 Transmit leverarm x,y,z = 2.030000 0.5300000 -0.2200000 Receive leverarm x,y,z = 2.030000 0.5300000 -0.2200000 Name of raw data file? /export/air32/airops/1400/p_hh Name of the mocomp data file? /export/air36/airops/1400/ts1400_p.mocomph Output file name w/o ext? /export/air36/airops/1400/ts1400_p Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. hh Raw DIR Path:/export/air32/airops/1400/ output filename: /export/air32/airops/1400/ts1400_p.hh_j *** ipol itop: 1 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /export/air32/airops/1400/deskew.ph WAYNE init fft, calc slant range, load unpack, interpo 1.4564998E-02 reading motion compensation data WAYNE read motion compen 2.291102 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 AnalogChirp>96032Br,fs,T,fc 96068 40.00000 22.50000 90.00000 10.00000 deltaphase -ashift: 2.2242721E-03 1.450000 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.7468221 start range comp, time = 3.192 WAYNE PREV 3.070651 NUMBER OF PROCESSOR USED = 8 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 4 by # 0 Processing block number 1 TESTING WHY -6.4741098E-03 1.8001201E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 3.422 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 53.13399600982666 ATTN ifrq ipol ln 0 1 8192 14.00000 IPOL, ITOP nblock 1 0 1 ****shift in azimuth (fractional pixel)= -0.4999149 shift in azimuth *fractional pixel= -0.4999149 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1636972427368164E-02 TESTING 0.0000000E+00 -47.83564 0.2210198 WAYNE Motion comp. added to patch, time = 19.01612699031830 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.7029514312744141E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -47.83564 0.2210198 HEY,dt,fract,ye,pe -0.4999149 1.000000 -6.4741098E-03 1.8001201E-02 WAYNE Azimuth compression done, time = 346.1110669374466 Writing 4192 lines of data to file WAYNE write output data 5.281334042549133 ==w out 1 0 2001 0 WAYNE PROCESS 423.5583740472794 Processing block number 2 TESTING WHY -6.4040902E-03 1.7581699E-02 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 426.982 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 92.00664591789246 ATTN ifrq ipol ln 0 1 11684 14.00000 IPOL, ITOP nblock 1 0 2 ****shift in azimuth (fractional pixel)= -0.4999168 shift in azimuth *fractional pixel= -0.4999168 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1779069900512695E-02 TESTING 0.0000000E+00 -42.32105 0.4159131 WAYNE Motion comp. added to patch, time = 17.81496000289917 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.5877952575683594E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -42.32105 0.4159131 HEY,dt,fract,ye,pe -0.4999168 1.000000 -6.4040902E-03 1.7581699E-02 WAYNE Azimuth compression done, time = 344.4989860057831 Writing 4192 lines of data to file WAYNE write output data 7.360728979110718 ==w out 2 4192 2001 85852160 WAYNE PROCESS 461.7205599546432 Processing block number 3 TESTING WHY -5.7757902E-03 1.7326901E-02 3492 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 888.702 seconds. TESTING 6985 before reading done reading WAYNE load raw data , time = 93.11931395530701 ATTN ifrq ipol ln 0 1 15176 14.00000 IPOL, ITOP nblock 1 0 3 ****shift in azimuth (fractional pixel)= -0.4999217 shift in azimuth *fractional pixel= -0.4999217 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1765003204345703E-02 TESTING 0.0000000E+00 -37.07621 0.3171375 WAYNE Motion comp. added to patch, time = 19.15574002265930 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.2473931312561035E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 ra PROCESSING KID# 5 ..... WAYNE IS IN Processing 17 to 19 by # 4 Processing block number 17 WAYNE PATCHES: 55873 64064 patch# 17 reference line: 59968 3.486 seconds. before reading done reading WAYNE load raw data , time = 55.66067898273468 ATTN ifrq ipol ln 0 1 64064 14.00000 IPOL, ITOP nblock 1 0 17 ****shift in azimuth (fractional pixel)= -0.4999279 shift in azimuth *fractional pixel= -0.4999279 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1855006217956543E-02 WAYNE Motion comp. added to patch, time = 18.85675501823425 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.8340816497802734E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.5576800107956 Writing 4192 lines of data to file WAYNE write output data 26.12798106670380 ==w out 17 0 2001 0 WAYNE PROCESS 446.2196450233459 Processing block number 18 WAYNE PATCHES: 59365 67556 patch# 18 reference line: 63460 449.707 seconds. before reading done reading WAYNE load raw data , time = 72.89585196971893 ATTN ifrq ipol ln 0 1 67556 14.00000 IPOL, ITOP nblock 1 0 18 ****shift in azimuth (fractional pixel)= -0.4999095 shift in azimuth *fractional pixel= -0.4999095 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1582970619201660E-02 WAYNE Motion comp. added to patch, time = 18.08503806591034 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 7.2699785232543945E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 343.5644109249115 Writing 4192 lines of data to file WAYNE write output data 9.128175973892212 ==w out 18 4192 2001 85852160 WAYNE PROCESS 443.6937370300293 Processing block number 19 WAYNE PATCHES: 62857 71048 patch# 19 reference line: 66952 893.401 seconds. before reading done reading WAYNE load raw data , time = 82.55522298812866 ATTN ifrq ipol ln 0 1 71048 14.00000 IPOL, ITOP nblock 1 0 19 ****shift in azimuth (fractional pixel)= -0.4999111 shift in azimuth *fractional pixel= -0.4999111 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1591911315917969E-02 WAYNE Motion comp. added to patch, time = 18.55873906612396 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 3.1455039978027344E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 341.8710960149765 Writing 4192 lines of data to file WAYNE write output data 8.185714960098267 ==w out 19 8384 2001 171704320 WAYNE PROCESS 451.2153149843216 ==w out 20 12579 PROCESSING KID# 8 ..... WAYNE IS IN Processing 26 to 28 by # 7 Processing block number 26 WAYNE PATCHES: 87301 95492 patch# 26 reference line: 91396 3.599 seconds. before reading done reading WAYNE load raw data , time = 55.18526494503021 ATTN ifrq ipol ln 0 1 95492 14.00000 IPOL, ITOP nblock 1 0 26 ****shift in azimuth (fractional pixel)= -0.4999087 shift in azimuth *fractional pixel= -0.4999087 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1737108230590820E-02 WAYNE Motion comp. added to patch, time = 18.01767802238464 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.7890205383300781E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 344.9337090253830 Writing 4192 lines of data to file WAYNE write output data 6.373018026351929 ==w out 26 0 2001 0 WAYNE PROCESS 424.5258780717850 Processing block number 27 WAYNE PATCHES: 90793 98984 patch# 27 reference line: 94888 428.125 seconds. before reading done reading WAYNE load raw data , time = 92.89584398269653 ATTN ifrq ipol ln 0 1 98984 14.00000 IPOL, ITOP nblock 1 0 27 ****shift in azimuth (fractional pixel)= -0.4999004 shift in azimuth *fractional pixel= -0.4999004 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1774063110351563E-02 WAYNE Motion comp. added to patch, time = 17.11022901535034 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 6.6311001777648926E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 343.9794039726257 Writing 4192 lines of data to file WAYNE write output data 8.522907972335815 ==w out 27 4192 2001 85852160 WAYNE PROCESS 462.5878700017929 Processing block number 28 WAYNE PATCHES: 91808 99999 patch# 28 reference line: 95903 890.714 seconds. before reading done reading WAYNE load raw data , time = 103.8906489610672 ATTN ifrq ipol ln 0 1 99999 14.00000 IPOL, ITOP nblock 1 0 28 ****shift in azimuth (fractional pixel)= -0.4999058 shift in azimuth *fractional pixel= -0.4999058 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1988997459411621E-02 WAYNE Motion comp. added to patch, time = 17.23252403736115 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 0.1026359796524048 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 340.8028699159622 Writing 4192 lines of data to file WAYNE write output data 3.801604986190796 ==w out 28 8384 2001 171704320 WAYNE PROCESS 465.8438519239426 ==w out 29 12579 PROCESSING KID# 7 ..... WAYNE IS IN Processing 23 to 25 by # 6 Processing block number 23 WAYNE PATCHES: 76825 85016 patch# 23 reference line: 80920 3.512 seconds. before reading done reading WAYNE load raw data , time = 52.31834495067596 ATTN ifrq ipol ln 0 1 85016 14.00000 IPOL, ITOP nblock 1 0 23 ****shift in azimuth (fractional pixel)= -0.4998994 shift in azimuth *fractional pixel= -0.4998994 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1838078498840332E-02 WAYNE Motion comp. added to patch, time = 18.60522401332855 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.6510953903198242E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.7747849225998 Writing 4192 lines of data to file WAYNE write output data 2.131401062011719 ==w out 23 0 2001 0 WAYNE PROCESS 418.8456699848175 Processing block number 24 WAYNE PATCHES: 80317 88508 patch# 24 reference line: 84412 422.358 seconds. before reading done reading WAYNE load raw data , time = 101.3618270158768 ATTN ifrq ipol ln 0 1 88508 14.00000 IPOL, ITOP nblock 1 0 24 ****shift in azimuth (fractional pixel)= -0.4999158 shift in azimuth *fractional pixel= -0.4999158 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1793971061706543E-02 WAYNE Motion comp. added to patch, time = 17.86781597137451 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 3.1677961349487305E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 343.0975389480591 Writing 4192 lines of data to file WAYNE write output data 7.526749014854431 ==w out 24 4192 2001 85852160 WAYNE PROCESS 469.8992400169373 Processing block number 25 WAYNE PATCHES: 83809 92000 patch# 25 reference line: 87904 892.258 seconds. before reading done reading WAYNE load raw data , time = 98.47501802444458 ATTN ifrq ipol ln 0 1 92000 14.00000 IPOL, ITOP nblock 1 0 25 ****shift in azimuth (fractional pixel)= -0.4999176 shift in azimuth *fractional pixel= -0.4999176 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.4423966407775879E-02 WAYNE Motion comp. added to patch, time = 17.26695108413696 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 0.1201579570770264 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 340.5059390068054 Writing 4192 lines of data to file WAYNE write output data 11.99966502189636 ==w out 25 8384 2001 171704320 WAYNE PROCESS 468.3840539455414 ==w out 26 12579 PROCESSING KID# 6 ..... WAYNE IS IN Processing 20 to 22 by # 5 Processing block number 20 WAYNE PATCHES: 66349 74540 patch# 20 reference line: 70444 3.502 seconds. before reading done reading WAYNE load raw data , time = 54.96624004840851 ATTN ifrq ipol ln 0 1 74540 14.00000 IPOL, ITOP nblock 1 0 20 ****shift in azimuth (fractional pixel)= -0.4999311 shift in azimuth *fractional pixel= -0.4999311 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1717915534973145E-02 WAYNE Motion comp. added to patch, time = 18.49823701381683 WAYNE Doppler estimation done, time = 8.1062316894531250E-06 WAYNE write deskew done, time = 2.6899576187133789E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.0468879938126 Writing 4192 lines of data to file WAYNE write output data 5.386319994926453 ==w out 20 0 2001 0 WAYNE PROCESS 423.9140919446945 Processing block number 21 WAYNE PATCHES: 69841 78032 patch# 21 reference line: 73936 427.417 seconds. before reading done reading WAYNE load raw data , time = 92.66141998767853 ATTN ifrq ipol ln 0 1 78032 14.00000 IPOL, ITOP nblock 1 0 21 ****shift in azimuth (fractional pixel)= -0.4999140 shift in azimuth *fractional pixel= -0.4999140 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1556982994079590E-02 WAYNE Motion comp. added to patch, time = 17.41396296024323 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 4.9548029899597168E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 343.9162490367889 Writing 4192 lines of data to file WAYNE write output data 7.201299071311951 ==w out 21 4192 2001 85852160 WAYNE PROCESS 461.2557899951935 Processing block number 22 WAYNE PATCHES: 73333 81524 patch# 22 reference line: 77428 888.673 seconds. before reading done reading WAYNE load raw data , time = 104.0715808868408 ATTN ifrq ipol ln 0 1 81524 14.00000 IPOL, ITOP nblock 1 0 22 ****shift in azimuth (fractional pixel)= -0.4999022 shift in azimuth *fractional pixel= -0.4999022 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1530995368957520E-02 WAYNE Motion comp. added to patch, time = 17.63268101215363 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 9.5440030097961426E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 340.2984730005264 Writing 4192 lines of data to file WAYNE write output data 11.42377996444702 ==w out 22 8384 2001 171704320 WAYNE PROCESS 473.5354499816895 ==w out 23 12579 PROCESSING KID# 3 ..... WAYNE IS IN Processing 9 to 12 by # 2 Processing block number 9 WAYNE PATCHES: 27937 36128 patch# 9 reference line: 32032 3.457 seconds. before reading done reading WAYNE load raw data , time = 53.13412106037140 ATTN ifrq ipol ln 0 1 36128 14.00000 IPOL, ITOP nblock 1 0 9 ****shift in azimuth (fractional pixel)= -0.4998933 shift in azimuth *fractional pixel= -0.4998933 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1593937873840332E-02 WAYNE Motion comp. added to patch, time = 19.29885101318359 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 2.5479793548583984E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.4342830181122 Writing 4192 lines of data to file WAYNE write output data 23.14687097072601 ==w out 9 0 2001 0 WAYNE PROCESS 442.0300009250641 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 445.498 seconds. before reading done reading WAYNE load raw data , time = 81.51375091075897 ATTN ifrq ipol ln 0 1 39620 14.00000 IPOL, ITOP nblock 1 0 10 ****shift in azimuth (fractional pixel)= -0.4999059 shift in azimuth *fractional pixel= -0.4999059 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1869072914123535E-02 WAYNE Motion comp. added to patch, time = 18.14804399013519 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 1.5941023826599121E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 343.1856930255890 Writing 4192 lines of data to file WAYNE write output data 23.61576306819916 ==w out 10 4192 2001 85852160 WAYNE PROCESS 466.4929060935974 Processing block number 11 WAYNE PATCHES: 34921 43112 patch# 11 reference line: 39016 912.013 seconds. before reading done reading WAYNE load raw data , time = 62.63226604461670 ATTN ifrq ipol ln 0 1 43112 14.00000 IPOL, ITOP nblock 1 0 11 ****shift in azimuth (fractional pixel)= -0.4999126 shift in azimuth *fractional pixel= -0.4999126 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1806011199951172E-02 WAYNE Motion comp. added to patch, time = 18.74017202854156 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 3.6657929420471191E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 342.6218210458755 Writing 4192 lines of data to file WAYNE write output data 1.903352975845337 ==w out 11 8384 2001 171704320 WAYNE PROCESS 425.9475419521332 Processing block number 12 WAYNE PATCHES: 38413 46604 patch# 12 reference line: 42508 1337.961 seconds. before reading done reading WAYNE load raw data , time = 89.02180409431458 ATTN ifrq ipol ln 0 1 46604 14.00000 IPOL, ITOP nblock 1 PROCESSING KID# 4 ..... WAYNE IS IN Processing 13 to 16 by # 3 Processing block number 13 WAYNE PATCHES: 41905 50096 patch# 13 reference line: 46000 3.469 seconds. before reading done reading WAYNE load raw data , time = 53.52173495292664 ATTN ifrq ipol ln 0 1 50096 14.00000 IPOL, ITOP nblock 1 0 13 ****shift in azimuth (fractional pixel)= -0.4999056 shift in azimuth *fractional pixel= -0.4999056 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2488007545471191E-02 WAYNE Motion comp. added to patch, time = 18.35782098770142 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.8089284896850586E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.1157619953156 Writing 4192 lines of data to file WAYNE write output data 4.217684984207153 ==w out 13 0 2001 0 WAYNE PROCESS 422.2299250364304 Processing block number 14 WAYNE PATCHES: 45397 53588 patch# 14 reference line: 49492 425.699 seconds. before reading done reading WAYNE load raw data , time = 94.90594005584717 ATTN ifrq ipol ln 0 1 53588 14.00000 IPOL, ITOP nblock 1 0 14 ****shift in azimuth (fractional pixel)= -0.4998997 shift in azimuth *fractional pixel= -0.4998997 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1776924133300781E-02 WAYNE Motion comp. added to patch, time = 17.63239896297455 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.1489977836608887E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 344.3567360639572 Writing 4192 lines of data to file WAYNE write output data 11.44478404521942 ==w out 14 4192 2001 85852160 WAYNE PROCESS 468.3747359514236 Processing block number 15 WAYNE PATCHES: 48889 57080 patch# 15 reference line: 52984 894.074 seconds. before reading done reading WAYNE load raw data , time = 79.77362000942230 ATTN ifrq ipol ln 0 1 57080 14.00000 IPOL, ITOP nblock 1 0 15 ****shift in azimuth (fractional pixel)= -0.4999059 shift in azimuth *fractional pixel= -0.4999059 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1690020561218262E-02 WAYNE Motion comp. added to patch, time = 18.82548594474792 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.9017925262451172E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 341.9562159776688 Writing 4192 lines of data to file WAYNE write output data 1.813764929771423 ==w out 15 8384 2001 171704320 WAYNE PROCESS 442.4115579128265 Processing block number 16 WAYNE PATCHES: 52381 60572 patch# 16 reference line: 56476 1336.486 seconds. before reading done reading WAYNE load raw data , time = 90.50251495838165 ATTN ifrq ipol ln 0 1 60572 14.00000 IPOL, ITOP nblock 1 PROCESSING KID# 2 ..... WAYNE IS IN Processing 5 to 8 by # 1 Processing block number 5 WAYNE PATCHES: 13969 22160 patch# 5 reference line: 18064 3.438 seconds. before reading done reading WAYNE load raw data , time = 52.99753308296204 ATTN ifrq ipol ln 0 1 22160 14.00000 IPOL, ITOP nblock 1 0 5 ****shift in azimuth (fractional pixel)= -0.4999060 shift in azimuth *fractional pixel= -0.4999060 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1752963066101074E-02 WAYNE Motion comp. added to patch, time = 18.68623399734497 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.6819705963134766E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.1455550193787 Writing 4192 lines of data to file WAYNE write output data 5.833258986473083 ==w out 5 0 2001 0 WAYNE PROCESS 423.6786329746246 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 427.117 seconds. before reading done reading WAYNE load raw data , time = 91.87738800048828 ATTN ifrq ipol ln 0 1 25652 14.00000 IPOL, ITOP nblock 1 0 6 ****shift in azimuth (fractional pixel)= -0.4998952 shift in azimuth *fractional pixel= -0.4998952 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1685013771057129E-02 WAYNE Motion comp. added to patch, time = 18.02706503868103 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 7.6782107353210449E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 342.9088490009308 Writing 4192 lines of data to file WAYNE write output data 1.887524008750916 ==w out 6 4192 2001 85852160 WAYNE PROCESS 454.7911950349808 Processing block number 7 WAYNE PATCHES: 20953 29144 patch# 7 reference line: 25048 881.908 seconds. before reading done reading WAYNE load raw data , time = 110.4596760272980 ATTN ifrq ipol ln 0 1 29144 14.00000 IPOL, ITOP nblock 1 0 7 ****shift in azimuth (fractional pixel)= -0.4998947 shift in azimuth *fractional pixel= -0.4998947 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1534929275512695E-02 WAYNE Motion comp. added to patch, time = 18.89146399497986 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 8.4319949150085449E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 340.2070939540863 Writing 4192 lines of data to file WAYNE write output data 1.829649925231934 ==w out 7 8384 2001 171704320 WAYNE PROCESS 471.4856699705124 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 1353.394 seconds. before reading done reading WAYNE load raw data , time = 74.82824194431305 ATTN ifrq ipol ln 0 1 32636 14.00000 IPOL, ITOP nblock 1 0 8 ****shift in azimuth (fractional pixel)= -0.4998949 shift in azimuth *fractional pixel= -0.4998949 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1427998542785645E-02 WAYNE Motion comp. added to patch, time = 16.11893296241760 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.1405100822448730E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 269.5086749792099 Writing 4192 lines of data to file WAYNE write output data 1.804986953735352 ==w out 8 12576 2001 257556480 WAYNE PROCESS 362.2951349020004 ==w out 9 16771 0 16 ****shift in azimuth (fractional pixel)= -0.4999078 shift in azimuth *fractional pixel= -0.4999078 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1446952819824219E-02 WAYNE Motion comp. added to patch, time = 15.88001608848572 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.9758930206298828E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 271.2090029716492 Writing 4192 lines of data to file WAYNE write output data 1.824481964111328 ==w out 16 12576 2001 257556480 WAYNE PROCESS 379.4585769176483 ==w out 17 16771 0 12 ****shift in azimuth (fractional pixel)= -0.4999159 shift in azimuth *fractional pixel= -0.4999159 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1466979980468750E-02 WAYNE Motion comp. added to patch, time = 15.47781693935394 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.7462959289550781E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 272.3581119775772 Writing 4192 lines of data to file WAYNE write output data 1.839885950088501 ==w out 12 12576 2001 257556480 WAYNE PROCESS 378.7377499341965 ==w out 13 16771 nge migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -37.07621 0.3171375 HEY,dt,fract,ye,pe -0.4999217 1.000000 -5.7757902E-03 1.7326901E-02 WAYNE Azimuth compression done, time = 342.1524070501328 Writing 4192 lines of data to file WAYNE write output data 1.728744029998779 ==w out 3 8384 2001 171704320 WAYNE PROCESS 456.1921010017395 Processing block number 4 TESTING WHY -5.3123902E-03 1.7652800E-02 3492 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 1344.895 seconds. TESTING 10477 before reading done reading WAYNE load raw data , time = 82.53603398799896 ATTN ifrq ipol ln 0 1 18668 14.00000 IPOL, ITOP nblock 1 0 4 ****shift in azimuth (fractional pixel)= -0.4999198 shift in azimuth *fractional pixel= -0.4999198 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1116027832031250E-02 TESTING 0.0000000E+00 -32.53431 -0.3229209 WAYNE Motion comp. added to patch, time = 16.05507493019104 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.2269964218139648E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -32.53431 -0.3229209 HEY,dt,fract,ye,pe -0.4999198 1.000000 -5.3123902E-03 1.7652800E-02 WAYNE Azimuth compression done, time = 271.6415690183640 Writing 4192 lines of data to file WAYNE write output data 1.804139971733093 ==w out 4 12576 2001 257556480 WAYNE PROCESS 372.0715739727020 ==w out 5 16771 1 8055864 0 2 8056245 0 3 8055125 0 4 8053917 0 5 8056457 0 6 8055835 0 7 8055743 0 8 8054013 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 117376kids= 8 Writing variable header... gather image from processor # 0 4 gather image from processor # 1 4 gather image from processor # 2 4 gather image from processor # 3 4 gather image from processor # 4 3 gather image from processor # 5 3 gather image from processor # 6 3 gather image from processor # 7 3 WAYNE gather images takes: 20.97227096557617 WAYNE LOOP TIME: 1744.298650026321 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air32/airops/1400/ts1400_p.hh_j /export/air36/airops/1400/ts1400_p.mocomph /export/air36/airops/1400/ts1400_p.dop /export/air36/airops/1400/ts1400_p.glb 2560 117376 update intf hdr ha: 8367.900 UPDATE: 2560 117376 3.331000 0.5144000 mocompfile /export/air36/airops/1400/ts1400_p.mocomph dopfile /export/air36/airops/1400/ts1400_p.dop globalfile /export/air36/airops/1400/ts1400_p.glb /export/air36/airops/1400/ts1400_p.glb 38 deskew line ra ha trc: 128.5260 249 9042.366 8367.900 54.57177 after deskew line ra ha trc: 128.5260 249 9042.366 8367.900 54.57177 lat1 lon1: 249 4.813068 114.7795 117376 last ra n_ns ns: 9042.366 1 1 117624 117376 lati loni: 117624 5.129428 115.2615 117624 1 center ra n_ns ns: 13302.71 1280 1280 58936 117376 lati loni: 58936 5.002770 114.9983 58936 2560 Updated paramater header in /export/air32/airops/1400/ts1400_p.hh_j WAYNE FINAL PROCESS 1747.588128924370 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 8 16768 4 16768 4 16768 4 16768 4 12576 3 12576 3 12576 3 12576 3 Name of data file to be deskewed? /export/air32/airops/1400/ts1400_p.hh_j Name of the doppler parameter file? /export/air36/airops/1400/ts1400_p.dop Name of the deskew file? /export/air32/airops/1400/deskew.ph Line up to another frequency [y/n]? y Name of the deskew file to line up to? /export/air32/airops/1400/deskew.ch Enter N_AZ, NA_VALID and the ratio of the pixel spacing of the file to line up to relative to the current pixel spacing. 4096 2208 1.000000 Name of the output file? /export/air36/airops/1400/ts1400_p.hh Name of the line output file? /export/air36/airops/1400/p_lines.dat NONE-SYMMETRIC PARALLEL JOBS Deskewing 28 patches Processing block number 1 patch iptc,sj,dgj,dgi,id: 1 1041 98 98 0 half line dmj dgc: 0 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1041 1 Zeroing lines in arrays Total # of output lines = 1 1040 1041 3137 0 2096 patch iptc,sj,dgj,dgi,id: 1 3137 98 98 2096 half line dmj dgc: 1 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3137 1041 Zeroing lines in arrays Total # of output lines = 1 3136 Processing block number 2 3137 4528 -5 1396 patch iptc,sj,dgj,dgi,id: 2 4528 93 98 1396 half line dmj dgc: 0 5493 243 114 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 4528 3137 Zeroing lines in arrays Total # of output lines = 2 4527 4528 6624 0 2096 patch iptc,sj,dgj,dgi,id: 2 6624 93 93 2096 half line dmj dgc: 1 5493 243 114 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 6624 4528 Zeroing lines in arrays Total # of output lines = 2 6623 Processing block number 3 6624 8035 15 1396 patch iptc,sj,dgj,dgi,id: 3 8035 108 93 1396 half line dmj dgc: 0 8985 243 114 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 8035 6624 Zeroing lines in arrays Total # of output lines = 3 8034 8035 10131 0 2096 patch iptc,sj,dgj,dgi,id: 3 10131 108 108 2096 half line dmj dgc: 1 8985 243 114 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 10131 8035 Zeroing lines in arrays Total # of output lines = 3 10130 Processing block number 4 10131 11546 19 1396 patch iptc,sj,dgj,dgi,id: 4 11546 127 108 1396 half line dmj dgc: 0 12477 251 114 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 11546 10131 Zeroing lines in arrays Total # of output lines = 4 11545 11546 13642 0 2096 patch iptc,sj,dgj,dgi,id: 4 13642 127 127 2096 half line dmj dgc: 1 12477 251 114 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 sj>s1: 13642 11546 Zeroing lines in arrays Total # of output lines = 4 13641 Processing block number 5 13642 15008 -30 1396 patch iptc,sj,dgj,dgi,id: 5 15008 97 127 1396 half line dmj dgc: 0 15969 251 114 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 15008 13642 Zeroing lines in arrays Total # of output lines = 5 15007 15008 17104 0 2096 patch iptc,sj,dgj,dgi,id: 5 720 97 97 2096 half line dmj dgc: 1 15969 251 114 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 s1>sj: 15008 720 Zeroing lines in arrays Total # of output lines = 5 17103 Processing block number 6 720 2050 -66 1396 patch iptc,sj,dgj,dgi,id: 6 2050 31 97 1396 half line dmj dgc: 0 19461 242 114 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 2050 720 Zeroing lines in arrays Total # of output lines = 6 18433 2050 4146 0 2096 patch iptc,sj,dgj,dgi,id: 6 4146 31 31 2096 half line dmj dgc: 1 19461 242 114 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 4146 2050 Zeroing lines in arrays Total # of output lines = 6 20529 Processing block number 7 4146 5525 -17 1396 patch iptc,sj,dgj,dgi,id: 7 5525 14 31 1396 half line dmj dgc: 0 22953 241 114 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 5525 4146 Zeroing lines in arrays Total # of output lines = 7 21908 5525 7621 0 2096 patch iptc,sj,dgj,dgi,id: 7 7621 14 14 2096 half line dmj dgc: 1 22953 241 114 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 7621 5525 Zeroing lines in arrays Total # of output lines = 7 24004 Processing block number 8 7621 9046 29 1396 patch iptc,sj,dgj,dgi,id: 8 9046 43 14 1396 half line dmj dgc: 0 26445 249 114 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 sj>s1: 9046 7621 Zeroing lines in arrays Total # of output lines = 8 25429 9046 11142 0 2096 patch iptc,sj,dgj,dgi,id: 8 11142 43 43 2096 half line dmj dgc: 1 26445 249 114 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 sj>s1: 11142 9046 Zeroing lines in arrays Total # of output lines = 8 27525 Processing block number 9 11142 12562 24 1396 patch iptc,sj,dgj,dgi,id: 9 12562 67 43 1396 half line dmj dgc: 0 29937 255 114 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 12562 11142 Zeroing lines in arrays Total # of output lines = 9 28945 12562 14658 0 2096 patch iptc,sj,dgj,dgi,id: 9 14658 67 67 2096 half line dmj dgc: 1 29937 255 114 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 14658 12562 Zeroing lines in arrays Total # of output lines = 9 31041 Processing block number 10 14658 16072 18 1396 patch iptc,sj,dgj,dgi,id: 10 16072 85 67 1396 half line dmj dgc: 0 33429 255 114 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 16072 14658 Zeroing lines in arrays Total # of output lines = 10 32455 16072 18168 0 2096 patch iptc,sj,dgj,dgi,id: 10 1784 85 85 2096 half line dmj dgc: 1 33429 255 114 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 s1>sj: 16072 1784 Zeroing lines in arrays Total # of output lines = 10 34551 Processing block number 11 1784 3217 37 1396 patch iptc,sj,dgj,dgi,id: 11 3217 122 85 1396 half line dmj dgc: 0 36921 260 114 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 3217 1784 Zeroing lines in arrays Total # of output lines = 11 35984 3217 5313 0 2096 patch iptc,sj,dgj,dgi,id: 11 5313 122 122 2096 half line dmj dgc: 1 36921 260 114 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 sj>s1: 5313 3217 Zeroing lines in arrays Total # of output lines = 11 38080 Processing block number 12 5313 6728 19 1396 patch iptc,sj,dgj,dgi,id: 12 6728 141 122 1396 half line dmj dgc: 0 40413 269 114 Actual deskew ireclen: 20480 ** 12 2096 0 48208 Writing data negflag .eq. 0 sj>s1: 6728 5313 Zeroing lines in arrays Total # of output lines = 12 39495 6728 8824 0 2096 patch iptc,sj,dgj,dgi,id: 12 8824 141 141 2096 half line dmj dgc: 1 40413 269 114 Actual deskew ireclen: 20480 ** 12 2096 1 50304 Writing data negflag .eq. 0 sj>s1: 8824 6728 Zeroing lines in arrays Total # of output lines = 12 41591 Processing block number 13 8824 10226 6 1396 patch iptc,sj,dgj,dgi,id: 13 10226 147 141 1396 half line dmj dgc: 0 43905 276 114 Actual deskew ireclen: 20480 ** 13 2096 0 52400 Writing data negflag .eq. 0 sj>s1: 10226 8824 Zeroing lines in arrays Total # of output lines = 13 42993 10226 12322 0 2096 patch iptc,sj,dgj,dgi,id: 13 12322 147 147 2096 half line dmj dgc: 1 43905 276 114 Actual deskew ireclen: 20480 ** 13 2096 1 54496 Writing data negflag .eq. 0 sj>s1: 12322 10226 Zeroing lines in arrays Total # of output lines = 13 45089 Processing block number 14 12322 13761 43 1396 patch iptc,sj,dgj,dgi,id: 14 13761 190 147 1396 half line dmj dgc: 0 47397 286 114 Actual deskew ireclen: 20480 ** 14 2096 0 56592 Writing data negflag .eq. 0 sj>s1: 13761 12322 Zeroing lines in arrays Total # of output lines = 14 46528 13761 15857 0 2096 patch iptc,sj,dgj,dgi,id: 14 15857 190 190 2096 half line dmj dgc: 1 47397 286 114 Actual deskew ireclen: 20480 ** 14 2096 1 58688 Writing data negflag .eq. 0 sj>s1: 15857 13761 Zeroing lines in arrays Total # of output lines = 14 48624 Processing block number 15 15857 17263 10 1396 patch iptc,sj,dgj,dgi,id: 15 879 200 190 1396 half line dmj dgc: 0 50889 286 114 Actual deskew ireclen: 20480 ** 15 2096 0 60784 Writing data negflag .eq. 0 s1>sj: 15857 879 Zeroing lines in arrays Total # of output lines = 15 50030 879 2975 0 2096 patch iptc,sj,dgj,dgi,id: 15 2975 200 200 2096 half line dmj dgc: 1 50889 286 114 Actual deskew ireclen: 20480 ** 15 2096 1 62880 Writing data negflag .eq. 0 sj>s1: 2975 879 Zeroing lines in arrays Total # of output lines = 15 52126 Processing block number 16 2975 4377 6 1396 patch iptc,sj,dgj,dgi,id: 16 4377 206 200 1396 half line dmj dgc: 0 54381 277 114 Actual deskew ireclen: 20480 ** 16 2096 0 64976 Writing data negflag .eq. 0 sj>s1: 4377 2975 Zeroing lines in arrays Total # of output lines = 16 53528 4377 6473 0 2096 patch iptc,sj,dgj,dgi,id: 16 6473 206 206 2096 half line dmj dgc: 1 54381 277 114 Actual deskew ireclen: 20480 ** 16 2096 1 67072 Writing data negflag .eq. 0 sj>s1: 6473 4377 Zeroing lines in arrays Total # of output lines = 16 55624 Processing block number 17 6473 7900 31 1396 patch iptc,sj,dgj,dgi,id: 17 7900 237 206 1396 half line dmj dgc: 0 57873 276 114 Actual deskew ireclen: 20480 ** 17 2096 0 69168 Writing data negflag .eq. 0 sj>s1: 7900 6473 Zeroing lines in arrays Total # of output lines = 17 57051 7900 9996 0 2096 patch iptc,sj,dgj,dgi,id: 17 9996 237 237 2096 half line dmj dgc: 1 57873 276 114 Actual deskew ireclen: 20480 ** 17 2096 1 71264 Writing data negflag .eq. 0 sj>s1: 9996 7900 Zeroing lines in arrays Total # of output lines = 17 59147 Processing block number 18 9996 11451 59 1396 patch iptc,sj,dgj,dgi,id: 18 11451 296 237 1396 half line dmj dgc: 0 61365 298 114 Actual deskew ireclen: 20480 ** 18 2096 0 73360 Writing data negflag .eq. 0 sj>s1: 11451 9996 Zeroing lines in arrays Total # of output lines = 18 60602 11451 13547 0 2096 patch iptc,sj,dgj,dgi,id: 18 13547 296 296 2096 half line dmj dgc: 1 61365 298 114 Actual deskew ireclen: 20480 ** 18 2096 1 75456 Writing data negflag .eq. 0 sj>s1: 13547 11451 Zeroing lines in arrays Total # of output lines = 18 62698 Processing block number 19 13547 14936 -7 1396 patch iptc,sj,dgj,dgi,id: 19 14936 289 296 1396 half line dmj dgc: 0 64857 293 114 Actual deskew ireclen: 20480 ** 19 2096 0 77552 Writing data negflag .eq. 0 sj>s1: 14936 13547 Zeroing lines in arrays Total # of output lines = 19 64087 14936 17032 0 2096 patch iptc,sj,dgj,dgi,id: 19 648 289 289 2096 half line dmj dgc: 1 64857 293 114 Actual deskew ireclen: 20480 ** 19 2096 1 79648 Writing data negflag .eq. 0 s1>sj: 14936 648 Zeroing lines in arrays Total # of output lines = 19 66183 Processing block number 20 648 2015 -29 1396 patch iptc,sj,dgj,dgi,id: 20 2015 260 289 1396 half line dmj dgc: 0 68349 279 114 Actual deskew ireclen: 20480 ** 20 2096 0 81744 Writing data negflag .eq. 0 sj>s1: 2015 648 Zeroing lines in arrays Total # of output lines = 20 67550 2015 4111 0 2096 patch iptc,sj,dgj,dgi,id: 20 4111 260 260 2096 half line dmj dgc: 1 68349 279 114 Actual deskew ireclen: 20480 ** 20 2096 1 83840 Writing data negflag .eq. 0 sj>s1: 4111 2015 Zeroing lines in arrays Total # of output lines = 20 69646 Processing block number 21 4111 5541 34 1396 patch iptc,sj,dgj,dgi,id: 21 5541 294 260 1396 half line dmj dgc: 0 71841 300 114 Actual deskew ireclen: 20480 ** 21 2096 0 85936 Writing data negflag .eq. 0 sj>s1: 5541 4111 Zeroing lines in arrays Total # of output lines = 21 71076 5541 7637 0 2096 patch iptc,sj,dgj,dgi,id: 21 7637 294 294 2096 half line dmj dgc: 1 71841 300 114 Actual deskew ireclen: 20480 ** 21 2096 1 88032 Writing data negflag .eq. 0 sj>s1: 7637 5541 Zeroing lines in arrays Total # of output lines = 21 73172 Processing block number 22 7637 9056 23 1396 patch iptc,sj,dgj,dgi,id: 22 9056 317 294 1396 half line dmj dgc: 0 75333 330 114 Actual deskew ireclen: 20480 ** 22 2096 0 90128 Writing data negflag .eq. 0 sj>s1: 9056 7637 Zeroing lines in arrays Total # of output lines = 22 74591 9056 11152 0 2096 patch iptc,sj,dgj,dgi,id: 22 11152 317 317 2096 half line dmj dgc: 1 75333 330 114 Actual deskew ireclen: 20480 ** 22 2096 1 92224 Writing data negflag .eq. 0 sj>s1: 11152 9056 Zeroing lines in arrays Total # of output lines = 22 76687 Processing block number 23 11152 12510 -38 1396 patch iptc,sj,dgj,dgi,id: 23 12510 279 317 1396 half line dmj dgc: 0 78825 308 114 Actual deskew ireclen: 20480 ** 23 2096 0 94320 Writing data negflag .eq. 0 sj>s1: 12510 11152 Zeroing lines in arrays Total # of output lines = 23 78045 12510 14606 0 2096 patch iptc,sj,dgj,dgi,id: 23 14606 279 279 2096 half line dmj dgc: 1 78825 308 114 Actual deskew ireclen: 20480 ** 23 2096 1 96416 Writing data negflag .eq. 0 sj>s1: 14606 12510 Zeroing lines in arrays Total # of output lines = 23 80141 Processing block number 24 14606 15942 -60 1396 patch iptc,sj,dgj,dgi,id: 24 15942 219 279 1396 half line dmj dgc: 0 82317 284 114 Actual deskew ireclen: 20480 ** 24 2096 0 98512 Writing data negflag .eq. 0 sj>s1: 15942 14606 Zeroing lines in arrays Total # of output lines = 24 81477 15942 18038 0 2096 patch iptc,sj,dgj,dgi,id: 24 1654 219 219 2096 half line dmj dgc: 1 82317 284 114 Actual deskew ireclen: 20480 ** 24 2096 1 100608 Writing data negflag .eq. 0 s1>sj: 15942 1654 Zeroing lines in arrays Total # of output lines = 24 83573 Processing block number 25 1654 3047 -3 1396 patch iptc,sj,dgj,dgi,id: 25 3047 216 219 1396 half line dmj dgc: 0 85809 279 114 Actual deskew ireclen: 20480 ** 25 2096 0 102704 Writing data negflag .eq. 0 sj>s1: 3047 1654 Zeroing lines in arrays Total # of output lines = 25 84966 3047 5143 0 2096 patch iptc,sj,dgj,dgi,id: 25 5143 216 216 2096 half line dmj dgc: 1 85809 279 114 Actual deskew ireclen: 20480 ** 25 2096 1 104800 Writing data negflag .eq. 0 sj>s1: 5143 3047 Zeroing lines in arrays Total # of output lines = 25 87062 Processing block number 26 5143 6581 42 1396 patch iptc,sj,dgj,dgi,id: 26 6581 258 216 1396 half line dmj dgc: 0 89301 297 114 Actual deskew ireclen: 20480 ** 26 2096 0 106896 Writing data negflag .eq. 0 sj>s1: 6581 5143 Zeroing lines in arrays Total # of output lines = 26 88500 6581 8677 0 2096 patch iptc,sj,dgj,dgi,id: 26 8677 258 258 2096 half line dmj dgc: 1 89301 297 114 Actual deskew ireclen: 20480 ** 26 2096 1 108992 Writing data negflag .eq. 0 sj>s1: 8677 6581 Zeroing lines in arrays Total # of output lines = 26 90596 Processing block number 27 8677 10067 -6 1396 patch iptc,sj,dgj,dgi,id: 27 10067 252 258 1396 half line dmj dgc: 0 92793 306 114 Actual deskew ireclen: 20480 ** 27 2096 0 111088 Writing data negflag .eq. 0 sj>s1: 10067 8677 Zeroing lines in arrays Total # of output lines = 27 91986 10067 12163 0 2096 patch iptc,sj,dgj,dgi,id: 27 12163 252 252 2096 half line dmj dgc: 1 92793 306 114 Actual deskew ireclen: 20480 ** 27 2096 1 113184 Writing data negflag .eq. 0 sj>s1: 12163 10067 Zeroing lines in arrays Total # of output lines = 27 94082 Processing block number 28 12163 11063 -19 -1081 patch iptc,sj,dgj,dgi,id: 28 11063 233 252 -1081 half line dmj dgc: 0 93808 312 114 Actual deskew ireclen: 20480 ** 28 2096 0 115280 Zeroing lines in arrays Total # of output lines = 28 94082 12163 13159 0 2096 patch iptc,sj,dgj,dgi,id: 28 13159 233 233 2096 half line dmj dgc: 1 93808 312 114 Actual deskew ireclen: 20480 ** 28 2096 1 117376 Writing data negflag .eq. 0 sj>s1: 13159 12163 Zeroing lines in arrays Total # of output lines = 28 95078 ia dmi dgi: 13159 312 233 Writing the last 2175 lines last half sj>s1 15334 13159 95078 Total # of output lines = 97253 Writing new header.. Closing files .. ileni= 39 ilend= 35 /export/air32/airops/1400/ts1400_p.hh_j.0 /export/air32/airops/1400/deskew.ph.0 /export/air32/airops/1400/ts1400_p.hh_j.1 /export/air32/airops/1400/deskew.ph.1 /export/air32/airops/1400/ts1400_p.hh_j.2 /export/air32/airops/1400/deskew.ph.2 /export/air32/airops/1400/ts1400_p.hh_j.3 /export/air32/airops/1400/deskew.ph.3 /export/air32/airops/1400/ts1400_p.hh_j.4 /export/air32/airops/1400/deskew.ph.4 /export/air32/airops/1400/ts1400_p.hh_j.5 /export/air32/airops/1400/deskew.ph.5 /export/air32/airops/1400/ts1400_p.hh_j.6 /export/air32/airops/1400/deskew.ph.6 /export/air32/airops/1400/ts1400_p.hh_j.7 /export/air32/airops/1400/deskew.ph.7 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.35 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 1 AZ patch size: 8192 What is the desired az fract (def=1.0)? fract #: 1.000000 Please enter the name of the sensor file. /export/air32/airops/1400/sensor.pp Please enter the name of the parameter file /export/air36/airops/1400/ts1400_p.par hddt: 96068 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 100000 lines Keeping 4192 data points per patch Near range (m) = 9040.540 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 3.500000 Radar wavelength (m) = 0.7012700 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = -1.450000 Range weighting coefficient = 0.1000000 Map height (m) = 78.60000 Transmit leverarm x,y,z = 2.030000 0.5300000 -0.2200000 Receive leverarm x,y,z = 2.030000 0.5300000 -0.2200000 Name of raw data file? /export/air32/airops/1400/p_hv Name of the mocomp data file? /export/air36/airops/1400/ts1400_p.mocomph Output file name w/o ext? /export/air36/airops/1400/ts1400_p Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. hv Raw DIR Path:/export/air32/airops/1400/ output filename: /export/air32/airops/1400/ts1400_p.hv_j *** ipol itop: 2 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /export/air32/airops/1400/deskew.ph WAYNE init fft, calc slant range, load unpack, interpo 1.6378000E-02 reading motion compensation data WAYNE read motion compen 2.321500 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 AnalogChirp>96032Br,fs,T,fc 96068 40.00000 22.50000 90.00000 10.00000 deltaphase -ashift: 2.2242721E-03 1.450000 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.7478719 start range comp, time = 3.366 WAYNE PREV 3.106865 NUMBER OF PROCESSOR USED = 8 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 4 by # 0 Processing block number 1 TESTING WHY -6.4741098E-03 1.8001201E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 3.506 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 53.31530201435089 ATTN ifrq ipol ln 0 2 8192 8.000000 IPOL, ITOP nblock 2 0 1 ****shift in azimuth (fractional pixel)= -0.4999149 shift in azimuth *fractional pixel= -0.4999149 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1668086051940918E-02 TESTING 0.0000000E+00 -47.83564 0.2210198 WAYNE Motion comp. added to patch, time = 19.19806599617004 WAYNE Doppler estimation done, time = 9.8943710327148438E-06 WAYNE write deskew done, time = 2.8529167175292969E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -47.83564 0.2210198 HEY,dt,fract,ye,pe -0.4999149 1.000000 -6.4741098E-03 1.8001201E-02 WAYNE Azimuth compression done, time = 348.1802759170532 Writing 4192 lines of data to file WAYNE write output data 24.31381690502167 ==w out 1 0 2001 0 WAYNE PROCESS 445.0235419273376 Processing block number 2 TESTING WHY -6.4040902E-03 1.7581699E-02 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 448.531 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 70.92049193382263 ATTN ifrq ipol ln 0 2 11684 8.000000 IPOL, ITOP nblock 2 0 2 ****shift in azimuth (fractional pixel)= -0.4999168 shift in azimuth *fractional pixel= -0.4999168 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1700034141540527E-02 TESTING 0.0000000E+00 -42.32105 0.4159131 WAYNE Motion comp. added to patch, time = 18.25269305706024 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 4.7079920768737793E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -42.32105 0.4159131 HEY,dt,fract,ye,pe -0.4999168 1.000000 -6.4040902E-03 1.7581699E-02 WAYNE Azimuth compression done, time = 345.6813529729843 Writing 4192 lines of data to file WAYNE write output data 22.43179202079773 ==w out 2 4192 2001 85852160 WAYNE PROCESS 457.3465750217438 Processing block number 3 TESTING WHY -5.7757902E-03 1.7326901E-02 3492 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 905.878 seconds. TESTING 6985 before reading done reading WAYNE load raw data , time = 73.58891904354095 ATTN ifrq ipol ln 0 2 15176 8.000000 IPOL, ITOP nblock 2 0 3 ****shift in azimuth (fractional pixel)= -0.4999217 shift in azimuth *fractional pixel= -0.4999217 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1165022850036621E-02 TESTING 0.0000000E+00 -37.07621 0.3171375 WAYNE Motion comp. added to patch, time = 17.63430094718933 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.7902007102966309E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 ra PROCESSING KID# 5 ..... WAYNE IS IN Processing 17 to 19 by # 4 Processing block number 17 WAYNE PATCHES: 55873 64064 patch# 17 reference line: 59968 3.568 seconds. before reading done reading WAYNE load raw data , time = 53.39536094665527 ATTN ifrq ipol ln 0 2 64064 8.000000 IPOL, ITOP nblock 2 0 17 ****shift in azimuth (fractional pixel)= -0.4999279 shift in azimuth *fractional pixel= -0.4999279 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1426091194152832E-02 WAYNE Motion comp. added to patch, time = 18.91528296470642 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.8029680252075195E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.1783719062805 Writing 4192 lines of data to file WAYNE write output data 4.658219933509827 ==w out 17 0 2001 0 WAYNE PROCESS 423.1631749868393 Processing block number 18 WAYNE PATCHES: 59365 67556 patch# 18 reference line: 63460 426.732 seconds. before reading done reading WAYNE load raw data , time = 91.55943799018860 ATTN ifrq ipol ln 0 2 67556 8.000000 IPOL, ITOP nblock 2 0 18 ****shift in azimuth (fractional pixel)= -0.4999095 shift in azimuth *fractional pixel= -0.4999095 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1703014373779297E-02 WAYNE Motion comp. added to patch, time = 17.98319399356842 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 1.4590024948120117E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.5467969179153 Writing 4192 lines of data to file WAYNE write output data 23.60113203525543 ==w out 18 4192 2001 85852160 WAYNE PROCESS 478.7185190916061 Processing block number 19 WAYNE PATCHES: 62857 71048 patch# 19 reference line: 66952 905.451 seconds. before reading done reading WAYNE load raw data , time = 73.87180292606354 ATTN ifrq ipol ln 0 2 71048 8.000000 IPOL, ITOP nblock 2 0 19 ****shift in azimuth (fractional pixel)= -0.4999111 shift in azimuth *fractional pixel= -0.4999111 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1291027069091797E-02 WAYNE Motion comp. added to patch, time = 17.17669808864594 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 4.7572970390319824E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.9210370779037 Writing 4192 lines of data to file WAYNE write output data 9.954163074493408 ==w out 19 8384 2001 171704320 WAYNE PROCESS 446.9849539995193 ==w out 20 12579 PROCESSING KID# 6 ..... WAYNE IS IN Processing 20 to 22 by # 5 Processing block number 20 WAYNE PATCHES: 66349 74540 patch# 20 reference line: 70444 3.585 seconds. before reading done reading WAYNE load raw data , time = 52.86723196506500 ATTN ifrq ipol ln 0 2 74540 8.000000 IPOL, ITOP nblock 2 0 20 ****shift in azimuth (fractional pixel)= -0.4999311 shift in azimuth *fractional pixel= -0.4999311 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1764049530029297E-02 WAYNE Motion comp. added to patch, time = 18.25864696502686 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.7550458908081055E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 344.9836369752884 Writing 4192 lines of data to file WAYNE write output data 1.695016980171204 ==w out 20 0 2001 0 WAYNE PROCESS 417.8205718994141 Processing block number 21 WAYNE PATCHES: 69841 78032 patch# 21 reference line: 73936 421.406 seconds. before reading done reading WAYNE load raw data , time = 104.0403178930283 ATTN ifrq ipol ln 0 2 78032 8.000000 IPOL, ITOP nblock 2 0 21 ****shift in azimuth (fractional pixel)= -0.4999140 shift in azimuth *fractional pixel= -0.4999140 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1628985404968262E-02 WAYNE Motion comp. added to patch, time = 18.85901200771332 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.7441978454589844E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 342.5478329658508 Writing 4192 lines of data to file WAYNE write output data 18.48558199405670 ==w out 21 4192 2001 85852160 WAYNE PROCESS 483.9734770059586 Processing block number 22 WAYNE PATCHES: 73333 81524 patch# 22 reference line: 77428 905.380 seconds. before reading done reading WAYNE load raw data , time = 74.19914603233337 ATTN ifrq ipol ln 0 2 81524 8.000000 IPOL, ITOP nblock 2 0 22 ****shift in azimuth (fractional pixel)= -0.4999022 shift in azimuth *fractional pixel= -0.4999022 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1159062385559082E-02 WAYNE Motion comp. added to patch, time = 17.35389304161072 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.3000001907348633E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 344.2282290458679 Writing 4192 lines of data to file WAYNE write output data 16.79233396053314 ==w out 22 8384 2001 171704320 WAYNE PROCESS 452.6095069646835 ==w out 23 12579 PROCESSING KID# 8 ..... WAYNE IS IN Processing 26 to 28 by # 7 Processing block number 26 WAYNE PATCHES: 87301 95492 patch# 26 reference line: 91396 3.615 seconds. before reading done reading WAYNE load raw data , time = 56.45573604106903 ATTN ifrq ipol ln 0 2 95492 8.000000 IPOL, ITOP nblock 2 0 26 ****shift in azimuth (fractional pixel)= -0.4999087 shift in azimuth *fractional pixel= -0.4999087 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1708974838256836E-02 WAYNE Motion comp. added to patch, time = 18.39083194732666 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.7970075607299805E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.7695109844208 Writing 4192 lines of data to file WAYNE write output data 22.96882200241089 ==w out 26 0 2001 0 WAYNE PROCESS 444.6014699935913 Processing block number 27 WAYNE PATCHES: 90793 98984 patch# 27 reference line: 94888 448.217 seconds. before reading done reading WAYNE load raw data , time = 73.91745698451996 ATTN ifrq ipol ln 0 2 98984 8.000000 IPOL, ITOP nblock 2 0 27 ****shift in azimuth (fractional pixel)= -0.4999004 shift in azimuth *fractional pixel= -0.4999004 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1523008346557617E-02 WAYNE Motion comp. added to patch, time = 16.90811109542847 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 3.0920028686523438E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.2526019811630 Writing 4192 lines of data to file WAYNE write output data 20.69298291206360 ==w out 27 4192 2001 85852160 WAYNE PROCESS 457.8152199983597 Processing block number 28 WAYNE PATCHES: 91808 99999 patch# 28 reference line: 95903 906.033 seconds. before reading done reading WAYNE load raw data , time = 75.12662100791931 ATTN ifrq ipol ln 0 2 99999 8.000000 IPOL, ITOP nblock 2 0 28 ****shift in azimuth (fractional pixel)= -0.4999058 shift in azimuth *fractional pixel= -0.4999058 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1157035827636719E-02 WAYNE Motion comp. added to patch, time = 16.86927402019501 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 3.8822054862976074E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.8939449787140 Writing 4192 lines of data to file WAYNE write output data 16.95427000522614 ==w out 28 8384 2001 171704320 WAYNE PROCESS 455.8959679603577 ==w out 29 12579 PROCESSING KID# 7 ..... WAYNE IS IN Processing 23 to 25 by # 6 Processing block number 23 WAYNE PATCHES: 76825 85016 patch# 23 reference line: 80920 3.602 seconds. before reading done reading WAYNE load raw data , time = 55.16852402687073 ATTN ifrq ipol ln 0 2 85016 8.000000 IPOL, ITOP nblock 2 0 23 ****shift in azimuth (fractional pixel)= -0.4998994 shift in azimuth *fractional pixel= -0.4998994 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1581063270568848E-02 WAYNE Motion comp. added to patch, time = 18.71105003356934 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.9729604721069336E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.5523359775543 Writing 4192 lines of data to file WAYNE write output data 22.35644400119781 ==w out 23 0 2001 0 WAYNE PROCESS 442.8046089410782 Processing block number 24 WAYNE PATCHES: 80317 88508 patch# 24 reference line: 84412 446.408 seconds. before reading done reading WAYNE load raw data , time = 81.58299398422241 ATTN ifrq ipol ln 0 2 88508 8.000000 IPOL, ITOP nblock 2 0 24 ****shift in azimuth (fractional pixel)= -0.4999158 shift in azimuth *fractional pixel= -0.4999158 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1726975440979004E-02 WAYNE Motion comp. added to patch, time = 17.78987097740173 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 9.7373962402343750E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 343.8652560710907 Writing 4192 lines of data to file WAYNE write output data 1.812294006347656 ==w out 24 4192 2001 85852160 WAYNE PROCESS 445.1610009670258 Processing block number 25 WAYNE PATCHES: 83809 92000 patch# 25 reference line: 87904 891.569 seconds. before reading done reading WAYNE load raw data , time = 88.75731408596039 ATTN ifrq ipol ln 0 2 92000 8.000000 IPOL, ITOP nblock 2 0 25 ****shift in azimuth (fractional pixel)= -0.4999176 shift in azimuth *fractional pixel= -0.4999176 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1181950569152832E-02 WAYNE Motion comp. added to patch, time = 16.83913505077362 WAYNE Doppler estimation done, time = 9.8943710327148438E-06 WAYNE write deskew done, time = 0.1247680187225342 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.2140489816666 Writing 4192 lines of data to file WAYNE write output data 18.56207406520844 ==w out 25 8384 2001 171704320 WAYNE PROCESS 470.5101090669632 ==w out 26 12579 PROCESSING KID# 3 ..... WAYNE IS IN Processing 9 to 12 by # 2 Processing block number 9 WAYNE PATCHES: 27937 36128 patch# 9 reference line: 32032 3.539 seconds. before reading done reading WAYNE load raw data , time = 53.32636892795563 ATTN ifrq ipol ln 0 2 36128 8.000000 IPOL, ITOP nblock 2 0 9 ****shift in azimuth (fractional pixel)= -0.4998933 shift in azimuth *fractional pixel= -0.4998933 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1771917343139648E-02 WAYNE Motion comp. added to patch, time = 19.33946299552917 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.7250051498413086E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.7520380020142 Writing 4192 lines of data to file WAYNE write output data 5.467744946479797 ==w out 9 0 2001 0 WAYNE PROCESS 423.9016380310059 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 427.441 seconds. before reading done reading WAYNE load raw data , time = 89.93090808391571 ATTN ifrq ipol ln 0 2 39620 8.000000 IPOL, ITOP nblock 2 0 10 ****shift in azimuth (fractional pixel)= -0.4999059 shift in azimuth *fractional pixel= -0.4999059 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1476039886474609E-02 WAYNE Motion comp. added to patch, time = 17.97715497016907 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 0.1286029815673828 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 344.5162750482559 Writing 4192 lines of data to file WAYNE write output data 1.969548940658569 ==w out 10 4192 2001 85852160 WAYNE PROCESS 454.5353759527206 Processing block number 11 WAYNE PATCHES: 34921 43112 patch# 11 reference line: 39016 881.977 seconds. before reading done reading WAYNE load raw data , time = 95.47761297225952 ATTN ifrq ipol ln 0 2 43112 8.000000 IPOL, ITOP nblock 2 0 11 ****shift in azimuth (fractional pixel)= -0.4999126 shift in azimuth *fractional pixel= -0.4999126 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1007070541381836E-02 WAYNE Motion comp. added to patch, time = 17.10049402713776 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 3.3810019493103027E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.4974100589752 Writing 4192 lines of data to file WAYNE write output data 1.745680928230286 ==w out 11 8384 2001 171704320 WAYNE PROCESS 459.8675279617310 Processing block number 12 WAYNE PATCHES: 38413 46604 patch# 12 reference line: 42508 1341.845 seconds. before reading done reading WAYNE load raw data , time = 88.56564903259277 ATTN ifrq ipol ln 0 2 46604 8.000000 IPOL, ITOP nblock 2 PROCESSING KID# 2 ..... WAYNE IS IN Processing 5 to 8 by # 1 Processing block number 5 WAYNE PATCHES: 13969 22160 patch# 5 reference line: 18064 3.524 seconds. before reading done reading WAYNE load raw data , time = 53.74067997932434 ATTN ifrq ipol ln 0 2 22160 8.000000 IPOL, ITOP nblock 2 0 5 ****shift in azimuth (fractional pixel)= -0.4999060 shift in azimuth *fractional pixel= -0.4999060 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1760950088500977E-02 WAYNE Motion comp. added to patch, time = 19.00924801826477 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.7060508728027344E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.4320820569992 Writing 4192 lines of data to file WAYNE write output data 2.529201030731201 ==w out 5 0 2001 0 WAYNE PROCESS 420.7274099588394 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 424.252 seconds. before reading done reading WAYNE load raw data , time = 93.94209897518158 ATTN ifrq ipol ln 0 2 25652 8.000000 IPOL, ITOP nblock 2 0 6 ****shift in azimuth (fractional pixel)= -0.4998952 shift in azimuth *fractional pixel= -0.4998952 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1656045913696289E-02 WAYNE Motion comp. added to patch, time = 18.24321794509888 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 2.4890065193176270E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 344.2335759401321 Writing 4192 lines of data to file WAYNE write output data 9.127926945686340 ==w out 6 4192 2001 85852160 WAYNE PROCESS 465.5848839282990 Processing block number 7 WAYNE PATCHES: 20953 29144 patch# 7 reference line: 25048 889.837 seconds. before reading done reading WAYNE load raw data , time = 88.67088091373444 ATTN ifrq ipol ln 0 2 29144 8.000000 IPOL, ITOP nblock 2 0 7 ****shift in azimuth (fractional pixel)= -0.4998947 shift in azimuth *fractional pixel= -0.4998947 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1373043060302734E-02 WAYNE Motion comp. added to patch, time = 17.73536598682404 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.4152994155883789E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.3339860439301 Writing 4192 lines of data to file WAYNE write output data 2.032802939414978 ==w out 7 8384 2001 171704320 WAYNE PROCESS 453.8100849390030 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 1343.647 seconds. before reading done reading WAYNE load raw data , time = 87.92400503158569 ATTN ifrq ipol ln 0 2 32636 8.000000 IPOL, ITOP nblock 2 PROCESSING KID# 4 ..... WAYNE IS IN Processing 13 to 16 by # 3 Processing block number 13 WAYNE PATCHES: 41905 50096 patch# 13 reference line: 46000 3.555 seconds. before reading done reading WAYNE load raw data , time = 53.50471007823944 ATTN ifrq ipol ln 0 2 50096 8.000000 IPOL, ITOP nblock 2 0 13 ****shift in azimuth (fractional pixel)= -0.4999056 shift in azimuth *fractional pixel= -0.4999056 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2261986732482910E-02 WAYNE Motion comp. added to patch, time = 18.77178406715393 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.6680231094360352E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.2367110252380 Writing 4192 lines of data to file WAYNE write output data 6.406551003456116 ==w out 13 0 2001 0 WAYNE PROCESS 424.9362980127335 Processing block number 14 WAYNE PATCHES: 45397 53588 patch# 14 reference line: 49492 428.492 seconds. before reading done reading WAYNE load raw data , time = 89.76807093620300 ATTN ifrq ipol ln 0 2 53588 8.000000 IPOL, ITOP nblock 2 0 14 ****shift in azimuth (fractional pixel)= -0.4998997 shift in azimuth *fractional pixel= -0.4998997 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1494994163513184E-02 WAYNE Motion comp. added to patch, time = 17.77785193920135 WAYNE Doppler estimation done, time = 9.8943710327148438E-06 WAYNE write deskew done, time = 2.6265025138854980E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 344.1805679798126 Writing 4192 lines of data to file WAYNE write output data 1.985015988349915 ==w out 14 4192 2001 85852160 WAYNE PROCESS 453.7507200241089 Processing block number 15 WAYNE PATCHES: 48889 57080 patch# 15 reference line: 52984 882.243 seconds. before reading done reading WAYNE load raw data , time = 96.72193801403046 ATTN ifrq ipol ln 0 2 57080 8.000000 IPOL, ITOP nblock 2 0 15 ****shift in azimuth (fractional pixel)= -0.4999059 shift in azimuth *fractional pixel= -0.4999059 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1035084724426270E-02 WAYNE Motion comp. added to patch, time = 17.22897207736969 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 5.3091049194335938E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.1437000036240 Writing 4192 lines of data to file WAYNE write output data 2.090982079505920 ==w out 15 8384 2001 171704320 WAYNE PROCESS 461.2512130737305 Processing block number 16 WAYNE PATCHES: 52381 60572 patch# 16 reference line: 56476 1343.494 seconds. before reading done reading WAYNE load raw data , time = 88.77136003971100 ATTN ifrq ipol ln 0 2 60572 8.000000 IPOL, ITOP nblock 2 0 12 ****shift in azimuth (fractional pixel)= -0.4999159 shift in azimuth *fractional pixel= -0.4999159 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1402010917663574E-02 WAYNE Motion comp. added to patch, time = 15.48045492172241 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.4573087692260742E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 268.5700460672379 Writing 4192 lines of data to file WAYNE write output data 1.643206954002380 ==w out 12 12576 2001 257556480 WAYNE PROCESS 374.2966200113297 ==w out 13 16771 0 8 ****shift in azimuth (fractional pixel)= -0.4998949 shift in azimuth *fractional pixel= -0.4998949 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1534929275512695E-02 WAYNE Motion comp. added to patch, time = 16.13371598720551 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.3892045021057129E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 268.3735740184784 Writing 4192 lines of data to file WAYNE write output data 1.652885079383850 ==w out 8 12576 2001 257556480 WAYNE PROCESS 374.1209710836411 ==w out 9 16771 0 16 ****shift in azimuth (fractional pixel)= -0.4999078 shift in azimuth *fractional pixel= -0.4999078 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1431932449340820E-02 WAYNE Motion comp. added to patch, time = 16.03715705871582 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.0056962966918945E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 269.2674800157547 Writing 4192 lines of data to file WAYNE write output data 1.654272079467773 ==w out 16 12576 2001 257556480 WAYNE PROCESS 375.7630430459976 ==w out 17 16771 nge migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -37.07621 0.3171375 HEY,dt,fract,ye,pe -0.4999217 1.000000 -5.7757902E-03 1.7326901E-02 WAYNE Azimuth compression done, time = 348.2255210876465 Writing 4192 lines of data to file WAYNE write output data 16.58633792400360 ==w out 3 8384 2001 171704320 WAYNE PROCESS 456.0788069963455 Processing block number 4 TESTING WHY -5.3123902E-03 1.7652800E-02 3492 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 1361.957 seconds. TESTING 10477 before reading done reading WAYNE load raw data , time = 70.33688294887543 ATTN ifrq ipol ln 0 2 18668 8.000000 IPOL, ITOP nblock 2 0 4 ****shift in azimuth (fractional pixel)= -0.4999198 shift in azimuth *fractional pixel= -0.4999198 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1191964149475098E-02 TESTING 0.0000000E+00 -32.53431 -0.3229209 WAYNE Motion comp. added to patch, time = 15.91884398460388 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.2094011306762695E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -32.53431 -0.3229209 HEY,dt,fract,ye,pe -0.4999198 1.000000 -5.3123902E-03 1.7652800E-02 WAYNE Azimuth compression done, time = 271.1048690080643 Writing 4192 lines of data to file WAYNE write output data 1.634464025497437 ==w out 4 12576 2001 257556480 WAYNE PROCESS 359.0296210050583 ==w out 5 16771 1 8088435 0 2 8086280 0 3 8085359 0 4 6724520 0 5 8087261 0 6 8085417 0 7 8087686 0 8 8087118 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 117376kids= 8 Writing variable header... gather image from processor # 0 4 gather image from processor # 1 4 gather image from processor # 2 4 gather image from processor # 3 4 gather image from processor # 4 3 gather image from processor # 5 3 gather image from processor # 6 3 gather image from processor # 7 3 WAYNE gather images takes: 17.06023705005646 WAYNE LOOP TIME: 1743.365431070328 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air32/airops/1400/ts1400_p.hv_j /export/air36/airops/1400/ts1400_p.mocomph /export/air36/airops/1400/ts1400_p.dop /export/air36/airops/1400/ts1400_p.glb 2560 117376 update intf hdr ha: 8367.900 UPDATE: 2560 117376 3.331000 0.5144000 mocompfile /export/air36/airops/1400/ts1400_p.mocomph dopfile /export/air36/airops/1400/ts1400_p.dop globalfile /export/air36/airops/1400/ts1400_p.glb /export/air36/airops/1400/ts1400_p.glb 38 deskew line ra ha trc: 128.5260 249 9042.366 8367.900 54.57177 after deskew line ra ha trc: 128.5260 249 9042.366 8367.900 54.57177 lat1 lon1: 249 4.813068 114.7795 117376 last ra n_ns ns: 9042.366 1 1 117624 117376 lati loni: 117624 5.129428 115.2615 117624 1 center ra n_ns ns: 13302.71 1280 1280 58936 117376 lati loni: 58936 5.002770 114.9983 58936 2560 Updated paramater header in /export/air32/airops/1400/ts1400_p.hv_j WAYNE FINAL PROCESS 1747.132510066032 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 8 16768 4 16768 4 16768 4 16768 4 12576 3 12576 3 12576 3 12576 3 Name of data file to be deskewed? /export/air32/airops/1400/ts1400_p.hv_j Name of the doppler parameter file? /export/air36/airops/1400/ts1400_p.dop Name of the deskew file? /export/air32/airops/1400/deskew.ph Line up to another frequency [y/n]? y Name of the deskew file to line up to? /export/air32/airops/1400/deskew.ch Enter N_AZ, NA_VALID and the ratio of the pixel spacing of the file to line up to relative to the current pixel spacing. 4096 2208 1.000000 Name of the output file? /export/air36/airops/1400/ts1400_p.hv Name of the line output file? /export/air36/airops/1400/p_lines.dat NONE-SYMMETRIC PARALLEL JOBS Deskewing 28 patches Processing block number 1 patch iptc,sj,dgj,dgi,id: 1 1041 98 98 0 half line dmj dgc: 0 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1041 1 Zeroing lines in arrays Total # of output lines = 1 1040 1041 3137 0 2096 patch iptc,sj,dgj,dgi,id: 1 3137 98 98 2096 half line dmj dgc: 1 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3137 1041 Zeroing lines in arrays Total # of output lines = 1 3136 Processing block number 2 3137 4528 -5 1396 patch iptc,sj,dgj,dgi,id: 2 4528 93 98 1396 half line dmj dgc: 0 5493 243 114 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 4528 3137 Zeroing lines in arrays Total # of output lines = 2 4527 4528 6624 0 2096 patch iptc,sj,dgj,dgi,id: 2 6624 93 93 2096 half line dmj dgc: 1 5493 243 114 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 6624 4528 Zeroing lines in arrays Total # of output lines = 2 6623 Processing block number 3 6624 8035 15 1396 patch iptc,sj,dgj,dgi,id: 3 8035 108 93 1396 half line dmj dgc: 0 8985 243 114 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 8035 6624 Zeroing lines in arrays Total # of output lines = 3 8034 8035 10131 0 2096 patch iptc,sj,dgj,dgi,id: 3 10131 108 108 2096 half line dmj dgc: 1 8985 243 114 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 10131 8035 Zeroing lines in arrays Total # of output lines = 3 10130 Processing block number 4 10131 11546 19 1396 patch iptc,sj,dgj,dgi,id: 4 11546 127 108 1396 half line dmj dgc: 0 12477 251 114 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 11546 10131 Zeroing lines in arrays Total # of output lines = 4 11545 11546 13642 0 2096 patch iptc,sj,dgj,dgi,id: 4 13642 127 127 2096 half line dmj dgc: 1 12477 251 114 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 sj>s1: 13642 11546 Zeroing lines in arrays Total # of output lines = 4 13641 Processing block number 5 13642 15008 -30 1396 patch iptc,sj,dgj,dgi,id: 5 15008 97 127 1396 half line dmj dgc: 0 15969 251 114 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 15008 13642 Zeroing lines in arrays Total # of output lines = 5 15007 15008 17104 0 2096 patch iptc,sj,dgj,dgi,id: 5 720 97 97 2096 half line dmj dgc: 1 15969 251 114 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 s1>sj: 15008 720 Zeroing lines in arrays Total # of output lines = 5 17103 Processing block number 6 720 2050 -66 1396 patch iptc,sj,dgj,dgi,id: 6 2050 31 97 1396 half line dmj dgc: 0 19461 242 114 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 2050 720 Zeroing lines in arrays Total # of output lines = 6 18433 2050 4146 0 2096 patch iptc,sj,dgj,dgi,id: 6 4146 31 31 2096 half line dmj dgc: 1 19461 242 114 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 4146 2050 Zeroing lines in arrays Total # of output lines = 6 20529 Processing block number 7 4146 5525 -17 1396 patch iptc,sj,dgj,dgi,id: 7 5525 14 31 1396 half line dmj dgc: 0 22953 241 114 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 5525 4146 Zeroing lines in arrays Total # of output lines = 7 21908 5525 7621 0 2096 patch iptc,sj,dgj,dgi,id: 7 7621 14 14 2096 half line dmj dgc: 1 22953 241 114 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 7621 5525 Zeroing lines in arrays Total # of output lines = 7 24004 Processing block number 8 7621 9046 29 1396 patch iptc,sj,dgj,dgi,id: 8 9046 43 14 1396 half line dmj dgc: 0 26445 249 114 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 sj>s1: 9046 7621 Zeroing lines in arrays Total # of output lines = 8 25429 9046 11142 0 2096 patch iptc,sj,dgj,dgi,id: 8 11142 43 43 2096 half line dmj dgc: 1 26445 249 114 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 sj>s1: 11142 9046 Zeroing lines in arrays Total # of output lines = 8 27525 Processing block number 9 11142 12562 24 1396 patch iptc,sj,dgj,dgi,id: 9 12562 67 43 1396 half line dmj dgc: 0 29937 255 114 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 12562 11142 Zeroing lines in arrays Total # of output lines = 9 28945 12562 14658 0 2096 patch iptc,sj,dgj,dgi,id: 9 14658 67 67 2096 half line dmj dgc: 1 29937 255 114 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 14658 12562 Zeroing lines in arrays Total # of output lines = 9 31041 Processing block number 10 14658 16072 18 1396 patch iptc,sj,dgj,dgi,id: 10 16072 85 67 1396 half line dmj dgc: 0 33429 255 114 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 16072 14658 Zeroing lines in arrays Total # of output lines = 10 32455 16072 18168 0 2096 patch iptc,sj,dgj,dgi,id: 10 1784 85 85 2096 half line dmj dgc: 1 33429 255 114 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 s1>sj: 16072 1784 Zeroing lines in arrays Total # of output lines = 10 34551 Processing block number 11 1784 3217 37 1396 patch iptc,sj,dgj,dgi,id: 11 3217 122 85 1396 half line dmj dgc: 0 36921 260 114 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 3217 1784 Zeroing lines in arrays Total # of output lines = 11 35984 3217 5313 0 2096 patch iptc,sj,dgj,dgi,id: 11 5313 122 122 2096 half line dmj dgc: 1 36921 260 114 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 sj>s1: 5313 3217 Zeroing lines in arrays Total # of output lines = 11 38080 Processing block number 12 5313 6728 19 1396 patch iptc,sj,dgj,dgi,id: 12 6728 141 122 1396 half line dmj dgc: 0 40413 269 114 Actual deskew ireclen: 20480 ** 12 2096 0 48208 Writing data negflag .eq. 0 sj>s1: 6728 5313 Zeroing lines in arrays Total # of output lines = 12 39495 6728 8824 0 2096 patch iptc,sj,dgj,dgi,id: 12 8824 141 141 2096 half line dmj dgc: 1 40413 269 114 Actual deskew ireclen: 20480 ** 12 2096 1 50304 Writing data negflag .eq. 0 sj>s1: 8824 6728 Zeroing lines in arrays Total # of output lines = 12 41591 Processing block number 13 8824 10226 6 1396 patch iptc,sj,dgj,dgi,id: 13 10226 147 141 1396 half line dmj dgc: 0 43905 276 114 Actual deskew ireclen: 20480 ** 13 2096 0 52400 Writing data negflag .eq. 0 sj>s1: 10226 8824 Zeroing lines in arrays Total # of output lines = 13 42993 10226 12322 0 2096 patch iptc,sj,dgj,dgi,id: 13 12322 147 147 2096 half line dmj dgc: 1 43905 276 114 Actual deskew ireclen: 20480 ** 13 2096 1 54496 Writing data negflag .eq. 0 sj>s1: 12322 10226 Zeroing lines in arrays Total # of output lines = 13 45089 Processing block number 14 12322 13761 43 1396 patch iptc,sj,dgj,dgi,id: 14 13761 190 147 1396 half line dmj dgc: 0 47397 286 114 Actual deskew ireclen: 20480 ** 14 2096 0 56592 Writing data negflag .eq. 0 sj>s1: 13761 12322 Zeroing lines in arrays Total # of output lines = 14 46528 13761 15857 0 2096 patch iptc,sj,dgj,dgi,id: 14 15857 190 190 2096 half line dmj dgc: 1 47397 286 114 Actual deskew ireclen: 20480 ** 14 2096 1 58688 Writing data negflag .eq. 0 sj>s1: 15857 13761 Zeroing lines in arrays Total # of output lines = 14 48624 Processing block number 15 15857 17263 10 1396 patch iptc,sj,dgj,dgi,id: 15 879 200 190 1396 half line dmj dgc: 0 50889 286 114 Actual deskew ireclen: 20480 ** 15 2096 0 60784 Writing data negflag .eq. 0 s1>sj: 15857 879 Zeroing lines in arrays Total # of output lines = 15 50030 879 2975 0 2096 patch iptc,sj,dgj,dgi,id: 15 2975 200 200 2096 half line dmj dgc: 1 50889 286 114 Actual deskew ireclen: 20480 ** 15 2096 1 62880 Writing data negflag .eq. 0 sj>s1: 2975 879 Zeroing lines in arrays Total # of output lines = 15 52126 Processing block number 16 2975 4377 6 1396 patch iptc,sj,dgj,dgi,id: 16 4377 206 200 1396 half line dmj dgc: 0 54381 277 114 Actual deskew ireclen: 20480 ** 16 2096 0 64976 Writing data negflag .eq. 0 sj>s1: 4377 2975 Zeroing lines in arrays Total # of output lines = 16 53528 4377 6473 0 2096 patch iptc,sj,dgj,dgi,id: 16 6473 206 206 2096 half line dmj dgc: 1 54381 277 114 Actual deskew ireclen: 20480 ** 16 2096 1 67072 Writing data negflag .eq. 0 sj>s1: 6473 4377 Zeroing lines in arrays Total # of output lines = 16 55624 Processing block number 17 6473 7900 31 1396 patch iptc,sj,dgj,dgi,id: 17 7900 237 206 1396 half line dmj dgc: 0 57873 276 114 Actual deskew ireclen: 20480 ** 17 2096 0 69168 Writing data negflag .eq. 0 sj>s1: 7900 6473 Zeroing lines in arrays Total # of output lines = 17 57051 7900 9996 0 2096 patch iptc,sj,dgj,dgi,id: 17 9996 237 237 2096 half line dmj dgc: 1 57873 276 114 Actual deskew ireclen: 20480 ** 17 2096 1 71264 Writing data negflag .eq. 0 sj>s1: 9996 7900 Zeroing lines in arrays Total # of output lines = 17 59147 Processing block number 18 9996 11451 59 1396 patch iptc,sj,dgj,dgi,id: 18 11451 296 237 1396 half line dmj dgc: 0 61365 298 114 Actual deskew ireclen: 20480 ** 18 2096 0 73360 Writing data negflag .eq. 0 sj>s1: 11451 9996 Zeroing lines in arrays Total # of output lines = 18 60602 11451 13547 0 2096 patch iptc,sj,dgj,dgi,id: 18 13547 296 296 2096 half line dmj dgc: 1 61365 298 114 Actual deskew ireclen: 20480 ** 18 2096 1 75456 Writing data negflag .eq. 0 sj>s1: 13547 11451 Zeroing lines in arrays Total # of output lines = 18 62698 Processing block number 19 13547 14936 -7 1396 patch iptc,sj,dgj,dgi,id: 19 14936 289 296 1396 half line dmj dgc: 0 64857 293 114 Actual deskew ireclen: 20480 ** 19 2096 0 77552 Writing data negflag .eq. 0 sj>s1: 14936 13547 Zeroing lines in arrays Total # of output lines = 19 64087 14936 17032 0 2096 patch iptc,sj,dgj,dgi,id: 19 648 289 289 2096 half line dmj dgc: 1 64857 293 114 Actual deskew ireclen: 20480 ** 19 2096 1 79648 Writing data negflag .eq. 0 s1>sj: 14936 648 Zeroing lines in arrays Total # of output lines = 19 66183 Processing block number 20 648 2015 -29 1396 patch iptc,sj,dgj,dgi,id: 20 2015 260 289 1396 half line dmj dgc: 0 68349 279 114 Actual deskew ireclen: 20480 ** 20 2096 0 81744 Writing data negflag .eq. 0 sj>s1: 2015 648 Zeroing lines in arrays Total # of output lines = 20 67550 2015 4111 0 2096 patch iptc,sj,dgj,dgi,id: 20 4111 260 260 2096 half line dmj dgc: 1 68349 279 114 Actual deskew ireclen: 20480 ** 20 2096 1 83840 Writing data negflag .eq. 0 sj>s1: 4111 2015 Zeroing lines in arrays Total # of output lines = 20 69646 Processing block number 21 4111 5541 34 1396 patch iptc,sj,dgj,dgi,id: 21 5541 294 260 1396 half line dmj dgc: 0 71841 300 114 Actual deskew ireclen: 20480 ** 21 2096 0 85936 Writing data negflag .eq. 0 sj>s1: 5541 4111 Zeroing lines in arrays Total # of output lines = 21 71076 5541 7637 0 2096 patch iptc,sj,dgj,dgi,id: 21 7637 294 294 2096 half line dmj dgc: 1 71841 300 114 Actual deskew ireclen: 20480 ** 21 2096 1 88032 Writing data negflag .eq. 0 sj>s1: 7637 5541 Zeroing lines in arrays Total # of output lines = 21 73172 Processing block number 22 7637 9056 23 1396 patch iptc,sj,dgj,dgi,id: 22 9056 317 294 1396 half line dmj dgc: 0 75333 330 114 Actual deskew ireclen: 20480 ** 22 2096 0 90128 Writing data negflag .eq. 0 sj>s1: 9056 7637 Zeroing lines in arrays Total # of output lines = 22 74591 9056 11152 0 2096 patch iptc,sj,dgj,dgi,id: 22 11152 317 317 2096 half line dmj dgc: 1 75333 330 114 Actual deskew ireclen: 20480 ** 22 2096 1 92224 Writing data negflag .eq. 0 sj>s1: 11152 9056 Zeroing lines in arrays Total # of output lines = 22 76687 Processing block number 23 11152 12510 -38 1396 patch iptc,sj,dgj,dgi,id: 23 12510 279 317 1396 half line dmj dgc: 0 78825 308 114 Actual deskew ireclen: 20480 ** 23 2096 0 94320 Writing data negflag .eq. 0 sj>s1: 12510 11152 Zeroing lines in arrays Total # of output lines = 23 78045 12510 14606 0 2096 patch iptc,sj,dgj,dgi,id: 23 14606 279 279 2096 half line dmj dgc: 1 78825 308 114 Actual deskew ireclen: 20480 ** 23 2096 1 96416 Writing data negflag .eq. 0 sj>s1: 14606 12510 Zeroing lines in arrays Total # of output lines = 23 80141 Processing block number 24 14606 15942 -60 1396 patch iptc,sj,dgj,dgi,id: 24 15942 219 279 1396 half line dmj dgc: 0 82317 284 114 Actual deskew ireclen: 20480 ** 24 2096 0 98512 Writing data negflag .eq. 0 sj>s1: 15942 14606 Zeroing lines in arrays Total # of output lines = 24 81477 15942 18038 0 2096 patch iptc,sj,dgj,dgi,id: 24 1654 219 219 2096 half line dmj dgc: 1 82317 284 114 Actual deskew ireclen: 20480 ** 24 2096 1 100608 Writing data negflag .eq. 0 s1>sj: 15942 1654 Zeroing lines in arrays Total # of output lines = 24 83573 Processing block number 25 1654 3047 -3 1396 patch iptc,sj,dgj,dgi,id: 25 3047 216 219 1396 half line dmj dgc: 0 85809 279 114 Actual deskew ireclen: 20480 ** 25 2096 0 102704 Writing data negflag .eq. 0 sj>s1: 3047 1654 Zeroing lines in arrays Total # of output lines = 25 84966 3047 5143 0 2096 patch iptc,sj,dgj,dgi,id: 25 5143 216 216 2096 half line dmj dgc: 1 85809 279 114 Actual deskew ireclen: 20480 ** 25 2096 1 104800 Writing data negflag .eq. 0 sj>s1: 5143 3047 Zeroing lines in arrays Total # of output lines = 25 87062 Processing block number 26 5143 6581 42 1396 patch iptc,sj,dgj,dgi,id: 26 6581 258 216 1396 half line dmj dgc: 0 89301 297 114 Actual deskew ireclen: 20480 ** 26 2096 0 106896 Writing data negflag .eq. 0 sj>s1: 6581 5143 Zeroing lines in arrays Total # of output lines = 26 88500 6581 8677 0 2096 patch iptc,sj,dgj,dgi,id: 26 8677 258 258 2096 half line dmj dgc: 1 89301 297 114 Actual deskew ireclen: 20480 ** 26 2096 1 108992 Writing data negflag .eq. 0 sj>s1: 8677 6581 Zeroing lines in arrays Total # of output lines = 26 90596 Processing block number 27 8677 10067 -6 1396 patch iptc,sj,dgj,dgi,id: 27 10067 252 258 1396 half line dmj dgc: 0 92793 306 114 Actual deskew ireclen: 20480 ** 27 2096 0 111088 Writing data negflag .eq. 0 sj>s1: 10067 8677 Zeroing lines in arrays Total # of output lines = 27 91986 10067 12163 0 2096 patch iptc,sj,dgj,dgi,id: 27 12163 252 252 2096 half line dmj dgc: 1 92793 306 114 Actual deskew ireclen: 20480 ** 27 2096 1 113184 Writing data negflag .eq. 0 sj>s1: 12163 10067 Zeroing lines in arrays Total # of output lines = 27 94082 Processing block number 28 12163 11063 -19 -1081 patch iptc,sj,dgj,dgi,id: 28 11063 233 252 -1081 half line dmj dgc: 0 93808 312 114 Actual deskew ireclen: 20480 ** 28 2096 0 115280 Zeroing lines in arrays Total # of output lines = 28 94082 12163 13159 0 2096 patch iptc,sj,dgj,dgi,id: 28 13159 233 233 2096 half line dmj dgc: 1 93808 312 114 Actual deskew ireclen: 20480 ** 28 2096 1 117376 Writing data negflag .eq. 0 sj>s1: 13159 12163 Zeroing lines in arrays Total # of output lines = 28 95078 ia dmi dgi: 13159 312 233 Writing the last 2175 lines last half sj>s1 15334 13159 95078 Total # of output lines = 97253 Writing new header.. Closing files .. ileni= 39 ilend= 35 /export/air32/airops/1400/ts1400_p.hv_j.0 /export/air32/airops/1400/deskew.ph.0 /export/air32/airops/1400/ts1400_p.hv_j.1 /export/air32/airops/1400/deskew.ph.1 /export/air32/airops/1400/ts1400_p.hv_j.2 /export/air32/airops/1400/deskew.ph.2 /export/air32/airops/1400/ts1400_p.hv_j.3 /export/air32/airops/1400/deskew.ph.3 /export/air32/airops/1400/ts1400_p.hv_j.4 /export/air32/airops/1400/deskew.ph.4 /export/air32/airops/1400/ts1400_p.hv_j.5 /export/air32/airops/1400/deskew.ph.5 /export/air32/airops/1400/ts1400_p.hv_j.6 /export/air32/airops/1400/deskew.ph.6 /export/air32/airops/1400/ts1400_p.hv_j.7 /export/air32/airops/1400/deskew.ph.7 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.35 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 1 AZ patch size: 8192 What is the desired az fract (def=1.0)? fract #: 0.0000000E+00 Please enter the name of the sensor file. /export/air32/airops/1400/sensor.pp Please enter the name of the parameter file /export/air36/airops/1400/ts1400_p.par hddt: 96068 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 100000 lines Keeping 4192 data points per patch Near range (m) = 9040.540 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 3.500000 Radar wavelength (m) = 0.7012700 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = -1.450000 Range weighting coefficient = 0.1000000 Map height (m) = 78.60000 Transmit leverarm x,y,z = 2.030000 0.5300000 -0.2200000 Receive leverarm x,y,z = 2.030000 0.5300000 -0.2200000 Name of raw data file? /export/air32/airops/1400/p_vh Name of the mocomp data file? /export/air36/airops/1400/ts1400_p.mocompv Output file name w/o ext? /export/air36/airops/1400/ts1400_p Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. vh Raw DIR Path:/export/air32/airops/1400/ output filename: /export/air32/airops/1400/ts1400_p.vh_j *** ipol itop: 3 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /export/air32/airops/1400/deskew.pv WAYNE init fft, calc slant range, load unpack, interpo 1.5841998E-02 reading motion compensation data WAYNE read motion compen 2.327152 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 AnalogChirp>96032Br,fs,T,fc 96068 40.00000 22.50000 90.00000 10.00000 deltaphase -ashift: 2.2242721E-03 1.450000 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.7483709 start range comp, time = 3.357 WAYNE PREV 3.110825 NUMBER OF PROCESSOR USED = 8 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 4 by # 0 Processing block number 1 TESTING WHY -6.4741098E-03 1.8001201E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 3.577 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 52.11120200157166 ATTN ifrq ipol ln 0 3 8192 8.000000 IPOL, ITOP nblock 3 0 1 WAYNE Motion comp. coeff. calculated, time = 1.1641025543212891E-02 TESTING 0.0000000E+00 -47.83489 0.2210412 WAYNE Motion comp. added to patch, time = 19.08051300048828 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.6450157165527344E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -47.83489 0.2210412 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -6.4741098E-03 1.8001201E-02 WAYNE Azimuth compression done, time = 346.1486750841141 Writing 4192 lines of data to file WAYNE write output data 2.340746998786926 ==w out 1 0 2001 0 WAYNE PROCESS 419.6969980001450 Processing block number 2 TESTING WHY -6.4040902E-03 1.7581699E-02 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 423.275 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 105.2817610502243 ATTN ifrq ipol ln 0 3 11684 8.000000 IPOL, ITOP nblock 3 0 2 WAYNE Motion comp. coeff. calculated, time = 1.1648893356323242E-02 TESTING 0.0000000E+00 -42.32028 0.4159560 WAYNE Motion comp. added to patch, time = 18.28693997859955 WAYNE Doppler estimation done, time = 8.1062316894531250E-06 WAYNE write deskew done, time = 8.9866042137145996E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -42.32028 0.4159560 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -6.4040902E-03 1.7581699E-02 WAYNE Azimuth compression done, time = 344.0137230157852 Writing 4192 lines of data to file WAYNE write output data 7.511644005775452 ==w out 2 4192 2001 85852160 WAYNE PROCESS 475.1971958875656 Processing block number 3 TESTING WHY -5.7757902E-03 1.7326901E-02 3492 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 898.473 seconds. TESTING 6985 before reading done reading WAYNE load raw data , time = 77.87173807621002 ATTN ifrq ipol ln 0 3 15176 8.000000 IPOL, ITOP nblock 3 0 3 WAYNE Motion comp. coeff. calculated, time = 1.2520074844360352E-02 TESTING 0.0000000E+00 -37.07550 0.3170763 WAYNE Motion comp. added to patch, time = 17.78617596626282 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.7644038200378418E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -37.07550 0.3170763 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -5.7757902E-03 1.7326901E-02 WAYNE Azimuth compression done, time = 347.8244049549103 Writing 4192 lines of data to file WAYNE write ou PROCESSING KID# 6 ..... WAYNE IS IN Processing 20 to 22 by # 5 Processing block number 20 WAYNE PATCHES: 66349 74540 patch# 20 reference line: 70444 3.655 seconds. before reading done reading WAYNE load raw data , time = 55.13128590583801 ATTN ifrq ipol ln 0 3 74540 8.000000 IPOL, ITOP nblock 3 0 20 WAYNE Motion comp. coeff. calculated, time = 1.1697053909301758E-02 WAYNE Motion comp. added to patch, time = 18.44622302055359 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.9069185256958008E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.5444020032883 Writing 4192 lines of data to file WAYNE write output data 33.12748301029205 ==w out 20 0 2001 0 WAYNE PROCESS 453.2658449411392 Processing block number 21 WAYNE PATCHES: 69841 78032 patch# 21 reference line: 73936 456.922 seconds. before reading done reading WAYNE load raw data , time = 66.72763502597809 ATTN ifrq ipol ln 0 3 78032 8.000000 IPOL, ITOP nblock 3 0 21 WAYNE Motion comp. coeff. calculated, time = 1.1460065841674805E-02 WAYNE Motion comp. added to patch, time = 17.48296010494232 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 6.7449808120727539E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 344.6837649345398 Writing 4192 lines of data to file WAYNE write output data 2.029592037200928 ==w out 21 4192 2001 85852160 WAYNE PROCESS 430.9442640542984 Processing block number 22 WAYNE PATCHES: 73333 81524 patch# 22 reference line: 77428 887.866 seconds. before reading done reading WAYNE load raw data , time = 90.99633896350861 ATTN ifrq ipol ln 0 3 81524 8.000000 IPOL, ITOP nblock 3 0 22 WAYNE Motion comp. coeff. calculated, time = 1.1147022247314453E-02 WAYNE Motion comp. added to patch, time = 17.53613400459290 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 4.5044064521789551E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.0257890224457 Writing 4192 lines of data to file WAYNE write output data 11.30637001991272 ==w out 22 8384 2001 171704320 WAYNE PROCESS 466.9227849245071 ==w out 23 12579 PROCESSING KID# 5 ..... WAYNE IS IN Processing 17 to 19 by # 4 Processing block number 17 WAYNE PATCHES: 55873 64064 patch# 17 reference line: 59968 3.637 seconds. before reading done reading WAYNE load raw data , time = 53.19374799728394 ATTN ifrq ipol ln 0 3 64064 8.000000 IPOL, ITOP nblock 3 0 17 WAYNE Motion comp. coeff. calculated, time = 1.1660933494567871E-02 WAYNE Motion comp. added to patch, time = 18.70497202873230 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.7389526367187500E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.5572479963303 Writing 4192 lines of data to file WAYNE write output data 5.543872952461243 ==w out 17 0 2001 0 WAYNE PROCESS 423.0157949924469 Processing block number 18 WAYNE PATCHES: 59365 67556 patch# 18 reference line: 63460 426.653 seconds. before reading done reading WAYNE load raw data , time = 91.15750205516815 ATTN ifrq ipol ln 0 3 67556 8.000000 IPOL, ITOP nblock 3 0 18 WAYNE Motion comp. coeff. calculated, time = 1.1523008346557617E-02 WAYNE Motion comp. added to patch, time = 17.97604298591614 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.1358013153076172E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 344.8690350055695 Writing 4192 lines of data to file WAYNE write output data 5.373619079589844 ==w out 18 4192 2001 85852160 WAYNE PROCESS 459.4109060764313 Processing block number 19 WAYNE PATCHES: 62857 71048 patch# 19 reference line: 66952 886.064 seconds. before reading done reading WAYNE load raw data , time = 90.40202903747559 ATTN ifrq ipol ln 0 3 71048 8.000000 IPOL, ITOP nblock 3 0 19 WAYNE Motion comp. coeff. calculated, time = 1.1278986930847168E-02 WAYNE Motion comp. added to patch, time = 17.28769099712372 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 3.8719058036804199E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.8938150405884 Writing 4192 lines of data to file WAYNE write output data 2.346909999847412 ==w out 19 8384 2001 171704320 WAYNE PROCESS 456.9820610284805 ==w out 20 12579 PROCESSING KID# 8 ..... WAYNE IS IN Processing 26 to 28 by # 7 Processing block number 26 WAYNE PATCHES: 87301 95492 patch# 26 reference line: 91396 3.679 seconds. before reading done reading WAYNE load raw data , time = 54.04209899902344 ATTN ifrq ipol ln 0 3 95492 8.000000 IPOL, ITOP nblock 3 0 26 WAYNE Motion comp. coeff. calculated, time = 1.1778950691223145E-02 WAYNE Motion comp. added to patch, time = 18.28019702434540 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.8239488601684570E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.8917289972305 Writing 4192 lines of data to file WAYNE write output data 6.538362979888916 ==w out 26 0 2001 0 WAYNE PROCESS 424.7686460018158 Processing block number 27 WAYNE PATCHES: 90793 98984 patch# 27 reference line: 94888 428.448 seconds. before reading done reading WAYNE load raw data , time = 90.06690096855164 ATTN ifrq ipol ln 0 3 98984 8.000000 IPOL, ITOP nblock 3 0 27 WAYNE Motion comp. coeff. calculated, time = 1.1596083641052246E-02 WAYNE Motion comp. added to patch, time = 17.01354193687439 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 8.3723068237304688E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 343.6280359029770 Writing 4192 lines of data to file WAYNE write output data 2.069758892059326 ==w out 27 4192 2001 85852160 WAYNE PROCESS 452.8755779266357 Processing block number 28 WAYNE PATCHES: 91808 99999 patch# 28 reference line: 95903 881.324 seconds. before reading done reading WAYNE load raw data , time = 95.98494791984558 ATTN ifrq ipol ln 0 3 99999 8.000000 IPOL, ITOP nblock 3 0 28 WAYNE Motion comp. coeff. calculated, time = 1.0933995246887207E-02 WAYNE Motion comp. added to patch, time = 17.20119893550873 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 1.9930958747863770E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.6207360029221 Writing 4192 lines of data to file WAYNE write output data 3.889878034591675 ==w out 28 8384 2001 171704320 WAYNE PROCESS 463.7294480800629 ==w out 29 12579 PROCESSING KID# 7 ..... WAYNE IS IN Processing 23 to 25 by # 6 Processing block number 23 WAYNE PATCHES: 76825 85016 patch# 23 reference line: 80920 3.668 seconds. before reading done reading WAYNE load raw data , time = 53.20742201805115 ATTN ifrq ipol ln 0 3 85016 8.000000 IPOL, ITOP nblock 3 0 23 WAYNE Motion comp. coeff. calculated, time = 1.1665940284729004E-02 WAYNE Motion comp. added to patch, time = 18.60523700714111 WAYNE Doppler estimation done, time = 8.1062316894531250E-06 WAYNE write deskew done, time = 2.7350187301635742E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.4142320156097 Writing 4192 lines of data to file WAYNE write output data 12.04659104347229 ==w out 23 0 2001 0 WAYNE PROCESS 431.2899850606918 Processing block number 24 WAYNE PATCHES: 80317 88508 patch# 24 reference line: 84412 434.988 seconds. before reading done reading WAYNE load raw data , time = 98.24893295764923 ATTN ifrq ipol ln 0 3 88508 8.000000 IPOL, ITOP nblock 3 0 24 WAYNE Motion comp. coeff. calculated, time = 1.1749982833862305E-02 WAYNE Motion comp. added to patch, time = 18.41655302047729 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.6119112968444824E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 343.4654999971390 Writing 4192 lines of data to file WAYNE write output data 8.556830048561096 ==w out 24 4192 2001 85852160 WAYNE PROCESS 468.7277090549469 Processing block number 25 WAYNE PATCHES: 83809 92000 patch# 25 reference line: 87904 903.716 seconds. before reading done reading WAYNE load raw data , time = 73.42530405521393 ATTN ifrq ipol ln 0 3 92000 8.000000 IPOL, ITOP nblock 3 0 25 WAYNE Motion comp. coeff. calculated, time = 1.1201024055480957E-02 WAYNE Motion comp. added to patch, time = 16.94454503059387 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 4.9474954605102539E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.9326360225677 Writing 4192 lines of data to file WAYNE write output data 32.43742001056671 ==w out 25 8384 2001 171704320 WAYNE PROCESS 469.8019409179688 ==w out 26 12579 PROCESSING KID# 2 ..... WAYNE IS IN Processing 5 to 8 by # 1 Processing block number 5 WAYNE PATCHES: 13969 22160 patch# 5 reference line: 18064 3.594 seconds. before reading done reading WAYNE load raw data , time = 51.69608604907990 ATTN ifrq ipol ln 0 3 22160 8.000000 IPOL, ITOP nblock 3 0 5 WAYNE Motion comp. coeff. calculated, time = 1.1868000030517578E-02 WAYNE Motion comp. added to patch, time = 18.40594601631165 WAYNE Doppler estimation done, time = 8.1062316894531250E-06 WAYNE write deskew done, time = 2.6431083679199219E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.8384450674057 Writing 4192 lines of data to file WAYNE write output data 1.848344922065735 ==w out 5 0 2001 0 WAYNE PROCESS 417.8050069808960 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 421.399 seconds. before reading done reading WAYNE load raw data , time = 111.9043810367584 ATTN ifrq ipol ln 0 3 25652 8.000000 IPOL, ITOP nblock 3 0 6 WAYNE Motion comp. coeff. calculated, time = 1.2161970138549805E-02 WAYNE Motion comp. added to patch, time = 19.59977304935455 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 6.9046974182128906E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 343.1049239635468 Writing 4192 lines of data to file WAYNE write output data 10.39980900287628 ==w out 6 4192 2001 85852160 WAYNE PROCESS 485.0923900604248 Processing block number 7 WAYNE PATCHES: 20953 29144 patch# 7 reference line: 25048 906.492 seconds. before reading done reading WAYNE load raw data , time = 69.59923005104065 ATTN ifrq ipol ln 0 3 29144 8.000000 IPOL, ITOP nblock 3 0 7 WAYNE Motion comp. coeff. calculated, time = 1.0960936546325684E-02 WAYNE Motion comp. added to patch, time = 17.87456595897675 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 0.1028479337692261 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.9842149019241 Writing 4192 lines of data to file WAYNE write output data 12.17475891113281 ==w out 7 8384 2001 171704320 WAYNE PROCESS 446.7481338977814 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 1353.240 seconds. before reading done reading WAYNE load raw data , time = 73.23906803131104 ATTN ifrq ipol ln 0 3 32636 8.000000 IPOL, ITOP nblock 3 0 8 WAYNE Motion comp. coeff. calculated, time = 1.1644005775451660E-02 WAYNE Motion comp. added to patch, time = 16.41008794307709 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.3863911628723145E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migrati PROCESSING KID# 4 ..... WAYNE IS IN Processing 13 to 16 by # 3 Processing block number 13 WAYNE PATCHES: 41905 50096 patch# 13 reference line: 46000 3.624 seconds. before reading done reading WAYNE load raw data , time = 53.72136509418488 ATTN ifrq ipol ln 0 3 50096 8.000000 IPOL, ITOP nblock 3 0 13 WAYNE Motion comp. coeff. calculated, time = 1.1615037918090820E-02 WAYNE Motion comp. added to patch, time = 18.50390994548798 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.8220415115356445E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.2513940334320 Writing 4192 lines of data to file WAYNE write output data 3.645362973213196 ==w out 13 0 2001 0 WAYNE PROCESS 422.1381529569626 Processing block number 14 WAYNE PATCHES: 45397 53588 patch# 14 reference line: 49492 425.763 seconds. before reading done reading WAYNE load raw data , time = 92.68193101882935 ATTN ifrq ipol ln 0 3 53588 8.000000 IPOL, ITOP nblock 3 0 14 WAYNE Motion comp. coeff. calculated, time = 1.1450052261352539E-02 WAYNE Motion comp. added to patch, time = 17.66140699386597 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 4.2134046554565430E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 344.1646879911423 Writing 4192 lines of data to file WAYNE write output data 5.975664973258972 ==w out 14 4192 2001 85852160 WAYNE PROCESS 460.5392149686813 Processing block number 15 WAYNE PATCHES: 48889 57080 patch# 15 reference line: 52984 886.302 seconds. before reading done reading WAYNE load raw data , time = 90.81853806972504 ATTN ifrq ipol ln 0 3 57080 8.000000 IPOL, ITOP nblock 3 0 15 WAYNE Motion comp. coeff. calculated, time = 1.1173963546752930E-02 WAYNE Motion comp. added to patch, time = 17.34511005878448 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 1.2554049491882324E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.0480760335922 Writing 4192 lines of data to file WAYNE write output data 8.907271027565002 ==w out 15 8384 2001 171704320 WAYNE PROCESS 464.1441280841827 Processing block number 16 WAYNE PATCHES: 52381 60572 patch# 16 reference line: 56476 1350.447 seconds. before reading done reading WAYNE load raw data , time = 76.58415997028351 ATTN ifrq ipol ln 0 3 60572 8.000000 IPOL, ITOP nblock 3 0 16 WAYNE Motion comp. coeff. calculated, time = 1.1515974998474121E-02 WAYNE Motion comp. added to patch, time = 16.24655306339264 WAYNE Doppler estimation done, time = 9.8943710327148438E-06 WAYNE write deskew done, time = 1.2133955955505371E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migrati PROCESSING KID# 3 ..... WAYNE IS IN Processing 9 to 12 by # 2 Processing block number 9 WAYNE PATCHES: 27937 36128 patch# 9 reference line: 32032 3.610 seconds. before reading done reading WAYNE load raw data , time = 51.74662506580353 ATTN ifrq ipol ln 0 3 36128 8.000000 IPOL, ITOP nblock 3 0 9 WAYNE Motion comp. coeff. calculated, time = 1.1452913284301758E-02 WAYNE Motion comp. added to patch, time = 18.81073498725891 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.6770830154418945E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.4186480045319 Writing 4192 lines of data to file WAYNE write output data 5.467367053031921 ==w out 9 0 2001 0 WAYNE PROCESS 423.4591090679169 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 427.069 seconds. before reading done reading WAYNE load raw data , time = 89.83987796306610 ATTN ifrq ipol ln 0 3 39620 8.000000 IPOL, ITOP nblock 3 0 10 WAYNE Motion comp. coeff. calculated, time = 1.1448979377746582E-02 WAYNE Motion comp. added to patch, time = 17.63669705390930 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.3710966110229492E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.3230739831924 Writing 4192 lines of data to file WAYNE write output data 6.456951022148132 ==w out 10 4192 2001 85852160 WAYNE PROCESS 459.2936680316925 Processing block number 11 WAYNE PATCHES: 34921 43112 patch# 11 reference line: 39016 886.363 seconds. before reading done reading WAYNE load raw data , time = 89.83147895336151 ATTN ifrq ipol ln 0 3 43112 8.000000 IPOL, ITOP nblock 3 0 11 WAYNE Motion comp. coeff. calculated, time = 1.0971903800964355E-02 WAYNE Motion comp. added to patch, time = 17.25364303588867 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 0.1070009469985962 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.1137009859085 Writing 4192 lines of data to file WAYNE write output data 13.13269805908203 ==w out 11 8384 2001 171704320 WAYNE PROCESS 468.4508690834045 Processing block number 12 WAYNE PATCHES: 38413 46604 patch# 12 reference line: 42508 1354.976 seconds. before reading done reading WAYNE load raw data , time = 73.08501803874969 ATTN ifrq ipol ln 0 3 46604 8.000000 IPOL, ITOP nblock 3 0 12 WAYNE Motion comp. coeff. calculated, time = 1.1636018753051758E-02 WAYNE Motion comp. added to patch, time = 15.80787193775177 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.3364901542663574E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 272.2465150356293 Writing 4192 lines of data to file WAYNE write output data 1.765586018562317 ==w out 8 12576 2001 257556480 WAYNE PROCESS 363.6981810331345 ==w out 9 16771 on lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 272.4114319086075 Writing 4192 lines of data to file WAYNE write output data 1.825761079788208 ==w out 16 12576 2001 257556480 WAYNE PROCESS 367.0932149887085 ==w out 17 16771 tput data 11.23877310752869 ==w out 3 8384 2001 171704320 WAYNE PROCESS 454.7626920938492 Processing block number 4 TESTING WHY -5.3123902E-03 1.7652800E-02 3492 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 1353.258 seconds. TESTING 10477 before reading done reading WAYNE load raw data , time = 72.55402910709381 ATTN ifrq ipol ln 0 3 18668 8.000000 IPOL, ITOP nblock 3 0 4 WAYNE Motion comp. coeff. calculated, time = 1.1592984199523926E-02 TESTING 0.0000000E+00 -32.53371 -0.3230651 WAYNE Motion comp. added to patch, time = 16.26755607128143 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.8030037879943848E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -32.53371 -0.3230651 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -5.3123902E-03 1.7652800E-02 WAYNE Azimuth compression done, time = 273.7660259008408 Writing 4192 lines of data to file WAYNE write output data 1.821345090866089 ==w out 4 12576 2001 257556480 WAYNE PROCESS 364.4500010013580 ==w out 5 16771 on lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 273.0454310178757 Writing 4192 lines of data to file WAYNE write output data 1.729324102401733 ==w out 12 12576 2001 257556480 WAYNE PROCESS 363.7041450738907 ==w out 13 16771 1 8117340 0 2 8115819 0 3 8116768 0 4 8117393 0 5 8117016 0 6 8116591 0 7 8116923 0 8 8117136 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 117376kids= 8 Writing variable header... gather image from processor # 0 4 gather image from processor # 1 4 gather image from processor # 2 4 gather image from processor # 3 4 gather image from processor # 4 3 gather image from processor # 5 3 gather image from processor # 6 3 gather image from processor # 7 3 WAYNE gather images takes: 21.24829792976379 WAYNE LOOP TIME: 1744.916720986366 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air32/airops/1400/ts1400_p.vh_j /export/air36/airops/1400/ts1400_p.mocompv /export/air36/airops/1400/ts1400_p.dop /export/air36/airops/1400/ts1400_p.glb 2560 117376 update intf hdr ha: 8367.900 UPDATE: 2560 117376 3.331000 0.5144000 mocompfile /export/air36/airops/1400/ts1400_p.mocompv dopfile /export/air36/airops/1400/ts1400_p.dop globalfile /export/air36/airops/1400/ts1400_p.glb /export/air36/airops/1400/ts1400_p.glb 38 deskew line ra ha trc: 128.5260 249 9042.366 8367.900 54.57177 after deskew line ra ha trc: 128.5260 249 9042.366 8367.900 54.57177 lat1 lon1: 249 4.813068 114.7795 117376 last ra n_ns ns: 9042.366 1 1 117624 117376 lati loni: 117624 5.129428 115.2615 117624 1 center ra n_ns ns: 13302.71 1280 1280 58936 117376 lati loni: 58936 5.002770 114.9983 58936 2560 Updated paramater header in /export/air32/airops/1400/ts1400_p.vh_j WAYNE FINAL PROCESS 1748.397369027138 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 8 16768 4 16768 4 16768 4 16768 4 12576 3 12576 3 12576 3 12576 3 Name of data file to be deskewed? /export/air32/airops/1400/ts1400_p.vh_j Name of the doppler parameter file? /export/air36/airops/1400/ts1400_p.dop Name of the deskew file? /export/air32/airops/1400/deskew.pv Line up to another frequency [y/n]? y Name of the deskew file to line up to? /export/air32/airops/1400/deskew.ch Enter N_AZ, NA_VALID and the ratio of the pixel spacing of the file to line up to relative to the current pixel spacing. 4096 2208 1.000000 Name of the output file? /export/air36/airops/1400/ts1400_p.vh Name of the line output file? /export/air36/airops/1400/p_lines.dat NONE-SYMMETRIC PARALLEL JOBS Deskewing 28 patches Processing block number 1 patch iptc,sj,dgj,dgi,id: 1 1041 98 98 0 half line dmj dgc: 0 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1041 1 Zeroing lines in arrays Total # of output lines = 1 1040 1041 3137 0 2096 patch iptc,sj,dgj,dgi,id: 1 3137 98 98 2096 half line dmj dgc: 1 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3137 1041 Zeroing lines in arrays Total # of output lines = 1 3136 Processing block number 2 3137 4528 -5 1396 patch iptc,sj,dgj,dgi,id: 2 4528 93 98 1396 half line dmj dgc: 0 5493 243 114 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 4528 3137 Zeroing lines in arrays Total # of output lines = 2 4527 4528 6624 0 2096 patch iptc,sj,dgj,dgi,id: 2 6624 93 93 2096 half line dmj dgc: 1 5493 243 114 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 6624 4528 Zeroing lines in arrays Total # of output lines = 2 6623 Processing block number 3 6624 8035 15 1396 patch iptc,sj,dgj,dgi,id: 3 8035 108 93 1396 half line dmj dgc: 0 8985 243 114 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 8035 6624 Zeroing lines in arrays Total # of output lines = 3 8034 8035 10131 0 2096 patch iptc,sj,dgj,dgi,id: 3 10131 108 108 2096 half line dmj dgc: 1 8985 243 114 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 10131 8035 Zeroing lines in arrays Total # of output lines = 3 10130 Processing block number 4 10131 11546 19 1396 patch iptc,sj,dgj,dgi,id: 4 11546 127 108 1396 half line dmj dgc: 0 12477 251 114 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 11546 10131 Zeroing lines in arrays Total # of output lines = 4 11545 11546 13642 0 2096 patch iptc,sj,dgj,dgi,id: 4 13642 127 127 2096 half line dmj dgc: 1 12477 251 114 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 sj>s1: 13642 11546 Zeroing lines in arrays Total # of output lines = 4 13641 Processing block number 5 13642 15008 -30 1396 patch iptc,sj,dgj,dgi,id: 5 15008 97 127 1396 half line dmj dgc: 0 15969 251 114 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 15008 13642 Zeroing lines in arrays Total # of output lines = 5 15007 15008 17104 0 2096 patch iptc,sj,dgj,dgi,id: 5 720 97 97 2096 half line dmj dgc: 1 15969 251 114 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 s1>sj: 15008 720 Zeroing lines in arrays Total # of output lines = 5 17103 Processing block number 6 720 2050 -66 1396 patch iptc,sj,dgj,dgi,id: 6 2050 31 97 1396 half line dmj dgc: 0 19461 242 114 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 2050 720 Zeroing lines in arrays Total # of output lines = 6 18433 2050 4146 0 2096 patch iptc,sj,dgj,dgi,id: 6 4146 31 31 2096 half line dmj dgc: 1 19461 242 114 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 4146 2050 Zeroing lines in arrays Total # of output lines = 6 20529 Processing block number 7 4146 5525 -17 1396 patch iptc,sj,dgj,dgi,id: 7 5525 14 31 1396 half line dmj dgc: 0 22953 241 114 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 5525 4146 Zeroing lines in arrays Total # of output lines = 7 21908 5525 7621 0 2096 patch iptc,sj,dgj,dgi,id: 7 7621 14 14 2096 half line dmj dgc: 1 22953 241 114 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 7621 5525 Zeroing lines in arrays Total # of output lines = 7 24004 Processing block number 8 7621 9046 29 1396 patch iptc,sj,dgj,dgi,id: 8 9046 43 14 1396 half line dmj dgc: 0 26445 249 114 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 sj>s1: 9046 7621 Zeroing lines in arrays Total # of output lines = 8 25429 9046 11142 0 2096 patch iptc,sj,dgj,dgi,id: 8 11142 43 43 2096 half line dmj dgc: 1 26445 249 114 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 sj>s1: 11142 9046 Zeroing lines in arrays Total # of output lines = 8 27525 Processing block number 9 11142 12562 24 1396 patch iptc,sj,dgj,dgi,id: 9 12562 67 43 1396 half line dmj dgc: 0 29937 255 114 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 12562 11142 Zeroing lines in arrays Total # of output lines = 9 28945 12562 14658 0 2096 patch iptc,sj,dgj,dgi,id: 9 14658 67 67 2096 half line dmj dgc: 1 29937 255 114 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 14658 12562 Zeroing lines in arrays Total # of output lines = 9 31041 Processing block number 10 14658 16072 18 1396 patch iptc,sj,dgj,dgi,id: 10 16072 85 67 1396 half line dmj dgc: 0 33429 255 114 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 16072 14658 Zeroing lines in arrays Total # of output lines = 10 32455 16072 18168 0 2096 patch iptc,sj,dgj,dgi,id: 10 1784 85 85 2096 half line dmj dgc: 1 33429 255 114 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 s1>sj: 16072 1784 Zeroing lines in arrays Total # of output lines = 10 34551 Processing block number 11 1784 3217 37 1396 patch iptc,sj,dgj,dgi,id: 11 3217 122 85 1396 half line dmj dgc: 0 36921 260 114 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 3217 1784 Zeroing lines in arrays Total # of output lines = 11 35984 3217 5313 0 2096 patch iptc,sj,dgj,dgi,id: 11 5313 122 122 2096 half line dmj dgc: 1 36921 260 114 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 sj>s1: 5313 3217 Zeroing lines in arrays Total # of output lines = 11 38080 Processing block number 12 5313 6728 19 1396 patch iptc,sj,dgj,dgi,id: 12 6728 141 122 1396 half line dmj dgc: 0 40413 269 114 Actual deskew ireclen: 20480 ** 12 2096 0 48208 Writing data negflag .eq. 0 sj>s1: 6728 5313 Zeroing lines in arrays Total # of output lines = 12 39495 6728 8824 0 2096 patch iptc,sj,dgj,dgi,id: 12 8824 141 141 2096 half line dmj dgc: 1 40413 269 114 Actual deskew ireclen: 20480 ** 12 2096 1 50304 Writing data negflag .eq. 0 sj>s1: 8824 6728 Zeroing lines in arrays Total # of output lines = 12 41591 Processing block number 13 8824 10226 6 1396 patch iptc,sj,dgj,dgi,id: 13 10226 147 141 1396 half line dmj dgc: 0 43905 276 114 Actual deskew ireclen: 20480 ** 13 2096 0 52400 Writing data negflag .eq. 0 sj>s1: 10226 8824 Zeroing lines in arrays Total # of output lines = 13 42993 10226 12322 0 2096 patch iptc,sj,dgj,dgi,id: 13 12322 147 147 2096 half line dmj dgc: 1 43905 276 114 Actual deskew ireclen: 20480 ** 13 2096 1 54496 Writing data negflag .eq. 0 sj>s1: 12322 10226 Zeroing lines in arrays Total # of output lines = 13 45089 Processing block number 14 12322 13761 43 1396 patch iptc,sj,dgj,dgi,id: 14 13761 190 147 1396 half line dmj dgc: 0 47397 286 114 Actual deskew ireclen: 20480 ** 14 2096 0 56592 Writing data negflag .eq. 0 sj>s1: 13761 12322 Zeroing lines in arrays Total # of output lines = 14 46528 13761 15857 0 2096 patch iptc,sj,dgj,dgi,id: 14 15857 190 190 2096 half line dmj dgc: 1 47397 286 114 Actual deskew ireclen: 20480 ** 14 2096 1 58688 Writing data negflag .eq. 0 sj>s1: 15857 13761 Zeroing lines in arrays Total # of output lines = 14 48624 Processing block number 15 15857 17263 10 1396 patch iptc,sj,dgj,dgi,id: 15 879 200 190 1396 half line dmj dgc: 0 50889 286 114 Actual deskew ireclen: 20480 ** 15 2096 0 60784 Writing data negflag .eq. 0 s1>sj: 15857 879 Zeroing lines in arrays Total # of output lines = 15 50030 879 2975 0 2096 patch iptc,sj,dgj,dgi,id: 15 2975 200 200 2096 half line dmj dgc: 1 50889 286 114 Actual deskew ireclen: 20480 ** 15 2096 1 62880 Writing data negflag .eq. 0 sj>s1: 2975 879 Zeroing lines in arrays Total # of output lines = 15 52126 Processing block number 16 2975 4377 6 1396 patch iptc,sj,dgj,dgi,id: 16 4377 206 200 1396 half line dmj dgc: 0 54381 277 114 Actual deskew ireclen: 20480 ** 16 2096 0 64976 Writing data negflag .eq. 0 sj>s1: 4377 2975 Zeroing lines in arrays Total # of output lines = 16 53528 4377 6473 0 2096 patch iptc,sj,dgj,dgi,id: 16 6473 206 206 2096 half line dmj dgc: 1 54381 277 114 Actual deskew ireclen: 20480 ** 16 2096 1 67072 Writing data negflag .eq. 0 sj>s1: 6473 4377 Zeroing lines in arrays Total # of output lines = 16 55624 Processing block number 17 6473 7900 31 1396 patch iptc,sj,dgj,dgi,id: 17 7900 237 206 1396 half line dmj dgc: 0 57873 276 114 Actual deskew ireclen: 20480 ** 17 2096 0 69168 Writing data negflag .eq. 0 sj>s1: 7900 6473 Zeroing lines in arrays Total # of output lines = 17 57051 7900 9996 0 2096 patch iptc,sj,dgj,dgi,id: 17 9996 237 237 2096 half line dmj dgc: 1 57873 276 114 Actual deskew ireclen: 20480 ** 17 2096 1 71264 Writing data negflag .eq. 0 sj>s1: 9996 7900 Zeroing lines in arrays Total # of output lines = 17 59147 Processing block number 18 9996 11451 59 1396 patch iptc,sj,dgj,dgi,id: 18 11451 296 237 1396 half line dmj dgc: 0 61365 298 114 Actual deskew ireclen: 20480 ** 18 2096 0 73360 Writing data negflag .eq. 0 sj>s1: 11451 9996 Zeroing lines in arrays Total # of output lines = 18 60602 11451 13547 0 2096 patch iptc,sj,dgj,dgi,id: 18 13547 296 296 2096 half line dmj dgc: 1 61365 298 114 Actual deskew ireclen: 20480 ** 18 2096 1 75456 Writing data negflag .eq. 0 sj>s1: 13547 11451 Zeroing lines in arrays Total # of output lines = 18 62698 Processing block number 19 13547 14936 -7 1396 patch iptc,sj,dgj,dgi,id: 19 14936 289 296 1396 half line dmj dgc: 0 64857 293 114 Actual deskew ireclen: 20480 ** 19 2096 0 77552 Writing data negflag .eq. 0 sj>s1: 14936 13547 Zeroing lines in arrays Total # of output lines = 19 64087 14936 17032 0 2096 patch iptc,sj,dgj,dgi,id: 19 648 289 289 2096 half line dmj dgc: 1 64857 293 114 Actual deskew ireclen: 20480 ** 19 2096 1 79648 Writing data negflag .eq. 0 s1>sj: 14936 648 Zeroing lines in arrays Total # of output lines = 19 66183 Processing block number 20 648 2015 -29 1396 patch iptc,sj,dgj,dgi,id: 20 2015 260 289 1396 half line dmj dgc: 0 68349 279 114 Actual deskew ireclen: 20480 ** 20 2096 0 81744 Writing data negflag .eq. 0 sj>s1: 2015 648 Zeroing lines in arrays Total # of output lines = 20 67550 2015 4111 0 2096 patch iptc,sj,dgj,dgi,id: 20 4111 260 260 2096 half line dmj dgc: 1 68349 279 114 Actual deskew ireclen: 20480 ** 20 2096 1 83840 Writing data negflag .eq. 0 sj>s1: 4111 2015 Zeroing lines in arrays Total # of output lines = 20 69646 Processing block number 21 4111 5541 34 1396 patch iptc,sj,dgj,dgi,id: 21 5541 294 260 1396 half line dmj dgc: 0 71841 300 114 Actual deskew ireclen: 20480 ** 21 2096 0 85936 Writing data negflag .eq. 0 sj>s1: 5541 4111 Zeroing lines in arrays Total # of output lines = 21 71076 5541 7637 0 2096 patch iptc,sj,dgj,dgi,id: 21 7637 294 294 2096 half line dmj dgc: 1 71841 300 114 Actual deskew ireclen: 20480 ** 21 2096 1 88032 Writing data negflag .eq. 0 sj>s1: 7637 5541 Zeroing lines in arrays Total # of output lines = 21 73172 Processing block number 22 7637 9056 23 1396 patch iptc,sj,dgj,dgi,id: 22 9056 317 294 1396 half line dmj dgc: 0 75333 330 114 Actual deskew ireclen: 20480 ** 22 2096 0 90128 Writing data negflag .eq. 0 sj>s1: 9056 7637 Zeroing lines in arrays Total # of output lines = 22 74591 9056 11152 0 2096 patch iptc,sj,dgj,dgi,id: 22 11152 317 317 2096 half line dmj dgc: 1 75333 330 114 Actual deskew ireclen: 20480 ** 22 2096 1 92224 Writing data negflag .eq. 0 sj>s1: 11152 9056 Zeroing lines in arrays Total # of output lines = 22 76687 Processing block number 23 11152 12510 -38 1396 patch iptc,sj,dgj,dgi,id: 23 12510 279 317 1396 half line dmj dgc: 0 78825 308 114 Actual deskew ireclen: 20480 ** 23 2096 0 94320 Writing data negflag .eq. 0 sj>s1: 12510 11152 Zeroing lines in arrays Total # of output lines = 23 78045 12510 14606 0 2096 patch iptc,sj,dgj,dgi,id: 23 14606 279 279 2096 half line dmj dgc: 1 78825 308 114 Actual deskew ireclen: 20480 ** 23 2096 1 96416 Writing data negflag .eq. 0 sj>s1: 14606 12510 Zeroing lines in arrays Total # of output lines = 23 80141 Processing block number 24 14606 15942 -60 1396 patch iptc,sj,dgj,dgi,id: 24 15942 219 279 1396 half line dmj dgc: 0 82317 284 114 Actual deskew ireclen: 20480 ** 24 2096 0 98512 Writing data negflag .eq. 0 sj>s1: 15942 14606 Zeroing lines in arrays Total # of output lines = 24 81477 15942 18038 0 2096 patch iptc,sj,dgj,dgi,id: 24 1654 219 219 2096 half line dmj dgc: 1 82317 284 114 Actual deskew ireclen: 20480 ** 24 2096 1 100608 Writing data negflag .eq. 0 s1>sj: 15942 1654 Zeroing lines in arrays Total # of output lines = 24 83573 Processing block number 25 1654 3047 -3 1396 patch iptc,sj,dgj,dgi,id: 25 3047 216 219 1396 half line dmj dgc: 0 85809 279 114 Actual deskew ireclen: 20480 ** 25 2096 0 102704 Writing data negflag .eq. 0 sj>s1: 3047 1654 Zeroing lines in arrays Total # of output lines = 25 84966 3047 5143 0 2096 patch iptc,sj,dgj,dgi,id: 25 5143 216 216 2096 half line dmj dgc: 1 85809 279 114 Actual deskew ireclen: 20480 ** 25 2096 1 104800 Writing data negflag .eq. 0 sj>s1: 5143 3047 Zeroing lines in arrays Total # of output lines = 25 87062 Processing block number 26 5143 6581 42 1396 patch iptc,sj,dgj,dgi,id: 26 6581 258 216 1396 half line dmj dgc: 0 89301 297 114 Actual deskew ireclen: 20480 ** 26 2096 0 106896 Writing data negflag .eq. 0 sj>s1: 6581 5143 Zeroing lines in arrays Total # of output lines = 26 88500 6581 8677 0 2096 patch iptc,sj,dgj,dgi,id: 26 8677 258 258 2096 half line dmj dgc: 1 89301 297 114 Actual deskew ireclen: 20480 ** 26 2096 1 108992 Writing data negflag .eq. 0 sj>s1: 8677 6581 Zeroing lines in arrays Total # of output lines = 26 90596 Processing block number 27 8677 10067 -6 1396 patch iptc,sj,dgj,dgi,id: 27 10067 252 258 1396 half line dmj dgc: 0 92793 306 114 Actual deskew ireclen: 20480 ** 27 2096 0 111088 Writing data negflag .eq. 0 sj>s1: 10067 8677 Zeroing lines in arrays Total # of output lines = 27 91986 10067 12163 0 2096 patch iptc,sj,dgj,dgi,id: 27 12163 252 252 2096 half line dmj dgc: 1 92793 306 114 Actual deskew ireclen: 20480 ** 27 2096 1 113184 Writing data negflag .eq. 0 sj>s1: 12163 10067 Zeroing lines in arrays Total # of output lines = 27 94082 Processing block number 28 12163 11063 -19 -1081 patch iptc,sj,dgj,dgi,id: 28 11063 233 252 -1081 half line dmj dgc: 0 93808 312 114 Actual deskew ireclen: 20480 ** 28 2096 0 115280 Zeroing lines in arrays Total # of output lines = 28 94082 12163 13159 0 2096 patch iptc,sj,dgj,dgi,id: 28 13159 233 233 2096 half line dmj dgc: 1 93808 312 114 Actual deskew ireclen: 20480 ** 28 2096 1 117376 Writing data negflag .eq. 0 sj>s1: 13159 12163 Zeroing lines in arrays Total # of output lines = 28 95078 ia dmi dgi: 13159 312 233 Writing the last 2175 lines last half sj>s1 15334 13159 95078 Total # of output lines = 97253 Writing new header.. Closing files .. ileni= 39 ilend= 35 /export/air32/airops/1400/ts1400_p.vh_j.0 /export/air32/airops/1400/deskew.pv.0 /export/air32/airops/1400/ts1400_p.vh_j.1 /export/air32/airops/1400/deskew.pv.1 /export/air32/airops/1400/ts1400_p.vh_j.2 /export/air32/airops/1400/deskew.pv.2 /export/air32/airops/1400/ts1400_p.vh_j.3 /export/air32/airops/1400/deskew.pv.3 /export/air32/airops/1400/ts1400_p.vh_j.4 /export/air32/airops/1400/deskew.pv.4 /export/air32/airops/1400/ts1400_p.vh_j.5 /export/air32/airops/1400/deskew.pv.5 /export/air32/airops/1400/ts1400_p.vh_j.6 /export/air32/airops/1400/deskew.pv.6 /export/air32/airops/1400/ts1400_p.vh_j.7 /export/air32/airops/1400/deskew.pv.7 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.35 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 1 AZ patch size: 8192 What is the desired az fract (def=1.0)? fract #: 0.0000000E+00 Please enter the name of the sensor file. /export/air32/airops/1400/sensor.pp Please enter the name of the parameter file /export/air36/airops/1400/ts1400_p.par hddt: 96068 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 100000 lines Keeping 4192 data points per patch Near range (m) = 9040.540 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 3.500000 Radar wavelength (m) = 0.7012700 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = -1.450000 Range weighting coefficient = 0.1000000 Map height (m) = 78.60000 Transmit leverarm x,y,z = 2.030000 0.5300000 -0.2200000 Receive leverarm x,y,z = 2.030000 0.5300000 -0.2200000 Name of raw data file? /export/air32/airops/1400/p_vv Name of the mocomp data file? /export/air36/airops/1400/ts1400_p.mocompv Output file name w/o ext? /export/air36/airops/1400/ts1400_p Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. vv Raw DIR Path:/export/air32/airops/1400/ output filename: /export/air32/airops/1400/ts1400_p.vv_j *** ipol itop: 4 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /export/air32/airops/1400/deskew.pv WAYNE init fft, calc slant range, load unpack, interpo 1.6433001E-02 reading motion compensation data WAYNE read motion compen 2.318576 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 AnalogChirp>96032Br,fs,T,fc 96068 40.00000 22.50000 90.00000 10.00000 deltaphase -ashift: 2.2242721E-03 1.450000 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.7500389 start range comp, time = 3.347 WAYNE PREV 3.103235 NUMBER OF PROCESSOR USED = 8 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 5 ..... WAYNE IS IN Processing 17 to 19 by # 4 Processing block number 17 WAYNE PATCHES: 55873 64064 patch# 17 reference line: 59968 3.628 seconds. before reading done reading WAYNE load raw data , time = 53.54409408569336 ATTN ifrq ipol ln 0 4 64064 14.00000 IPOL, ITOP nblock 4 0 17 WAYNE Motion comp. coeff. calculated, time = 1.1452078819274902E-02 WAYNE Motion comp. added to patch, time = 18.54941201210022 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.7459859848022461E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.8637870550156 Writing 4192 lines of data to file WAYNE write output data 5.773120999336243 ==w out 17 0 2001 0 WAYNE PROCESS 424.7462890148163 Processing block number 18 WAYNE PATCHES: 59365 67556 patch# 18 reference line: 63460 428.375 seconds. before reading done reading WAYNE load raw data , time = 92.73905193805695 ATTN ifrq ipol ln 0 4 67556 14.00000 IPOL, ITOP nblock 4 0 18 WAYNE Motion comp. coeff. calculated, time = 1.1440992355346680E-02 WAYNE Motion comp. added to patch, time = 18.09069609642029 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 3.3436059951782227E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 342.5144959688187 Writing 4192 lines of data to file WAYNE write output data 2.094581007957458 ==w out 18 4192 2001 85852160 WAYNE PROCESS 455.4855030775070 Processing block number 19 WAYNE PATCHES: 62857 71048 patch# 19 reference line: 66952 883.860 seconds. before reading done reading WAYNE load raw data , time = 92.65648508071899 ATTN ifrq ipol ln 0 4 71048 14.00000 IPOL, ITOP nblock 4 0 19 WAYNE Motion comp. coeff. calculated, time = 1.8660068511962891E-02 WAYNE Motion comp. added to patch, time = 17.21665596961975 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.7797937393188477E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.5404280424118 Writing 4192 lines of data to file WAYNE write output data 2.005507946014404 ==w out 19 8384 2001 171704320 WAYNE PROCESS 458.4670689105988 ==w out 20 12579 PROCESSING KID# 6 ..... WAYNE IS IN Processing 20 to 22 by # 5 Processing block number 20 WAYNE PATCHES: 66349 74540 patch# 20 reference line: 70444 3.636 seconds. before reading done reading WAYNE load raw data , time = 53.72238898277283 ATTN ifrq ipol ln 0 4 74540 14.00000 IPOL, ITOP nblock 4 0 20 WAYNE Motion comp. coeff. calculated, time = 1.1536002159118652E-02 WAYNE Motion comp. added to patch, time = 18.21612393856049 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.7799606323242188E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.1466140747070 Writing 4192 lines of data to file WAYNE write output data 7.905995011329651 ==w out 20 0 2001 0 WAYNE PROCESS 428.0073089599609 Processing block number 21 WAYNE PATCHES: 69841 78032 patch# 21 reference line: 73936 431.644 seconds. before reading done reading WAYNE load raw data , time = 96.26495301723480 ATTN ifrq ipol ln 0 4 78032 14.00000 IPOL, ITOP nblock 4 0 21 WAYNE Motion comp. coeff. calculated, time = 1.1539936065673828E-02 WAYNE Motion comp. added to patch, time = 17.81309294700623 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 4.2297005653381348E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 343.2609339952469 Writing 4192 lines of data to file WAYNE write output data 2.085878968238831 ==w out 21 4192 2001 85852160 WAYNE PROCESS 459.4806120395660 Processing block number 22 WAYNE PATCHES: 73333 81524 patch# 22 reference line: 77428 891.125 seconds. before reading done reading WAYNE load raw data , time = 91.22385406494141 ATTN ifrq ipol ln 0 4 81524 14.00000 IPOL, ITOP nblock 4 0 22 WAYNE Motion comp. coeff. calculated, time = 1.0900974273681641E-02 WAYNE Motion comp. added to patch, time = 17.48320400714874 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 3.1952023506164551E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.1269899606705 Writing 4192 lines of data to file WAYNE write output data 1.969478011131287 ==w out 22 8384 2001 171704320 WAYNE PROCESS 457.8476999998093 ==w out 23 12579 PROCESSING KID# 8 ..... WAYNE IS IN Processing 26 to 28 by # 7 Processing block number 26 WAYNE PATCHES: 87301 95492 patch# 26 reference line: 91396 3.662 seconds. before reading done reading WAYNE load raw data , time = 52.97867405414581 ATTN ifrq ipol ln 0 4 95492 14.00000 IPOL, ITOP nblock 4 0 26 WAYNE Motion comp. coeff. calculated, time = 1.1577010154724121E-02 WAYNE Motion comp. added to patch, time = 17.99558401107788 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.6689767837524414E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.7519840002060 Writing 4192 lines of data to file WAYNE write output data 2.028015971183777 ==w out 26 0 2001 0 WAYNE PROCESS 419.7700790166855 Processing block number 27 WAYNE PATCHES: 90793 98984 patch# 27 reference line: 94888 423.433 seconds. before reading done reading WAYNE load raw data , time = 119.1275489330292 ATTN ifrq ipol ln 0 4 98984 14.00000 IPOL, ITOP nblock 4 0 27 WAYNE Motion comp. coeff. calculated, time = 1.1649012565612793E-02 WAYNE Motion comp. added to patch, time = 17.45168805122375 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.4600982666015625E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 342.4489959478378 Writing 4192 lines of data to file WAYNE write output data 9.180798053741455 ==w out 27 4192 2001 85852160 WAYNE PROCESS 488.2474520206451 Processing block number 28 WAYNE PATCHES: 91808 99999 patch# 28 reference line: 95903 911.681 seconds. before reading done reading WAYNE load raw data , time = 71.84109199047089 ATTN ifrq ipol ln 0 4 99999 14.00000 IPOL, ITOP nblock 4 0 28 WAYNE Motion comp. coeff. calculated, time = 1.3453006744384766E-02 WAYNE Motion comp. added to patch, time = 16.92760992050171 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 1.8108963966369629E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.3679349422455 Writing 4192 lines of data to file WAYNE write output data 2.167324066162109 ==w out 28 8384 2001 171704320 WAYNE PROCESS 438.3370800018311 ==w out 29 12579 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 4 by # 0 Processing block number 1 TESTING WHY -6.4741098E-03 1.8001201E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 3.577 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 52.70041596889496 ATTN ifrq ipol ln 0 4 8192 14.00000 IPOL, ITOP nblock 4 0 1 WAYNE Motion comp. coeff. calculated, time = 1.1587023735046387E-02 TESTING 0.0000000E+00 -47.83489 0.2210412 WAYNE Motion comp. added to patch, time = 18.93548905849457 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.6860237121582031E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -47.83489 0.2210412 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -6.4741098E-03 1.8001201E-02 WAYNE Azimuth compression done, time = 347.9439649581909 Writing 4192 lines of data to file WAYNE write output data 4.841403007507324 ==w out 1 0 2001 0 WAYNE PROCESS 424.4370219707489 Processing block number 2 TESTING WHY -6.4040902E-03 1.7581699E-02 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 428.016 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 118.9838650226593 ATTN ifrq ipol ln 0 4 11684 14.00000 IPOL, ITOP nblock 4 0 2 WAYNE Motion comp. coeff. calculated, time = 1.1737942695617676E-02 TESTING 0.0000000E+00 -42.32028 0.4159560 WAYNE Motion comp. added to patch, time = 18.12996995449066 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.7593016624450684E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -42.32028 0.4159560 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -6.4040902E-03 1.7581699E-02 WAYNE Azimuth compression done, time = 343.1320470571518 Writing 4192 lines of data to file WAYNE write output data 8.147101044654846 ==w out 2 4192 2001 85852160 WAYNE PROCESS 488.4338040351868 Processing block number 3 TESTING WHY -5.7757902E-03 1.7326901E-02 3492 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 916.450 seconds. TESTING 6985 before reading done reading WAYNE load raw data , time = 67.43555092811584 ATTN ifrq ipol ln 0 4 15176 14.00000 IPOL, ITOP nblock 4 0 3 WAYNE Motion comp. coeff. calculated, time = 1.1332035064697266E-02 TESTING 0.0000000E+00 -37.07550 0.3170763 WAYNE Motion comp. added to patch, time = 17.86979699134827 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 6.9318056106567383E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -37.07550 0.3170763 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -5.7757902E-03 1.7326901E-02 WAYNE Azimuth compression done, time = 346.7692999839783 Writing 4192 lines of data to file WAYNE write ou PROCESSING KID# 7 ..... WAYNE IS IN Processing 23 to 25 by # 6 Processing block number 23 WAYNE PATCHES: 76825 85016 patch# 23 reference line: 80920 3.651 seconds. before reading done reading WAYNE load raw data , time = 53.80032992362976 ATTN ifrq ipol ln 0 4 85016 14.00000 IPOL, ITOP nblock 4 0 23 WAYNE Motion comp. coeff. calculated, time = 1.4953970909118652E-02 WAYNE Motion comp. added to patch, time = 18.41718196868896 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.6639699935913086E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.9328689575195 Writing 4192 lines of data to file WAYNE write output data 35.58283591270447 ==w out 23 0 2001 0 WAYNE PROCESS 455.7528129816055 Processing block number 24 WAYNE PATCHES: 80317 88508 patch# 24 reference line: 84412 459.457 seconds. before reading done reading WAYNE load raw data , time = 86.21751105785370 ATTN ifrq ipol ln 0 4 88508 14.00000 IPOL, ITOP nblock 4 0 24 WAYNE Motion comp. coeff. calculated, time = 1.1826038360595703E-02 WAYNE Motion comp. added to patch, time = 17.67409110069275 WAYNE Doppler estimation done, time = 9.8943710327148438E-06 WAYNE write deskew done, time = 0.1343400478363037 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 343.6427710056305 Writing 4192 lines of data to file WAYNE write output data 8.073357939720154 ==w out 24 4192 2001 85852160 WAYNE PROCESS 455.7561240196228 Processing block number 25 WAYNE PATCHES: 83809 92000 patch# 25 reference line: 87904 915.213 seconds. before reading done reading WAYNE load raw data , time = 69.47301089763641 ATTN ifrq ipol ln 0 4 92000 14.00000 IPOL, ITOP nblock 4 0 25 WAYNE Motion comp. coeff. calculated, time = 1.1034011840820313E-02 WAYNE Motion comp. added to patch, time = 17.23136293888092 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 3.3382058143615723E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.0168820619583 Writing 4192 lines of data to file WAYNE write output data 21.33406603336334 ==w out 25 8384 2001 171704320 WAYNE PROCESS 455.1015000343323 ==w out 26 12579 PROCESSING KID# 3 ..... WAYNE IS IN Processing 9 to 12 by # 2 Processing block number 9 WAYNE PATCHES: 27937 36128 patch# 9 reference line: 32032 3.607 seconds. before reading done reading WAYNE load raw data , time = 52.29791009426117 ATTN ifrq ipol ln 0 4 36128 14.00000 IPOL, ITOP nblock 4 0 9 WAYNE Motion comp. coeff. calculated, time = 1.2272000312805176E-02 WAYNE Motion comp. added to patch, time = 18.80511498451233 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.5839805603027344E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.2602139711380 Writing 4192 lines of data to file WAYNE write output data 6.700371980667114 ==w out 9 0 2001 0 WAYNE PROCESS 425.0800989866257 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 428.688 seconds. before reading done reading WAYNE load raw data , time = 91.61332201957703 ATTN ifrq ipol ln 0 4 39620 14.00000 IPOL, ITOP nblock 4 0 10 WAYNE Motion comp. coeff. calculated, time = 1.1424899101257324E-02 WAYNE Motion comp. added to patch, time = 17.89411592483521 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 3.1360983848571777E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 342.5501540899277 Writing 4192 lines of data to file WAYNE write output data 2.021816968917847 ==w out 10 4192 2001 85852160 WAYNE PROCESS 454.1240209341049 Processing block number 11 WAYNE PATCHES: 34921 43112 patch# 11 reference line: 39016 882.812 seconds. before reading done reading WAYNE load raw data , time = 91.30687296390533 ATTN ifrq ipol ln 0 4 43112 14.00000 IPOL, ITOP nblock 4 0 11 WAYNE Motion comp. coeff. calculated, time = 1.1091947555541992E-02 WAYNE Motion comp. added to patch, time = 17.30500304698944 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 4.4047951698303223E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.9822509288788 Writing 4192 lines of data to file WAYNE write output data 1.878607988357544 ==w out 11 8384 2001 171704320 WAYNE PROCESS 456.5292350053787 Processing block number 12 WAYNE PATCHES: 38413 46604 patch# 12 reference line: 42508 1339.341 seconds. before reading done reading WAYNE load raw data , time = 87.69527006149292 ATTN ifrq ipol ln 0 4 46604 14.00000 IPOL, ITOP nblock 4 0 12 WAYNE Motion comp. coeff. calculated, time = 1.1137962341308594E-02 WAYNE Motion comp. added to patch, time = 15.46337497234344 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.0854949951171875E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migrati PROCESSING KID# 4 ..... WAYNE IS IN Processing 13 to 16 by # 3 Processing block number 13 WAYNE PATCHES: 41905 50096 patch# 13 reference line: 46000 3.620 seconds. before reading done reading WAYNE load raw data , time = 53.42469906806946 ATTN ifrq ipol ln 0 4 50096 14.00000 IPOL, ITOP nblock 4 0 13 WAYNE Motion comp. coeff. calculated, time = 1.1483907699584961E-02 WAYNE Motion comp. added to patch, time = 18.34288203716278 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.7559995651245117E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.1598130464554 Writing 4192 lines of data to file WAYNE write output data 3.808086991310120 ==w out 13 0 2001 0 WAYNE PROCESS 422.7513239383698 Processing block number 14 WAYNE PATCHES: 45397 53588 patch# 14 reference line: 49492 426.372 seconds. before reading done reading WAYNE load raw data , time = 114.6219950914383 ATTN ifrq ipol ln 0 4 53588 14.00000 IPOL, ITOP nblock 4 0 14 WAYNE Motion comp. coeff. calculated, time = 4.8022985458374023E-02 WAYNE Motion comp. added to patch, time = 17.93177199363708 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 3.9595007896423340E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 343.1256009340286 Writing 4192 lines of data to file WAYNE write output data 1.816791057586670 ==w out 14 4192 2001 85852160 WAYNE PROCESS 477.5857840776443 Processing block number 15 WAYNE PATCHES: 48889 57080 patch# 15 reference line: 52984 903.958 seconds. before reading done reading WAYNE load raw data , time = 79.17843604087830 ATTN ifrq ipol ln 0 4 57080 14.00000 IPOL, ITOP nblock 4 0 15 WAYNE Motion comp. coeff. calculated, time = 1.0893940925598145E-02 WAYNE Motion comp. added to patch, time = 17.41744291782379 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.4147033691406250E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.5295079946518 Writing 4192 lines of data to file WAYNE write output data 2.266594052314758 ==w out 15 8384 2001 171704320 WAYNE PROCESS 446.4283740520477 Processing block number 16 WAYNE PATCHES: 52381 60572 patch# 16 reference line: 56476 1350.386 seconds. before reading done reading WAYNE load raw data , time = 79.91804790496826 ATTN ifrq ipol ln 0 4 60572 14.00000 IPOL, ITOP nblock 4 0 16 WAYNE Motion comp. coeff. calculated, time = 1.1015057563781738E-02 WAYNE Motion comp. added to patch, time = 15.91052103042603 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.3454070091247559E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migrati PROCESSING KID# 2 ..... WAYNE IS IN Processing 5 to 8 by # 1 Processing block number 5 WAYNE PATCHES: 13969 22160 patch# 5 reference line: 18064 3.594 seconds. before reading done reading WAYNE load raw data , time = 52.32265508174896 ATTN ifrq ipol ln 0 4 22160 14.00000 IPOL, ITOP nblock 4 0 5 WAYNE Motion comp. coeff. calculated, time = 1.1655926704406738E-02 WAYNE Motion comp. added to patch, time = 18.46101105213165 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.6040077209472656E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.8513259887695 Writing 4192 lines of data to file WAYNE write output data 2.037111997604370 ==w out 5 0 2001 0 WAYNE PROCESS 419.6878540515900 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 423.282 seconds. before reading done reading WAYNE load raw data , time = 126.6344329118729 ATTN ifrq ipol ln 0 4 25652 14.00000 IPOL, ITOP nblock 4 0 6 WAYNE Motion comp. coeff. calculated, time = 1.1857986450195313E-02 WAYNE Motion comp. added to patch, time = 18.22313094139099 WAYNE Doppler estimation done, time = 9.8943710327148438E-06 WAYNE write deskew done, time = 2.7462959289550781E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 340.9296768903732 Writing 4192 lines of data to file WAYNE write output data 12.34283792972565 ==w out 6 4192 2001 85852160 WAYNE PROCESS 498.1714529991150 Processing block number 7 WAYNE PATCHES: 20953 29144 patch# 7 reference line: 25048 921.454 seconds. before reading done reading WAYNE load raw data , time = 62.42861700057983 ATTN ifrq ipol ln 0 4 29144 14.00000 IPOL, ITOP nblock 4 0 7 WAYNE Motion comp. coeff. calculated, time = 1.1114954948425293E-02 WAYNE Motion comp. added to patch, time = 17.73729705810547 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 3.8151025772094727E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.9394420385361 Writing 4192 lines of data to file WAYNE write output data 19.62162899971008 ==w out 7 8384 2001 171704320 WAYNE PROCESS 445.7779350280762 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 1367.232 seconds. before reading done reading WAYNE load raw data , time = 63.10473704338074 ATTN ifrq ipol ln 0 4 32636 14.00000 IPOL, ITOP nblock 4 0 8 WAYNE Motion comp. coeff. calculated, time = 1.1085987091064453E-02 WAYNE Motion comp. added to patch, time = 16.30693101882935 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.7074933052062988E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 271.0222070217133 Writing 4192 lines of data to file WAYNE write output data 1.646237969398499 ==w out 12 12576 2001 257556480 WAYNE PROCESS 375.8604409694672 ==w out 13 16771 on lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 268.6419969797134 Writing 4192 lines of data to file WAYNE write output data 1.653308033943176 ==w out 8 12576 2001 257556480 WAYNE PROCESS 349.7464160919189 ==w out 9 16771 on lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 271.4616709947586 Writing 4192 lines of data to file WAYNE write output data 1.637107014656067 ==w out 16 12576 2001 257556480 WAYNE PROCESS 368.9630870819092 ==w out 17 16771 tput data 21.69007694721222 ==w out 3 8384 2001 171704320 WAYNE PROCESS 453.8468790054321 Processing block number 4 TESTING WHY -5.3123902E-03 1.7652800E-02 3492 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 1370.297 seconds. TESTING 10477 before reading done reading WAYNE load raw data , time = 61.17436397075653 ATTN ifrq ipol ln 0 4 18668 14.00000 IPOL, ITOP nblock 4 0 4 WAYNE Motion comp. coeff. calculated, time = 1.0954022407531738E-02 TESTING 0.0000000E+00 -32.53371 -0.3230651 WAYNE Motion comp. added to patch, time = 15.93704497814178 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.2413015365600586E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -32.53371 -0.3230651 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -5.3123902E-03 1.7652800E-02 WAYNE Azimuth compression done, time = 272.0557249784470 Writing 4192 lines of data to file WAYNE write output data 1.640702962875366 ==w out 4 12576 2001 257556480 WAYNE PROCESS 350.8424520492554 ==w out 5 16771 1 8148476 0 2 8148999 0 3 8146974 0 4 8148587 0 5 8149408 0 6 8148692 0 7 8147857 0 8 8150080 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 117376kids= 8 Writing variable header... gather image from processor # 0 4 gather image from processor # 1 4 gather image from processor # 2 4 gather image from processor # 3 4 gather image from processor # 4 3 gather image from processor # 5 3 gather image from processor # 6 3 gather image from processor # 7 3 WAYNE gather images takes: 12.54936289787292 WAYNE LOOP TIME: 1743.468827962875 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air32/airops/1400/ts1400_p.vv_j /export/air36/airops/1400/ts1400_p.mocompv /export/air36/airops/1400/ts1400_p.dop /export/air36/airops/1400/ts1400_p.glb 2560 117376 update intf hdr ha: 8367.900 UPDATE: 2560 117376 3.331000 0.5144000 mocompfile /export/air36/airops/1400/ts1400_p.mocompv dopfile /export/air36/airops/1400/ts1400_p.dop globalfile /export/air36/airops/1400/ts1400_p.glb /export/air36/airops/1400/ts1400_p.glb 38 deskew line ra ha trc: 128.5260 249 9042.366 8367.900 54.57177 after deskew line ra ha trc: 128.5260 249 9042.366 8367.900 54.57177 lat1 lon1: 249 4.813068 114.7795 117376 last ra n_ns ns: 9042.366 1 1 117624 117376 lati loni: 117624 5.129428 115.2615 117624 1 center ra n_ns ns: 13302.71 1280 1280 58936 117376 lati loni: 58936 5.002770 114.9983 58936 2560 Updated paramater header in /export/air32/airops/1400/ts1400_p.vv_j WAYNE FINAL PROCESS 1746.925078988075 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 8 16768 4 16768 4 16768 4 16768 4 12576 3 12576 3 12576 3 12576 3 Name of data file to be deskewed? /export/air32/airops/1400/ts1400_p.vv_j Name of the doppler parameter file? /export/air36/airops/1400/ts1400_p.dop Name of the deskew file? /export/air32/airops/1400/deskew.pv Line up to another frequency [y/n]? y Name of the deskew file to line up to? /export/air32/airops/1400/deskew.ch Enter N_AZ, NA_VALID and the ratio of the pixel spacing of the file to line up to relative to the current pixel spacing. 4096 2208 1.000000 Name of the output file? /export/air36/airops/1400/ts1400_p.vv Name of the line output file? /export/air36/airops/1400/p_lines.dat NONE-SYMMETRIC PARALLEL JOBS Deskewing 28 patches Processing block number 1 patch iptc,sj,dgj,dgi,id: 1 1041 98 98 0 half line dmj dgc: 0 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1041 1 Zeroing lines in arrays Total # of output lines = 1 1040 1041 3137 0 2096 patch iptc,sj,dgj,dgi,id: 1 3137 98 98 2096 half line dmj dgc: 1 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3137 1041 Zeroing lines in arrays Total # of output lines = 1 3136 Processing block number 2 3137 4528 -5 1396 patch iptc,sj,dgj,dgi,id: 2 4528 93 98 1396 half line dmj dgc: 0 5493 243 114 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 4528 3137 Zeroing lines in arrays Total # of output lines = 2 4527 4528 6624 0 2096 patch iptc,sj,dgj,dgi,id: 2 6624 93 93 2096 half line dmj dgc: 1 5493 243 114 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 6624 4528 Zeroing lines in arrays Total # of output lines = 2 6623 Processing block number 3 6624 8035 15 1396 patch iptc,sj,dgj,dgi,id: 3 8035 108 93 1396 half line dmj dgc: 0 8985 243 114 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 8035 6624 Zeroing lines in arrays Total # of output lines = 3 8034 8035 10131 0 2096 patch iptc,sj,dgj,dgi,id: 3 10131 108 108 2096 half line dmj dgc: 1 8985 243 114 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 10131 8035 Zeroing lines in arrays Total # of output lines = 3 10130 Processing block number 4 10131 11546 19 1396 patch iptc,sj,dgj,dgi,id: 4 11546 127 108 1396 half line dmj dgc: 0 12477 251 114 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 11546 10131 Zeroing lines in arrays Total # of output lines = 4 11545 11546 13642 0 2096 patch iptc,sj,dgj,dgi,id: 4 13642 127 127 2096 half line dmj dgc: 1 12477 251 114 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 sj>s1: 13642 11546 Zeroing lines in arrays Total # of output lines = 4 13641 Processing block number 5 13642 15008 -30 1396 patch iptc,sj,dgj,dgi,id: 5 15008 97 127 1396 half line dmj dgc: 0 15969 251 114 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 15008 13642 Zeroing lines in arrays Total # of output lines = 5 15007 15008 17104 0 2096 patch iptc,sj,dgj,dgi,id: 5 720 97 97 2096 half line dmj dgc: 1 15969 251 114 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 s1>sj: 15008 720 Zeroing lines in arrays Total # of output lines = 5 17103 Processing block number 6 720 2050 -66 1396 patch iptc,sj,dgj,dgi,id: 6 2050 31 97 1396 half line dmj dgc: 0 19461 242 114 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 2050 720 Zeroing lines in arrays Total # of output lines = 6 18433 2050 4146 0 2096 patch iptc,sj,dgj,dgi,id: 6 4146 31 31 2096 half line dmj dgc: 1 19461 242 114 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 4146 2050 Zeroing lines in arrays Total # of output lines = 6 20529 Processing block number 7 4146 5525 -17 1396 patch iptc,sj,dgj,dgi,id: 7 5525 14 31 1396 half line dmj dgc: 0 22953 241 114 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 5525 4146 Zeroing lines in arrays Total # of output lines = 7 21908 5525 7621 0 2096 patch iptc,sj,dgj,dgi,id: 7 7621 14 14 2096 half line dmj dgc: 1 22953 241 114 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 7621 5525 Zeroing lines in arrays Total # of output lines = 7 24004 Processing block number 8 7621 9046 29 1396 patch iptc,sj,dgj,dgi,id: 8 9046 43 14 1396 half line dmj dgc: 0 26445 249 114 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 sj>s1: 9046 7621 Zeroing lines in arrays Total # of output lines = 8 25429 9046 11142 0 2096 patch iptc,sj,dgj,dgi,id: 8 11142 43 43 2096 half line dmj dgc: 1 26445 249 114 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 sj>s1: 11142 9046 Zeroing lines in arrays Total # of output lines = 8 27525 Processing block number 9 11142 12562 24 1396 patch iptc,sj,dgj,dgi,id: 9 12562 67 43 1396 half line dmj dgc: 0 29937 255 114 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 12562 11142 Zeroing lines in arrays Total # of output lines = 9 28945 12562 14658 0 2096 patch iptc,sj,dgj,dgi,id: 9 14658 67 67 2096 half line dmj dgc: 1 29937 255 114 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 14658 12562 Zeroing lines in arrays Total # of output lines = 9 31041 Processing block number 10 14658 16072 18 1396 patch iptc,sj,dgj,dgi,id: 10 16072 85 67 1396 half line dmj dgc: 0 33429 255 114 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 16072 14658 Zeroing lines in arrays Total # of output lines = 10 32455 16072 18168 0 2096 patch iptc,sj,dgj,dgi,id: 10 1784 85 85 2096 half line dmj dgc: 1 33429 255 114 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 s1>sj: 16072 1784 Zeroing lines in arrays Total # of output lines = 10 34551 Processing block number 11 1784 3217 37 1396 patch iptc,sj,dgj,dgi,id: 11 3217 122 85 1396 half line dmj dgc: 0 36921 260 114 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 3217 1784 Zeroing lines in arrays Total # of output lines = 11 35984 3217 5313 0 2096 patch iptc,sj,dgj,dgi,id: 11 5313 122 122 2096 half line dmj dgc: 1 36921 260 114 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 sj>s1: 5313 3217 Zeroing lines in arrays Total # of output lines = 11 38080 Processing block number 12 5313 6728 19 1396 patch iptc,sj,dgj,dgi,id: 12 6728 141 122 1396 half line dmj dgc: 0 40413 269 114 Actual deskew ireclen: 20480 ** 12 2096 0 48208 Writing data negflag .eq. 0 sj>s1: 6728 5313 Zeroing lines in arrays Total # of output lines = 12 39495 6728 8824 0 2096 patch iptc,sj,dgj,dgi,id: 12 8824 141 141 2096 half line dmj dgc: 1 40413 269 114 Actual deskew ireclen: 20480 ** 12 2096 1 50304 Writing data negflag .eq. 0 sj>s1: 8824 6728 Zeroing lines in arrays Total # of output lines = 12 41591 Processing block number 13 8824 10226 6 1396 patch iptc,sj,dgj,dgi,id: 13 10226 147 141 1396 half line dmj dgc: 0 43905 276 114 Actual deskew ireclen: 20480 ** 13 2096 0 52400 Writing data negflag .eq. 0 sj>s1: 10226 8824 Zeroing lines in arrays Total # of output lines = 13 42993 10226 12322 0 2096 patch iptc,sj,dgj,dgi,id: 13 12322 147 147 2096 half line dmj dgc: 1 43905 276 114 Actual deskew ireclen: 20480 ** 13 2096 1 54496 Writing data negflag .eq. 0 sj>s1: 12322 10226 Zeroing lines in arrays Total # of output lines = 13 45089 Processing block number 14 12322 13761 43 1396 patch iptc,sj,dgj,dgi,id: 14 13761 190 147 1396 half line dmj dgc: 0 47397 286 114 Actual deskew ireclen: 20480 ** 14 2096 0 56592 Writing data negflag .eq. 0 sj>s1: 13761 12322 Zeroing lines in arrays Total # of output lines = 14 46528 13761 15857 0 2096 patch iptc,sj,dgj,dgi,id: 14 15857 190 190 2096 half line dmj dgc: 1 47397 286 114 Actual deskew ireclen: 20480 ** 14 2096 1 58688 Writing data negflag .eq. 0 sj>s1: 15857 13761 Zeroing lines in arrays Total # of output lines = 14 48624 Processing block number 15 15857 17263 10 1396 patch iptc,sj,dgj,dgi,id: 15 879 200 190 1396 half line dmj dgc: 0 50889 286 114 Actual deskew ireclen: 20480 ** 15 2096 0 60784 Writing data negflag .eq. 0 s1>sj: 15857 879 Zeroing lines in arrays Total # of output lines = 15 50030 879 2975 0 2096 patch iptc,sj,dgj,dgi,id: 15 2975 200 200 2096 half line dmj dgc: 1 50889 286 114 Actual deskew ireclen: 20480 ** 15 2096 1 62880 Writing data negflag .eq. 0 sj>s1: 2975 879 Zeroing lines in arrays Total # of output lines = 15 52126 Processing block number 16 2975 4377 6 1396 patch iptc,sj,dgj,dgi,id: 16 4377 206 200 1396 half line dmj dgc: 0 54381 277 114 Actual deskew ireclen: 20480 ** 16 2096 0 64976 Writing data negflag .eq. 0 sj>s1: 4377 2975 Zeroing lines in arrays Total # of output lines = 16 53528 4377 6473 0 2096 patch iptc,sj,dgj,dgi,id: 16 6473 206 206 2096 half line dmj dgc: 1 54381 277 114 Actual deskew ireclen: 20480 ** 16 2096 1 67072 Writing data negflag .eq. 0 sj>s1: 6473 4377 Zeroing lines in arrays Total # of output lines = 16 55624 Processing block number 17 6473 7900 31 1396 patch iptc,sj,dgj,dgi,id: 17 7900 237 206 1396 half line dmj dgc: 0 57873 276 114 Actual deskew ireclen: 20480 ** 17 2096 0 69168 Writing data negflag .eq. 0 sj>s1: 7900 6473 Zeroing lines in arrays Total # of output lines = 17 57051 7900 9996 0 2096 patch iptc,sj,dgj,dgi,id: 17 9996 237 237 2096 half line dmj dgc: 1 57873 276 114 Actual deskew ireclen: 20480 ** 17 2096 1 71264 Writing data negflag .eq. 0 sj>s1: 9996 7900 Zeroing lines in arrays Total # of output lines = 17 59147 Processing block number 18 9996 11451 59 1396 patch iptc,sj,dgj,dgi,id: 18 11451 296 237 1396 half line dmj dgc: 0 61365 298 114 Actual deskew ireclen: 20480 ** 18 2096 0 73360 Writing data negflag .eq. 0 sj>s1: 11451 9996 Zeroing lines in arrays Total # of output lines = 18 60602 11451 13547 0 2096 patch iptc,sj,dgj,dgi,id: 18 13547 296 296 2096 half line dmj dgc: 1 61365 298 114 Actual deskew ireclen: 20480 ** 18 2096 1 75456 Writing data negflag .eq. 0 sj>s1: 13547 11451 Zeroing lines in arrays Total # of output lines = 18 62698 Processing block number 19 13547 14936 -7 1396 patch iptc,sj,dgj,dgi,id: 19 14936 289 296 1396 half line dmj dgc: 0 64857 293 114 Actual deskew ireclen: 20480 ** 19 2096 0 77552 Writing data negflag .eq. 0 sj>s1: 14936 13547 Zeroing lines in arrays Total # of output lines = 19 64087 14936 17032 0 2096 patch iptc,sj,dgj,dgi,id: 19 648 289 289 2096 half line dmj dgc: 1 64857 293 114 Actual deskew ireclen: 20480 ** 19 2096 1 79648 Writing data negflag .eq. 0 s1>sj: 14936 648 Zeroing lines in arrays Total # of output lines = 19 66183 Processing block number 20 648 2015 -29 1396 patch iptc,sj,dgj,dgi,id: 20 2015 260 289 1396 half line dmj dgc: 0 68349 279 114 Actual deskew ireclen: 20480 ** 20 2096 0 81744 Writing data negflag .eq. 0 sj>s1: 2015 648 Zeroing lines in arrays Total # of output lines = 20 67550 2015 4111 0 2096 patch iptc,sj,dgj,dgi,id: 20 4111 260 260 2096 half line dmj dgc: 1 68349 279 114 Actual deskew ireclen: 20480 ** 20 2096 1 83840 Writing data negflag .eq. 0 sj>s1: 4111 2015 Zeroing lines in arrays Total # of output lines = 20 69646 Processing block number 21 4111 5541 34 1396 patch iptc,sj,dgj,dgi,id: 21 5541 294 260 1396 half line dmj dgc: 0 71841 300 114 Actual deskew ireclen: 20480 ** 21 2096 0 85936 Writing data negflag .eq. 0 sj>s1: 5541 4111 Zeroing lines in arrays Total # of output lines = 21 71076 5541 7637 0 2096 patch iptc,sj,dgj,dgi,id: 21 7637 294 294 2096 half line dmj dgc: 1 71841 300 114 Actual deskew ireclen: 20480 ** 21 2096 1 88032 Writing data negflag .eq. 0 sj>s1: 7637 5541 Zeroing lines in arrays Total # of output lines = 21 73172 Processing block number 22 7637 9056 23 1396 patch iptc,sj,dgj,dgi,id: 22 9056 317 294 1396 half line dmj dgc: 0 75333 330 114 Actual deskew ireclen: 20480 ** 22 2096 0 90128 Writing data negflag .eq. 0 sj>s1: 9056 7637 Zeroing lines in arrays Total # of output lines = 22 74591 9056 11152 0 2096 patch iptc,sj,dgj,dgi,id: 22 11152 317 317 2096 half line dmj dgc: 1 75333 330 114 Actual deskew ireclen: 20480 ** 22 2096 1 92224 Writing data negflag .eq. 0 sj>s1: 11152 9056 Zeroing lines in arrays Total # of output lines = 22 76687 Processing block number 23 11152 12510 -38 1396 patch iptc,sj,dgj,dgi,id: 23 12510 279 317 1396 half line dmj dgc: 0 78825 308 114 Actual deskew ireclen: 20480 ** 23 2096 0 94320 Writing data negflag .eq. 0 sj>s1: 12510 11152 Zeroing lines in arrays Total # of output lines = 23 78045 12510 14606 0 2096 patch iptc,sj,dgj,dgi,id: 23 14606 279 279 2096 half line dmj dgc: 1 78825 308 114 Actual deskew ireclen: 20480 ** 23 2096 1 96416 Writing data negflag .eq. 0 sj>s1: 14606 12510 Zeroing lines in arrays Total # of output lines = 23 80141 Processing block number 24 14606 15942 -60 1396 patch iptc,sj,dgj,dgi,id: 24 15942 219 279 1396 half line dmj dgc: 0 82317 284 114 Actual deskew ireclen: 20480 ** 24 2096 0 98512 Writing data negflag .eq. 0 sj>s1: 15942 14606 Zeroing lines in arrays Total # of output lines = 24 81477 15942 18038 0 2096 patch iptc,sj,dgj,dgi,id: 24 1654 219 219 2096 half line dmj dgc: 1 82317 284 114 Actual deskew ireclen: 20480 ** 24 2096 1 100608 Writing data negflag .eq. 0 s1>sj: 15942 1654 Zeroing lines in arrays Total # of output lines = 24 83573 Processing block number 25 1654 3047 -3 1396 patch iptc,sj,dgj,dgi,id: 25 3047 216 219 1396 half line dmj dgc: 0 85809 279 114 Actual deskew ireclen: 20480 ** 25 2096 0 102704 Writing data negflag .eq. 0 sj>s1: 3047 1654 Zeroing lines in arrays Total # of output lines = 25 84966 3047 5143 0 2096 patch iptc,sj,dgj,dgi,id: 25 5143 216 216 2096 half line dmj dgc: 1 85809 279 114 Actual deskew ireclen: 20480 ** 25 2096 1 104800 Writing data negflag .eq. 0 sj>s1: 5143 3047 Zeroing lines in arrays Total # of output lines = 25 87062 Processing block number 26 5143 6581 42 1396 patch iptc,sj,dgj,dgi,id: 26 6581 258 216 1396 half line dmj dgc: 0 89301 297 114 Actual deskew ireclen: 20480 ** 26 2096 0 106896 Writing data negflag .eq. 0 sj>s1: 6581 5143 Zeroing lines in arrays Total # of output lines = 26 88500 6581 8677 0 2096 patch iptc,sj,dgj,dgi,id: 26 8677 258 258 2096 half line dmj dgc: 1 89301 297 114 Actual deskew ireclen: 20480 ** 26 2096 1 108992 Writing data negflag .eq. 0 sj>s1: 8677 6581 Zeroing lines in arrays Total # of output lines = 26 90596 Processing block number 27 8677 10067 -6 1396 patch iptc,sj,dgj,dgi,id: 27 10067 252 258 1396 half line dmj dgc: 0 92793 306 114 Actual deskew ireclen: 20480 ** 27 2096 0 111088 Writing data negflag .eq. 0 sj>s1: 10067 8677 Zeroing lines in arrays Total # of output lines = 27 91986 10067 12163 0 2096 patch iptc,sj,dgj,dgi,id: 27 12163 252 252 2096 half line dmj dgc: 1 92793 306 114 Actual deskew ireclen: 20480 ** 27 2096 1 113184 Writing data negflag .eq. 0 sj>s1: 12163 10067 Zeroing lines in arrays Total # of output lines = 27 94082 Processing block number 28 12163 11063 -19 -1081 patch iptc,sj,dgj,dgi,id: 28 11063 233 252 -1081 half line dmj dgc: 0 93808 312 114 Actual deskew ireclen: 20480 ** 28 2096 0 115280 Zeroing lines in arrays Total # of output lines = 28 94082 12163 13159 0 2096 patch iptc,sj,dgj,dgi,id: 28 13159 233 233 2096 half line dmj dgc: 1 93808 312 114 Actual deskew ireclen: 20480 ** 28 2096 1 117376 Writing data negflag .eq. 0 sj>s1: 13159 12163 Zeroing lines in arrays Total # of output lines = 28 95078 ia dmi dgi: 13159 312 233 Writing the last 2175 lines last half sj>s1 15334 13159 95078 Total # of output lines = 97253 Writing new header.. Closing files .. ileni= 39 ilend= 35 /export/air32/airops/1400/ts1400_p.vv_j.0 /export/air32/airops/1400/deskew.pv.0 /export/air32/airops/1400/ts1400_p.vv_j.1 /export/air32/airops/1400/deskew.pv.1 /export/air32/airops/1400/ts1400_p.vv_j.2 /export/air32/airops/1400/deskew.pv.2 /export/air32/airops/1400/ts1400_p.vv_j.3 /export/air32/airops/1400/deskew.pv.3 /export/air32/airops/1400/ts1400_p.vv_j.4 /export/air32/airops/1400/deskew.pv.4 /export/air32/airops/1400/ts1400_p.vv_j.5 /export/air32/airops/1400/deskew.pv.5 /export/air32/airops/1400/ts1400_p.vv_j.6 /export/air32/airops/1400/deskew.pv.6 /export/air32/airops/1400/ts1400_p.vv_j.7 /export/air32/airops/1400/deskew.pv.7 Enter single look lines filename: Enter single look image filename: Enter output lines filename: Enter number of looks: ns np nlloks: 2560 97253 18 Multi-looking lines.dat file... Total number of lines written to output file: 5402 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.3154749 7.193323 246 0.438 3046 2.406 7.19332 0.004718 2.483331 -0.045949 r_peak,r_snr = 0.3288187 13.58019 346 0.156 3046 1.000 13.58019 0.003089 0.366446 0.004840 r_peak,r_snr = 0.2848721 6.941133 446 0.156 3046 -8.750 6.94113 0.008383 1.421154 0.037591 r_peak,r_snr = 0.3110829 7.414341 546 0.219 3046 -14.781 7.41434 0.006557 0.289120 -0.009208 r_peak,r_snr = 0.2568585 5.823220 646 0.375 3046 6.844 5.82322 0.345433 2.815938 0.915213 r_peak,r_snr = 0.2674153 4.685366 746 0.625 3046 -2.688 4.68537 0.010350 5.575691 0.121007 r_peak,r_snr = 0.1923357 5.669538 846 0.344 3046 -9.156 5.66954 0.018165 2.230500 0.114449 r_peak,r_snr = 0.1841195 4.993881 946 0.469 3046 -3.750 4.99388 0.116085 1.562734 0.126640 r_peak,r_snr = 0.2691305 7.510056 1046 -1.281 3046 8.563 7.51006 0.010508 0.302426 0.012219 r_peak,r_snr = 0.1876309 6.473042 1146 -7.688 3046 -10.875 6.47304 0.028291 2.094616 0.038406 r_peak,r_snr = 0.1920216 7.865120 1246 0.500 3046 -3.750 7.86512 0.016754 5.496411 -0.033356 r_peak,r_snr = 0.1991269 4.482375 1346 0.938 3046 4.156 4.48237 0.036824 3.381608 -0.270034 r_peak,r_snr = 0.1933500 7.591240 1446 0.813 3046 -3.781 7.59124 0.804204 84.431038 8.169305 r_peak,r_snr = 0.1582360 8.540380 1546 0.719 3046 14.563 8.54038 0.010522 0.384484 0.017843 r_peak,r_snr = 0.2765490 7.919580 1646 0.781 3046 0.531 7.91958 0.010949 0.393847 -0.022468 r_peak,r_snr = 0.3422080 3.857835 1746 0.844 3046 0.844 3.85784 0.023799 0.275788 0.050478 r_peak,r_snr = 0.7074552 9.338250 1846 1.688 3046 -0.500 9.33825 0.042550 0.003858 0.008067 r_peak,r_snr = 0.6713475 14.85973 1946 -0.156 3046 0.219 14.85973 0.006820 0.002494 0.000621 r_peak,r_snr = 0.6470461 13.65198 2046 1.313 3046 0.125 13.65198 0.034513 0.003346 0.001577 At line = 3400 Reading in data.... r_peak,r_snr = 0.1579396 10.93757 146 0.344 3446 -5.125 10.93757 0.011213 1.113577 -0.034404 r_peak,r_snr = 0.1764596 9.473705 246 2.813 3446 -0.625 9.47371 0.011366 0.411274 -0.008354 r_peak,r_snr = 0.1635636 7.581271 346 -0.375 3446 -1.344 7.58127 0.016265 0.737374 0.063477 r_peak,r_snr = 0.1927306 5.927461 446 0.500 3446 -11.156 5.92746 0.020470 0.617254 -0.023391 r_peak,r_snr = 0.2510493 9.532063 546 0.094 3446 1.375 9.53206 0.008387 0.802707 0.039323 r_peak,r_snr = 0.1755031 4.988735 646 -5.406 3446 8.125 4.98873 0.014950 0.490292 0.044522 r_peak,r_snr = 0.3768350 4.311498 746 0.344 3446 0.188 4.31150 0.010827 0.803728 -0.052935 r_peak,r_snr = 0.3153763 4.327683 846 0.125 3446 -1.438 4.32768 0.012734 0.977944 0.021906 r_peak,r_snr = 0.3034472 7.839072 946 0.344 3446 0.844 7.83907 0.006261 1.244104 -0.018813 r_peak,r_snr = 0.4036893 6.157434 1046 -0.031 3446 2.250 6.15743 0.007429 0.318513 0.001278 r_peak,r_snr = 0.3000311 5.700000 1146 1.688 3446 -9.969 5.70000 0.012430 0.371961 0.033037 r_peak,r_snr = 0.3356268 7.568452 1246 0.156 3446 1.813 7.56845 0.011140 0.376897 -0.028292 r_peak,r_snr = 0.2678838 4.246013 1346 0.469 3446 -0.750 4.24601 0.017958 2.078780 0.016709 r_peak,r_snr = 0.4529215 3.023197 1446 3.781 3446 -10.938 3.02320 0.008791 0.273423 0.005607 r_peak,r_snr = 0.2267037 6.332730 1546 0.906 3446 0.844 6.33273 0.018981 9.137093 -0.059477 r_peak,r_snr = 0.2657703 7.535985 1646 -0.156 3446 -1.250 7.53599 0.015056 0.698788 0.015579 r_peak,r_snr = 0.3660765 9.886373 1746 -0.125 3446 -1.031 9.88637 0.009754 0.068554 -0.000782 r_peak,r_snr = 0.7352243 11.01900 1846 0.188 3446 0.188 11.01900 0.004782 0.002243 0.001127 r_peak,r_snr = 0.6453900 10.39642 1946 -0.063 3446 -0.094 10.39642 0.009493 0.004658 0.002509 r_peak,r_snr = 0.6344312 13.39474 2046 -0.781 3446 0.188 13.39474 0.008467 0.003200 0.001209 At line = 3800 Reading in data.... r_peak,r_snr = 0.2525649 10.77746 146 0.531 3846 -1.250 10.77746 0.009877 1.547548 0.055193 r_peak,r_snr = 0.2668232 8.150672 246 1.344 3846 10.813 8.15067 0.088738 6.053562 -0.702417 r_peak,r_snr = 0.2215952 11.39539 346 0.063 3846 0.313 11.39539 0.007089 1.430237 -0.040441 r_peak,r_snr = 0.3501685 7.361667 446 0.625 3846 4.219 7.36167 0.007423 0.643031 0.026241 r_peak,r_snr = 0.3541887 7.836304 546 -0.031 3846 -6.219 7.83630 0.004333 0.388441 -0.002435 r_peak,r_snr = 0.1823294 7.913289 646 0.406 3846 1.750 7.91329 0.025888 2.170101 0.067970 r_peak,r_snr = 0.3398656 6.190095 746 -1.469 3846 7.344 6.19009 0.021455 1.210784 0.117248 r_peak,r_snr = 0.2661097 8.078792 846 -0.656 3846 -3.219 8.07879 0.011304 0.663800 -0.016755 r_peak,r_snr = 0.3240096 3.653663 1046 0.281 3846 5.188 3.65366 0.155539 0.932069 0.001104 r_peak,r_snr = 0.2174529 6.749218 1146 0.344 3846 3.469 6.74922 0.083161 4.083057 -0.163114 r_peak,r_snr = 0.3122637 2.727340 1246 -0.188 3846 7.813 2.72734 0.057882 19.479973 -0.708026 r_peak,r_snr = 0.3169605 2.971828 1346 0.781 3846 7.813 2.97183 0.014136 1.008586 -0.002307 r_peak,r_snr = 0.3488853 8.756065 1446 -0.125 3846 -0.313 8.75607 0.006883 0.299728 -0.008426 r_peak,r_snr = 0.3249166 4.462029 1546 0.563 3846 -0.781 4.46203 0.037224 1.373685 0.052014 r_peak,r_snr = 0.2207550 6.987348 1646 0.344 3846 -5.188 6.98735 0.017403 1.984696 0.122090 r_peak,r_snr = 0.4143126 2.019693 1746 0.250 3846 -3.781 2.01969 0.066357 0.854073 -0.191458 r_peak,r_snr = 0.6729953 13.63148 1846 0.063 3846 0.188 13.63148 0.011116 0.002933 0.001156 r_peak,r_snr = 0.6034588 15.07146 1946 0.156 3846 0.156 15.07146 0.024423 0.003922 0.004598 r_peak,r_snr = 0.6256147 12.36493 2046 -0.125 3846 -0.250 12.36493 0.015304 0.006200 0.005482 At line = 4200 Reading in data.... r_peak,r_snr = 0.1837436 5.394088 246 2.000 4246 -5.906 5.39409 0.049109 3.877002 0.238108 r_peak,r_snr = 0.4857818 10.17204 346 -0.063 4246 7.781 10.17204 0.001759 0.697507 0.012254 r_peak,r_snr = 0.4752124 7.981849 446 -0.031 4246 -2.781 7.98185 0.002685 2.435163 -0.050723 r_peak,r_snr = 0.2361351 10.70031 546 0.531 4246 0.781 10.70031 0.010572 1.210434 0.026431 r_peak,r_snr = 0.2323931 7.644256 646 -0.375 4246 6.875 7.64426 0.014605 1.286248 0.084469 r_peak,r_snr = 0.1846038 12.36000 746 1.094 4246 14.125 12.36000 0.026815 0.796135 0.084990 r_peak,r_snr = 0.3273919 2.349405 846 0.375 4246 -0.656 2.34940 0.018579 5.460680 0.238372 r_peak,r_snr = 0.3988239 4.186601 946 -0.125 4246 2.000 4.18660 0.009450 0.405289 -0.013922 r_peak,r_snr = 0.3316436 5.998907 1046 0.188 4246 1.188 5.99891 0.031264 2.350976 0.232575 r_peak,r_snr = 0.2263261 10.17158 1146 1.375 4246 4.781 10.17158 0.018565 0.577924 0.055050 r_peak,r_snr = 0.2155769 13.41724 1346 -0.156 4246 -2.750 13.41724 0.028992 4.016168 -0.267922 r_peak,r_snr = 0.2766619 5.478366 1446 1.156 4246 0.688 5.47837 0.056322 0.097797 0.027952 r_peak,r_snr = 0.2016604 6.084388 1646 -1.094 4246 -0.750 6.08439 0.107658 0.787607 -0.039931 r_peak,r_snr = 0.3205332 3.415787 1746 0.531 4246 -0.750 3.41579 0.651498 0.694350 0.570148 r_peak,r_snr = 0.6003208 13.40035 1846 -0.656 4246 -0.156 13.40035 0.027423 0.006036 0.006026 r_peak,r_snr = 0.7133726 13.37446 1946 0.313 4246 -0.031 13.37446 0.006175 0.002480 0.000913 r_peak,r_snr = 0.6738803 9.386752 2046 -0.313 4246 -0.094 9.38675 0.026927 0.003044 -0.000135 At line = 4600 Reading in data.... r_peak,r_snr = 0.2626327 7.714254 146 0.406 4646 -0.750 7.71425 0.013757 0.581833 -0.041583 r_peak,r_snr = 0.3078885 7.965616 246 0.219 4646 -6.656 7.96562 0.017817 0.643822 -0.071475 r_peak,r_snr = 0.2231750 6.128151 346 0.594 4646 -2.781 6.12815 0.055164 81.380264 -1.977369 r_peak,r_snr = 0.5741570 10.51054 546 0.281 4646 0.719 10.51054 0.001170 0.066086 0.001401 r_peak,r_snr = 0.1679974 4.784792 646 -1.125 4646 -6.688 4.78479 0.096334 1.514407 -0.303560 r_peak,r_snr = 0.1992280 6.815291 746 -0.063 4646 2.219 6.81529 0.013954 0.944204 -0.023409 r_peak,r_snr = 0.3220792 5.917038 846 -0.250 4646 -1.781 5.91704 0.013437 1.501105 -0.067030 r_peak,r_snr = 0.1722081 6.267000 946 0.969 4646 0.813 6.26700 0.014596 0.710556 0.011428 r_peak,r_snr = 0.3836507 8.129135 1046 0.688 4646 2.219 8.12914 0.004923 0.364736 -0.016678 r_peak,r_snr = 0.1827960 8.153016 1146 0.188 4646 -2.313 8.15302 0.008794 0.287015 -0.020128 r_peak,r_snr = 0.2802176 10.23453 1246 0.313 4646 1.938 10.23453 0.017960 0.890181 -0.088093 r_peak,r_snr = 0.2240406 7.643033 1346 0.500 4646 -3.750 7.64303 0.042835 1.939110 0.238718 r_peak,r_snr = 0.3879666 3.455150 1446 1.875 4646 2.750 3.45515 0.060917 1.229461 -0.164922 r_peak,r_snr = 0.1668568 9.150452 1646 -4.313 4646 9.219 9.15045 0.014290 0.561683 0.015252 r_peak,r_snr = 0.4333561 2.636450 1746 0.813 4646 0.250 2.63645 0.040488 0.155568 0.016112 r_peak,r_snr = 0.6999755 11.27504 1846 -0.219 4646 0.250 11.27504 0.010106 0.003607 0.001023 r_peak,r_snr = 0.6648527 11.99150 1946 -0.281 4646 0.063 11.99150 0.016610 0.005065 0.006831 r_peak,r_snr = 0.6631507 10.21348 2046 0.813 4646 0.156 10.21348 0.009486 0.003783 0.002382 At line = 5000 Reading in data.... r_peak,r_snr = 0.4488152 9.285991 146 0.313 5046 1.219 9.28599 0.002478 0.850600 0.002795 r_peak,r_snr = 0.1866889 6.871110 246 2.500 5046 -8.281 6.87111 0.021405 0.545876 -0.057013 r_peak,r_snr = 0.3649544 3.603372 346 -0.156 5046 10.219 3.60337 0.013219 0.877547 -0.056026 r_peak,r_snr = 0.3332480 9.268118 446 0.625 5046 -1.250 9.26812 0.007162 1.543108 -0.006350 r_peak,r_snr = 0.3555150 7.106167 546 0.313 5046 -4.781 7.10617 0.010648 1.959189 -0.097080 r_peak,r_snr = 0.2670732 7.490064 646 0.344 5046 8.281 7.49006 0.014601 0.325817 0.017487 r_peak,r_snr = 0.3649163 5.620916 746 -0.188 5046 9.219 5.62092 0.021791 1.259063 0.136721 r_peak,r_snr = 0.2529337 4.299232 846 -0.781 5046 -6.750 4.29923 0.056554 7.413590 -0.587605 r_peak,r_snr = 0.2939567 5.278060 946 0.625 5046 -3.156 5.27806 0.015308 1.584774 -0.099088 r_peak,r_snr = 0.2726260 4.601386 1046 0.594 5046 1.000 4.60139 0.009191 1.084714 -0.024472 r_peak,r_snr = 0.2606159 4.870058 1146 0.938 5046 -4.250 4.87006 0.370151 0.515663 -0.216815 r_peak,r_snr = 0.2281927 4.871944 1246 0.875 5046 -4.813 4.87194 0.032565 3.994612 -0.194707 r_peak,r_snr = 0.2090703 6.546844 1346 0.406 5046 0.313 6.54684 0.046635 3.785140 -0.211045 r_peak,r_snr = 0.4108552 3.381363 1446 0.844 5046 11.188 3.38136 0.014687 0.233501 0.001478 r_peak,r_snr = 0.2043869 7.897858 1546 -0.031 5046 8.813 7.89786 0.074581 1.613187 0.208887 r_peak,r_snr = 0.2216026 7.216957 1646 1.000 5046 -3.219 7.21696 0.025943 0.998730 0.120332 r_peak,r_snr = 0.4150329 3.413892 1746 3.688 5046 0.781 3.41389 0.168525 0.412140 0.153755 r_peak,r_snr = 0.6118803 15.17149 1846 -0.031 5046 -0.063 15.17149 0.009868 0.003285 0.001722 r_peak,r_snr = 0.6768963 14.62989 1946 -0.094 5046 -0.188 14.62989 0.012990 0.002851 0.001079 r_peak,r_snr = 0.6709104 13.03766 2046 1.281 5046 -0.125 13.03766 0.020931 0.004817 0.006596 At line = 5400 Reading in data.... r_peak,r_snr = 0.2679739 10.80210 146 0.406 5446 -1.625 10.80210 0.004672 0.894399 0.025452 r_peak,r_snr = 0.2914046 9.543818 246 0.344 5446 1.875 9.54382 0.015018 0.353985 -0.000391 r_peak,r_snr = 0.4302213 8.913909 346 0.281 5446 -0.781 8.91391 0.002832 1.730339 -0.006302 r_peak,r_snr = 0.1839108 3.989615 446 3.438 5446 -11.750 3.98961 0.069004 0.622926 -0.106005 r_peak,r_snr = 0.4111857 7.847365 646 0.438 5446 2.000 7.84736 0.006604 0.339319 -0.016264 r_peak,r_snr = 0.2909615 8.076284 746 -0.344 5446 6.750 8.07628 0.005901 3.489810 -0.027955 r_peak,r_snr = 0.2845856 6.856993 846 0.344 5446 9.375 6.85699 0.009374 1.179799 -0.049054 r_peak,r_snr = 0.1427817 6.883442 946 8.438 5446 4.813 6.88344 0.059666 0.520778 -0.103259 r_peak,r_snr = 0.3009012 8.333835 1046 0.125 5446 -2.094 8.33383 0.006495 0.530727 0.007172 r_peak,r_snr = 0.2727555 8.711859 1146 -0.156 5446 -1.781 8.71186 0.006488 0.534116 0.004967 r_peak,r_snr = 0.1493306 3.920616 1246 0.500 5446 -12.781 3.92062 0.148608 1.248296 0.341929 r_peak,r_snr = 0.1972737 8.467334 1346 0.156 5446 0.719 8.46733 0.023078 1.905012 0.105011 r_peak,r_snr = 0.1635882 7.074169 1446 0.500 5446 2.906 7.07417 0.019108 0.878871 -0.075162 r_peak,r_snr = 0.1375499 8.216484 1546 0.844 5446 -1.625 8.21648 0.041011 0.883433 -0.018530 r_peak,r_snr = 0.1844966 6.755144 1646 12.813 5446 8.938 6.75514 0.034316 0.466814 0.034660 r_peak,r_snr = 0.4680523 2.575493 1746 0.813 5446 0.750 2.57549 0.037375 0.154633 0.041646 r_peak,r_snr = 0.7016815 12.41547 1846 1.000 5446 -0.031 12.41547 0.011774 0.001560 0.000467 r_peak,r_snr = 0.6985659 12.85644 1946 -0.094 5446 0.031 12.85644 0.048056 0.001785 -0.000354 r_peak,r_snr = 0.7033935 9.944696 2046 -0.094 5446 0.094 9.94470 0.022246 0.004154 0.004434 At line = 5800 Reading in data.... r_peak,r_snr = 0.4346549 8.135189 146 0.969 5846 -8.219 8.13519 0.006769 3.601068 0.127474 r_peak,r_snr = 0.3465221 6.754320 246 -1.156 5846 12.781 6.75432 0.005042 0.627869 0.024792 r_peak,r_snr = 0.2890742 8.187097 346 0.844 5846 6.875 8.18710 0.005326 3.323711 -0.030488 r_peak,r_snr = 0.2768586 8.781579 446 0.219 5846 3.969 8.78158 0.022132 2.225181 0.161454 r_peak,r_snr = 0.4393017 7.794618 646 0.094 5846 -3.813 7.79462 0.003084 0.261292 -0.002149 r_peak,r_snr = 0.2452410 6.852768 746 0.469 5846 1.250 6.85277 0.034800 1.871720 0.145145 r_peak,r_snr = 0.2670183 8.491528 846 0.250 5846 4.813 8.49153 0.023283 4.312552 -0.169464 r_peak,r_snr = 0.2625757 4.657166 946 -0.125 5846 -4.250 4.65717 0.026597 0.938533 -0.028482 r_peak,r_snr = 0.2416466 4.717843 1046 4.750 5846 0.813 4.71784 0.023583 0.421734 0.044947 r_peak,r_snr = 0.2352773 5.252283 1146 0.000 5846 12.250 5.25228 0.030542 1.795539 0.106762 r_peak,r_snr = 0.2385093 4.696858 1246 0.188 5846 3.813 4.69686 0.114416 1.934817 0.374093 r_peak,r_snr = 0.4273449 4.389207 1346 0.656 5846 -3.781 4.38921 0.020118 1.360079 0.075585 r_peak,r_snr = 0.2906175 6.515759 1446 0.813 5846 -1.156 6.51576 0.010582 0.332758 -0.001972 r_peak,r_snr = 0.1832032 3.944260 1546 -1.000 5846 -4.188 3.94426 0.097799 1.671860 0.263625 r_peak,r_snr = 0.1207978 8.759327 1646 0.813 5846 -12.813 8.75933 0.039778 5.438185 0.404202 r_peak,r_snr = 0.4903875 6.658630 1746 0.344 5846 0.406 6.65863 0.066556 0.024893 0.010592 r_peak,r_snr = 0.7234941 10.77408 1846 0.250 5846 -0.063 10.77408 0.010518 0.003078 0.002302 r_peak,r_snr = 0.6233097 14.46735 1946 0.188 5846 -0.375 14.46735 0.025422 0.003629 0.003538 r_peak,r_snr = 0.7657791 13.24947 2046 0.250 5846 -0.156 13.24947 0.005411 0.001694 0.000351 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.7642841 14.60473 146 0.406 3046 0.344 14.60473 0.000314 0.009922 0.000086 r_peak,r_snr = 0.7315935 14.39283 246 0.375 3046 -0.125 14.39283 0.000368 0.022692 -0.000347 r_peak,r_snr = 0.3218829 12.80770 346 0.281 3046 0.219 12.80770 0.003139 0.130591 0.006882 r_peak,r_snr = 0.4677093 13.50535 446 0.125 3046 0.906 13.50535 0.001716 0.097338 -0.002373 r_peak,r_snr = 0.4341568 10.66673 546 0.219 3046 -1.813 10.66673 0.002749 0.170747 -0.002685 r_peak,r_snr = 0.2056810 4.469918 646 0.500 3046 6.844 4.46992 37.035198 543.107483 ********** r_peak,r_snr = 0.3790935 7.444059 746 0.469 3046 -0.719 7.44406 0.004985 0.179407 0.019200 r_peak,r_snr = 0.3094607 8.613368 846 -0.063 3046 -0.781 8.61337 0.005569 0.378113 0.005004 r_peak,r_snr = 0.2483477 11.04436 946 0.250 3046 0.063 11.04436 0.007156 0.346406 0.010866 r_peak,r_snr = 0.2461616 4.938038 1046 -1.031 3046 10.063 4.93804 0.013510 0.942951 0.003692 r_peak,r_snr = 0.2010914 7.149141 1146 0.406 3046 3.656 7.14914 0.012719 1.366985 -0.038502 r_peak,r_snr = 0.3583896 12.67607 1246 -0.031 3046 0.594 12.67607 0.002483 0.244134 0.004042 r_peak,r_snr = 0.2484741 6.938211 1346 0.531 3046 0.531 6.93821 0.013729 0.411351 -0.035143 r_peak,r_snr = 0.2112006 7.755285 1446 0.313 3046 -2.156 7.75528 0.017675 1.888829 0.032566 r_peak,r_snr = 0.2049498 6.786370 1546 0.375 3046 -0.094 6.78637 0.023253 0.587121 -0.028767 r_peak,r_snr = 0.2437540 8.363370 1646 0.656 3046 13.813 8.36337 0.033677 1.686732 -0.149750 r_peak,r_snr = 0.3715346 3.383709 1746 -0.094 3046 -0.875 3.38371 0.021526 0.372430 0.065460 r_peak,r_snr = 0.1818615 4.267068 1846 -5.469 3046 7.594 4.26707 0.127673 0.348046 -0.022797 r_peak,r_snr = 0.1253113 8.259683 1946 -1.969 3046 5.094 8.25968 0.144748 0.487729 -0.126887 r_peak,r_snr = 0.1730942 5.056581 2046 -1.781 3046 12.313 5.05658 0.120459 0.326458 0.125476 At line = 3400 Reading in data.... r_peak,r_snr = 0.7143435 16.29659 146 0.344 3446 -0.188 16.29659 0.000428 0.015459 -0.000129 r_peak,r_snr = 0.3988605 15.68909 246 0.406 3446 0.188 15.68909 0.002675 0.109959 -0.007804 r_peak,r_snr = 0.3862217 12.32313 346 0.000 3446 1.344 12.32313 0.001905 0.177181 0.000382 r_peak,r_snr = 0.4203274 14.92728 446 0.281 3446 -0.781 14.92728 0.002272 0.073633 0.000734 r_peak,r_snr = 0.5955396 19.67005 546 0.281 3446 -0.281 19.67005 0.000766 0.028130 -0.000309 r_peak,r_snr = 0.1442787 4.967155 646 -1.938 3446 2.781 4.96715 0.014731 14.400604 0.105647 r_peak,r_snr = 0.5298620 7.062631 746 0.313 3446 0.375 7.06263 0.002161 0.087040 -0.000367 r_peak,r_snr = 0.3507786 5.561527 846 0.469 3446 -4.188 5.56153 0.008180 0.800769 0.004015 r_peak,r_snr = 0.3141128 8.302631 946 0.188 3446 -0.406 8.30263 0.004589 0.166885 -0.008539 r_peak,r_snr = 0.4190953 6.212090 1046 0.125 3446 0.250 6.21209 0.003494 0.484561 0.006717 r_peak,r_snr = 0.3481140 7.203218 1146 -0.188 3446 0.906 7.20322 0.007599 0.509223 0.005089 r_peak,r_snr = 0.3219553 8.808939 1246 0.250 3446 -0.250 8.80894 0.004895 0.160210 -0.010677 r_peak,r_snr = 0.2880509 4.578371 1346 -0.375 3446 4.813 4.57837 0.007599 3.327704 -0.022901 r_peak,r_snr = 0.4880167 4.920143 1446 1.063 3446 1.750 4.92014 0.005739 0.406041 -0.028433 r_peak,r_snr = 0.2192466 7.597766 1546 -0.375 3446 -0.625 7.59777 0.008143 1.247983 0.004184 r_peak,r_snr = 0.1863766 5.372108 1646 0.781 3446 -1.719 5.37211 0.011635 1.320778 0.062438 r_peak,r_snr = 0.2573584 3.522187 1746 -6.969 3446 -10.188 3.52219 0.128243 12.364617 0.945372 r_peak,r_snr = 0.1042515 4.456581 1846 1.156 3446 11.219 4.45658 0.117394 0.628088 -0.019632 r_peak,r_snr = 0.1013003 10.06361 2046 14.188 3446 -1.563 10.06361 0.072930 0.256802 0.043655 At line = 3800 Reading in data.... r_peak,r_snr = 0.6640869 16.79349 146 0.375 3846 -0.781 16.79349 0.000494 0.046148 0.001131 r_peak,r_snr = 0.4817864 13.47296 246 0.313 3846 -1.031 13.47296 0.001375 0.070227 -0.002206 r_peak,r_snr = 0.6558679 14.24310 346 0.281 3846 0.250 14.24310 0.000468 0.021354 0.000278 r_peak,r_snr = 0.7616870 11.60065 446 0.813 3846 0.281 11.60065 0.000361 0.057401 -0.000172 r_peak,r_snr = 0.5223329 9.247703 546 0.438 3846 0.813 9.24770 0.001667 0.039998 -0.000732 r_peak,r_snr = 0.1890164 10.61502 646 0.000 3846 0.281 10.61502 0.024234 0.604607 -0.058140 r_peak,r_snr = 0.2978019 9.184615 846 0.281 3846 -0.688 9.18462 0.008899 0.301700 -0.016970 r_peak,r_snr = 0.2241943 8.071643 946 0.219 3846 -1.719 8.07164 0.010065 1.236984 0.050320 r_peak,r_snr = 0.4428463 4.815600 1046 0.563 3846 -1.219 4.81560 0.002891 0.110896 -0.002545 r_peak,r_snr = 0.3315114 8.830011 1146 0.344 3846 0.125 8.83001 0.010850 1.838286 -0.065999 r_peak,r_snr = 0.3462026 4.389320 1246 -0.219 3846 5.813 4.38932 0.013551 1.223595 0.053718 r_peak,r_snr = 0.3982444 5.298272 1346 -0.250 3846 1.750 5.29827 0.006465 0.427456 0.009105 r_peak,r_snr = 0.5690973 11.42242 1446 0.156 3846 0.844 11.42242 0.001067 0.022852 0.001027 r_peak,r_snr = 0.3577742 7.167953 1546 0.188 3846 0.406 7.16795 0.005406 0.451556 0.004809 r_peak,r_snr = 0.3441348 16.19384 1646 -0.125 3846 0.750 16.19384 0.003304 0.116253 0.000434 r_peak,r_snr = 0.4381284 2.454486 1746 0.344 3846 0.281 2.45449 0.011925 0.301247 -0.021153 r_peak,r_snr = 0.1198632 4.434122 2046 1.750 3846 -10.688 4.43412 0.139923 1.301944 -0.047916 At line = 4200 Reading in data.... r_peak,r_snr = 0.7657051 12.92500 146 0.375 4246 -0.156 12.92500 0.000327 0.006945 -0.000350 r_peak,r_snr = 0.2806367 9.691270 246 0.219 4246 -1.063 9.69127 0.004618 0.481300 -0.013713 r_peak,r_snr = 0.9005854 12.03945 346 0.188 4246 -0.031 12.03945 0.000107 0.008118 0.000005 r_peak,r_snr = 0.6322834 9.259346 446 0.406 4246 1.281 9.25935 0.000814 0.091929 -0.003099 r_peak,r_snr = 0.7297833 19.58147 546 0.219 4246 0.031 19.58147 0.000362 0.010924 0.000133 r_peak,r_snr = 0.2110266 6.429402 646 0.406 4246 1.375 6.42940 0.009704 0.948893 -0.047661 r_peak,r_snr = 0.2558667 7.853001 746 -0.531 4246 -2.156 7.85300 0.008473 0.216326 -0.009778 r_peak,r_snr = 0.4385624 5.591352 846 0.188 4246 -0.188 5.59135 0.004186 0.161966 -0.011505 r_peak,r_snr = 0.4941069 5.843583 946 0.094 4246 -0.688 5.84358 0.002204 0.093828 0.001186 r_peak,r_snr = 0.4075528 8.220924 1046 0.031 4246 -1.938 8.22092 0.003391 0.631829 0.012972 r_peak,r_snr = 0.2337099 9.634453 1146 0.219 4246 4.063 9.63445 0.011202 0.728446 0.041467 r_peak,r_snr = 0.5451943 8.612806 1246 0.313 4246 0.000 8.61281 0.001655 0.079068 0.004101 r_peak,r_snr = 0.1881851 7.760139 1346 0.563 4246 0.281 7.76014 0.039868 0.550378 0.033652 r_peak,r_snr = 0.1983904 11.62764 1446 0.219 4246 -0.719 11.62764 0.007360 0.159714 -0.001754 r_peak,r_snr = 0.3035166 2.518532 1546 0.250 4246 -12.781 2.51853 0.229190 8.549830 1.327927 r_peak,r_snr = 0.1806969 3.416041 1646 -1.375 4246 -5.750 3.41604 0.024072 1.557607 0.023762 r_peak,r_snr = 0.3576507 2.739561 1746 0.438 4246 -1.875 2.73956 0.023637 0.691144 -0.073053 r_peak,r_snr = 0.1188461 7.529254 1946 14.375 4246 9.969 7.52925 0.074760 0.502097 0.078302 r_peak,r_snr = 0.1619107 6.783745 2046 -3.781 4246 -11.375 6.78374 0.194795 0.648596 0.259253 At line = 4600 Reading in data.... r_peak,r_snr = 0.3104933 6.828466 146 0.219 4646 -4.188 6.82847 0.014631 6.891663 0.224588 r_peak,r_snr = 0.6094642 15.80900 246 0.406 4646 -0.219 15.80900 0.000848 0.023225 -0.000367 r_peak,r_snr = 0.5070597 14.15928 346 0.438 4646 0.094 14.15928 0.001045 0.081966 -0.000698 r_peak,r_snr = 0.8359306 13.40537 446 0.406 4646 -0.188 13.40537 0.000235 0.003082 -0.000028 r_peak,r_snr = 0.8324060 13.92328 546 0.250 4646 0.219 13.92328 0.000217 0.005774 0.000022 r_peak,r_snr = 0.2138619 6.566223 646 -0.406 4646 2.188 6.56622 0.017839 1.181443 0.003485 r_peak,r_snr = 0.3086474 12.60157 746 0.313 4646 0.813 12.60157 0.008376 0.244738 -0.027469 r_peak,r_snr = 0.3255340 6.074882 846 0.000 4646 -1.219 6.07488 0.010075 0.635647 -0.029996 r_peak,r_snr = 0.1704863 6.088104 946 0.375 4646 -3.250 6.08810 0.042416 3.254233 -0.221168 r_peak,r_snr = 0.4231472 9.158387 1046 0.406 4646 0.031 9.15839 0.002779 0.217995 0.005982 r_peak,r_snr = 0.2872396 7.065726 1146 0.406 4646 -0.188 7.06573 0.019434 1.474093 0.133548 r_peak,r_snr = 0.2110682 8.465218 1246 1.438 4646 2.813 8.46522 0.016786 0.601035 -0.040302 r_peak,r_snr = 0.1860979 5.948449 1346 0.250 4646 1.281 5.94845 0.020739 1.650682 0.092815 r_peak,r_snr = 0.5370442 5.084561 1446 0.063 4646 0.500 5.08456 0.002200 0.084505 0.000298 r_peak,r_snr = 0.1905666 4.999649 1546 -2.844 4646 -3.781 4.99965 0.055359 1.401806 0.180459 r_peak,r_snr = 8.3636403E-02 4.212129 1646 -2.875 4646 7.688 4.21213 0.072283 1.285431 -0.100190 r_peak,r_snr = 0.4713843 2.945115 1746 -0.781 4646 0.938 2.94512 0.009077 0.599874 0.035238 r_peak,r_snr = 9.9617809E-02 4.854048 1946 14.844 4646 -3.188 4.85405 0.395086 0.825099 0.176588 r_peak,r_snr = 0.1322165 8.362283 2046 -6.406 4646 -5.125 8.36228 0.061666 1.437876 0.067590 At line = 5000 Reading in data.... r_peak,r_snr = 0.6428387 10.84221 146 0.344 5046 -0.063 10.84221 0.000856 0.031242 -0.000681 r_peak,r_snr = 0.3655447 12.65950 246 0.344 5046 1.094 12.65950 0.002658 0.204430 -0.001121 r_peak,r_snr = 0.4655203 7.293457 346 0.375 5046 -0.094 7.29346 0.002798 0.682720 0.005940 r_peak,r_snr = 0.7534155 12.20064 446 0.219 5046 -1.781 12.20064 0.000392 0.067182 0.000160 r_peak,r_snr = 0.5889540 13.11232 546 0.250 5046 0.250 13.11232 0.000898 0.043690 -0.000823 r_peak,r_snr = 0.3462778 7.928961 646 0.438 5046 0.781 7.92896 0.005737 0.303178 -0.012041 r_peak,r_snr = 0.4101414 6.641407 746 0.469 5046 -0.219 6.64141 0.012227 6.677535 -0.219426 r_peak,r_snr = 0.3923804 6.778814 846 0.250 5046 -0.469 6.77881 0.003468 0.174014 0.005152 r_peak,r_snr = 0.3188345 6.204887 946 0.563 5046 -0.125 6.20489 0.013742 0.493855 0.044801 r_peak,r_snr = 0.2450789 6.645014 1046 0.344 5046 0.750 6.64501 0.026377 6.251088 -0.371762 r_peak,r_snr = 0.4613511 8.222405 1146 0.188 5046 0.906 8.22241 0.003425 0.133183 0.007248 r_peak,r_snr = 0.2037217 6.730398 1246 0.406 5046 0.781 6.73040 0.012876 0.709406 -0.000857 r_peak,r_snr = 0.3062134 13.91786 1346 -0.250 5046 1.156 13.91786 0.006290 0.177910 0.007616 r_peak,r_snr = 0.3889228 3.508829 1446 0.313 5046 -1.313 3.50883 0.007736 1.290605 -0.021539 r_peak,r_snr = 0.2554779 9.901174 1546 0.063 5046 1.063 9.90117 0.006120 0.477118 0.011806 r_peak,r_snr = 0.2391697 6.818627 1646 0.375 5046 -1.344 6.81863 0.042581 2.010766 -0.063630 r_peak,r_snr = 0.3011865 4.865953 1746 0.875 5046 -1.313 4.86595 0.025486 0.337148 0.030733 r_peak,r_snr = 0.1787586 11.20887 1846 4.719 5046 7.031 11.20887 0.068354 0.220326 0.002579 r_peak,r_snr = 0.1454055 6.976576 1946 -4.844 5046 -10.156 6.97658 0.211233 0.554352 0.226444 r_peak,r_snr = 9.3285151E-02 3.325100 2046 -1.375 5046 -8.938 3.32510 0.438611 0.801728 0.390509 At line = 5400 Reading in data.... r_peak,r_snr = 0.7903771 13.46539 146 0.344 5446 -0.094 13.46539 0.000258 0.014527 0.000004 r_peak,r_snr = 0.3191387 11.19942 246 0.438 5446 -0.813 11.19942 0.003593 0.252680 0.006150 r_peak,r_snr = 0.6736094 11.45442 346 0.156 5446 0.031 11.45442 0.000521 0.029402 -0.000573 r_peak,r_snr = 0.3217102 5.655773 446 1.000 5446 0.375 5.65577 0.004836 2.065764 -0.018854 r_peak,r_snr = 0.3033905 5.563707 546 -0.313 5446 4.750 5.56371 15.055246 ********** 148.961853 r_peak,r_snr = 0.4991484 8.853786 646 0.375 5446 1.781 8.85379 0.001816 0.749133 0.003381 r_peak,r_snr = 0.3765571 9.936901 746 0.031 5446 0.813 9.93690 0.003327 0.767904 -0.003438 r_peak,r_snr = 0.3591616 5.800784 846 1.063 5446 -4.031 5.80078 0.031837 1.502727 0.169858 r_peak,r_snr = 0.1463825 6.552749 946 0.500 5446 -0.281 6.55275 0.031346 1.101030 -0.086666 r_peak,r_snr = 0.4043030 8.970189 1046 -0.063 5446 -1.188 8.97019 0.004138 0.127399 0.000696 r_peak,r_snr = 0.2910843 7.986887 1146 0.281 5446 1.781 7.98689 0.036467 3.155702 -0.301574 r_peak,r_snr = 0.3193644 10.10872 1246 0.219 5446 2.219 10.10872 0.005512 0.306109 -0.003238 r_peak,r_snr = 0.2180019 6.255680 1346 1.750 5446 12.656 6.25568 0.030758 0.678610 -0.024943 r_peak,r_snr = 0.2056441 6.365850 1446 1.531 5446 9.219 6.36585 0.278465 11.703314 1.058816 r_peak,r_snr = 0.2243448 5.453973 1546 -1.469 5446 2.781 5.45397 0.027445 0.515236 0.051485 r_peak,r_snr = 0.1242084 7.207240 1646 -11.625 5446 -5.094 7.20724 0.037206 0.726025 0.072633 r_peak,r_snr = 0.3650793 2.780794 1746 0.563 5446 -0.156 2.78079 0.085563 3.291208 0.501544 r_peak,r_snr = 0.1224731 7.953036 1846 9.750 5446 0.406 7.95304 0.645600 0.117803 0.070454 r_peak,r_snr = 0.1330584 14.01994 1946 0.000 5446 3.313 14.01994 0.039586 0.243988 -0.029592 r_peak,r_snr = 0.1188442 4.824015 2046 6.813 5446 4.219 4.82402 0.467450 0.445280 0.051827 At line = 5800 Reading in data.... r_peak,r_snr = 0.7402108 13.04057 146 0.375 5846 0.813 13.04057 0.000306 0.017370 0.000310 r_peak,r_snr = 0.3497155 6.625503 246 0.094 5846 2.531 6.62550 0.009776 3.101630 0.085526 r_peak,r_snr = 0.5233626 13.40938 346 0.250 5846 -0.094 13.40938 0.000994 0.134522 0.000162 r_peak,r_snr = 0.4046555 14.92583 446 0.188 5846 0.063 14.92583 0.002063 0.074511 0.003049 r_peak,r_snr = 0.3653902 8.013343 546 0.063 5846 0.375 8.01334 0.005950 0.342358 -0.008229 r_peak,r_snr = 0.5862908 8.981433 646 0.188 5846 -0.781 8.98143 0.000929 0.545934 -0.002124 r_peak,r_snr = 0.2672057 7.896447 746 0.281 5846 1.906 7.89645 0.015429 0.691082 -0.056096 r_peak,r_snr = 0.2946858 8.749609 946 0.656 5846 1.000 8.74961 0.016190 0.363095 -0.039488 r_peak,r_snr = 0.3880540 7.329636 1046 0.188 5846 -1.281 7.32964 0.002732 0.261285 0.008314 r_peak,r_snr = 0.3798310 9.361474 1146 0.500 5846 1.250 9.36147 0.009914 0.530145 -0.054834 r_peak,r_snr = 0.2466000 5.245678 1246 0.500 5846 -1.063 5.24568 0.015186 0.430001 0.043513 r_peak,r_snr = 0.6970638 7.112633 1346 0.438 5846 -0.219 7.11263 0.000637 0.024282 0.000519 r_peak,r_snr = 0.2658685 8.007983 1446 1.813 5846 13.219 8.00798 0.008090 0.483373 0.007282 r_peak,r_snr = 0.1281164 6.652691 1646 -0.250 5846 0.781 6.65269 0.007672 0.489803 0.002712 r_peak,r_snr = 0.3292242 8.783669 1746 0.094 5846 0.188 8.78367 0.003996 0.180208 0.001310 r_peak,r_snr = 0.1390128 4.041076 1846 5.906 5846 -4.781 4.04108 0.205193 1.189466 0.197684 r_peak,r_snr = 0.1294188 11.54609 1946 7.281 5846 5.469 11.54609 0.038298 0.493290 0.052146 r_peak,r_snr = 0.1830247 7.652299 2046 -9.781 5846 2.688 7.65230 0.147283 0.362591 0.083549 *************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Multi-look Program ***** ***** ***** *************************************** Enter the name of the Shh input file. fd for hh: 3 Enter the name of the complex HV file. fd for hv: 4 Enter the name of the complex VH file. fd for vh: 5 Enter the name of the complex VV file. fd for vv: 6 Procmode 0=polsar,1=xti1,2=xti2,3=xti1p,4=xti2p,5=poltop Proc mode: 4 min. window size : 5932 MIN window samp: 2517 90.00000 10.00000 900 2560 MIN window samp: 2517 90.00000 10.00000 900 2560 Calculating the ratio of HV and VH.... amvh,amhv 622.2725 1069.293 Enter the name of the file. Enter the name of the file. Enter the name of the file. Enter the name of the file. Enter the name of the file. Enter the name of the file. Enter the number of looks in azimuth. amplitude ratio and phase = 1.310865 34.31620 40/20 MHz: 2560 10240 40/20 MHz MHz complex: 2560 20480 97236 5402 18 /u/sardine0/airops/OPS/data_proc/ ************************************************* ***** Integrated AIRSAR Processor ***** ***** ***** ***** Radiometric Calibration Program ***** ***** ***** ************************************************* ***** ***** ***** This program performs the following ***** ***** calibrations: ***** ***** ***** ***** (1) Phase calibration ***** ***** (2) Cross-talk removal ***** ***** (3) Antenna pattern removal ***** ***** (4) Scattering area removal ***** ***** ***** ***** If available, the topography is used ***** ***** when removing antenna patterns and ***** ***** scattering areas. In all cases, the ***** ***** aircraft roll is taken into account ***** ***** when the antenna pattern is removed. ***** ***** ***** ************************************************* Enter the name of input file. iline: 5402 2560 hhhh i/p ch : 3 Enter the name of input file. hhhv i/p ch : 4 Enter the name of input file. hhvv i/p ch : 5 Enter the name of input file. hvhv i/p ch : 6 Enter the name of input file. hvvv i/p ch : 7 Enter the name of input file. vvvv i/p ch : 8 Enter the name of output file. hhhh o/p ch : 9 Enter the name of output file. hhhv o/p ch : 10 Enter the name of output file. hhvv o/p ch : 11 Enter the name of output file. hvhv o/p ch : 12 Enter the name of output file. hvvv o/p ch : 13 Enter the name of output file. vvvv o/p ch : 14 Enter the name of the calibration file. calib file bw: /u/sardine0/airops/OPS/data_proc/recal0.dat 40.00000 hddt1 , hddt2: 92001 92999 hddt1 , hddt2: 93001 93999 hddt1 , hddt2: 94001 94999 hddt1 , hddt2: 95001 95999 hddt1 , hddt2: 96001 96022 hddt1 , hddt2: 96023 96031 hddt1 , hddt2: 96032 96099 abs gain: 137.5500 136.3300 137.5500 136.3300 caltone: 83.20000 85.60000 83.10000 86.00000 ifreq 0-p 1-L 2-c: 0 3 cable phase P/L/C: 12.89200 186.9660 56.51500 sigma zero: 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 hddt bw ha T : 96068 40.00000 8367.900 10.00000 $tphase,phasedat: -203.0000 34.30000 $rphase,phasevh,phasehv: -237.3000 -175.5000 61.80000 Reading data size. 5402 5402 2560 2560 Enter H Ant pattern file: POLSAR H-ANT: /u/sardine0/airops/OPS/data_proc/AIRSAR.PH Enter V Ant pattern file: POLSAR V-ANT: /u/sardine0/airops/OPS/data_proc/AIRSAR.PV Enter the name of the motion compensation file. motion lun: 15 How many lines of raw data? How many lines of raw data: 100000 Cross pol phase difference is: 34.30 deg Receiver phase difference is -237.30 deg Transmitter phase difference is -203.00 deg Cable phase difference is 12.89 deg $ghv,phasedat,phi: (0.8260983,0.5635260) 34.30000 34.30000 $phico aphase: -414.5160 12.89200 $fhh,fhv,fvh: (0.5804757,0.8142775) (-0.9844787,-0.1755042) (-0.7143752,-0.6997629) Input ground spacing ? cross-track ground spacing: 10.00000 Input file of Radiometric Correction Vectors: Radiometric Correction Vectors file: /export/air36/airops/1400/ts1400_p.rad_vec Procmode 0=polsar,1=xti1,2=xti2,3=xti1p,4=xti2p,5=poltop Proc mode: 4 Vec_lenRnHaY0outDyout: 9616 1202 17564.57 8367.900 3421.930 10.00000 3.331000 NSAMP vec_len rg_len nbytes: 2560 1202 9616 Reading data to estimate cross-talk. 5402 2560 256 512 768 1024 in cross-talk estimation Estimating the cross-talk parameters. 256 512 768 1024 1280 1536 1792 2048 2304 2560 cross(1,100) 0=-100 dB: (-2.2780715E-02,-0.1245952) (-9.8997533E-02,-7.8524761E-03) Finished estimating cross-talk. Enter the file with the lines per pixel. lines lun: 19 Is there a DEM available? Enter the name of the DEM file. DEM lun : 20 Byte offset to DEM data: 0 Enter the name of the global reference file. Enter the scattering area file name. ha maphgt 8446.500 78.60000 scattering area lun: 21 Now doing the actual calibration DEM. 2560 2560 1 5402 257 5402 513 5402 769 5402 1025 5402 1281 5402 1537 5402 1793 5402 2049 5402 2305 5402 2561 5402 2817 5402 3073 5402 3329 5402 3585 5402 3841 5402 4097 5402 4353 5402 4609 5402 4865 5402 5121 5402 5377 5402 peg file: /export/air36/airops/1400/ts1400_p.peg filter file: /export/air36/airops/1400/ts1400.pfilter ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Compression Program ***** ***** ***** ********************************************* ***** ***** ***** This prgram reads six input ***** ***** cross-product files and then ***** ***** compresses them into either the ***** ***** current AIRSAR compressed Stokes ***** ***** matric format, or the SIR-C com- ***** ***** pressed cross-product format. ***** ***** ***** ********************************************* Enter the name of input file. Enter the name of input file. Enter the name of input file. Enter the name of input file. Enter the name of input file. Enter the name of input file. Enter the name of output file. Please choose the type of compression: (1) Stokes matrix (AIRSAR standard) (2) Cross-products (SIR-C standard) hddt: 96068 Finished writing headers. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Projection Program ***** ***** ***** ***** This program projects from slant ***** ***** range to ground range. ***** ***** ***** ***** It uses an array of values produced ***** ***** by the GENLOC program to perform a ***** ***** nearest neighbor interpolation. ***** ***** ***** ************************************************** Enter the name of the input file. Projecting COMPRESSED STOKES MATRIX data. Projecting dem? Enter the name of the s,c file. Enter the range and azimuth pixel spacing. Enter the output file name. prf bw len: 842.6000 40.00000 10.00000 nsampr O/p: 1202 13041.07 8367.900 3421.930 10.00000 Number of header no123: 6 1 1 4 Byte offset to calibration header: 24040 Byte offset to dem header: 0 Byte offset to first data line: 72120 NewHead nsamp nline: 1202 5001 POLSAR vec length: 9616 1 nbytes calvec: 9616 76800 headers_sgi: 3 9616 76800 36060 2 nbytes calvec: 9616 102400 headers_sgi: 3 9616 102400 48080 3 nbytes calvec: 9616 128000 headers_sgi: 3 9616 128000 60100 Reading data. 25600 1202 1202 5402 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Initializing output array. Near Range = 3421.930 Resampling the data: first pass. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Resampling the data: second pass. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Near Range = 3421.930 Resampling the data. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Filling in 1 and 2 pixel holes. Number of pixels without data = 2113416 Number of holes filled by WAYNE (c10) = 0 Neighborhood Pixel Distance Used = 0 Writing map out. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 Enter number of set to convert: Enter the cband filename: Enter the output filename: Reading new header..STARTING at 0 72120 9616 12020 12020 dumping the rest 1 dumping the rest 2 dumping the rest 3 dumping the rest 4 dumping the rest 5 dumping the rest 6 dumping the rest 7 dumping the rest 8 dumping the rest 9 dumping the rest 10 dumping the rest 11 dumping the rest 12 dumping the rest 13 dumping the rest 14 dumping the rest 15 dumping the rest 16 dumping the rest 17 dumping the rest 18 dumping the rest 19 dumping the rest 20 dumping the rest 21 dumping the rest 22 dumping the rest 23 dumping the rest 24 dumping the rest 25 dumping the rest 26 dumping the rest 27 dumping the rest 28 dumping the rest 29 dumping the rest 30 dumping the rest 31 dumping the rest 32 dumping the rest 33 dumping the rest 34 dumping the rest 35 dumping the rest 36 dumping the rest 37 dumping the rest 38 dumping the rest 39 dumping the rest 40 dumping the rest 41 dumping the rest 42 dumping the rest 43 dumping the rest 44 dumping the rest 45 dumping the rest 46 dumping the rest 47 dumping the rest 48 dumping the rest 49 dumping the rest 50 dumping the rest 51 dumping the rest 52 dumping the rest 53 dumping the rest 54 dumping the rest 55 *** Synthesize 2.5 - 11/30/90 *** Enter the name of input file. Stokes matrix data... Enter the name of the output byte file. Enter the relative scale factor. ibytesdata= 72120 do line: 51 done line: 51 do line: 101 done line: 101 do line: 151 done line: 151 do line: 201 done line: 201 do line: 251 done line: 251 do line: 301 done line: 301 do line: 351 done line: 351 do line: 401 done line: 401 do line: 451 done line: 451 do line: 501 done line: 501 do line: 551 done line: 551 do line: 601 done line: 601 do line: 651 done line: 651 do line: 701 done line: 701 do line: 751 done line: 751 do line: 801 done line: 801 do line: 851 done line: 851 do line: 901 done line: 901 do line: 951 done line: 951 do line: 1001 done line: 1001 do line: 1051 done line: 1051 do line: 1101 done line: 1101 do line: 1151 done line: 1151 do line: 1201 done line: 1201 do line: 1251 done line: 1251 do line: 1301 done line: 1301 do line: 1351 done line: 1351 do line: 1401 done line: 1401 do line: 1451 done line: 1451 do line: 1501 done line: 1501 do line: 1551 done line: 1551 do line: 1601 done line: 1601 do line: 1651 done line: 1651 do line: 1701 done line: 1701 do line: 1751 done line: 1751 do line: 1801 done line: 1801 do line: 1851 done line: 1851 do line: 1901 done line: 1901 do line: 1951 done line: 1951 do line: 2001 done line: 2001 do line: 2051 done line: 2051 do line: 2101 done line: 2101 do line: 2151 done line: 2151 do line: 2201 done line: 2201 do line: 2251 done line: 2251 do line: 2301 done line: 2301 do line: 2351 done line: 2351 do line: 2401 done line: 2401 do line: 2451 done line: 2451 do line: 2501 done line: 2501 do line: 2551 done line: 2551 do line: 2601 done line: 2601 do line: 2651 done line: 2651 do line: 2701 done line: 2701 do line: 2751 done line: 2751 do line: 2801 done line: 2801 do line: 2851 done line: 2851 do line: 2901 done line: 2901 do line: 2951 done line: 2951 do line: 3001 done line: 3001 do line: 3051 done line: 3051 do line: 3101 done line: 3101 do line: 3151 done line: 3151 do line: 3201 done line: 3201 do line: 3251 done line: 3251 do line: 3301 done line: 3301 do line: 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line: 5001 do line: 5051 done line: 5051 100 200 300 400 500 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 2100 2200 2300 2400 2500 2600 2700 2800 2900 3000 3100 3200 3300 3400 3500 3600 3700 3800 3900 4000 4100 4200 4300 4400 4500 4600 4700 4800 4900 5000 Fri Nov 8 23:50:45 PST 2002 Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin ts1400_p.vvvvr Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin cd /export/air36/airops/1400;am_misregNEW L-C *_c.vvvr *_l.vvvr 2>&1 | cd /export/air36/airops/1400;am_misregNEW P-C *_c.vvvr *_p.vvvvr 2>&1 | cd /export/air36/airops/1400;am_misregNEW P-L *_l.vvvr *_p.vvvvr 2>&1 | Mis-registration QA: Updating sensor.hh96l_pr Mis-registration QA: Update from 0.681625 to -0.318375 Mis-registration QA: Updating sensor.hv96l_pr Mis-registration QA: Update from 0.3900000 to -0.61 Mis-registration QA: Updating sensor.vh96l_pr Mis-registration QA: Update from 0.3900000 to -0.61 Mis-registration QA: Updating sensor.vv96l_pr Mis-registration QA: Update from 0.0000000E+00 to -1 Mis-registration QA: Updating sensor.pp Mis-registration QA: Update from -1.450000 to -3.55 Mis-registration QA: Updating L-band sensor file;;range for L-band > 0.6;Updating P-band sensor file;;range for P-band > 0.6; The Mis-registration check is completed Mis-registration QA: JOB ID: ts1400 L-C: 1 1.42 0.158 1.41 P-C: 2.1 1.36 -0.13 1.47 P-L: 0.748 0.476 -0.299 0.858 [1] 8220843 8215870 IDL. Version 4.0.1b (IRIX mipseb). Copyright 1989-1996, Research Systems, Inc. All rights reserved. Unauthorized reproduction prohibited. Installation number: 2972-1. Licensed for use by: JPL Radar Science & Engr % Compiled module: SPAWN_JOB_INFO. ***************************************************** * * * AIRSAR INTEGRATED PROCESSOR * * * * HEADER PREPROCESSOR * * * * This program reads the raw data header and cal- * * culates the parameters necessary for the motion * * compensation in the integrated processor. * * * ***************************************************** Enter command file name ==> Opening command file... CRD-xdealy: 0.2380000 Reading and decoding header file... fsize_max min: 11907 11863 fsize_max min/ 2: 5954 5932 Finished reading the header file... Data acquired after 1994. J2000 time = -97839530.15473801 GPS J2000 time = -97839532.12479001 Message 1 Time = -97839530.15473801 INS Time = 1.704192000000000 Roll angle = 0.4888916015625000 Pitch angle = 1.038208007812500 Heading angle = 54.35485839843750 Long. acc = 0.1700000000000000 Lat. acc = -1.0000000000000000E-02 Norm. acc = -9.650000000000000 East vel. = 176.2770000000000 North vel. = 126.2550000000000 Up vel. = 0.1210000000000000 True Grnd Spd = 216.8125000000000 Altitude = 8446.000000000000 Latitude = 4.787130374461412 Longitude = 114.7964306641370 Message 6 Week = 881 GPS Time = -97839532.12479001 GDOP = 2.093750000000000 PDOP = 1.937500000000000 HDOP = 1.093750000000000 VDOP = 1.593750000000000 TDOP = 0.7968750000000000 Spherical Acc = 11.00000000000000 Time Acc = 8.0000000000000005E-09 GPS Lat = 4.784968094021508 GPS Lon = 114.7934315981008 GPS Alt = 8449.000000000000 GPS East Vel = 176.2400000000000 GPS North Vel = 126.3000000000000 GPS Up Vel = -0.1100000000000000 Message 3 Del INU Time = 0.7441920000000000 Del vel east = -3.4179687500000000E-03 Del vel north = 1.0253906250000000E-02 Del vel up = 6.4941406250000000E-02 Del pos east = 0.6250000000000000 Del pos north = 0.5000000000000000 Del pos up = -0.1250000000000000 Message 4 Sigma Pos x = 1.250000000000000 Sigma Pos y = 1.500000000000000 Sigma Pos z = 2.000000000000000 Sigma Vel x = 7.0800781250000000E-03 Sigma Vel y = 8.5449218750000000E-03 Sigma Vel z = 1.0009765625000000E-02 Message 7 Satellites used = 10 26 23 30 9 10 Retrived Honeywell data... 11880 Operator Comments: - - - - - - - - - - - - - - - - - - - - - PV RFI near urban areas, but no RX overloading; rebooted HP748i after DIR-1000 interface lockup; getting bumpy at end of run; IG I is OKng Lou, Leon Maldonado, Michael Kobrick, Timothy William Miller van Zyl, David Ryan Haub, Lori Ann Carrico, Timothy W. - - - - - - - - - - - - - - - - - - - - - enter filename for headers (entire path): Which frequency? (C,L or P) number of channels transferred: number of bytes/chan: total # of lines transferred: window delay: enter the .par filename : enter first header to read: enter year data taken: enter HDDT ID for raw data: SONY tapeid: 596068 96068 enter HDDT footage number <0> : enter the title of image: enter the CCT ID: cct: 1400 prod ID1:14001400 prod ID:1400 SONY tapeid: 96068 96068 tapeid:9606896068 tapeid par:96068 prod ID:1400 chrp_delay from subcomm header tapeID: 32.45000 96068 New DCG: chrp_delay is 32.5 usec 32.45000 chrp_delay is 32.5 usec 96068 32.45000 Is this 98039< x >98001 for P-bnad?: 96068 1998 P-band fc? 22.50000 idelay,chrp_delay,xdelay 93 32.45000 0.2380000 near range delr windela: 9040.541 3.331027 0 f_cal 43.59375 1216.406 Parameter header created .. >> Record # : 128 >> GPS Stuff = 1.80 6 9 1 24 26 17 digdelay startrng(us):93 93.00000000000000 startrng(m) elecdelay: 9863.173249999998 2.7200000000000000E-05 >> start range = 9863.1732 >> ccal_amp = -90.39999 >> ccal_atn = 32 >> ratn_phh = 0 14 0 >> ratn_phv = 0 8 0 >> ratn_pvh = 0 8 0 >> ratn_pvv = 0 14 0 >> ratn_lhh = 0 8 0 >> ratn_lhv = 0 8 0 >> ratn_lvh = 0 8 0 >> ratn_lvv = 0 8 0 >> ratn_chh = 0 8 10 >> ratn_chv = 0 8 10 >> ratn_cvh = 0 8 10 >> ratn_cvv = 0 8 10 >> rcvr_chh = >> rcvr_chv = >> rcvr_cvh = >> rcvr_cvv = >> rcvr_cpz = 0.0 >> rcvr_cbw = 1 >> chrp_bnd = 40 >> chrp_len = 10 >> chrp_mod = DN Done decoding data from header array... Data collected on ==> 00-JAN-1996 Starting and end GPS times for SAR data -126338399.2900 -126338162.5340 Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000012 0 hdg 54.32401 53.90442 54.75037 0.1839573 0 trc 54.50528 54.36068 54.69053 0.0875469 0 tgs 216.44132 216.10938 216.82813 0.2168183 0 roll 0.30822 -0.23621 0.72510 0.1837461 0 pitch 1.07499 0.93933 1.30188 0.0565628 0 lati 4.92007 4.78497 5.05509 0.0778559 0 loni 114.98201 114.79343 115.17108 0.1088849 0 latd 4.91742 4.78333 5.05167 0.0779833 0 lond 114.97929 114.79167 115.16833 0.1088942 0 balt 7932.54489 7929.37200 7934.85840 0.9798892 0 ralt 8367.86036 8254.28880 8399.67840 40.1363318 0 dpth 0.99341 0.90000 1.90000 0.0665699 0 droll 0.23431 -0.30000 0.60000 0.1833685 0 thd 54.23086 53.80000 54.60000 0.1842948 0 dad 0.46901 0.20000 0.80000 0.1405592 0 latg 4.92181 4.78635 5.05648 0.0779550 7 long 114.67821 46.71303 115.17265 4.5613505 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8401.98819 8379.99023 8411.06934 6.7947893 7 phh_aten 14.00000 14.00000 14.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 8.00000 8.00000 8.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 8.00000 8.00000 8.00000 0.0000000 0 lhv_aten 8.00000 8.00000 8.00000 0.0000000 0 lvh_aten 8.00000 8.00000 8.00000 0.0000000 0 lvv_aten 8.00000 8.00000 8.00000 0.0000000 0 chh_aten 18.00000 18.00000 18.00000 0.0000000 0 chv_aten 18.00000 18.00000 18.00000 0.0000000 0 cvh_aten 18.00000 18.00000 18.00000 0.0000000 0 cvv_aten 18.00000 18.00000 18.00000 0.0000000 0 hwlat 4.92214 4.78712 5.05676 0.0778090 0 hwlon 114.99456 114.79643 229.97019 1.0605082 0 hwalt 8445.91242 8444.20267 8448.69490 1.1078156 0 hwev 176.22517 175.91100 176.59000 0.1428207 0 hwnv 125.67535 125.01700 126.31100 0.3687243 0 hwuv -0.00038 -0.60000 0.54300 0.2001301 0 hwroll 0.30811 -0.23621 0.72510 0.1837835 0 hwpitch 1.07502 0.93933 1.30188 0.0565736 0 hwhdg 54.32866 53.90442 108.56689 0.5305656 0 hwtrc 54.50999 54.36068 108.87846 0.5064533 0 hwtgs 216.44090 216.10938 216.82813 0.2166153 0 Finished analysis of raw data... Putting in mirror values... Finished with mirror samples... Median filter data... Completed median filter of data... Finished correcting GPS times for pulses... Finished correcting GPS times for SIXGUN data... -97839529.99923338 i_yearind 19960 GPS time for first pulse = -97839530.28283624 -126338399.2900000 New start and number of records = 109 199855 New start and number of blocks = 1 1563 GPS trend coefficients = -11.76622555553974 62.78558206021851 -58.78754310881088 Begin final analysis of data... Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000012 0 hdg 54.32401 53.90442 54.75037 0.1840172 0 trc 54.50535 54.36068 54.69053 0.0875345 0 tgs 216.44117 216.10938 216.82813 0.2166733 0 roll 0.30815 -0.23621 0.72510 0.1837618 0 pitch 1.07498 0.93933 1.30188 0.0565500 0 delx 0.25730 0.00000 0.25738 0.0005761 0 lati 4.92015 4.78497 5.05509 0.0779059 0 loni 114.98213 114.79343 115.17108 0.1089550 0 latd 4.91750 4.78333 5.05167 0.0780253 0 lond 114.97941 114.79167 115.16833 0.1089642 0 balt 7932.54403 7929.37200 7934.85840 0.9801651 0 ralt 8367.88014 8254.28880 8399.67840 40.1278107 0 dpth 0.99296 0.90000 1.20000 0.0626897 0 droll 0.23404 -0.30000 0.60000 0.1836385 0 thd 54.23084 53.80000 54.60000 0.1842375 0 dad 0.46903 0.20000 0.80000 0.1405165 0 latg 4.92162 4.78635 5.05648 0.0779381 0 long 114.98389 114.79526 115.17265 0.1088506 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8401.98819 8391.67622 8415.08752 5.0621651 0 phh_aten 14.00000 14.00000 14.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 8.00000 8.00000 8.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 8.00000 8.00000 8.00000 0.0000000 0 lhv_aten 8.00000 8.00000 8.00000 0.0000000 0 lvh_aten 8.00000 8.00000 8.00000 0.0000000 0 lvv_aten 8.00000 8.00000 8.00000 0.0000000 0 chh_aten 18.00000 18.00000 18.00000 0.0000000 0 chv_aten 18.00000 18.00000 18.00000 0.0000000 0 cvh_aten 18.00000 18.00000 18.00000 0.0000000 0 cvv_aten 18.00000 18.00000 18.00000 0.0000000 0 hwlat 4.92214 4.78715 5.05674 0.0778089 0 hwlon 114.98490 114.79646 115.17338 0.1088269 0 hwalt 8445.91242 8444.20269 8448.69486 1.1078160 0 hwev 176.22516 175.91200 176.58900 0.1428136 0 hwnv 125.67537 125.01900 126.31000 0.3687409 0 hwuv -0.00038 -0.60000 0.54300 0.2001302 0 hwroll 0.30810 -0.23621 0.72510 0.1837604 0 hwpitch 1.07501 0.93933 1.29639 0.0565199 0 hwhdg 54.32408 53.90442 54.74487 0.1840186 0 hwtrc 54.50541 54.36126 54.69004 0.0875148 0 hwtgs 216.44091 216.10938 216.82813 0.2166641 0 Finished final analysis of data... Average Barometric Altitude = 7932.544026103589 Average Radar Altitude = 8367.880135124751 Average GPS Altitude = 8401.988194565911 >>Record # : 128 >>GPS Stuff = 1.80 6 9 1 24 2 >>Record # : 0 >>GPS Stuff = Lock vertical accel to gps(+1) or bar(-1) or IGI (0) ==> Enter a name for the peg data file. Positions and Distances Start position = 4.7871459 114.7964609 8446.470 End position = 5.0567396 115.1733808 8444.912 Loxodromic Heading (deg) = 54.5061343 Loxodromic Distance (km) = 51346.0499506 Geodesic Heading (deg) = 54.4901120 Geodesic Distance (km) = 51346.0480234 Peg latitude and longitude = 4.9221747 114.9847465 Peg heading = 54.5668334 Rotation matrix First row = -0.420819309 -0.717533451 0.555028698 Second row = 0.903077536 -0.389238723 0.181505319 Third row = 0.085802523 0.577614892 0.811787511 Translation vector Vector = -6021.83700 12922.85215 -2435.84204 Local Radius of Curvature = 6363984.385000405 Start and end pulse used = 109 199963 Ellipsoidal delta s (m) = 0.2569177901035996 Delta s on reference surface = 0.2569177986170678 Miscellaneous Information Start range = 9863.173249999998 Start ground range = 5221.184597742174 Time orgin = -97839530.28283624 Pulse spacing = 0.2572961952660497 First frame = 18822817 Thank you for your patronage If a POLTOP mode then...: .mocomp -> .mocomph & .mocompv .mocomph -> .mocomphU & .mocompvU .mocompv -> .mocomphL & .mocompvL Enter the name of the motion compensation file. /export/air36/airops/1400/ts1400_l.mocomp Name of the H-pol motion compensation file? /export/air36/airops/1400/ts1400_l.mocomph Name of the V-pol motion compensation file? /export/air36/airops/1400/ts1400_l.mocompv How many lines per polarization? 100000 + 1 + 10001 + 20001 + 30001 + 40001 + 50001 + 60001 + 70001 + 80001 + 90001 + 100001 + 110001 + 120001 + 130001 + 140001 + 150001 + 160001 + 170001 + 180001 + 190001 ********************************************* * * * AIRSAR INTEGRATED PROCESSOR * * * * CALTONE ESTIMATOR * * * * This program estimates the CALTONE amp- * * litude and phase and writes the result * * into the parameter header. * * * ********************************************* Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) LHH Enter the paramater file name. /export/air36/airops/1400/ts1400_l.par Enter the raw data file name. /export/air32/airops/1400/l_hh Enter the motion compensation file name. /export/air36/airops/1400/ts1400_l.mocomp Enter a file name for the range spectrum: /export/air36/airops/1400/db_l_hh.dat Enter a file name for the sampled caltone power: /export/air36/airops/1400/1st_l_hh.dat Enter histogram of the caltone power file name: /export/air36/airops/1400/pw_hist_l_hh.dat Enter histogram of the caltone phase file name: /export/air36/airops/1400/ph_hist_l_hh.dat Enter start range line #: 1 How many lines of raw data? 100000 How many lines to be processed? 100000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 1 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3756 5932 Prediction cal_bin 1057 start/end pulse: 1 99904 64-Loop Count: 1560 cmplx raw(1 2 3): (40.19018,0.0000000E+00) (7.535659,0.0000000E+00) (-10.04755,0.0000000E+00) attenuation (dB): 8.000000 no_loop: 64 Pulse#/no_loop: 1 1057 6.9715920E+07 plot_x: 1561 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 78.45806 Power RMS: 0.1307281 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 8374.105 Amp. RMS: 105.9434 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 180.3871 Phase RMS: 5.774574 Incoherent PH 1st: 180.5248 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 78.76497 CalTone Power Coherently dB : 78.45806 Incoherent PW - Coherent PW : 0.3069077 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 8674.203 CalTone Amplitude Coherently : 8374.105 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 300.0977 ------------ *** ------------ running time (sec): 56.58 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) LHV Enter the paramater file name. /export/air36/airops/1400/ts1400_l.par Enter the raw data file name. /export/air32/airops/1400/l_hv Enter the motion compensation file name. /export/air36/airops/1400/ts1400_l.mocomp Enter a file name for the range spectrum: /export/air36/airops/1400/db_l_hv.dat Enter a file name for the sampled caltone power: /export/air36/airops/1400/1st_l_hv.dat Enter histogram of the caltone power file name: /export/air36/airops/1400/pw_hist_l_hv.dat Enter histogram of the caltone phase file name: /export/air36/airops/1400/ph_hist_l_hv.dat Enter start range line #: 1 How many lines of raw data? 100000 How many lines to be processed? 100000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 2 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3756 5932 Prediction cal_bin 1057 start/end pulse: 1 99904 64-Loop Count: 1560 cmplx raw(1 2 3): (30.14264,0.0000000E+00) (40.19018,0.0000000E+00) (-17.58320,0.0000000E+00) attenuation (dB): 8.000000 no_loop: 64 Pulse#/no_loop: 1 1057 6.8949752E+07 plot_x: 1561 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 78.36366 Power RMS: 0.1036445 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 8283.588 Amp. RMS: 105.8301 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 40.99091 Phase RMS: 5.755676 Incoherent PH 1st: 41.15408 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 78.66673 CalTone Power Coherently dB : 78.36366 Incoherent PW - Coherent PW : 0.3030624 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 8582.039 CalTone Amplitude Coherently : 8283.588 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 298.4512 ------------ *** ------------ running time (sec): 50.23 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) LVH Enter the paramater file name. /export/air36/airops/1400/ts1400_l.par Enter the raw data file name. /export/air32/airops/1400/l_vh Enter the motion compensation file name. /export/air36/airops/1400/ts1400_l.mocomp Enter a file name for the range spectrum: /export/air36/airops/1400/db_l_vh.dat Enter a file name for the sampled caltone power: /export/air36/airops/1400/1st_l_vh.dat Enter histogram of the caltone power file name: /export/air36/airops/1400/pw_hist_l_vh.dat Enter histogram of the caltone phase file name: /export/air36/airops/1400/ph_hist_l_vh.dat Enter start range line #: 1 How many lines of raw data? 100000 How many lines to be processed? 100000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 3 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3756 5932 Prediction cal_bin 1057 start/end pulse: 1 99904 64-Loop Count: 1560 cmplx raw(1 2 3): (-45.21395,0.0000000E+00) (42.70207,0.0000000E+00) (2.511886,0.0000000E+00) attenuation (dB): 8.000000 no_loop: 64 Pulse#/no_loop: 1 1057 6.9500072E+07 plot_x: 1561 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 78.42444 Power RMS: 8.8388346E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 8341.708 Amp. RMS: 102.6840 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 180.7422 Phase RMS: 5.797528 Incoherent PH 1st: -179.5773 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 78.72829 CalTone Power Coherently dB : 78.42444 Incoherent PW - Coherent PW : 0.3038559 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 8643.268 CalTone Amplitude Coherently : 8341.708 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 301.5596 ------------ *** ------------ running time (sec): 51.10 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) LVV Enter the paramater file name. /export/air36/airops/1400/ts1400_l.par Enter the raw data file name. /export/air32/airops/1400/l_vv Enter the motion compensation file name. /export/air36/airops/1400/ts1400_l.mocomp Enter a file name for the range spectrum: /export/air36/airops/1400/db_l_vv.dat Enter a file name for the sampled caltone power: /export/air36/airops/1400/1st_l_vv.dat Enter histogram of the caltone power file name: /export/air36/airops/1400/pw_hist_l_vv.dat Enter histogram of the caltone phase file name: /export/air36/airops/1400/ph_hist_l_vv.dat Enter start range line #: 1 How many lines of raw data? 100000 How many lines to be processed? 100000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 4 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3756 5932 Prediction cal_bin 1057 start/end pulse: 1 99904 64-Loop Count: 1560 cmplx raw(1 2 3): (5.023773,0.0000000E+00) (-17.58320,0.0000000E+00) (40.19018,0.0000000E+00) attenuation (dB): 8.000000 no_loop: 64 Pulse#/no_loop: 1 1057 6.7764720E+07 plot_x: 1561 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 78.29545 Power RMS: 0.1465755 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 8218.822 Amp. RMS: 104.8046 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 41.71652 Phase RMS: 5.790417 Incoherent PH 1st: 41.36532 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 78.60106 CalTone Power Coherently dB : 78.29545 Incoherent PW - Coherent PW : 0.3056107 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 8517.497 CalTone Amplitude Coherently : 8218.822 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 298.6748 ------------ *** ------------ running time (sec): 50.47 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 0 *************************************************** * * * AIRSAR INTEGRATED PROCESSOR * * * * Global Line Generator * * * * This program generates the global line to use * * in the single-look processors to resample the * * data. * * * *************************************************** Please enter the name of the sensor file. 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 Enter the name of the parameter file. Please enter the name of the mocomp file. Reading motion compensation data Global reference line calculation results: y fit: constant and linear terms: -50.72684 5.7262270E-04 z fit: constant and linear terms: 0.3981182 -2.1510894E-05 y and z standard deviations (meters) 2.506191 0.6138655 Enter the name of the global line file. Enter the name of the motion compensation file. Enter the number of lines in the mocomp file & first one. Enter the patch size and the max reference fnc length. Enter the maximum Doppler error. Enter the doppler file name. Enter the wavelength and nominal azimuth pixel spacing Initial guess at number of patches = 27.29095 Step size = 3492 PATCH NUMER 1 First line = 1 Averages = 5.3394217E-02 4.8230495E-02 4.7657501E-02 4.6411619E-02 Differences = 4.4707470E-03 -6.9297478E-04 -1.2659691E-03 -2.5118515E-03 PATCH NUMER 2 First line = 3493 Averages = 4.7491610E-02 4.7552958E-02 4.6605371E-02 4.8760120E-02 Differences = -1.1090562E-04 -4.9557537E-05 -9.9714473E-04 1.1576042E-03 PATCH NUMER 3 First line = 6985 Averages = 4.5879900E-02 4.8157297E-02 4.8607506E-02 4.9782116E-02 Differences = -2.2268109E-03 5.0585717E-05 5.0079450E-04 1.6754046E-03 PATCH NUMER 4 First line = 10477 Averages = 4.9287826E-02 5.0462723E-02 5.1337902E-02 5.0061803E-02 Differences = -9.9971518E-04 1.7518178E-04 1.0503605E-03 -2.2573769E-04 PATCH NUMER 5 First line = 13969 Averages = 5.0062850E-02 5.0554235E-02 4.9772121E-02 4.6861600E-02 Differences = 7.5017288E-04 1.2415573E-03 4.5944378E-04 -2.4510771E-03 PATCH NUMER 6 First line = 17461 Averages = 5.0264020E-02 4.7607053E-02 4.2053588E-02 4.1425966E-02 Differences = 4.9263164E-03 2.2693500E-03 -3.2841153E-03 -3.9117374E-03 PATCH NUMER 7 First line = 20953 Averages = 4.4149633E-02 4.1058715E-02 4.4084426E-02 4.8798393E-02 Differences = -3.7317723E-04 -3.4640953E-03 -4.3838471E-04 4.2755827E-03 PATCH NUMER 8 First line = 24445 Averages = 4.2762268E-02 4.7374297E-02 4.9046025E-02 4.9313851E-02 Differences = -4.3618567E-03 2.5017187E-04 1.9218996E-03 2.1897256E-03 PATCH NUMER 9 First line = 27937 Averages = 4.8848066E-02 4.8542343E-02 4.9538784E-02 4.8851978E-02 Differences = -9.7204000E-05 -4.0292740E-04 5.9351325E-04 -9.3292445E-05 PATCH NUMER 10 First line = 31429 Averages = 5.0131410E-02 4.8543621E-02 4.7500201E-02 5.2162517E-02 Differences = 5.4698065E-04 -1.0408089E-03 -2.0842291E-03 2.5780872E-03 PATCH NUMER 11 First line = 34921 Averages = 4.7678452E-02 5.1288880E-02 5.1292092E-02 5.6968912E-02 Differences = -4.1286796E-03 -5.1825121E-04 -5.1504001E-04 5.1617809E-03 PATCH NUMER 12 First line = 38413 Averages = 5.1718656E-02 5.6840084E-02 5.2107055E-02 5.5512980E-02 Differences = -2.3260377E-03 2.7953908E-03 -1.9376390E-03 1.4682859E-03 PATCH NUMER 13 First line = 41905 Averages = 5.3652558E-02 5.5089079E-02 5.6061998E-02 5.6785438E-02 Differences = -1.7446987E-03 -3.0817837E-04 6.6474080E-04 1.3881810E-03 PATCH NUMER 14 First line = 45397 Averages = 5.5433724E-02 5.6705311E-02 5.9757631E-02 6.3073881E-02 Differences = -3.3089519E-03 -2.0373650E-03 1.0149553E-03 4.3312050E-03 PATCH NUMER 15 First line = 48889 Averages = 5.7619818E-02 6.2093839E-02 6.2688179E-02 5.4318324E-02 Differences = -1.5602782E-03 2.9137433E-03 3.5080835E-03 -4.8617721E-03 PATCH NUMER 16 First line = 52381 Averages = 6.3509859E-02 5.4463133E-02 5.5979583E-02 5.6400087E-02 Differences = 5.9217438E-03 -3.1249821E-03 -1.6085319E-03 -1.1880286E-03 PATCH NUMER 17 First line = 55873 Averages = 5.6069337E-02 5.5561580E-02 5.8490854E-02 6.4111963E-02 Differences = -2.4891309E-03 -2.9968880E-03 -6.7614019E-05 5.5534951E-03 PATCH NUMER 18 First line = 59365 Averages = 5.7073198E-02 6.2369030E-02 7.0272148E-02 6.7175373E-02 Differences = -7.1493089E-03 -1.8534772E-03 6.0496405E-03 2.9528663E-03 PATCH NUMER 19 First line = 62857 Averages = 6.8143360E-02 6.8100363E-02 6.2171817E-02 5.5082150E-02 Differences = 4.7688484E-03 4.7258511E-03 -1.2026951E-03 -8.2923621E-03 PATCH NUMER 20 First line = 66349 Averages = 6.4788803E-02 5.5635009E-02 5.5445235E-02 6.3421793E-02 Differences = 4.9660206E-03 -4.1877739E-03 -4.3775477E-03 3.5990104E-03 PATCH NUMER 21 First line = 69841 Averages = 5.3653214E-02 6.1829384E-02 6.7409411E-02 7.2804607E-02 Differences = -1.0271121E-02 -2.0949505E-03 3.4850761E-03 8.8802725E-03 PATCH NUMER 22 First line = 73333 Averages = 6.5304153E-02 7.2133616E-02 7.2047554E-02 6.6917315E-02 Differences = -3.7964731E-03 3.0329898E-03 2.9469281E-03 -2.1833107E-03 PATCH NUMER 23 First line = 76825 Averages = 7.1914911E-02 6.8223767E-02 6.4690433E-02 5.8183145E-02 Differences = 6.1617270E-03 2.4705827E-03 -1.0627508E-03 -7.5700395E-03 PATCH NUMER 24 First line = 80317 Averages = 6.5364502E-02 6.1563041E-02 5.3121861E-02 5.7289463E-02 Differences = 6.0297512E-03 2.2282898E-03 -6.2128901E-03 -2.0452887E-03 PATCH NUMER 25 First line = 83809 Averages = 5.4463614E-02 5.5390276E-02 5.9654169E-02 6.4056903E-02 Differences = -3.9276853E-03 -3.0010231E-03 1.2628697E-03 5.6656040E-03 PATCH NUMER 26 First line = 87301 Averages = 5.8894217E-02 6.3688599E-02 6.4989686E-02 6.4335972E-02 Differences = -4.0829033E-03 7.1147829E-04 2.0125657E-03 1.3588518E-03 PATCH NUMER 27 First line = 90793 Averages = 6.4380884E-02 6.4133808E-02 6.4216673E-02 6.4971954E-02 Differences = -4.4874847E-05 -2.9195100E-04 -2.0908564E-04 5.4619461E-04 PATCH NUMER 28 First line = 94285 last black mod_64: 44 100000 94285 8192 Averages = 6.4279601E-02 6.5623380E-02 6.5066092E-02 6.4971954E-02 Differences = -7.0559978E-04 6.3817948E-04 8.0890954E-05 -1.3247132E-05 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.35 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 1 AZ patch size: 8192 What is the desired az fract (def=1.0)? fract #: 1.154077 Please enter the name of the sensor file. /export/air32/airops/1400/sensor.hh96l_pr Please enter the name of the parameter file /export/air36/airops/1400/ts1400_l.par hddt: 96068 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 100000 lines Keeping 4192 data points per patch Near range (m) = 9040.540 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 2.400000 Radar wavelength (m) = 0.2422600 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = -0.3183750 Range weighting coefficient = 0.1000000 Map height (m) = 78.60000 Transmit leverarm x,y,z = 0.5200000 1.202806 1.615272 Receive leverarm x,y,z = 0.5200000 1.202806 1.615272 Name of raw data file? /export/air32/airops/1400/l_hh Name of the mocomp data file? /export/air36/airops/1400/ts1400_l.mocomph Output file name w/o ext? /export/air36/airops/1400/ts1400_l Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. hh Raw DIR Path:/export/air32/airops/1400/ output filename: /export/air32/airops/1400/ts1400_l.hh_j *** ipol itop: 1 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /export/air32/airops/1400/deskew.lh WAYNE init fft, calc slant range, load unpack, interpo 1.4706004E-02 reading motion compensation data WAYNE read motion compen 2.290457 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 AnalogChirp>96032Br,fs,T,fc 96068 40.00000 22.50000 90.00000 10.00000 deltaphase -ashift: 4.8838108E-04 0.3183750 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.7452309 start range comp, time = 3.171 WAYNE PREV 3.069648 NUMBER OF PROCESSOR USED = 8 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 4 by # 0 Processing block number 1 TESTING WHY -6.4741098E-03 1.8001201E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 3.290 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 51.69164502620697 ATTN ifrq ipol ln 4 1 8192 8.000000 IPOL, ITOP nblock 1 0 1 ****shift in azimuth (fractional pixel)= -0.4999149 shift in azimuth *fractional pixel= -0.5769402 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.2053966522216797E-02 TESTING 0.0000000E+00 -47.18187 2.032746 WAYNE Motion comp. added to patch, time = 18.93712496757507 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.8070211410522461E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -47.18187 2.032746 HEY,dt,fract,ye,pe -0.5769402 1.154077 -6.4741098E-03 1.8001201E-02 WAYNE Azimuth compression done, time = 346.9805700778961 Writing 4192 lines of data to file WAYNE write output data 2.184962987899780 ==w out 1 0 2001 0 WAYNE PROCESS 419.8108019828796 Processing block number 2 TESTING WHY -6.4040902E-03 1.7581699E-02 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 423.101 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 110.0454529523849 ATTN ifrq ipol ln 4 1 11684 8.000000 IPOL, ITOP nblock 1 0 2 ****shift in azimuth (fractional pixel)= -0.4999168 shift in azimuth *fractional pixel= -0.5769424 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1821985244750977E-02 TESTING 0.0000000E+00 -41.66958 2.228569 WAYNE Motion comp. added to patch, time = 18.53814995288849 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.8136968612670898E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -41.66958 2.228569 HEY,dt,fract,ye,pe -0.5769424 1.154077 -6.4040902E-03 1.7581699E-02 WAYNE Azimuth compression done, time = 340.7816609144211 Writing 4192 lines of data to file WAYNE write output data 14.55521607398987 ==w out 2 4192 2001 85852160 WAYNE PROCESS 483.9625240564346 Processing block number 3 TESTING WHY -5.7757902E-03 1.7326901E-02 3492 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 907.064 seconds. TESTING 6985 before reading done reading WAYNE load raw data , time = 67.95372390747070 ATTN ifrq ipol ln 4 1 15176 8.000000 IPOL, ITOP nblock 1 0 3 ****shift in azimuth (fractional pixel)= -0.4999217 shift in azimuth *fractional pixel= -0.5769481 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.2349009513854980E-02 TESTING 0.0000000E+00 -36.42489 2.130623 WAYNE Motion comp. added to patch, time = 19.00520801544189 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 5.3926944732666016E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 ra PROCESSING KID# 5 ..... WAYNE IS IN Processing 17 to 19 by # 4 Processing block number 17 WAYNE PATCHES: 55873 64064 patch# 17 reference line: 59968 3.346 seconds. before reading done reading WAYNE load raw data , time = 52.87750196456909 ATTN ifrq ipol ln 4 1 64064 8.000000 IPOL, ITOP nblock 1 0 17 ****shift in azimuth (fractional pixel)= -0.4999279 shift in azimuth *fractional pixel= -0.5769553 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1602997779846191E-02 WAYNE Motion comp. added to patch, time = 18.27813291549683 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.7160644531250000E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.5929709672928 Writing 4192 lines of data to file WAYNE write output data 3.603929996490479 ==w out 17 0 2001 0 WAYNE PROCESS 422.3685740232468 Processing block number 18 WAYNE PATCHES: 59365 67556 patch# 18 reference line: 63460 425.715 seconds. before reading done reading WAYNE load raw data , time = 90.38852596282959 ATTN ifrq ipol ln 4 1 67556 8.000000 IPOL, ITOP nblock 1 0 18 ****shift in azimuth (fractional pixel)= -0.4999095 shift in azimuth *fractional pixel= -0.5769340 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.2647986412048340E-02 WAYNE Motion comp. added to patch, time = 17.95687901973724 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.9698014259338379E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 343.4986470937729 Writing 4192 lines of data to file WAYNE write output data 7.357179999351501 ==w out 18 4192 2001 85852160 WAYNE PROCESS 459.2451589107513 Processing block number 19 WAYNE PATCHES: 62857 71048 patch# 19 reference line: 66952 884.960 seconds. before reading done reading WAYNE load raw data , time = 89.44629395008087 ATTN ifrq ipol ln 4 1 71048 8.000000 IPOL, ITOP nblock 1 0 19 ****shift in azimuth (fractional pixel)= -0.4999111 shift in azimuth *fractional pixel= -0.5769358 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1268973350524902E-02 WAYNE Motion comp. added to patch, time = 18.20172405242920 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 6.3208937644958496E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.3328599929810 Writing 4192 lines of data to file WAYNE write output data 1.990049004554749 ==w out 19 8384 2001 171704320 WAYNE PROCESS 457.0467910766602 ==w out 20 12579 PROCESSING KID# 8 ..... WAYNE IS IN Processing 26 to 28 by # 7 Processing block number 26 WAYNE PATCHES: 87301 95492 patch# 26 reference line: 91396 3.531 seconds. before reading done reading WAYNE load raw data , time = 55.08382594585419 ATTN ifrq ipol ln 4 1 95492 8.000000 IPOL, ITOP nblock 1 0 26 ****shift in azimuth (fractional pixel)= -0.4999087 shift in azimuth *fractional pixel= -0.5769331 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1641979217529297E-02 WAYNE Motion comp. added to patch, time = 17.93817198276520 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.7229785919189453E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.0442969799042 Writing 4192 lines of data to file WAYNE write output data 23.55277597904205 ==w out 26 0 2001 0 WAYNE PROCESS 443.6353490352631 Processing block number 27 WAYNE PATCHES: 90793 98984 patch# 27 reference line: 94888 447.166 seconds. before reading done reading WAYNE load raw data , time = 87.52880692481995 ATTN ifrq ipol ln 4 1 98984 8.000000 IPOL, ITOP nblock 1 0 27 ****shift in azimuth (fractional pixel)= -0.4999004 shift in azimuth *fractional pixel= -0.5769235 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1737942695617676E-02 WAYNE Motion comp. added to patch, time = 17.45911204814911 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 1.6623020172119141E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 341.5383290052414 Writing 4192 lines of data to file WAYNE write output data 2.587553024291992 ==w out 27 4192 2001 85852160 WAYNE PROCESS 449.1438089609146 Processing block number 28 WAYNE PATCHES: 91808 99999 patch# 28 reference line: 95903 896.310 seconds. before reading done reading WAYNE load raw data , time = 80.01536297798157 ATTN ifrq ipol ln 4 1 99999 8.000000 IPOL, ITOP nblock 1 0 28 ****shift in azimuth (fractional pixel)= -0.4999058 shift in azimuth *fractional pixel= -0.5769297 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1065959930419922E-02 WAYNE Motion comp. added to patch, time = 17.96991991996765 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 6.8570375442504883E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.5388939380646 Writing 4192 lines of data to file WAYNE write output data 24.63838601112366 ==w out 28 8384 2001 171704320 WAYNE PROCESS 470.1818640232086 ==w out 29 12579 PROCESSING KID# 7 ..... WAYNE IS IN Processing 23 to 25 by # 6 Processing block number 23 WAYNE PATCHES: 76825 85016 patch# 23 reference line: 80920 3.375 seconds. before reading done reading WAYNE load raw data , time = 53.94494295120239 ATTN ifrq ipol ln 4 1 85016 8.000000 IPOL, ITOP nblock 1 0 23 ****shift in azimuth (fractional pixel)= -0.4998994 shift in azimuth *fractional pixel= -0.5769224 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1721014976501465E-02 WAYNE Motion comp. added to patch, time = 18.20878410339355 WAYNE Doppler estimation done, time = 8.1062316894531250E-06 WAYNE write deskew done, time = 3.0050277709960938E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.5989959239960 Writing 4192 lines of data to file WAYNE write output data 26.60099995136261 ==w out 23 0 2001 0 WAYNE PROCESS 447.3703709840775 Processing block number 24 WAYNE PATCHES: 80317 88508 patch# 24 reference line: 84412 450.746 seconds. before reading done reading WAYNE load raw data , time = 66.79315400123596 ATTN ifrq ipol ln 4 1 88508 8.000000 IPOL, ITOP nblock 1 0 24 ****shift in azimuth (fractional pixel)= -0.4999158 shift in azimuth *fractional pixel= -0.5769413 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1842966079711914E-02 WAYNE Motion comp. added to patch, time = 17.55873203277588 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.2575974464416504E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 344.0298379659653 Writing 4192 lines of data to file WAYNE write output data 7.522886991500854 ==w out 24 4192 2001 85852160 WAYNE PROCESS 435.9404881000519 Processing block number 25 WAYNE PATCHES: 83809 92000 patch# 25 reference line: 87904 886.687 seconds. before reading done reading WAYNE load raw data , time = 89.12258291244507 ATTN ifrq ipol ln 4 1 92000 8.000000 IPOL, ITOP nblock 1 0 25 ****shift in azimuth (fractional pixel)= -0.4999176 shift in azimuth *fractional pixel= -0.5769433 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1009097099304199E-02 WAYNE Motion comp. added to patch, time = 17.92256700992584 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 5.3396940231323242E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.5184919834137 Writing 4192 lines of data to file WAYNE write output data 24.47217297554016 ==w out 25 8384 2001 171704320 WAYNE PROCESS 480.1017329692841 ==w out 26 12579 PROCESSING KID# 6 ..... WAYNE IS IN Processing 20 to 22 by # 5 Processing block number 20 WAYNE PATCHES: 66349 74540 patch# 20 reference line: 70444 3.360 seconds. before reading done reading WAYNE load raw data , time = 52.22287797927856 ATTN ifrq ipol ln 4 1 74540 8.000000 IPOL, ITOP nblock 1 0 20 ****shift in azimuth (fractional pixel)= -0.4999311 shift in azimuth *fractional pixel= -0.5769590 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1821985244750977E-02 WAYNE Motion comp. added to patch, time = 18.08113491535187 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.6780366897583008E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.0644079446793 Writing 4192 lines of data to file WAYNE write output data 8.637140989303589 ==w out 20 0 2001 0 WAYNE PROCESS 427.0217440128326 Processing block number 21 WAYNE PATCHES: 69841 78032 patch# 21 reference line: 73936 430.382 seconds. before reading done reading WAYNE load raw data , time = 85.49875307083130 ATTN ifrq ipol ln 4 1 78032 8.000000 IPOL, ITOP nblock 1 0 21 ****shift in azimuth (fractional pixel)= -0.4999140 shift in azimuth *fractional pixel= -0.5769392 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1479973793029785E-02 WAYNE Motion comp. added to patch, time = 17.39748704433441 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 3.0318021774291992E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 343.6488308906555 Writing 4192 lines of data to file WAYNE write output data 1.916442036628723 ==w out 21 4192 2001 85852160 WAYNE PROCESS 448.5046910047531 Processing block number 22 WAYNE PATCHES: 73333 81524 patch# 22 reference line: 77428 878.887 seconds. before reading done reading WAYNE load raw data , time = 95.43550705909729 ATTN ifrq ipol ln 4 1 81524 8.000000 IPOL, ITOP nblock 1 0 22 ****shift in azimuth (fractional pixel)= -0.4999022 shift in azimuth *fractional pixel= -0.5769256 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.5437006950378418E-02 WAYNE Motion comp. added to patch, time = 18.53705596923828 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 2.7027010917663574E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.1141330003738 Writing 4192 lines of data to file WAYNE write output data 2.172950029373169 ==w out 22 8384 2001 171704320 WAYNE PROCESS 464.3035160303116 ==w out 23 12579 PROCESSING KID# 3 ..... WAYNE IS IN Processing 9 to 12 by # 2 Processing block number 9 WAYNE PATCHES: 27937 36128 patch# 9 reference line: 32032 3.317 seconds. before reading done reading WAYNE load raw data , time = 51.84277510643005 ATTN ifrq ipol ln 4 1 36128 8.000000 IPOL, ITOP nblock 1 0 9 ****shift in azimuth (fractional pixel)= -0.4998933 shift in azimuth *fractional pixel= -0.5769153 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1635065078735352E-02 WAYNE Motion comp. added to patch, time = 18.50853800773621 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 2.7649402618408203E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.4752678871155 Writing 4192 lines of data to file WAYNE write output data 9.145520091056824 ==w out 9 0 2001 0 WAYNE PROCESS 427.9883050918579 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 431.306 seconds. before reading done reading WAYNE load raw data , time = 83.46145009994507 ATTN ifrq ipol ln 4 1 39620 8.000000 IPOL, ITOP nblock 1 0 10 ****shift in azimuth (fractional pixel)= -0.4999059 shift in azimuth *fractional pixel= -0.5769298 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1595010757446289E-02 WAYNE Motion comp. added to patch, time = 17.72177696228027 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 7.3400974273681641E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.4826700687408 Writing 4192 lines of data to file WAYNE write output data 7.350388884544373 ==w out 10 4192 2001 85852160 WAYNE PROCESS 454.1029069423676 Processing block number 11 WAYNE PATCHES: 34921 43112 patch# 11 reference line: 39016 885.409 seconds. before reading done reading WAYNE load raw data , time = 88.04944300651550 ATTN ifrq ipol ln 4 1 43112 8.000000 IPOL, ITOP nblock 1 0 11 ****shift in azimuth (fractional pixel)= -0.4999126 shift in azimuth *fractional pixel= -0.5769376 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1466979980468750E-02 WAYNE Motion comp. added to patch, time = 18.30301904678345 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.7435064315795898E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.4939930438995 Writing 4192 lines of data to file WAYNE write output data 2.165755033493042 ==w out 11 8384 2001 171704320 WAYNE PROCESS 457.0525629520416 Processing block number 12 WAYNE PATCHES: 38413 46604 patch# 12 reference line: 42508 1342.462 seconds. before reading done reading WAYNE load raw data , time = 86.90424406528473 ATTN ifrq ipol ln 4 1 46604 8.000000 IPOL, ITOP nblock 1 PROCESSING KID# 2 ..... WAYNE IS IN Processing 5 to 8 by # 1 Processing block number 5 WAYNE PATCHES: 13969 22160 patch# 5 reference line: 18064 3.305 seconds. before reading done reading WAYNE load raw data , time = 52.57883191108704 ATTN ifrq ipol ln 4 1 22160 8.000000 IPOL, ITOP nblock 1 0 5 ****shift in azimuth (fractional pixel)= -0.4999060 shift in azimuth *fractional pixel= -0.5769300 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1726975440979004E-02 WAYNE Motion comp. added to patch, time = 18.09855294227600 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.6689767837524414E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.1036369800568 Writing 4192 lines of data to file WAYNE write output data 2.400631904602051 ==w out 5 0 2001 0 WAYNE PROCESS 420.1977479457855 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 423.503 seconds. before reading done reading WAYNE load raw data , time = 102.0368659496307 ATTN ifrq ipol ln 4 1 25652 8.000000 IPOL, ITOP nblock 1 0 6 ****shift in azimuth (fractional pixel)= -0.4998952 shift in azimuth *fractional pixel= -0.5769175 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1731028556823730E-02 WAYNE Motion comp. added to patch, time = 17.74507999420166 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.1679043769836426E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 343.7634509801865 Writing 4192 lines of data to file WAYNE write output data 21.33601200580597 ==w out 6 4192 2001 85852160 WAYNE PROCESS 484.9165959358215 Processing block number 7 WAYNE PATCHES: 20953 29144 patch# 7 reference line: 25048 908.420 seconds. before reading done reading WAYNE load raw data , time = 67.88197600841522 ATTN ifrq ipol ln 4 1 29144 8.000000 IPOL, ITOP nblock 1 0 7 ****shift in azimuth (fractional pixel)= -0.4998947 shift in azimuth *fractional pixel= -0.5769169 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1340975761413574E-02 WAYNE Motion comp. added to patch, time = 18.76423394680023 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 8.0384016036987305E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.4681189060211 Writing 4192 lines of data to file WAYNE write output data 4.017454981803894 ==w out 7 8384 2001 171704320 WAYNE PROCESS 439.2255930900574 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 1347.646 seconds. before reading done reading WAYNE load raw data , time = 82.49953603744507 ATTN ifrq ipol ln 4 1 32636 8.000000 IPOL, ITOP nblock 1 PROCESSING KID# 4 ..... WAYNE IS IN Processing 13 to 16 by # 3 Processing block number 13 WAYNE PATCHES: 41905 50096 patch# 13 reference line: 46000 3.330 seconds. before reading done reading WAYNE load raw data , time = 53.28471398353577 ATTN ifrq ipol ln 4 1 50096 8.000000 IPOL, ITOP nblock 1 0 13 ****shift in azimuth (fractional pixel)= -0.4999056 shift in azimuth *fractional pixel= -0.5769296 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1798024177551270E-02 WAYNE Motion comp. added to patch, time = 18.39796197414398 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.6940107345581055E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.8935160636902 Writing 4192 lines of data to file WAYNE write output data 8.169452071189880 ==w out 13 0 2001 0 WAYNE PROCESS 427.7619040012360 Processing block number 14 WAYNE PATCHES: 45397 53588 patch# 14 reference line: 49492 431.092 seconds. before reading done reading WAYNE load raw data , time = 86.34397399425507 ATTN ifrq ipol ln 4 1 53588 8.000000 IPOL, ITOP nblock 1 0 14 ****shift in azimuth (fractional pixel)= -0.4998997 shift in azimuth *fractional pixel= -0.5769227 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1579990386962891E-02 WAYNE Motion comp. added to patch, time = 17.47563505172729 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 4.2829036712646484E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 343.9791630506516 Writing 4192 lines of data to file WAYNE write output data 7.539955973625183 ==w out 14 4192 2001 85852160 WAYNE PROCESS 455.3947860002518 Processing block number 15 WAYNE PATCHES: 48889 57080 patch# 15 reference line: 52984 886.487 seconds. before reading done reading WAYNE load raw data , time = 88.13971507549286 ATTN ifrq ipol ln 4 1 57080 8.000000 IPOL, ITOP nblock 1 0 15 ****shift in azimuth (fractional pixel)= -0.4999059 shift in azimuth *fractional pixel= -0.5769299 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.0990977287292480E-02 WAYNE Motion comp. added to patch, time = 18.37763500213623 WAYNE Doppler estimation done, time = 9.8943710327148438E-06 WAYNE write deskew done, time = 2.0445942878723145E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.9682700634003 Writing 4192 lines of data to file WAYNE write output data 24.41052699089050 ==w out 15 8384 2001 171704320 WAYNE PROCESS 478.9290679693222 Processing block number 16 WAYNE PATCHES: 52381 60572 patch# 16 reference line: 56476 1365.417 seconds. before reading done reading WAYNE load raw data , time = 68.66424691677094 ATTN ifrq ipol ln 4 1 60572 8.000000 IPOL, ITOP nblock 1 0 12 ****shift in azimuth (fractional pixel)= -0.4999159 shift in azimuth *fractional pixel= -0.5769414 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.2127041816711426E-02 WAYNE Motion comp. added to patch, time = 15.72103595733643 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.7811050415039063E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 272.6861159801483 Writing 4192 lines of data to file WAYNE write output data 1.688646078109741 ==w out 12 12576 2001 257556480 WAYNE PROCESS 377.0414810180664 ==w out 13 16771 nge migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -36.42489 2.130623 HEY,dt,fract,ye,pe -0.5769481 1.154077 -5.7757902E-03 1.7326901E-02 WAYNE Azimuth compression done, time = 347.5798170566559 Writing 4192 lines of data to file WAYNE write output data 2.257480025291443 ==w out 3 8384 2001 171704320 WAYNE PROCESS 436.8641140460968 Processing block number 4 TESTING WHY -5.3123902E-03 1.7652800E-02 3492 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 1343.929 seconds. TESTING 10477 before reading done reading WAYNE load raw data , time = 85.62505900859833 ATTN ifrq ipol ln 4 1 18668 8.000000 IPOL, ITOP nblock 1 0 4 ****shift in azimuth (fractional pixel)= -0.4999198 shift in azimuth *fractional pixel= -0.5769460 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.1590003967285156E-02 TESTING 0.0000000E+00 -31.88127 1.490122 WAYNE Motion comp. added to patch, time = 16.53502595424652 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.4320960044860840E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -31.88127 1.490122 HEY,dt,fract,ye,pe -0.5769460 1.154077 -5.3123902E-03 1.7652800E-02 WAYNE Azimuth compression done, time = 273.1381710767746 Writing 4192 lines of data to file WAYNE write output data 1.793774962425232 ==w out 4 12576 2001 257556480 WAYNE PROCESS 377.1292020082474 ==w out 5 16771 0 8 ****shift in azimuth (fractional pixel)= -0.4998949 shift in azimuth *fractional pixel= -0.5769172 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.2106060981750488E-02 WAYNE Motion comp. added to patch, time = 16.39257800579071 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.3420095443725586E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 272.7934399843216 Writing 4192 lines of data to file WAYNE write output data 1.812510013580322 ==w out 8 12576 2001 257556480 WAYNE PROCESS 373.5351020097733 ==w out 9 16771 0 16 ****shift in azimuth (fractional pixel)= -0.4999078 shift in azimuth *fractional pixel= -0.5769320 1.154077 WAYNE Motion comp. coeff. calculated, time = 1.2063980102539063E-02 WAYNE Motion comp. added to patch, time = 16.20308601856232 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.3833990097045898E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 272.5667469501495 Writing 4192 lines of data to file WAYNE write output data 1.676039934158325 ==w out 16 12576 2001 257556480 WAYNE PROCESS 359.1476160287857 ==w out 17 16771 1 12362478 0 2 12372554 0 3 12371714 0 4 11239930 0 5 12372566 0 6 12373029 0 7 12363130 0 8 12372257 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 117376kids= 8 Writing variable header... gather image from processor # 0 4 gather image from processor # 1 4 gather image from processor # 2 4 gather image from processor # 3 4 gather image from processor # 4 3 gather image from processor # 5 3 gather image from processor # 6 3 gather image from processor # 7 3 WAYNE gather images takes: 12.70328700542450 WAYNE LOOP TIME: 1746.564380049706 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air32/airops/1400/ts1400_l.hh_j /export/air36/airops/1400/ts1400_l.mocomph /export/air36/airops/1400/ts1400_l.dop /export/air36/airops/1400/ts1400_l.glb 2560 117376 update intf hdr ha: 8367.900 UPDATE: 2560 117376 3.331000 0.5144000 mocompfile /export/air36/airops/1400/ts1400_l.mocomph dopfile /export/air36/airops/1400/ts1400_l.dop globalfile /export/air36/airops/1400/ts1400_l.glb /export/air36/airops/1400/ts1400_l.glb 38 deskew line ra ha trc: 128.5260 249 9042.366 8367.900 54.57177 after deskew line ra ha trc: 128.5260 249 9042.366 8367.900 54.57177 lat1 lon1: 249 4.813068 114.7795 117376 last ra n_ns ns: 9042.366 1 1 117624 117376 lati loni: 117624 5.129428 115.2615 117624 1 center ra n_ns ns: 13302.71 1280 1280 58936 117376 lati loni: 58936 5.002770 114.9983 58936 2560 Updated paramater header in /export/air32/airops/1400/ts1400_l.hh_j WAYNE FINAL PROCESS 1749.825989961624 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 8 16768 4 16768 4 16768 4 16768 4 12576 3 12576 3 12576 3 12576 3 Name of data file to be deskewed? /export/air32/airops/1400/ts1400_l.hh_j Name of the doppler parameter file? /export/air36/airops/1400/ts1400_l.dop Name of the deskew file? /export/air32/airops/1400/deskew.lh Line up to another frequency [y/n]? y Name of the deskew file to line up to? /export/air32/airops/1400/deskew.ch Enter N_AZ, NA_VALID and the ratio of the pixel spacing of the file to line up to relative to the current pixel spacing. 4096 2208 1.000000 Name of the output file? /export/air36/airops/1400/ts1400_l.TT Name of the line output file? /export/air36/airops/1400/l_lines.dat NONE-SYMMETRIC PARALLEL JOBS Deskewing 28 patches Processing block number 1 patch iptc,sj,dgj,dgi,id: 1 1041 98 98 0 half line dmj dgc: 0 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1041 1 Zeroing lines in arrays Total # of output lines = 1 1040 1041 3137 0 2096 patch iptc,sj,dgj,dgi,id: 1 3137 98 98 2096 half line dmj dgc: 1 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3137 1041 Zeroing lines in arrays Total # of output lines = 1 3136 Processing block number 2 3137 4528 -5 1396 patch iptc,sj,dgj,dgi,id: 2 4528 93 98 1396 half line dmj dgc: 0 5493 243 114 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 4528 3137 Zeroing lines in arrays Total # of output lines = 2 4527 4528 6624 0 2096 patch iptc,sj,dgj,dgi,id: 2 6624 93 93 2096 half line dmj dgc: 1 5493 243 114 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 6624 4528 Zeroing lines in arrays Total # of output lines = 2 6623 Processing block number 3 6624 8035 15 1396 patch iptc,sj,dgj,dgi,id: 3 8035 108 93 1396 half line dmj dgc: 0 8985 243 114 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 8035 6624 Zeroing lines in arrays Total # of output lines = 3 8034 8035 10131 0 2096 patch iptc,sj,dgj,dgi,id: 3 10131 108 108 2096 half line dmj dgc: 1 8985 243 114 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 10131 8035 Zeroing lines in arrays Total # of output lines = 3 10130 Processing block number 4 10131 11546 19 1396 patch iptc,sj,dgj,dgi,id: 4 11546 127 108 1396 half line dmj dgc: 0 12477 251 114 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 11546 10131 Zeroing lines in arrays Total # of output lines = 4 11545 11546 13642 0 2096 patch iptc,sj,dgj,dgi,id: 4 13642 127 127 2096 half line dmj dgc: 1 12477 251 114 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 sj>s1: 13642 11546 Zeroing lines in arrays Total # of output lines = 4 13641 Processing block number 5 13642 15008 -30 1396 patch iptc,sj,dgj,dgi,id: 5 15008 97 127 1396 half line dmj dgc: 0 15969 251 114 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 15008 13642 Zeroing lines in arrays Total # of output lines = 5 15007 15008 17104 0 2096 patch iptc,sj,dgj,dgi,id: 5 720 97 97 2096 half line dmj dgc: 1 15969 251 114 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 s1>sj: 15008 720 Zeroing lines in arrays Total # of output lines = 5 17103 Processing block number 6 720 2050 -66 1396 patch iptc,sj,dgj,dgi,id: 6 2050 31 97 1396 half line dmj dgc: 0 19461 242 114 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 2050 720 Zeroing lines in arrays Total # of output lines = 6 18433 2050 4146 0 2096 patch iptc,sj,dgj,dgi,id: 6 4146 31 31 2096 half line dmj dgc: 1 19461 242 114 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 4146 2050 Zeroing lines in arrays Total # of output lines = 6 20529 Processing block number 7 4146 5525 -17 1396 patch iptc,sj,dgj,dgi,id: 7 5525 14 31 1396 half line dmj dgc: 0 22953 241 114 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 5525 4146 Zeroing lines in arrays Total # of output lines = 7 21908 5525 7621 0 2096 patch iptc,sj,dgj,dgi,id: 7 7621 14 14 2096 half line dmj dgc: 1 22953 241 114 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 7621 5525 Zeroing lines in arrays Total # of output lines = 7 24004 Processing block number 8 7621 9046 29 1396 patch iptc,sj,dgj,dgi,id: 8 9046 43 14 1396 half line dmj dgc: 0 26445 249 114 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 sj>s1: 9046 7621 Zeroing lines in arrays Total # of output lines = 8 25429 9046 11142 0 2096 patch iptc,sj,dgj,dgi,id: 8 11142 43 43 2096 half line dmj dgc: 1 26445 249 114 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 sj>s1: 11142 9046 Zeroing lines in arrays Total # of output lines = 8 27525 Processing block number 9 11142 12562 24 1396 patch iptc,sj,dgj,dgi,id: 9 12562 67 43 1396 half line dmj dgc: 0 29937 255 114 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 12562 11142 Zeroing lines in arrays Total # of output lines = 9 28945 12562 14658 0 2096 patch iptc,sj,dgj,dgi,id: 9 14658 67 67 2096 half line dmj dgc: 1 29937 255 114 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 14658 12562 Zeroing lines in arrays Total # of output lines = 9 31041 Processing block number 10 14658 16072 18 1396 patch iptc,sj,dgj,dgi,id: 10 16072 85 67 1396 half line dmj dgc: 0 33429 255 114 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 16072 14658 Zeroing lines in arrays Total # of output lines = 10 32455 16072 18168 0 2096 patch iptc,sj,dgj,dgi,id: 10 1784 85 85 2096 half line dmj dgc: 1 33429 255 114 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 s1>sj: 16072 1784 Zeroing lines in arrays Total # of output lines = 10 34551 Processing block number 11 1784 3217 37 1396 patch iptc,sj,dgj,dgi,id: 11 3217 122 85 1396 half line dmj dgc: 0 36921 260 114 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 3217 1784 Zeroing lines in arrays Total # of output lines = 11 35984 3217 5313 0 2096 patch iptc,sj,dgj,dgi,id: 11 5313 122 122 2096 half line dmj dgc: 1 36921 260 114 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 sj>s1: 5313 3217 Zeroing lines in arrays Total # of output lines = 11 38080 Processing block number 12 5313 6728 19 1396 patch iptc,sj,dgj,dgi,id: 12 6728 141 122 1396 half line dmj dgc: 0 40413 269 114 Actual deskew ireclen: 20480 ** 12 2096 0 48208 Writing data negflag .eq. 0 sj>s1: 6728 5313 Zeroing lines in arrays Total # of output lines = 12 39495 6728 8824 0 2096 patch iptc,sj,dgj,dgi,id: 12 8824 141 141 2096 half line dmj dgc: 1 40413 269 114 Actual deskew ireclen: 20480 ** 12 2096 1 50304 Writing data negflag .eq. 0 sj>s1: 8824 6728 Zeroing lines in arrays Total # of output lines = 12 41591 Processing block number 13 8824 10226 6 1396 patch iptc,sj,dgj,dgi,id: 13 10226 147 141 1396 half line dmj dgc: 0 43905 276 114 Actual deskew ireclen: 20480 ** 13 2096 0 52400 Writing data negflag .eq. 0 sj>s1: 10226 8824 Zeroing lines in arrays Total # of output lines = 13 42993 10226 12322 0 2096 patch iptc,sj,dgj,dgi,id: 13 12322 147 147 2096 half line dmj dgc: 1 43905 276 114 Actual deskew ireclen: 20480 ** 13 2096 1 54496 Writing data negflag .eq. 0 sj>s1: 12322 10226 Zeroing lines in arrays Total # of output lines = 13 45089 Processing block number 14 12322 13761 43 1396 patch iptc,sj,dgj,dgi,id: 14 13761 190 147 1396 half line dmj dgc: 0 47397 286 114 Actual deskew ireclen: 20480 ** 14 2096 0 56592 Writing data negflag .eq. 0 sj>s1: 13761 12322 Zeroing lines in arrays Total # of output lines = 14 46528 13761 15857 0 2096 patch iptc,sj,dgj,dgi,id: 14 15857 190 190 2096 half line dmj dgc: 1 47397 286 114 Actual deskew ireclen: 20480 ** 14 2096 1 58688 Writing data negflag .eq. 0 sj>s1: 15857 13761 Zeroing lines in arrays Total # of output lines = 14 48624 Processing block number 15 15857 17263 10 1396 patch iptc,sj,dgj,dgi,id: 15 879 200 190 1396 half line dmj dgc: 0 50889 286 114 Actual deskew ireclen: 20480 ** 15 2096 0 60784 Writing data negflag .eq. 0 s1>sj: 15857 879 Zeroing lines in arrays Total # of output lines = 15 50030 879 2975 0 2096 patch iptc,sj,dgj,dgi,id: 15 2975 200 200 2096 half line dmj dgc: 1 50889 286 114 Actual deskew ireclen: 20480 ** 15 2096 1 62880 Writing data negflag .eq. 0 sj>s1: 2975 879 Zeroing lines in arrays Total # of output lines = 15 52126 Processing block number 16 2975 4377 6 1396 patch iptc,sj,dgj,dgi,id: 16 4377 206 200 1396 half line dmj dgc: 0 54381 277 114 Actual deskew ireclen: 20480 ** 16 2096 0 64976 Writing data negflag .eq. 0 sj>s1: 4377 2975 Zeroing lines in arrays Total # of output lines = 16 53528 4377 6473 0 2096 patch iptc,sj,dgj,dgi,id: 16 6473 206 206 2096 half line dmj dgc: 1 54381 277 114 Actual deskew ireclen: 20480 ** 16 2096 1 67072 Writing data negflag .eq. 0 sj>s1: 6473 4377 Zeroing lines in arrays Total # of output lines = 16 55624 Processing block number 17 6473 7900 31 1396 patch iptc,sj,dgj,dgi,id: 17 7900 237 206 1396 half line dmj dgc: 0 57873 276 114 Actual deskew ireclen: 20480 ** 17 2096 0 69168 Writing data negflag .eq. 0 sj>s1: 7900 6473 Zeroing lines in arrays Total # of output lines = 17 57051 7900 9996 0 2096 patch iptc,sj,dgj,dgi,id: 17 9996 237 237 2096 half line dmj dgc: 1 57873 276 114 Actual deskew ireclen: 20480 ** 17 2096 1 71264 Writing data negflag .eq. 0 sj>s1: 9996 7900 Zeroing lines in arrays Total # of output lines = 17 59147 Processing block number 18 9996 11451 59 1396 patch iptc,sj,dgj,dgi,id: 18 11451 296 237 1396 half line dmj dgc: 0 61365 298 114 Actual deskew ireclen: 20480 ** 18 2096 0 73360 Writing data negflag .eq. 0 sj>s1: 11451 9996 Zeroing lines in arrays Total # of output lines = 18 60602 11451 13547 0 2096 patch iptc,sj,dgj,dgi,id: 18 13547 296 296 2096 half line dmj dgc: 1 61365 298 114 Actual deskew ireclen: 20480 ** 18 2096 1 75456 Writing data negflag .eq. 0 sj>s1: 13547 11451 Zeroing lines in arrays Total # of output lines = 18 62698 Processing block number 19 13547 14936 -7 1396 patch iptc,sj,dgj,dgi,id: 19 14936 289 296 1396 half line dmj dgc: 0 64857 293 114 Actual deskew ireclen: 20480 ** 19 2096 0 77552 Writing data negflag .eq. 0 sj>s1: 14936 13547 Zeroing lines in arrays Total # of output lines = 19 64087 14936 17032 0 2096 patch iptc,sj,dgj,dgi,id: 19 648 289 289 2096 half line dmj dgc: 1 64857 293 114 Actual deskew ireclen: 20480 ** 19 2096 1 79648 Writing data negflag .eq. 0 s1>sj: 14936 648 Zeroing lines in arrays Total # of output lines = 19 66183 Processing block number 20 648 2015 -29 1396 patch iptc,sj,dgj,dgi,id: 20 2015 260 289 1396 half line dmj dgc: 0 68349 279 114 Actual deskew ireclen: 20480 ** 20 2096 0 81744 Writing data negflag .eq. 0 sj>s1: 2015 648 Zeroing lines in arrays Total # of output lines = 20 67550 2015 4111 0 2096 patch iptc,sj,dgj,dgi,id: 20 4111 260 260 2096 half line dmj dgc: 1 68349 279 114 Actual deskew ireclen: 20480 ** 20 2096 1 83840 Writing data negflag .eq. 0 sj>s1: 4111 2015 Zeroing lines in arrays Total # of output lines = 20 69646 Processing block number 21 4111 5541 34 1396 patch iptc,sj,dgj,dgi,id: 21 5541 294 260 1396 half line dmj dgc: 0 71841 300 114 Actual deskew ireclen: 20480 ** 21 2096 0 85936 Writing data negflag .eq. 0 sj>s1: 5541 4111 Zeroing lines in arrays Total # of output lines = 21 71076 5541 7637 0 2096 patch iptc,sj,dgj,dgi,id: 21 7637 294 294 2096 half line dmj dgc: 1 71841 300 114 Actual deskew ireclen: 20480 ** 21 2096 1 88032 Writing data negflag .eq. 0 sj>s1: 7637 5541 Zeroing lines in arrays Total # of output lines = 21 73172 Processing block number 22 7637 9056 23 1396 patch iptc,sj,dgj,dgi,id: 22 9056 317 294 1396 half line dmj dgc: 0 75333 330 114 Actual deskew ireclen: 20480 ** 22 2096 0 90128 Writing data negflag .eq. 0 sj>s1: 9056 7637 Zeroing lines in arrays Total # of output lines = 22 74591 9056 11152 0 2096 patch iptc,sj,dgj,dgi,id: 22 11152 317 317 2096 half line dmj dgc: 1 75333 330 114 Actual deskew ireclen: 20480 ** 22 2096 1 92224 Writing data negflag .eq. 0 sj>s1: 11152 9056 Zeroing lines in arrays Total # of output lines = 22 76687 Processing block number 23 11152 12510 -38 1396 patch iptc,sj,dgj,dgi,id: 23 12510 279 317 1396 half line dmj dgc: 0 78825 308 114 Actual deskew ireclen: 20480 ** 23 2096 0 94320 Writing data negflag .eq. 0 sj>s1: 12510 11152 Zeroing lines in arrays Total # of output lines = 23 78045 12510 14606 0 2096 patch iptc,sj,dgj,dgi,id: 23 14606 279 279 2096 half line dmj dgc: 1 78825 308 114 Actual deskew ireclen: 20480 ** 23 2096 1 96416 Writing data negflag .eq. 0 sj>s1: 14606 12510 Zeroing lines in arrays Total # of output lines = 23 80141 Processing block number 24 14606 15942 -60 1396 patch iptc,sj,dgj,dgi,id: 24 15942 219 279 1396 half line dmj dgc: 0 82317 284 114 Actual deskew ireclen: 20480 ** 24 2096 0 98512 Writing data negflag .eq. 0 sj>s1: 15942 14606 Zeroing lines in arrays Total # of output lines = 24 81477 15942 18038 0 2096 patch iptc,sj,dgj,dgi,id: 24 1654 219 219 2096 half line dmj dgc: 1 82317 284 114 Actual deskew ireclen: 20480 ** 24 2096 1 100608 Writing data negflag .eq. 0 s1>sj: 15942 1654 Zeroing lines in arrays Total # of output lines = 24 83573 Processing block number 25 1654 3047 -3 1396 patch iptc,sj,dgj,dgi,id: 25 3047 216 219 1396 half line dmj dgc: 0 85809 279 114 Actual deskew ireclen: 20480 ** 25 2096 0 102704 Writing data negflag .eq. 0 sj>s1: 3047 1654 Zeroing lines in arrays Total # of output lines = 25 84966 3047 5143 0 2096 patch iptc,sj,dgj,dgi,id: 25 5143 216 216 2096 half line dmj dgc: 1 85809 279 114 Actual deskew ireclen: 20480 ** 25 2096 1 104800 Writing data negflag .eq. 0 sj>s1: 5143 3047 Zeroing lines in arrays Total # of output lines = 25 87062 Processing block number 26 5143 6581 42 1396 patch iptc,sj,dgj,dgi,id: 26 6581 258 216 1396 half line dmj dgc: 0 89301 297 114 Actual deskew ireclen: 20480 ** 26 2096 0 106896 Writing data negflag .eq. 0 sj>s1: 6581 5143 Zeroing lines in arrays Total # of output lines = 26 88500 6581 8677 0 2096 patch iptc,sj,dgj,dgi,id: 26 8677 258 258 2096 half line dmj dgc: 1 89301 297 114 Actual deskew ireclen: 20480 ** 26 2096 1 108992 Writing data negflag .eq. 0 sj>s1: 8677 6581 Zeroing lines in arrays Total # of output lines = 26 90596 Processing block number 27 8677 10067 -6 1396 patch iptc,sj,dgj,dgi,id: 27 10067 252 258 1396 half line dmj dgc: 0 92793 306 114 Actual deskew ireclen: 20480 ** 27 2096 0 111088 Writing data negflag .eq. 0 sj>s1: 10067 8677 Zeroing lines in arrays Total # of output lines = 27 91986 10067 12163 0 2096 patch iptc,sj,dgj,dgi,id: 27 12163 252 252 2096 half line dmj dgc: 1 92793 306 114 Actual deskew ireclen: 20480 ** 27 2096 1 113184 Writing data negflag .eq. 0 sj>s1: 12163 10067 Zeroing lines in arrays Total # of output lines = 27 94082 Processing block number 28 12163 11063 -19 -1081 patch iptc,sj,dgj,dgi,id: 28 11063 233 252 -1081 half line dmj dgc: 0 93808 312 114 Actual deskew ireclen: 20480 ** 28 2096 0 115280 Zeroing lines in arrays Total # of output lines = 28 94082 12163 13159 0 2096 patch iptc,sj,dgj,dgi,id: 28 13159 233 233 2096 half line dmj dgc: 1 93808 312 114 Actual deskew ireclen: 20480 ** 28 2096 1 117376 Writing data negflag .eq. 0 sj>s1: 13159 12163 Zeroing lines in arrays Total # of output lines = 28 95078 ia dmi dgi: 13159 312 233 Writing the last 2175 lines last half sj>s1 15334 13159 95078 Total # of output lines = 97253 Writing new header.. Closing files .. ileni= 39 ilend= 35 /export/air32/airops/1400/ts1400_l.hh_j.0 /export/air32/airops/1400/deskew.lh.0 /export/air32/airops/1400/ts1400_l.hh_j.1 /export/air32/airops/1400/deskew.lh.1 /export/air32/airops/1400/ts1400_l.hh_j.2 /export/air32/airops/1400/deskew.lh.2 /export/air32/airops/1400/ts1400_l.hh_j.3 /export/air32/airops/1400/deskew.lh.3 /export/air32/airops/1400/ts1400_l.hh_j.4 /export/air32/airops/1400/deskew.lh.4 /export/air32/airops/1400/ts1400_l.hh_j.5 /export/air32/airops/1400/deskew.lh.5 /export/air32/airops/1400/ts1400_l.hh_j.6 /export/air32/airops/1400/deskew.lh.6 /export/air32/airops/1400/ts1400_l.hh_j.7 /export/air32/airops/1400/deskew.lh.7 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.35 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 1 AZ patch size: 8192 What is the desired az fract (def=1.0)? fract #: 0.0000000E+00 Please enter the name of the sensor file. /export/air32/airops/1400/sensor.vv96l_pr Please enter the name of the parameter file /export/air36/airops/1400/ts1400_l.par hddt: 96068 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 100000 lines Keeping 4192 data points per patch Near range (m) = 9040.540 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 2.400000 Radar wavelength (m) = 0.2422600 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = -1.000000 Range weighting coefficient = 0.1000000 Map height (m) = 78.60000 Transmit leverarm x,y,z = 0.5400000 0.5371945 -0.2652719 Receive leverarm x,y,z = 0.5400000 0.5371945 -0.2652719 Name of raw data file? /export/air32/airops/1400/l_vv Name of the mocomp data file? /export/air36/airops/1400/ts1400_l.mocompv Output file name w/o ext? /export/air36/airops/1400/ts1400_l Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. vv Raw DIR Path:/export/air32/airops/1400/ output filename: /export/air32/airops/1400/ts1400_l.vv_j *** ipol itop: 4 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /export/air32/airops/1400/deskew.lv WAYNE init fft, calc slant range, load unpack, interpo 1.5907995E-02 reading motion compensation data WAYNE read motion compen 2.332692 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 AnalogChirp>96032Br,fs,T,fc 96068 40.00000 22.50000 90.00000 10.00000 deltaphase -ashift: 1.5339807E-03 1.000000 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.7499950 start range comp, time = 3.582 WAYNE PREV 3.116300 NUMBER OF PROCESSOR USED = 8 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 7 ..... WAYNE IS IN Processing 23 to 25 by # 6 Processing block number 23 WAYNE PATCHES: 76825 85016 patch# 23 reference line: 80920 3.801 seconds. before reading done reading WAYNE load raw data , time = 54.03911089897156 ATTN ifrq ipol ln 4 4 85016 8.000000 IPOL, ITOP nblock 4 0 23 WAYNE Motion comp. coeff. calculated, time = 1.1491060256958008E-02 WAYNE Motion comp. added to patch, time = 18.47001302242279 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.7359724044799805E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.1914581060410 Writing 4192 lines of data to file WAYNE write output data 5.123579978942871 ==w out 23 0 2001 0 WAYNE PROCESS 424.8401479721069 Processing block number 24 WAYNE PATCHES: 80317 88508 patch# 24 reference line: 84412 428.641 seconds. before reading done reading WAYNE load raw data , time = 84.29770398139954 ATTN ifrq ipol ln 4 4 88508 8.000000 IPOL, ITOP nblock 4 0 24 WAYNE Motion comp. coeff. calculated, time = 1.1610984802246094E-02 WAYNE Motion comp. added to patch, time = 17.84768295288086 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.9320955276489258E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 342.8593829870224 Writing 4192 lines of data to file WAYNE write output data 2.009615063667297 ==w out 24 4192 2001 85852160 WAYNE PROCESS 447.0574830770493 Processing block number 25 WAYNE PATCHES: 83809 92000 patch# 25 reference line: 87904 875.699 seconds. before reading done reading WAYNE load raw data , time = 93.65881788730621 ATTN ifrq ipol ln 4 4 92000 8.000000 IPOL, ITOP nblock 4 0 25 WAYNE Motion comp. coeff. calculated, time = 1.1141896247863770E-02 WAYNE Motion comp. added to patch, time = 16.82168400287628 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 0.1001750230789185 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.0236440896988 Writing 4192 lines of data to file WAYNE write output data 1.869488954544067 ==w out 25 8384 2001 171704320 WAYNE PROCESS 458.4864939451218 ==w out 26 12579 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 4 by # 0 Processing block number 1 TESTING WHY -6.4741098E-03 1.8001201E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 3.703 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 53.61965203285217 ATTN ifrq ipol ln 4 4 8192 8.000000 IPOL, ITOP nblock 4 0 1 WAYNE Motion comp. coeff. calculated, time = 1.1583089828491211E-02 TESTING 0.0000000E+00 -47.83472 0.1490096 WAYNE Motion comp. added to patch, time = 18.66668796539307 WAYNE Doppler estimation done, time = 1.5974044799804688E-05 WAYNE write deskew done, time = 2.7309656143188477E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -47.83472 0.1490096 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -6.4741098E-03 1.8001201E-02 WAYNE Azimuth compression done, time = 346.9036940336227 Writing 4192 lines of data to file WAYNE write output data 3.955272078514099 ==w out 1 0 2001 0 WAYNE PROCESS 423.1613360643387 Processing block number 2 TESTING WHY -6.4040902E-03 1.7581699E-02 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 426.865 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 114.6637001037598 ATTN ifrq ipol ln 4 4 11684 8.000000 IPOL, ITOP nblock 4 0 2 WAYNE Motion comp. coeff. calculated, time = 1.2143015861511230E-02 TESTING 0.0000000E+00 -42.32136 0.3445536 WAYNE Motion comp. added to patch, time = 18.27716505527496 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.5539994239807129E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -42.32136 0.3445536 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -6.4040902E-03 1.7581699E-02 WAYNE Azimuth compression done, time = 339.7471439838409 Writing 4192 lines of data to file WAYNE write output data 1.948891997337341 ==w out 2 4192 2001 85852160 WAYNE PROCESS 474.6763589382172 Processing block number 3 TESTING WHY -5.7757902E-03 1.7326901E-02 3492 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 901.541 seconds. TESTING 6985 before reading done reading WAYNE load raw data , time = 73.80834305286407 ATTN ifrq ipol ln 4 4 15176 8.000000 IPOL, ITOP nblock 4 0 3 WAYNE Motion comp. coeff. calculated, time = 1.1489987373352051E-02 TESTING 0.0000000E+00 -37.07353 0.2460370 WAYNE Motion comp. added to patch, time = 17.39205002784729 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 8.5162997245788574E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -37.07353 0.2460370 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -5.7757902E-03 1.7326901E-02 WAYNE Azimuth compression done, time = 345.5110390186310 Writing 4192 lines of data to file WAYNE write ou PROCESSING KID# 5 ..... WAYNE IS IN Processing 17 to 19 by # 4 Processing block number 17 WAYNE PATCHES: 55873 64064 patch# 17 reference line: 59968 3.769 seconds. before reading done reading WAYNE load raw data , time = 58.24716997146606 ATTN ifrq ipol ln 4 4 64064 8.000000 IPOL, ITOP nblock 4 0 17 WAYNE Motion comp. coeff. calculated, time = 1.1801004409790039E-02 WAYNE Motion comp. added to patch, time = 18.62191796302795 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.9419660568237305E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.7913480997086 Writing 4192 lines of data to file WAYNE write output data 28.67951202392578 ==w out 17 0 2001 0 WAYNE PROCESS 454.3567959070206 Processing block number 18 WAYNE PATCHES: 59365 67556 patch# 18 reference line: 63460 458.126 seconds. before reading done reading WAYNE load raw data , time = 59.84885799884796 ATTN ifrq ipol ln 4 4 67556 8.000000 IPOL, ITOP nblock 4 0 18 WAYNE Motion comp. coeff. calculated, time = 1.1443972587585449E-02 WAYNE Motion comp. added to patch, time = 18.42510998249054 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.0039081573486328E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.4422079324722 Writing 4192 lines of data to file WAYNE write output data 1.762260079383850 ==w out 18 4192 2001 85852160 WAYNE PROCESS 425.5119160413742 Processing block number 19 WAYNE PATCHES: 62857 71048 patch# 19 reference line: 66952 883.638 seconds. before reading done reading WAYNE load raw data , time = 92.33416104316711 ATTN ifrq ipol ln 4 4 71048 8.000000 IPOL, ITOP nblock 4 0 19 WAYNE Motion comp. coeff. calculated, time = 1.1139035224914551E-02 WAYNE Motion comp. added to patch, time = 17.07431197166443 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 6.9774985313415527E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.6882899999619 Writing 4192 lines of data to file WAYNE write output data 10.65764892101288 ==w out 19 8384 2001 171704320 WAYNE PROCESS 467.8369809389114 ==w out 20 12579 PROCESSING KID# 6 ..... WAYNE IS IN Processing 20 to 22 by # 5 Processing block number 20 WAYNE PATCHES: 66349 74540 patch# 20 reference line: 70444 3.786 seconds. before reading done reading WAYNE load raw data , time = 53.73027396202087 ATTN ifrq ipol ln 4 4 74540 8.000000 IPOL, ITOP nblock 4 0 20 WAYNE Motion comp. coeff. calculated, time = 1.1760115623474121E-02 WAYNE Motion comp. added to patch, time = 18.23954200744629 WAYNE Doppler estimation done, time = 8.1062316894531250E-06 WAYNE write deskew done, time = 2.6799440383911133E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.1617059707642 Writing 4192 lines of data to file WAYNE write output data 2.009799003601074 ==w out 20 0 2001 0 WAYNE PROCESS 420.1574059724808 Processing block number 21 WAYNE PATCHES: 69841 78032 patch# 21 reference line: 73936 423.943 seconds. before reading done reading WAYNE load raw data , time = 121.9418500661850 ATTN ifrq ipol ln 4 4 78032 8.000000 IPOL, ITOP nblock 4 0 21 WAYNE Motion comp. coeff. calculated, time = 1.1644959449768066E-02 WAYNE Motion comp. added to patch, time = 17.95667493343353 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 8.3636999130249023E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 339.5391420125961 Writing 4192 lines of data to file WAYNE write output data 1.781390070915222 ==w out 21 4192 2001 85852160 WAYNE PROCESS 481.3166170120239 Processing block number 22 WAYNE PATCHES: 73333 81524 patch# 22 reference line: 77428 905.260 seconds. before reading done reading WAYNE load raw data , time = 69.88998901844025 ATTN ifrq ipol ln 4 4 81524 8.000000 IPOL, ITOP nblock 4 0 22 WAYNE Motion comp. coeff. calculated, time = 1.0951995849609375E-02 WAYNE Motion comp. added to patch, time = 17.40163803100586 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 6.7834973335266113E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 344.8371120691299 Writing 4192 lines of data to file WAYNE write output data 19.39355099201202 ==w out 22 8384 2001 171704320 WAYNE PROCESS 451.6027140617371 ==w out 23 12579 PROCESSING KID# 8 ..... WAYNE IS IN Processing 26 to 28 by # 7 Processing block number 26 WAYNE PATCHES: 87301 95492 patch# 26 reference line: 91396 3.815 seconds. before reading done reading WAYNE load raw data , time = 52.73542904853821 ATTN ifrq ipol ln 4 4 95492 8.000000 IPOL, ITOP nblock 4 0 26 WAYNE Motion comp. coeff. calculated, time = 1.1633992195129395E-02 WAYNE Motion comp. added to patch, time = 18.06509494781494 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.8220415115356445E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.9394919872284 Writing 4192 lines of data to file WAYNE write output data 2.354097008705139 ==w out 26 0 2001 0 WAYNE PROCESS 421.1101130247116 Processing block number 27 WAYNE PATCHES: 90793 98984 patch# 27 reference line: 94888 424.926 seconds. before reading done reading WAYNE load raw data , time = 117.3307930231094 ATTN ifrq ipol ln 4 4 98984 8.000000 IPOL, ITOP nblock 4 0 27 WAYNE Motion comp. coeff. calculated, time = 1.2022018432617188E-02 WAYNE Motion comp. added to patch, time = 17.88215398788452 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 9.6136093139648438E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 341.5541269779205 Writing 4192 lines of data to file WAYNE write output data 14.10396504402161 ==w out 27 4192 2001 85852160 WAYNE PROCESS 490.9816150665283 Processing block number 28 WAYNE PATCHES: 91808 99999 patch# 28 reference line: 95903 915.907 seconds. before reading done reading WAYNE load raw data , time = 59.02701604366302 ATTN ifrq ipol ln 4 4 99999 8.000000 IPOL, ITOP nblock 4 0 28 WAYNE Motion comp. coeff. calculated, time = 1.0954976081848145E-02 WAYNE Motion comp. added to patch, time = 16.87128400802612 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 4.4121980667114258E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.2211890220642 Writing 4192 lines of data to file WAYNE write output data 19.84465706348419 ==w out 28 8384 2001 171704320 WAYNE PROCESS 441.0210599899292 ==w out 29 12579 PROCESSING KID# 3 ..... WAYNE IS IN Processing 9 to 12 by # 2 Processing block number 9 WAYNE PATCHES: 27937 36128 patch# 9 reference line: 32032 3.736 seconds. before reading done reading WAYNE load raw data , time = 54.43578100204468 ATTN ifrq ipol ln 4 4 36128 8.000000 IPOL, ITOP nblock 4 0 9 WAYNE Motion comp. coeff. calculated, time = 1.1794924736022949E-02 WAYNE Motion comp. added to patch, time = 18.58104205131531 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.6619434356689453E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.4709560871124 Writing 4192 lines of data to file WAYNE write output data 11.22758400440216 ==w out 9 0 2001 0 WAYNE PROCESS 431.7317301034927 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 435.469 seconds. before reading done reading WAYNE load raw data , time = 76.54816603660583 ATTN ifrq ipol ln 4 4 39620 8.000000 IPOL, ITOP nblock 4 0 10 WAYNE Motion comp. coeff. calculated, time = 1.1587023735046387E-02 WAYNE Motion comp. added to patch, time = 18.13946902751923 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 6.8709969520568848E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 341.8127290010452 Writing 4192 lines of data to file WAYNE write output data 2.248742938041687 ==w out 10 4192 2001 85852160 WAYNE PROCESS 438.8313069343567 Processing block number 11 WAYNE PATCHES: 34921 43112 patch# 11 reference line: 39016 874.300 seconds. before reading done reading WAYNE load raw data , time = 93.83431494235992 ATTN ifrq ipol ln 4 4 43112 8.000000 IPOL, ITOP nblock 4 0 11 WAYNE Motion comp. coeff. calculated, time = 3.2446980476379395E-02 WAYNE Motion comp. added to patch, time = 16.92015802860260 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 3.1211018562316895E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 344.8906809091568 Writing 4192 lines of data to file WAYNE write output data 1.702757954597473 ==w out 11 8384 2001 171704320 WAYNE PROCESS 457.4130380153656 Processing block number 12 WAYNE PATCHES: 38413 46604 patch# 12 reference line: 42508 1331.713 seconds. before reading done reading WAYNE load raw data , time = 89.97629404067993 ATTN ifrq ipol ln 4 4 46604 8.000000 IPOL, ITOP nblock 4 0 12 WAYNE Motion comp. coeff. calculated, time = 1.1673927307128906E-02 WAYNE Motion comp. added to patch, time = 15.70882201194763 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.0999073982238770E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migrati PROCESSING KID# 2 ..... WAYNE IS IN Processing 5 to 8 by # 1 Processing block number 5 WAYNE PATCHES: 13969 22160 patch# 5 reference line: 18064 3.722 seconds. before reading done reading WAYNE load raw data , time = 52.12864398956299 ATTN ifrq ipol ln 4 4 22160 8.000000 IPOL, ITOP nblock 4 0 5 WAYNE Motion comp. coeff. calculated, time = 1.2394905090332031E-02 WAYNE Motion comp. added to patch, time = 18.45201301574707 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.7740001678466797E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 352.3947310447693 Writing 4192 lines of data to file WAYNE write output data 8.753069996833801 ==w out 5 0 2001 0 WAYNE PROCESS 431.7456359863281 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 435.468 seconds. before reading done reading WAYNE load raw data , time = 75.71412003040314 ATTN ifrq ipol ln 4 4 25652 8.000000 IPOL, ITOP nblock 4 0 6 WAYNE Motion comp. coeff. calculated, time = 1.1597990989685059E-02 WAYNE Motion comp. added to patch, time = 18.45185291767120 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.5786995887756348E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.4502159357071 Writing 4192 lines of data to file WAYNE write output data 1.921980977058411 ==w out 6 4192 2001 85852160 WAYNE PROCESS 443.5775799751282 Processing block number 7 WAYNE PATCHES: 20953 29144 patch# 7 reference line: 25048 879.046 seconds. before reading done reading WAYNE load raw data , time = 91.13914799690247 ATTN ifrq ipol ln 4 4 29144 8.000000 IPOL, ITOP nblock 4 0 7 WAYNE Motion comp. coeff. calculated, time = 1.1049985885620117E-02 WAYNE Motion comp. added to patch, time = 17.55401599407196 WAYNE Doppler estimation done, time = 8.1062316894531250E-06 WAYNE write deskew done, time = 3.7271022796630859E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 349.2536050081253 Writing 4192 lines of data to file WAYNE write output data 3.946467995643616 ==w out 7 8384 2001 171704320 WAYNE PROCESS 461.9431049823761 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 1340.989 seconds. before reading done reading WAYNE load raw data , time = 81.32899892330170 ATTN ifrq ipol ln 4 4 32636 8.000000 IPOL, ITOP nblock 4 0 8 WAYNE Motion comp. coeff. calculated, time = 1.1613965034484863E-02 WAYNE Motion comp. added to patch, time = 16.41615605354309 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.8712987899780273E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migrati PROCESSING KID# 4 ..... WAYNE IS IN Processing 13 to 16 by # 3 Processing block number 13 WAYNE PATCHES: 41905 50096 patch# 13 reference line: 46000 3.752 seconds. before reading done reading WAYNE load raw data , time = 52.50987398624420 ATTN ifrq ipol ln 4 4 50096 8.000000 IPOL, ITOP nblock 4 0 13 WAYNE Motion comp. coeff. calculated, time = 5.1787972450256348E-02 WAYNE Motion comp. added to patch, time = 18.50220108032227 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.7079582214355469E-03 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.3720669746399 Writing 4192 lines of data to file WAYNE write output data 5.110872030258179 ==w out 13 0 2001 0 WAYNE PROCESS 424.5515409708023 Processing block number 14 WAYNE PATCHES: 45397 53588 patch# 14 reference line: 49492 428.304 seconds. before reading done reading WAYNE load raw data , time = 108.2578529119492 ATTN ifrq ipol ln 4 4 53588 8.000000 IPOL, ITOP nblock 4 0 14 WAYNE Motion comp. coeff. calculated, time = 1.1765956878662109E-02 WAYNE Motion comp. added to patch, time = 17.71696007251740 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 5.7877063751220703E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 341.7058500051498 Writing 4192 lines of data to file WAYNE write output data 1.656691074371338 ==w out 14 4192 2001 85852160 WAYNE PROCESS 469.4092590808868 Processing block number 15 WAYNE PATCHES: 48889 57080 patch# 15 reference line: 52984 897.713 seconds. before reading done reading WAYNE load raw data , time = 74.45800101757050 ATTN ifrq ipol ln 4 4 57080 8.000000 IPOL, ITOP nblock 4 0 15 WAYNE Motion comp. coeff. calculated, time = 1.1058926582336426E-02 WAYNE Motion comp. added to patch, time = 17.16039204597473 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 8.8585972785949707E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.3292529582977 Writing 4192 lines of data to file WAYNE write output data 1.872014045715332 ==w out 15 8384 2001 171704320 WAYNE PROCESS 438.9207820892334 Processing block number 16 WAYNE PATCHES: 52381 60572 patch# 16 reference line: 56476 1336.635 seconds. before reading done reading WAYNE load raw data , time = 86.58758103847504 ATTN ifrq ipol ln 4 4 60572 8.000000 IPOL, ITOP nblock 4 0 16 WAYNE Motion comp. coeff. calculated, time = 1.1504054069519043E-02 WAYNE Motion comp. added to patch, time = 16.23238801956177 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 3.0240058898925781E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 269.1578010320663 Writing 4192 lines of data to file WAYNE write output data 1.645548939704895 ==w out 12 12576 2001 257556480 WAYNE PROCESS 376.5225780010223 ==w out 13 16771 tput data 16.74938797950745 ==w out 3 8384 2001 171704320 WAYNE PROCESS 453.5591570138931 Processing block number 4 TESTING WHY -5.3123902E-03 1.7652800E-02 3492 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 1355.103 seconds. TESTING 10477 before reading done reading WAYNE load raw data , time = 68.33197200298309 ATTN ifrq ipol ln 4 4 18668 8.000000 IPOL, ITOP nblock 4 0 4 WAYNE Motion comp. coeff. calculated, time = 1.1538982391357422E-02 TESTING 0.0000000E+00 -32.53064 -0.3945903 WAYNE Motion comp. added to patch, time = 16.14069604873657 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.0554065704345703E-02 AZ Wavl Br: 0.2422600 40.00000 4.9054146E-02 443.4760 861.6183 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -32.53064 -0.3945903 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -5.3123902E-03 1.7652800E-02 WAYNE Azimuth compression done, time = 268.4782009124756 Writing 4192 lines of data to file WAYNE write output data 1.710806965827942 ==w out 4 12576 2001 257556480 WAYNE PROCESS 354.6951869726181 ==w out 5 16771 on lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 269.3772889375687 Writing 4192 lines of data to file WAYNE write output data 1.696292996406555 ==w out 16 12576 2001 257556480 WAYNE PROCESS 373.9367989301682 ==w out 17 16771 on lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 272.5796370506287 Writing 4192 lines of data to file WAYNE write output data 1.629983067512512 ==w out 8 12576 2001 257556480 WAYNE PROCESS 371.9968270063400 ==w out 9 16771 1 12403211 0 2 12404094 0 3 12400764 0 4 12403476 0 5 12401116 0 6 12265561 0 7 12402055 0 8 12398983 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 117376kids= 8 Writing variable header... gather image from processor # 0 4 gather image from processor # 1 4 gather image from processor # 2 4 gather image from processor # 3 4 gather image from processor # 4 3 gather image from processor # 5 3 gather image from processor # 6 3 gather image from processor # 7 3 WAYNE gather images takes: 5.677242994308472 WAYNE LOOP TIME: 1735.096319079399 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air32/airops/1400/ts1400_l.vv_j /export/air36/airops/1400/ts1400_l.mocompv /export/air36/airops/1400/ts1400_l.dop /export/air36/airops/1400/ts1400_l.glb 2560 117376 update intf hdr ha: 8367.900 UPDATE: 2560 117376 3.331000 0.5144000 mocompfile /export/air36/airops/1400/ts1400_l.mocompv dopfile /export/air36/airops/1400/ts1400_l.dop globalfile /export/air36/airops/1400/ts1400_l.glb /export/air36/airops/1400/ts1400_l.glb 38 deskew line ra ha trc: 128.5260 249 9042.366 8367.900 54.57177 after deskew line ra ha trc: 128.5260 249 9042.366 8367.900 54.57177 lat1 lon1: 249 4.813068 114.7795 117376 last ra n_ns ns: 9042.366 1 1 117624 117376 lati loni: 117624 5.129428 115.2615 117624 1 center ra n_ns ns: 13302.71 1280 1280 58936 117376 lati loni: 58936 5.002770 114.9983 58936 2560 Updated paramater header in /export/air32/airops/1400/ts1400_l.vv_j WAYNE FINAL PROCESS 1738.789973974228 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 8 16768 4 16768 4 16768 4 16768 4 12576 3 12576 3 12576 3 12576 3 Name of data file to be deskewed? /export/air32/airops/1400/ts1400_l.vv_j Name of the doppler parameter file? /export/air36/airops/1400/ts1400_l.dop Name of the deskew file? /export/air32/airops/1400/deskew.lv Line up to another frequency [y/n]? y Name of the deskew file to line up to? /export/air32/airops/1400/deskew.ch Enter N_AZ, NA_VALID and the ratio of the pixel spacing of the file to line up to relative to the current pixel spacing. 4096 2208 1.000000 Name of the output file? /export/air36/airops/1400/ts1400_l.BB Name of the line output file? /export/air36/airops/1400/l_lines.dat NONE-SYMMETRIC PARALLEL JOBS Deskewing 28 patches Processing block number 1 patch iptc,sj,dgj,dgi,id: 1 1041 98 98 0 half line dmj dgc: 0 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1041 1 Zeroing lines in arrays Total # of output lines = 1 1040 1041 3137 0 2096 patch iptc,sj,dgj,dgi,id: 1 3137 98 98 2096 half line dmj dgc: 1 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3137 1041 Zeroing lines in arrays Total # of output lines = 1 3136 Processing block number 2 3137 4528 -5 1396 patch iptc,sj,dgj,dgi,id: 2 4528 93 98 1396 half line dmj dgc: 0 5493 243 114 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 4528 3137 Zeroing lines in arrays Total # of output lines = 2 4527 4528 6624 0 2096 patch iptc,sj,dgj,dgi,id: 2 6624 93 93 2096 half line dmj dgc: 1 5493 243 114 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 6624 4528 Zeroing lines in arrays Total # of output lines = 2 6623 Processing block number 3 6624 8035 15 1396 patch iptc,sj,dgj,dgi,id: 3 8035 108 93 1396 half line dmj dgc: 0 8985 243 114 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 8035 6624 Zeroing lines in arrays Total # of output lines = 3 8034 8035 10131 0 2096 patch iptc,sj,dgj,dgi,id: 3 10131 108 108 2096 half line dmj dgc: 1 8985 243 114 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 10131 8035 Zeroing lines in arrays Total # of output lines = 3 10130 Processing block number 4 10131 11546 19 1396 patch iptc,sj,dgj,dgi,id: 4 11546 127 108 1396 half line dmj dgc: 0 12477 251 114 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 11546 10131 Zeroing lines in arrays Total # of output lines = 4 11545 11546 13642 0 2096 patch iptc,sj,dgj,dgi,id: 4 13642 127 127 2096 half line dmj dgc: 1 12477 251 114 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 sj>s1: 13642 11546 Zeroing lines in arrays Total # of output lines = 4 13641 Processing block number 5 13642 15008 -30 1396 patch iptc,sj,dgj,dgi,id: 5 15008 97 127 1396 half line dmj dgc: 0 15969 251 114 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 15008 13642 Zeroing lines in arrays Total # of output lines = 5 15007 15008 17104 0 2096 patch iptc,sj,dgj,dgi,id: 5 720 97 97 2096 half line dmj dgc: 1 15969 251 114 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 s1>sj: 15008 720 Zeroing lines in arrays Total # of output lines = 5 17103 Processing block number 6 720 2050 -66 1396 patch iptc,sj,dgj,dgi,id: 6 2050 31 97 1396 half line dmj dgc: 0 19461 242 114 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 2050 720 Zeroing lines in arrays Total # of output lines = 6 18433 2050 4146 0 2096 patch iptc,sj,dgj,dgi,id: 6 4146 31 31 2096 half line dmj dgc: 1 19461 242 114 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 4146 2050 Zeroing lines in arrays Total # of output lines = 6 20529 Processing block number 7 4146 5525 -17 1396 patch iptc,sj,dgj,dgi,id: 7 5525 14 31 1396 half line dmj dgc: 0 22953 241 114 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 5525 4146 Zeroing lines in arrays Total # of output lines = 7 21908 5525 7621 0 2096 patch iptc,sj,dgj,dgi,id: 7 7621 14 14 2096 half line dmj dgc: 1 22953 241 114 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 7621 5525 Zeroing lines in arrays Total # of output lines = 7 24004 Processing block number 8 7621 9046 29 1396 patch iptc,sj,dgj,dgi,id: 8 9046 43 14 1396 half line dmj dgc: 0 26445 249 114 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 sj>s1: 9046 7621 Zeroing lines in arrays Total # of output lines = 8 25429 9046 11142 0 2096 patch iptc,sj,dgj,dgi,id: 8 11142 43 43 2096 half line dmj dgc: 1 26445 249 114 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 sj>s1: 11142 9046 Zeroing lines in arrays Total # of output lines = 8 27525 Processing block number 9 11142 12562 24 1396 patch iptc,sj,dgj,dgi,id: 9 12562 67 43 1396 half line dmj dgc: 0 29937 255 114 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 12562 11142 Zeroing lines in arrays Total # of output lines = 9 28945 12562 14658 0 2096 patch iptc,sj,dgj,dgi,id: 9 14658 67 67 2096 half line dmj dgc: 1 29937 255 114 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 14658 12562 Zeroing lines in arrays Total # of output lines = 9 31041 Processing block number 10 14658 16072 18 1396 patch iptc,sj,dgj,dgi,id: 10 16072 85 67 1396 half line dmj dgc: 0 33429 255 114 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 16072 14658 Zeroing lines in arrays Total # of output lines = 10 32455 16072 18168 0 2096 patch iptc,sj,dgj,dgi,id: 10 1784 85 85 2096 half line dmj dgc: 1 33429 255 114 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 s1>sj: 16072 1784 Zeroing lines in arrays Total # of output lines = 10 34551 Processing block number 11 1784 3217 37 1396 patch iptc,sj,dgj,dgi,id: 11 3217 122 85 1396 half line dmj dgc: 0 36921 260 114 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 3217 1784 Zeroing lines in arrays Total # of output lines = 11 35984 3217 5313 0 2096 patch iptc,sj,dgj,dgi,id: 11 5313 122 122 2096 half line dmj dgc: 1 36921 260 114 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 sj>s1: 5313 3217 Zeroing lines in arrays Total # of output lines = 11 38080 Processing block number 12 5313 6728 19 1396 patch iptc,sj,dgj,dgi,id: 12 6728 141 122 1396 half line dmj dgc: 0 40413 269 114 Actual deskew ireclen: 20480 ** 12 2096 0 48208 Writing data negflag .eq. 0 sj>s1: 6728 5313 Zeroing lines in arrays Total # of output lines = 12 39495 6728 8824 0 2096 patch iptc,sj,dgj,dgi,id: 12 8824 141 141 2096 half line dmj dgc: 1 40413 269 114 Actual deskew ireclen: 20480 ** 12 2096 1 50304 Writing data negflag .eq. 0 sj>s1: 8824 6728 Zeroing lines in arrays Total # of output lines = 12 41591 Processing block number 13 8824 10226 6 1396 patch iptc,sj,dgj,dgi,id: 13 10226 147 141 1396 half line dmj dgc: 0 43905 276 114 Actual deskew ireclen: 20480 ** 13 2096 0 52400 Writing data negflag .eq. 0 sj>s1: 10226 8824 Zeroing lines in arrays Total # of output lines = 13 42993 10226 12322 0 2096 patch iptc,sj,dgj,dgi,id: 13 12322 147 147 2096 half line dmj dgc: 1 43905 276 114 Actual deskew ireclen: 20480 ** 13 2096 1 54496 Writing data negflag .eq. 0 sj>s1: 12322 10226 Zeroing lines in arrays Total # of output lines = 13 45089 Processing block number 14 12322 13761 43 1396 patch iptc,sj,dgj,dgi,id: 14 13761 190 147 1396 half line dmj dgc: 0 47397 286 114 Actual deskew ireclen: 20480 ** 14 2096 0 56592 Writing data negflag .eq. 0 sj>s1: 13761 12322 Zeroing lines in arrays Total # of output lines = 14 46528 13761 15857 0 2096 patch iptc,sj,dgj,dgi,id: 14 15857 190 190 2096 half line dmj dgc: 1 47397 286 114 Actual deskew ireclen: 20480 ** 14 2096 1 58688 Writing data negflag .eq. 0 sj>s1: 15857 13761 Zeroing lines in arrays Total # of output lines = 14 48624 Processing block number 15 15857 17263 10 1396 patch iptc,sj,dgj,dgi,id: 15 879 200 190 1396 half line dmj dgc: 0 50889 286 114 Actual deskew ireclen: 20480 ** 15 2096 0 60784 Writing data negflag .eq. 0 s1>sj: 15857 879 Zeroing lines in arrays Total # of output lines = 15 50030 879 2975 0 2096 patch iptc,sj,dgj,dgi,id: 15 2975 200 200 2096 half line dmj dgc: 1 50889 286 114 Actual deskew ireclen: 20480 ** 15 2096 1 62880 Writing data negflag .eq. 0 sj>s1: 2975 879 Zeroing lines in arrays Total # of output lines = 15 52126 Processing block number 16 2975 4377 6 1396 patch iptc,sj,dgj,dgi,id: 16 4377 206 200 1396 half line dmj dgc: 0 54381 277 114 Actual deskew ireclen: 20480 ** 16 2096 0 64976 Writing data negflag .eq. 0 sj>s1: 4377 2975 Zeroing lines in arrays Total # of output lines = 16 53528 4377 6473 0 2096 patch iptc,sj,dgj,dgi,id: 16 6473 206 206 2096 half line dmj dgc: 1 54381 277 114 Actual deskew ireclen: 20480 ** 16 2096 1 67072 Writing data negflag .eq. 0 sj>s1: 6473 4377 Zeroing lines in arrays Total # of output lines = 16 55624 Processing block number 17 6473 7900 31 1396 patch iptc,sj,dgj,dgi,id: 17 7900 237 206 1396 half line dmj dgc: 0 57873 276 114 Actual deskew ireclen: 20480 ** 17 2096 0 69168 Writing data negflag .eq. 0 sj>s1: 7900 6473 Zeroing lines in arrays Total # of output lines = 17 57051 7900 9996 0 2096 patch iptc,sj,dgj,dgi,id: 17 9996 237 237 2096 half line dmj dgc: 1 57873 276 114 Actual deskew ireclen: 20480 ** 17 2096 1 71264 Writing data negflag .eq. 0 sj>s1: 9996 7900 Zeroing lines in arrays Total # of output lines = 17 59147 Processing block number 18 9996 11451 59 1396 patch iptc,sj,dgj,dgi,id: 18 11451 296 237 1396 half line dmj dgc: 0 61365 298 114 Actual deskew ireclen: 20480 ** 18 2096 0 73360 Writing data negflag .eq. 0 sj>s1: 11451 9996 Zeroing lines in arrays Total # of output lines = 18 60602 11451 13547 0 2096 patch iptc,sj,dgj,dgi,id: 18 13547 296 296 2096 half line dmj dgc: 1 61365 298 114 Actual deskew ireclen: 20480 ** 18 2096 1 75456 Writing data negflag .eq. 0 sj>s1: 13547 11451 Zeroing lines in arrays Total # of output lines = 18 62698 Processing block number 19 13547 14936 -7 1396 patch iptc,sj,dgj,dgi,id: 19 14936 289 296 1396 half line dmj dgc: 0 64857 293 114 Actual deskew ireclen: 20480 ** 19 2096 0 77552 Writing data negflag .eq. 0 sj>s1: 14936 13547 Zeroing lines in arrays Total # of output lines = 19 64087 14936 17032 0 2096 patch iptc,sj,dgj,dgi,id: 19 648 289 289 2096 half line dmj dgc: 1 64857 293 114 Actual deskew ireclen: 20480 ** 19 2096 1 79648 Writing data negflag .eq. 0 s1>sj: 14936 648 Zeroing lines in arrays Total # of output lines = 19 66183 Processing block number 20 648 2015 -29 1396 patch iptc,sj,dgj,dgi,id: 20 2015 260 289 1396 half line dmj dgc: 0 68349 279 114 Actual deskew ireclen: 20480 ** 20 2096 0 81744 Writing data negflag .eq. 0 sj>s1: 2015 648 Zeroing lines in arrays Total # of output lines = 20 67550 2015 4111 0 2096 patch iptc,sj,dgj,dgi,id: 20 4111 260 260 2096 half line dmj dgc: 1 68349 279 114 Actual deskew ireclen: 20480 ** 20 2096 1 83840 Writing data negflag .eq. 0 sj>s1: 4111 2015 Zeroing lines in arrays Total # of output lines = 20 69646 Processing block number 21 4111 5541 34 1396 patch iptc,sj,dgj,dgi,id: 21 5541 294 260 1396 half line dmj dgc: 0 71841 300 114 Actual deskew ireclen: 20480 ** 21 2096 0 85936 Writing data negflag .eq. 0 sj>s1: 5541 4111 Zeroing lines in arrays Total # of output lines = 21 71076 5541 7637 0 2096 patch iptc,sj,dgj,dgi,id: 21 7637 294 294 2096 half line dmj dgc: 1 71841 300 114 Actual deskew ireclen: 20480 ** 21 2096 1 88032 Writing data negflag .eq. 0 sj>s1: 7637 5541 Zeroing lines in arrays Total # of output lines = 21 73172 Processing block number 22 7637 9056 23 1396 patch iptc,sj,dgj,dgi,id: 22 9056 317 294 1396 half line dmj dgc: 0 75333 330 114 Actual deskew ireclen: 20480 ** 22 2096 0 90128 Writing data negflag .eq. 0 sj>s1: 9056 7637 Zeroing lines in arrays Total # of output lines = 22 74591 9056 11152 0 2096 patch iptc,sj,dgj,dgi,id: 22 11152 317 317 2096 half line dmj dgc: 1 75333 330 114 Actual deskew ireclen: 20480 ** 22 2096 1 92224 Writing data negflag .eq. 0 sj>s1: 11152 9056 Zeroing lines in arrays Total # of output lines = 22 76687 Processing block number 23 11152 12510 -38 1396 patch iptc,sj,dgj,dgi,id: 23 12510 279 317 1396 half line dmj dgc: 0 78825 308 114 Actual deskew ireclen: 20480 ** 23 2096 0 94320 Writing data negflag .eq. 0 sj>s1: 12510 11152 Zeroing lines in arrays Total # of output lines = 23 78045 12510 14606 0 2096 patch iptc,sj,dgj,dgi,id: 23 14606 279 279 2096 half line dmj dgc: 1 78825 308 114 Actual deskew ireclen: 20480 ** 23 2096 1 96416 Writing data negflag .eq. 0 sj>s1: 14606 12510 Zeroing lines in arrays Total # of output lines = 23 80141 Processing block number 24 14606 15942 -60 1396 patch iptc,sj,dgj,dgi,id: 24 15942 219 279 1396 half line dmj dgc: 0 82317 284 114 Actual deskew ireclen: 20480 ** 24 2096 0 98512 Writing data negflag .eq. 0 sj>s1: 15942 14606 Zeroing lines in arrays Total # of output lines = 24 81477 15942 18038 0 2096 patch iptc,sj,dgj,dgi,id: 24 1654 219 219 2096 half line dmj dgc: 1 82317 284 114 Actual deskew ireclen: 20480 ** 24 2096 1 100608 Writing data negflag .eq. 0 s1>sj: 15942 1654 Zeroing lines in arrays Total # of output lines = 24 83573 Processing block number 25 1654 3047 -3 1396 patch iptc,sj,dgj,dgi,id: 25 3047 216 219 1396 half line dmj dgc: 0 85809 279 114 Actual deskew ireclen: 20480 ** 25 2096 0 102704 Writing data negflag .eq. 0 sj>s1: 3047 1654 Zeroing lines in arrays Total # of output lines = 25 84966 3047 5143 0 2096 patch iptc,sj,dgj,dgi,id: 25 5143 216 216 2096 half line dmj dgc: 1 85809 279 114 Actual deskew ireclen: 20480 ** 25 2096 1 104800 Writing data negflag .eq. 0 sj>s1: 5143 3047 Zeroing lines in arrays Total # of output lines = 25 87062 Processing block number 26 5143 6581 42 1396 patch iptc,sj,dgj,dgi,id: 26 6581 258 216 1396 half line dmj dgc: 0 89301 297 114 Actual deskew ireclen: 20480 ** 26 2096 0 106896 Writing data negflag .eq. 0 sj>s1: 6581 5143 Zeroing lines in arrays Total # of output lines = 26 88500 6581 8677 0 2096 patch iptc,sj,dgj,dgi,id: 26 8677 258 258 2096 half line dmj dgc: 1 89301 297 114 Actual deskew ireclen: 20480 ** 26 2096 1 108992 Writing data negflag .eq. 0 sj>s1: 8677 6581 Zeroing lines in arrays Total # of output lines = 26 90596 Processing block number 27 8677 10067 -6 1396 patch iptc,sj,dgj,dgi,id: 27 10067 252 258 1396 half line dmj dgc: 0 92793 306 114 Actual deskew ireclen: 20480 ** 27 2096 0 111088 Writing data negflag .eq. 0 sj>s1: 10067 8677 Zeroing lines in arrays Total # of output lines = 27 91986 10067 12163 0 2096 patch iptc,sj,dgj,dgi,id: 27 12163 252 252 2096 half line dmj dgc: 1 92793 306 114 Actual deskew ireclen: 20480 ** 27 2096 1 113184 Writing data negflag .eq. 0 sj>s1: 12163 10067 Zeroing lines in arrays Total # of output lines = 27 94082 Processing block number 28 12163 11063 -19 -1081 patch iptc,sj,dgj,dgi,id: 28 11063 233 252 -1081 half line dmj dgc: 0 93808 312 114 Actual deskew ireclen: 20480 ** 28 2096 0 115280 Zeroing lines in arrays Total # of output lines = 28 94082 12163 13159 0 2096 patch iptc,sj,dgj,dgi,id: 28 13159 233 233 2096 half line dmj dgc: 1 93808 312 114 Actual deskew ireclen: 20480 ** 28 2096 1 117376 Writing data negflag .eq. 0 sj>s1: 13159 12163 Zeroing lines in arrays Total # of output lines = 28 95078 ia dmi dgi: 13159 312 233 Writing the last 2175 lines last half sj>s1 15334 13159 95078 Total # of output lines = 97253 Writing new header.. Closing files .. ileni= 39 ilend= 35 /export/air32/airops/1400/ts1400_l.vv_j.0 /export/air32/airops/1400/deskew.lv.0 /export/air32/airops/1400/ts1400_l.vv_j.1 /export/air32/airops/1400/deskew.lv.1 /export/air32/airops/1400/ts1400_l.vv_j.2 /export/air32/airops/1400/deskew.lv.2 /export/air32/airops/1400/ts1400_l.vv_j.3 /export/air32/airops/1400/deskew.lv.3 /export/air32/airops/1400/ts1400_l.vv_j.4 /export/air32/airops/1400/deskew.lv.4 /export/air32/airops/1400/ts1400_l.vv_j.5 /export/air32/airops/1400/deskew.lv.5 /export/air32/airops/1400/ts1400_l.vv_j.6 /export/air32/airops/1400/deskew.lv.6 /export/air32/airops/1400/ts1400_l.vv_j.7 /export/air32/airops/1400/deskew.lv.7 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.9276759 38.67205 146 0.031 3046 0.031 38.67205 0.000048 0.000264 -0.000009 r_peak,r_snr = 0.9525841 31.35120 246 0.063 3046 0.031 31.35120 0.000033 0.000175 0.000000 r_peak,r_snr = 0.9256507 62.97107 346 0.063 3046 0.000 62.97107 0.000042 0.000177 -0.000002 r_peak,r_snr = 0.9324228 31.18977 446 0.031 3046 0.000 31.18977 0.000046 0.000192 -0.000002 r_peak,r_snr = 0.9438147 37.91747 546 0.031 3046 0.000 37.91747 0.000038 0.000159 -0.000005 r_peak,r_snr = 0.9393980 57.34694 646 0.000 3046 -0.031 57.34694 0.000039 0.000135 -0.000003 r_peak,r_snr = 0.9285474 44.99267 746 0.000 3046 0.031 44.99267 0.000040 0.000187 -0.000001 r_peak,r_snr = 0.9396390 53.27998 846 0.000 3046 0.094 53.27998 0.000036 0.000155 -0.000005 r_peak,r_snr = 0.9203739 57.14622 946 -0.031 3046 0.000 57.14622 0.000046 0.000207 0.000001 r_peak,r_snr = 0.9255230 58.71614 1046 0.000 3046 0.000 58.71614 0.000049 0.000188 -0.000001 r_peak,r_snr = 0.9328548 37.57281 1146 0.000 3046 0.000 37.57281 0.000045 0.000203 0.000001 r_peak,r_snr = 0.9276704 74.07716 1246 -0.031 3046 0.000 74.07716 0.000038 0.000180 -0.000002 r_peak,r_snr = 0.9285387 38.05433 1346 -0.063 3046 0.063 38.05433 0.000047 0.000170 -0.000002 r_peak,r_snr = 0.9355749 47.46741 1446 -0.031 3046 0.063 47.46741 0.000041 0.000185 -0.000004 r_peak,r_snr = 0.9148380 58.86758 1546 -0.063 3046 0.063 58.86758 0.000051 0.000211 0.000001 r_peak,r_snr = 0.9112247 110.2778 1646 -0.063 3046 0.031 110.27782 0.000043 0.000186 0.000000 r_peak,r_snr = 0.9384746 9.077003 1746 -0.063 3046 0.063 9.07700 0.000050 0.000252 -0.000001 r_peak,r_snr = 0.8329664 98.88517 1846 -0.031 3046 0.000 98.88517 0.000098 0.000425 -0.000005 r_peak,r_snr = 0.8795725 103.3912 1946 0.000 3046 0.031 103.39116 0.000061 0.000271 0.000002 r_peak,r_snr = 0.8913301 97.10386 2046 0.000 3046 0.063 97.10386 0.000058 0.000228 -0.000001 At line = 3400 Reading in data.... r_peak,r_snr = 0.9281368 37.58681 146 0.063 3446 0.063 37.58681 0.000045 0.000213 -0.000002 r_peak,r_snr = 0.9178029 76.41594 246 0.031 3446 0.063 76.41594 0.000044 0.000187 -0.000003 r_peak,r_snr = 0.9226694 67.53276 346 0.031 3446 0.125 67.53276 0.000042 0.000187 -0.000002 r_peak,r_snr = 0.9279876 39.64603 446 0.063 3446 0.125 39.64603 0.000048 0.000227 -0.000005 r_peak,r_snr = 0.9505464 37.53987 546 0.031 3446 0.031 37.53987 0.000034 0.000133 0.000001 r_peak,r_snr = 0.9289136 67.23113 646 0.000 3446 0.063 67.23113 0.000038 0.000168 0.000001 r_peak,r_snr = 0.9439248 26.97911 746 0.031 3446 0.031 26.97911 0.000037 0.000149 0.000000 r_peak,r_snr = 0.9353548 31.16578 846 -0.031 3446 -0.063 31.16578 0.000041 0.000196 -0.000003 r_peak,r_snr = 0.9208770 70.69990 946 0.000 3446 0.000 70.69990 0.000046 0.000196 0.000000 r_peak,r_snr = 0.9428137 29.83278 1046 0.000 3446 0.063 29.83278 0.000040 0.000170 0.000002 r_peak,r_snr = 0.9309568 31.06794 1146 0.000 3446 -0.031 31.06794 0.000049 0.000187 0.000008 r_peak,r_snr = 0.9444195 34.27100 1246 0.000 3446 0.031 34.27100 0.000039 0.000167 0.000000 r_peak,r_snr = 0.9330918 37.61230 1346 0.000 3446 0.094 37.61230 0.000042 0.000194 -0.000004 r_peak,r_snr = 0.9336984 25.18481 1446 -0.031 3446 0.063 25.18481 0.000052 0.000197 -0.000002 r_peak,r_snr = 0.9149536 54.88207 1546 -0.063 3446 0.125 54.88207 0.000055 0.000240 0.000000 r_peak,r_snr = 0.9215935 79.60525 1646 -0.031 3446 0.031 79.60525 0.000042 0.000179 0.000001 r_peak,r_snr = 0.9492868 9.817971 1746 -0.031 3446 0.094 9.81797 0.000040 0.000183 0.000000 r_peak,r_snr = 0.8448574 81.23967 1846 -0.031 3446 0.094 81.23967 0.000088 0.000419 -0.000004 r_peak,r_snr = 0.8677487 84.17095 1946 0.000 3446 0.063 84.17095 0.000075 0.000312 -0.000003 r_peak,r_snr = 0.8904984 97.96013 2046 0.000 3446 0.031 97.96013 0.000058 0.000253 0.000001 At line = 3800 Reading in data.... r_peak,r_snr = 0.9091564 54.40240 146 0.063 3846 -0.031 54.40240 0.000056 0.000212 0.000003 r_peak,r_snr = 0.9322657 39.05785 246 0.063 3846 0.031 39.05785 0.000045 0.000164 -0.000002 r_peak,r_snr = 0.9638731 35.07399 346 0.063 3846 -0.031 35.07399 0.000023 0.000132 -0.000001 r_peak,r_snr = 0.9571188 22.29294 446 0.031 3846 -0.063 22.29294 0.000032 0.000187 0.000003 r_peak,r_snr = 0.9356855 44.53178 546 0.000 3846 -0.063 44.53178 0.000038 0.000151 0.000000 r_peak,r_snr = 0.9372754 70.97471 646 0.031 3846 -0.063 70.97471 0.000035 0.000137 -0.000003 r_peak,r_snr = 0.9389464 38.26197 746 0.000 3846 -0.063 38.26197 0.000038 0.000164 0.000001 r_peak,r_snr = 0.9338231 38.78412 846 0.031 3846 -0.031 38.78412 0.000042 0.000165 -0.000001 r_peak,r_snr = 0.9231446 60.88817 946 -0.031 3846 0.000 60.88817 0.000045 0.000181 -0.000002 r_peak,r_snr = 0.9392071 32.84905 1046 0.000 3846 -0.063 32.84905 0.000043 0.000181 -0.000001 r_peak,r_snr = 0.9347845 51.10769 1146 -0.031 3846 -0.063 51.10769 0.000042 0.000169 -0.000001 r_peak,r_snr = 0.9207156 62.16399 1246 -0.031 3846 -0.063 62.16399 0.000045 0.000195 -0.000002 r_peak,r_snr = 0.9181242 31.70130 1346 -0.031 3846 -0.125 31.70130 0.000055 0.000243 0.000000 r_peak,r_snr = 0.9281456 25.31034 1446 0.000 3846 -0.031 25.31034 0.000054 0.000243 -0.000002 r_peak,r_snr = 0.9066014 40.46047 1546 -0.063 3846 -0.031 40.46047 0.000057 0.000287 -0.000005 r_peak,r_snr = 0.9222645 67.05291 1646 -0.031 3846 -0.063 67.05291 0.000047 0.000186 0.000001 r_peak,r_snr = 0.9623841 7.206046 1746 0.000 3846 0.063 7.20605 0.000043 0.000170 -0.000002 r_peak,r_snr = 0.8990683 80.05486 1846 0.000 3846 0.000 80.05486 0.000055 0.000225 0.000000 r_peak,r_snr = 0.8513860 83.75355 1946 0.000 3846 -0.063 83.75355 0.000086 0.000383 0.000000 r_peak,r_snr = 0.8993012 96.16257 2046 0.000 3846 -0.156 96.16257 0.000053 0.000233 -0.000002 At line = 4200 Reading in data.... r_peak,r_snr = 0.9382479 29.24420 146 0.063 4246 -0.094 29.24420 0.000042 0.000246 -0.000001 r_peak,r_snr = 0.9135260 65.32419 246 0.063 4246 -0.031 65.32419 0.000051 0.000211 -0.000002 r_peak,r_snr = 0.9653147 23.58520 346 0.031 4246 -0.031 23.58520 0.000026 0.000152 0.000001 r_peak,r_snr = 0.9526415 27.32664 446 0.000 4246 -0.094 27.32664 0.000031 0.000147 -0.000002 r_peak,r_snr = 0.9560114 49.23684 546 0.000 4246 -0.063 49.23684 0.000026 0.000125 0.000001 r_peak,r_snr = 0.9400094 57.65298 646 0.000 4246 -0.063 57.65298 0.000033 0.000157 -0.000002 r_peak,r_snr = 0.9188108 61.89872 746 0.031 4246 0.031 61.89872 0.000043 0.000202 -0.000001 r_peak,r_snr = 0.9228370 64.68267 846 0.000 4246 -0.125 64.68267 0.000044 0.000187 -0.000004 r_peak,r_snr = 0.9468487 25.18613 946 -0.031 4246 0.000 25.18613 0.000037 0.000174 0.000000 r_peak,r_snr = 0.9434187 27.58619 1046 -0.031 4246 -0.094 27.58619 0.000037 0.000156 0.000003 r_peak,r_snr = 0.9367197 64.10420 1146 0.000 4246 -0.094 64.10420 0.000038 0.000156 -0.000004 r_peak,r_snr = 0.9310902 34.12067 1246 0.000 4246 -0.063 34.12067 0.000045 0.000197 -0.000005 r_peak,r_snr = 0.9157591 85.00550 1346 0.000 4246 -0.063 85.00550 0.000043 0.000199 -0.000005 r_peak,r_snr = 0.8850850 72.95135 1446 -0.031 4246 -0.063 72.95135 0.000068 0.000293 0.000005 r_peak,r_snr = 0.9119570 85.82236 1546 -0.063 4246 -0.094 85.82236 0.000045 0.000173 -0.000003 r_peak,r_snr = 0.9279410 72.06195 1646 -0.031 4246 -0.063 72.06195 0.000041 0.000157 -0.000001 r_peak,r_snr = 0.9425959 6.630218 1746 -0.031 4246 -0.063 6.63022 0.000055 0.000262 -0.000004 r_peak,r_snr = 0.8735349 40.47139 1846 0.031 4246 -0.094 40.47139 0.000082 0.000366 0.000012 r_peak,r_snr = 0.8959322 72.02008 1946 -0.031 4246 -0.031 72.02008 0.000062 0.000242 0.000002 r_peak,r_snr = 0.8956293 112.6597 2046 0.000 4246 0.031 112.65973 0.000055 0.000209 0.000001 At line = 4600 Reading in data.... r_peak,r_snr = 0.9070974 40.59418 146 0.094 4646 -0.031 40.59418 0.000060 0.000259 -0.000008 r_peak,r_snr = 0.9272181 48.12654 246 0.063 4646 -0.031 48.12654 0.000046 0.000193 -0.000003 r_peak,r_snr = 0.9418806 51.97040 346 0.063 4646 -0.031 51.97040 0.000034 0.000146 -0.000003 r_peak,r_snr = 0.9635616 24.40360 446 0.031 4646 0.000 24.40360 0.000026 0.000123 0.000004 r_peak,r_snr = 0.9389870 31.89589 546 0.000 4646 -0.063 31.89589 0.000040 0.000186 -0.000001 r_peak,r_snr = 0.9287938 82.16364 646 0.000 4646 -0.031 82.16364 0.000036 0.000166 0.000000 r_peak,r_snr = 0.9377306 49.00904 746 0.000 4646 -0.063 49.00904 0.000038 0.000158 -0.000005 r_peak,r_snr = 0.9397244 43.39733 846 0.031 4646 -0.094 43.39733 0.000036 0.000169 -0.000005 r_peak,r_snr = 0.9329175 61.85233 946 -0.031 4646 -0.063 61.85233 0.000037 0.000174 0.000001 r_peak,r_snr = 0.9510753 37.33660 1046 -0.031 4646 0.000 37.33660 0.000033 0.000145 -0.000003 r_peak,r_snr = 0.9269910 65.91287 1146 0.000 4646 -0.094 65.91287 0.000044 0.000187 -0.000002 r_peak,r_snr = 0.9357135 51.32652 1246 0.000 4646 -0.063 51.32652 0.000040 0.000168 0.000001 r_peak,r_snr = 0.9297991 68.65032 1346 -0.031 4646 -0.031 68.65032 0.000039 0.000184 -0.000003 r_peak,r_snr = 0.9253452 35.34882 1446 -0.031 4646 0.000 35.34882 0.000045 0.000207 0.000001 r_peak,r_snr = 0.9241394 40.66317 1546 -0.031 4646 -0.094 40.66317 0.000043 0.000190 0.000001 r_peak,r_snr = 0.9131488 65.93581 1646 -0.031 4646 -0.063 65.93581 0.000054 0.000210 0.000003 r_peak,r_snr = 0.9478313 6.585169 1746 -0.063 4646 -0.063 6.58517 0.000061 0.000226 0.000002 r_peak,r_snr = 0.8657656 78.21315 1846 -0.031 4646 -0.031 78.21315 0.000079 0.000368 -0.000004 r_peak,r_snr = 0.9072989 102.2393 1946 -0.031 4646 -0.031 102.23928 0.000047 0.000193 0.000002 r_peak,r_snr = 0.9012804 102.0576 2046 0.031 4646 0.000 102.05757 0.000054 0.000225 0.000003 At line = 5000 Reading in data.... r_peak,r_snr = 0.9078220 22.14708 146 0.063 5046 0.031 22.14708 0.000075 0.000357 -0.000014 r_peak,r_snr = 0.9245766 64.94245 246 0.063 5046 0.031 64.94245 0.000043 0.000179 0.000004 r_peak,r_snr = 0.9370633 37.24561 346 0.094 5046 0.000 37.24561 0.000045 0.000188 -0.000005 r_peak,r_snr = 0.9547187 32.87704 446 0.000 5046 0.000 32.87704 0.000031 0.000152 0.000002 r_peak,r_snr = 0.9330879 38.05526 546 0.000 5046 -0.094 38.05526 0.000041 0.000196 -0.000001 r_peak,r_snr = 0.9481050 55.17043 646 0.000 5046 -0.031 55.17043 0.000030 0.000123 -0.000003 r_peak,r_snr = 0.9593841 27.41836 746 0.000 5046 0.063 27.41836 0.000032 0.000127 -0.000001 r_peak,r_snr = 0.9402531 32.63014 846 0.000 5046 0.063 32.63014 0.000040 0.000164 -0.000004 r_peak,r_snr = 0.9418157 39.94069 946 -0.031 5046 -0.031 39.94069 0.000036 0.000172 -0.000003 r_peak,r_snr = 0.9333360 54.93353 1046 -0.031 5046 0.094 54.93353 0.000041 0.000172 0.000000 r_peak,r_snr = 0.9451445 65.29810 1146 0.000 5046 -0.063 65.29810 0.000031 0.000138 0.000000 r_peak,r_snr = 0.9188846 68.35530 1246 0.031 5046 -0.031 68.35530 0.000048 0.000196 0.000001 r_peak,r_snr = 0.9290895 73.25996 1346 0.000 5046 0.031 73.25996 0.000037 0.000169 0.000001 r_peak,r_snr = 0.9378517 29.09963 1446 -0.031 5046 0.125 29.09963 0.000042 0.000186 -0.000003 r_peak,r_snr = 0.9216834 96.10003 1546 -0.031 5046 0.063 96.10003 0.000040 0.000173 0.000000 r_peak,r_snr = 0.9190948 76.67262 1646 -0.031 5046 0.000 76.67262 0.000047 0.000188 0.000002 r_peak,r_snr = 0.9292787 6.685669 1746 -0.031 5046 0.094 6.68567 0.000065 0.000282 0.000005 r_peak,r_snr = 0.8517249 108.4138 1846 0.000 5046 0.094 108.41378 0.000078 0.000318 0.000000 r_peak,r_snr = 0.9012426 96.02982 1946 0.031 5046 -0.031 96.02982 0.000053 0.000207 0.000002 r_peak,r_snr = 0.9051268 102.8571 2046 0.000 5046 -0.031 102.85712 0.000048 0.000208 -0.000002 At line = 5400 Reading in data.... r_peak,r_snr = 0.9546497 22.26070 146 0.031 5446 0.094 22.26070 0.000034 0.000156 0.000001 r_peak,r_snr = 0.9317613 63.68377 246 0.063 5446 0.063 63.68377 0.000039 0.000162 -0.000001 r_peak,r_snr = 0.9556703 32.12268 346 0.031 5446 0.094 32.12268 0.000030 0.000132 -0.000001 r_peak,r_snr = 0.9166092 65.47579 446 0.031 5446 0.031 65.47579 0.000049 0.000193 -0.000003 r_peak,r_snr = 0.9261891 36.75346 546 0.000 5446 0.063 36.75346 0.000045 0.000213 0.000005 r_peak,r_snr = 0.9347442 38.90063 646 0.000 5446 0.063 38.90063 0.000041 0.000168 -0.000001 r_peak,r_snr = 0.9296281 65.46867 746 0.031 5446 0.000 65.46867 0.000041 0.000164 0.000000 r_peak,r_snr = 0.9383107 41.41100 846 0.000 5446 0.063 41.41100 0.000042 0.000188 -0.000005 r_peak,r_snr = 0.9202432 78.36333 946 -0.031 5446 0.063 78.36333 0.000044 0.000192 -0.000002 r_peak,r_snr = 0.9360920 44.31603 1046 0.000 5446 0.000 44.31603 0.000040 0.000161 0.000001 r_peak,r_snr = 0.9195870 46.47851 1146 0.000 5446 0.000 46.47851 0.000054 0.000214 0.000000 r_peak,r_snr = 0.9245043 63.09619 1246 0.000 5446 0.063 63.09619 0.000043 0.000185 -0.000001 r_peak,r_snr = 0.9239165 59.75216 1346 0.000 5446 0.094 59.75216 0.000041 0.000177 -0.000005 r_peak,r_snr = 0.9099404 105.2986 1446 -0.031 5446 0.063 105.29855 0.000046 0.000179 0.000003 r_peak,r_snr = 0.9121150 101.9262 1546 -0.031 5446 0.094 101.92624 0.000046 0.000174 -0.000004 r_peak,r_snr = 0.9160411 90.62077 1646 -0.031 5446 0.063 90.62077 0.000044 0.000204 -0.000003 r_peak,r_snr = 0.9339637 7.645985 1746 -0.031 5446 0.031 7.64598 0.000052 0.000311 0.000006 r_peak,r_snr = 0.8706672 83.23406 1846 0.000 5446 0.031 83.23406 0.000073 0.000329 0.000003 r_peak,r_snr = 0.9054702 95.37350 1946 0.000 5446 0.031 95.37350 0.000051 0.000208 0.000006 r_peak,r_snr = 0.8857896 90.17185 2046 0.000 5446 0.000 90.17185 0.000063 0.000279 -0.000008 At line = 5800 Reading in data.... r_peak,r_snr = 0.9454831 32.95510 146 0.031 5846 0.000 32.95510 0.000038 0.000191 0.000002 r_peak,r_snr = 0.9141003 30.22695 246 0.063 5846 0.000 30.22695 0.000058 0.000281 0.000000 r_peak,r_snr = 0.9201501 48.87472 346 0.063 5846 0.063 48.87472 0.000048 0.000191 -0.000001 r_peak,r_snr = 0.9262328 65.22044 446 0.031 5846 -0.031 65.22044 0.000042 0.000185 0.000003 r_peak,r_snr = 0.9307512 37.87315 546 0.000 5846 0.031 37.87315 0.000044 0.000170 -0.000002 r_peak,r_snr = 0.9313851 21.46587 646 0.031 5846 0.031 21.46587 0.000053 0.000202 -0.000005 r_peak,r_snr = 0.9358409 49.92886 746 0.000 5846 -0.063 49.92886 0.000039 0.000150 -0.000003 r_peak,r_snr = 0.9326563 62.27589 846 0.000 5846 -0.031 62.27589 0.000040 0.000153 -0.000002 r_peak,r_snr = 0.9271020 41.48301 946 -0.031 5846 -0.031 41.48301 0.000048 0.000210 -0.000003 r_peak,r_snr = 0.9360844 38.25247 1046 -0.031 5846 0.000 38.25247 0.000042 0.000184 0.000003 r_peak,r_snr = 0.9296979 28.13704 1146 0.000 5846 0.031 28.13704 0.000046 0.000212 0.000004 r_peak,r_snr = 0.9181708 35.54521 1246 0.000 5846 0.094 35.54521 0.000051 0.000246 -0.000001 r_peak,r_snr = 0.9523638 21.65207 1346 0.000 5846 0.031 21.65207 0.000033 0.000143 -0.000002 r_peak,r_snr = 0.9217992 36.52099 1446 -0.063 5846 0.063 36.52099 0.000052 0.000241 -0.000001 r_peak,r_snr = 0.8991316 90.49278 1546 -0.063 5846 -0.063 90.49278 0.000055 0.000241 -0.000001 r_peak,r_snr = 0.9094071 110.0646 1646 -0.031 5846 -0.031 110.06464 0.000045 0.000200 -0.000003 r_peak,r_snr = 0.9361799 12.24751 1746 -0.031 5846 0.031 12.24751 0.000050 0.000254 0.000005 r_peak,r_snr = 0.8716767 93.40060 1846 -0.031 5846 0.094 93.40060 0.000072 0.000292 -0.000005 r_peak,r_snr = 0.8856962 94.90767 1946 0.000 5846 0.000 94.90767 0.000060 0.000244 0.000002 r_peak,r_snr = 0.8940940 82.37894 2046 0.000 5846 -0.031 82.37894 0.000060 0.000261 -0.000001 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Correlation Coefficient Program ***** ***** ***** ***** This program creates a byte file ***** ***** that contains the correlation ***** ***** coeficient of two complex single ***** ***** look files. ***** ***** ***** ************************************************** Enter the name of the first complex file. Enter number of looks Enter the name of the second single look file 9.259200 0.5144000 18 Enter the output file name number of input lines: 97253 number of output lines: 5402 Reading data and doing multi-looking. + 1 + 1153 + 2305 + 3457 + 4609 + 5761 + 6913 + 8065 + 9217 + 10369 + 11521 + 12673 + 13825 + 14977 + 16129 + 17281 + 18433 + 19585 + 20737 + 21889 + 23041 + 24193 + 25345 + 26497 + 27649 + 28801 + 29953 + 31105 + 32257 + 33409 + 34561 + 35713 + 36865 + 38017 + 39169 + 40321 + 41473 + 42625 + 43777 + 44929 + 46081 + 47233 + 48385 + 49537 + 50689 + 51841 + 52993 + 54145 + 55297 + 56449 + 57601 + 58753 + 59905 + 61057 + 62209 + 63361 + 64513 + 65665 + 66817 + 67969 + 69121 + 70273 + 71425 + 72577 + 73729 + 74881 + 76033 + 77185 + 78337 + 79489 + 80641 + 81793 + 82945 + 84097 + 85249 + 86401 + 87553 + 88705 + 89857 + 91009 + 92161 + 93313 + 94465 + 95617 + 96769 *** Filtering. o/p nlines: 5402 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Writing data out. ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Multi-look Program ***** ***** ***** ***** This program creates a real multi- ***** ***** look file from a complex single look ***** ***** file. The real values represent ***** ***** POWER, not amplitude. Multi-looking ***** ***** is performed by summing POWER in the ***** ***** azimuth direction only. ***** ***** ***** ************************************************** Enter the name of the complex file. Enter the desired number of looks. Enter the output file name output azspace, azres: 9.259200 43.20000 + 100 + 200 + 300 + 400 + 500 + 600 + 700 + 800 + 900 + 1000 + 1100 + 1200 + 1300 + 1400 + 1500 + 1600 + 1700 + 1800 + 1900 + 2000 + 2100 + 2200 + 2300 + 2400 + 2500 + 2600 + 2700 + 2800 + 2900 + 3000 + 3100 + 3200 + 3300 + 3400 + 3500 + 3600 + 3700 + 3800 + 3900 + 4000 + 4100 + 4200 + 4300 + 4400 + 4500 + 4600 + 4700 + 4800 + 4900 + 5000 + 5100 + 5200 + 5300 + 5400 Enter the name of the top antenna SLC-1 file. /export/air36/airops/1400/ts1400_l.TT Enter the name of the bottom antenna SLC-2 file. /export/air36/airops/1400/ts1400_l.BB Enter the name of the packed amplitude (c1,c2) file. /export/air36/airops/1400/ts1400_l.amp Enter the name of the output interferogram file. /export/air36/airops/1400/ts1400_l.phase Enter number of looks 18 Reading new header..STARTING at 0 after write new header ! Reading data and doing multi-looking. nliner 5402 10240 18 + 1 + 2001 + 4001 *o/p interf amp.: 5402 10240 40960 20480 << PS filtering and unwrapping with random trees 3-Nov-98 CW/PAR/SH >> Error file = SCREEN Reading from: /export/air36/airops/1400/ts1400_l.rdf interferogram width: 2560 number of lines/patch: 256 start line: 3 number of lines: 5402 start sample: 1 end sample: 2560 Interferogram File: /export/air36/airops/1400/ts1400_l.phase SLC Amplitudes File: /export/air36/airops/1400/ts1400_l.amp Filtered Interferogram File: filt_int Phase Gradient File: phase_slp Gradient Corrected Corr. File: gradient_cc Unwrapped Phase File: /export/air36/airops/1400/ts1400_l.unw_phase_mag Unwrapping Flag File: unwrap_flag Branch Cut Tree Type: GZW number of realizations of the trees: 3 minimum unwrap correlation threshold: 0.5000 maximum unwrap correlation threshold: 0.9000 bootstrap phase variance threshold: 2.0000 min. points overlap for the bootstrap: 16 phase gradient neutron flag: 0 phase gradient neutron threshold (radians): 0.5000 intensity neutron flag: 1 intensity neutron thres. (sigma above mean): 10.0000 maximum correlation for intensity neutrons: 0.8000 azimuth buffer size: 256 overlap between azimuth patches: 64 total overlap between azimuth patches: 128 offset in overlap region for phase bootstrap: 64 lines to increment for the next patch: 128 number of patches: 42 PATCH: 1 starting line: 2 lines read: 256 starting output line: 1 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 INIT_UNW_RT: correlation threshold: 0.5000000 GEN_NEUTRONS: average image intensity: 2.63135E-04 GEN_NEUTRONS: image intensity standard deviation: 7.34549E-04 GEN_NEUTRONS: image intensity neutrons: 6 INIT_UNW_RT: number of residues: 5 INIT_UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees INIT_UNW_RT: patch residual charge: 0 INIT_UNW_RT: number of unwrapping seeds: 158 seed: 1 range: 12 azimuth: 64 points unwrapped: 492012 area fraction: 0.7774 average correlation of component: 0.9436 INIT_UNW_RT: largest component area: 0.7774 seed range: 12 INIT_UNW_RT: number of points for phase bootstrap: 7647 PATCH: 2 starting line: 130 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 3.31725E-04 GEN_NEUTRONS: image intensity standard deviation: 7.18293E-04 GEN_NEUTRONS: image intensity neutrons: 7 UNW_RT: number of residues: 7 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 632288 area fraction: 0.99904 average correlation of connected component: 0.9431 number of points for phase bootstrap: 7647 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 632288 area fraction: 0.9990 UNW_RT: phase bootstrap points for next patch: 7655 PATCH: 3 starting line: 258 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 3.23218E-04 GEN_NEUTRONS: image intensity standard deviation: 5.69989E-04 GEN_NEUTRONS: image intensity neutrons: 21 UNW_RT: number of residues: 7 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 632078 area fraction: 0.99871 average correlation of connected component: 0.9444 number of points for phase bootstrap: 7655 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 632078 area fraction: 0.9987 UNW_RT: phase bootstrap points for next patch: 7656 PATCH: 4 starting line: 386 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 3.26509E-04 GEN_NEUTRONS: image intensity standard deviation: 6.52109E-04 GEN_NEUTRONS: image intensity neutrons: 10 UNW_RT: number of residues: 2 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 631960 area fraction: 0.99852 average correlation of connected component: 0.9463 number of points for phase bootstrap: 7656 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 631960 area fraction: 0.9985 UNW_RT: phase bootstrap points for next patch: 7647 PATCH: 5 starting line: 514 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 3.30861E-04 GEN_NEUTRONS: image intensity standard deviation: 7.05434E-04 GEN_NEUTRONS: image intensity neutrons: 17 UNW_RT: number of residues: 2 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 632395 area fraction: 0.99921 average correlation of connected component: 0.9451 number of points for phase bootstrap: 7647 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 632395 area fraction: 0.9992 UNW_RT: phase bootstrap points for next patch: 7656 PATCH: 6 starting line: 642 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 3.13772E-04 GEN_NEUTRONS: image intensity standard deviation: 6.53885E-04 GEN_NEUTRONS: image intensity neutrons: 3 UNW_RT: number of residues: 6 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 631835 area fraction: 0.99832 average correlation of connected component: 0.9436 number of points for phase bootstrap: 7656 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 631835 area fraction: 0.9983 UNW_RT: phase bootstrap points for next patch: 7656 PATCH: 7 starting line: 770 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 3.33965E-04 GEN_NEUTRONS: image intensity standard deviation: 1.75579E-03 GEN_NEUTRONS: image intensity neutrons: 0 UNW_RT: number of residues: 10 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 631713 area fraction: 0.99813 average correlation of connected component: 0.9445 number of points for phase bootstrap: 7656 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 631713 area fraction: 0.9981 UNW_RT: phase bootstrap points for next patch: 7625 PATCH: 8 starting line: 898 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 3.51014E-04 GEN_NEUTRONS: image intensity standard deviation: 2.16980E-03 GEN_NEUTRONS: image intensity neutrons: 1 UNW_RT: number of residues: 60 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 630560 area fraction: 0.99631 average correlation of connected component: 0.9398 number of points for phase bootstrap: 7625 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 630560 area fraction: 0.9963 UNW_RT: phase bootstrap points for next patch: 7621 PATCH: 9 starting line: 1026 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 3.90151E-04 GEN_NEUTRONS: image intensity standard deviation: 7.56766E-03 GEN_NEUTRONS: image intensity neutrons: 0 UNW_RT: number of residues: 178 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 626596 area fraction: 0.99005 average correlation of connected component: 0.9316 number of points for phase bootstrap: 7621 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 626596 area fraction: 0.9900 UNW_RT: phase bootstrap points for next patch: 7625 PATCH: 10 starting line: 1154 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 3.37049E-04 GEN_NEUTRONS: image intensity standard deviation: 2.15889E-03 GEN_NEUTRONS: image intensity neutrons: 2 UNW_RT: number of residues: 126 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 626149 area fraction: 0.98934 average correlation of connected component: 0.9297 number of points for phase bootstrap: 7625 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 626149 area fraction: 0.9893 UNW_RT: phase bootstrap points for next patch: 7624 PATCH: 11 starting line: 1282 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 3.48842E-04 GEN_NEUTRONS: image intensity standard deviation: 1.15702E-03 GEN_NEUTRONS: image intensity neutrons: 13 UNW_RT: number of residues: 13 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 629259 area fraction: 0.99425 average correlation of connected component: 0.9316 number of points for phase bootstrap: 7624 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 629259 area fraction: 0.9943 UNW_RT: phase bootstrap points for next patch: 7560 PATCH: 12 starting line: 1410 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 3.49693E-04 GEN_NEUTRONS: image intensity standard deviation: 1.25985E-03 GEN_NEUTRONS: image intensity neutrons: 2 UNW_RT: number of residues: 24 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 629720 area fraction: 0.99498 average correlation of connected component: 0.9353 number of points for phase bootstrap: 7560 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 629720 area fraction: 0.9950 UNW_RT: phase bootstrap points for next patch: 7599 PATCH: 13 starting line: 1538 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 3.11488E-04 GEN_NEUTRONS: image intensity standard deviation: 1.77089E-03 GEN_NEUTRONS: image intensity neutrons: 3 UNW_RT: number of residues: 30 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 627549 area fraction: 0.99155 average correlation of connected component: 0.9380 number of points for phase bootstrap: 7599 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 627549 area fraction: 0.9916 UNW_RT: phase bootstrap points for next patch: 7571 PATCH: 14 starting line: 1666 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 2.71184E-04 GEN_NEUTRONS: image intensity standard deviation: 1.81833E-03 GEN_NEUTRONS: image intensity neutrons: 2 UNW_RT: number of residues: 15 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 628809 area fraction: 0.99354 average correlation of connected component: 0.9357 number of points for phase bootstrap: 7571 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 628809 area fraction: 0.9935 UNW_RT: phase bootstrap points for next patch: 7638 PATCH: 15 starting line: 1794 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 2.91242E-04 GEN_NEUTRONS: image intensity standard deviation: 1.28168E-03 GEN_NEUTRONS: image intensity neutrons: 10 UNW_RT: number of residues: 14 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 630756 area fraction: 0.99662 average correlation of connected component: 0.9367 number of points for phase bootstrap: 7638 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 630756 area fraction: 0.9966 UNW_RT: phase bootstrap points for next patch: 7649 PATCH: 16 starting line: 1922 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 2.87182E-04 GEN_NEUTRONS: image intensity standard deviation: 1.19636E-03 GEN_NEUTRONS: image intensity neutrons: 2 UNW_RT: number of residues: 24 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 629734 area fraction: 0.99500 average correlation of connected component: 0.9347 number of points for phase bootstrap: 7649 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 629734 area fraction: 0.9950 UNW_RT: phase bootstrap points for next patch: 7606 PATCH: 17 starting line: 2050 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 2.02426E-04 GEN_NEUTRONS: image intensity standard deviation: 1.17902E-03 GEN_NEUTRONS: image intensity neutrons: 16 UNW_RT: number of residues: 22 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 629347 area fraction: 0.99439 average correlation of connected component: 0.9314 number of points for phase bootstrap: 7606 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 629347 area fraction: 0.9944 UNW_RT: phase bootstrap points for next patch: 7611 PATCH: 18 starting line: 2178 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 2.02540E-04 GEN_NEUTRONS: image intensity standard deviation: 1.63982E-03 GEN_NEUTRONS: image intensity neutrons: 6 UNW_RT: number of residues: 25 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 628815 area fraction: 0.99355 average correlation of connected component: 0.9328 number of points for phase bootstrap: 7611 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 628815 area fraction: 0.9936 UNW_RT: phase bootstrap points for next patch: 7563 PATCH: 19 starting line: 2306 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 2.61347E-04 GEN_NEUTRONS: image intensity standard deviation: 3.36492E-03 GEN_NEUTRONS: image intensity neutrons: 0 UNW_RT: number of residues: 38 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 629046 area fraction: 0.99392 average correlation of connected component: 0.9374 number of points for phase bootstrap: 7563 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 629046 area fraction: 0.9939 UNW_RT: phase bootstrap points for next patch: 7607 PATCH: 20 starting line: 2434 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 3.47263E-04 GEN_NEUTRONS: image intensity standard deviation: 5.07644E-03 GEN_NEUTRONS: image intensity neutrons: 0 UNW_RT: number of residues: 27 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 631496 area fraction: 0.99779 average correlation of connected component: 0.9455 number of points for phase bootstrap: 7607 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 631496 area fraction: 0.9978 UNW_RT: phase bootstrap points for next patch: 7650 PATCH: 21 starting line: 2562 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 3.67083E-04 GEN_NEUTRONS: image intensity standard deviation: 4.49332E-03 GEN_NEUTRONS: image intensity neutrons: 3 UNW_RT: number of residues: 18 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 631166 area fraction: 0.99727 average correlation of connected component: 0.9453 number of points for phase bootstrap: 7650 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 631166 area fraction: 0.9973 UNW_RT: phase bootstrap points for next patch: 7625 PATCH: 22 starting line: 2690 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 2.86584E-04 GEN_NEUTRONS: image intensity standard deviation: 1.57255E-03 GEN_NEUTRONS: image intensity neutrons: 8 UNW_RT: number of residues: 12 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 631293 area fraction: 0.99747 average correlation of connected component: 0.9398 number of points for phase bootstrap: 7625 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 631293 area fraction: 0.9975 UNW_RT: phase bootstrap points for next patch: 7654 PATCH: 23 starting line: 2818 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 2.51763E-04 GEN_NEUTRONS: image intensity standard deviation: 1.05112E-03 GEN_NEUTRONS: image intensity neutrons: 13 UNW_RT: number of residues: 2 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 632631 area fraction: 0.99958 average correlation of connected component: 0.9446 number of points for phase bootstrap: 7654 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 632631 area fraction: 0.9996 UNW_RT: phase bootstrap points for next patch: 7652 PATCH: 24 starting line: 2946 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 2.50310E-04 GEN_NEUTRONS: image intensity standard deviation: 9.57421E-04 GEN_NEUTRONS: image intensity neutrons: 5 UNW_RT: number of residues: 28 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 631340 area fraction: 0.99754 average correlation of connected component: 0.9462 number of points for phase bootstrap: 7652 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 631340 area fraction: 0.9975 UNW_RT: phase bootstrap points for next patch: 7634 PATCH: 25 starting line: 3074 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 2.40691E-04 GEN_NEUTRONS: image intensity standard deviation: 8.15459E-04 GEN_NEUTRONS: image intensity neutrons: 16 UNW_RT: number of residues: 41 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 630311 area fraction: 0.99592 average correlation of connected component: 0.9448 number of points for phase bootstrap: 7634 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 630311 area fraction: 0.9959 UNW_RT: phase bootstrap points for next patch: 7639 PATCH: 26 starting line: 3202 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 2.39165E-04 GEN_NEUTRONS: image intensity standard deviation: 6.05423E-04 GEN_NEUTRONS: image intensity neutrons: 11 UNW_RT: number of residues: 20 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 629862 area fraction: 0.99521 average correlation of connected component: 0.9460 number of points for phase bootstrap: 7639 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 629862 area fraction: 0.9952 UNW_RT: phase bootstrap points for next patch: 7616 PATCH: 27 starting line: 3330 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 2.40757E-04 GEN_NEUTRONS: image intensity standard deviation: 6.04891E-04 GEN_NEUTRONS: image intensity neutrons: 24 UNW_RT: number of residues: 6 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 629803 area fraction: 0.99511 average correlation of connected component: 0.9395 number of points for phase bootstrap: 7616 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 629803 area fraction: 0.9951 UNW_RT: phase bootstrap points for next patch: 7622 PATCH: 28 starting line: 3458 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 2.46993E-04 GEN_NEUTRONS: image intensity standard deviation: 6.87630E-04 GEN_NEUTRONS: image intensity neutrons: 32 UNW_RT: number of residues: 6 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 3 range: 44 azimuth: 64 points unwrapped: 626929 area fraction: 0.99057 average correlation of connected component: 0.9338 number of points for phase bootstrap: 7622 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 626929 area fraction: 0.9906 UNW_RT: phase bootstrap points for next patch: 7597 PATCH: 29 starting line: 3586 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 2.22310E-04 GEN_NEUTRONS: image intensity standard deviation: 6.41212E-04 GEN_NEUTRONS: image intensity neutrons: 4 UNW_RT: number of residues: 104 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 622436 area fraction: 0.98347 average correlation of connected component: 0.9386 number of points for phase bootstrap: 7597 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 622436 area fraction: 0.9835 UNW_RT: phase bootstrap points for next patch: 7492 PATCH: 30 starting line: 3714 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 1.94359E-04 GEN_NEUTRONS: image intensity standard deviation: 5.83756E-04 GEN_NEUTRONS: image intensity neutrons: 57 UNW_RT: number of residues: 110 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 2 range: 28 azimuth: 64 points unwrapped: 626425 area fraction: 0.98978 average correlation of connected component: 0.9394 number of points for phase bootstrap: 7492 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 626425 area fraction: 0.9898 UNW_RT: phase bootstrap points for next patch: 7640 PATCH: 31 starting line: 3842 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 1.81157E-04 GEN_NEUTRONS: image intensity standard deviation: 7.21369E-04 GEN_NEUTRONS: image intensity neutrons: 28 UNW_RT: number of residues: 24 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 631199 area fraction: 0.99732 average correlation of connected component: 0.9390 number of points for phase bootstrap: 7640 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 631199 area fraction: 0.9973 UNW_RT: phase bootstrap points for next patch: 7642 PATCH: 32 starting line: 3970 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 1.55052E-04 GEN_NEUTRONS: image intensity standard deviation: 6.60918E-04 GEN_NEUTRONS: image intensity neutrons: 16 UNW_RT: number of residues: 49 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 628824 area fraction: 0.99357 average correlation of connected component: 0.9384 number of points for phase bootstrap: 7642 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 628824 area fraction: 0.9936 UNW_RT: phase bootstrap points for next patch: 7587 PATCH: 33 starting line: 4098 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 2.64251E-04 GEN_NEUTRONS: image intensity standard deviation: 6.72569E-03 GEN_NEUTRONS: image intensity neutrons: 0 UNW_RT: number of residues: 323 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 608050 area fraction: 0.96074 average correlation of connected component: 0.9392 number of points for phase bootstrap: 7587 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 608050 area fraction: 0.9607 UNW_RT: phase bootstrap points for next patch: 7171 PATCH: 34 starting line: 4226 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 2.39553E-04 GEN_NEUTRONS: image intensity standard deviation: 6.52430E-03 GEN_NEUTRONS: image intensity neutrons: 2 UNW_RT: number of residues: 330 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 2 range: 28 azimuth: 64 points unwrapped: 602141 area fraction: 0.95141 average correlation of connected component: 0.9416 number of points for phase bootstrap: 7171 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 602141 area fraction: 0.9514 UNW_RT: phase bootstrap points for next patch: 7579 PATCH: 35 starting line: 4354 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 8.89132E-05 GEN_NEUTRONS: image intensity standard deviation: 7.38080E-04 GEN_NEUTRONS: image intensity neutrons: 1 UNW_RT: number of residues: 58 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 3 range: 44 azimuth: 64 points unwrapped: 621116 area fraction: 0.98139 average correlation of connected component: 0.9412 number of points for phase bootstrap: 7579 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 621116 area fraction: 0.9814 UNW_RT: phase bootstrap points for next patch: 7607 PATCH: 36 starting line: 4482 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 7.93712E-05 GEN_NEUTRONS: image intensity standard deviation: 1.46755E-04 GEN_NEUTRONS: image intensity neutrons: 72 UNW_RT: number of residues: 70 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 625871 area fraction: 0.98890 average correlation of connected component: 0.9396 number of points for phase bootstrap: 7607 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 625871 area fraction: 0.9889 UNW_RT: phase bootstrap points for next patch: 7557 PATCH: 37 starting line: 4610 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 7.69761E-05 GEN_NEUTRONS: image intensity standard deviation: 1.32028E-04 GEN_NEUTRONS: image intensity neutrons: 64 UNW_RT: number of residues: 60 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 13 area fraction: 0.00002 average correlation of connected component: 0.5627 WARNING: UNW_RT: insufficient points for phase bootstrap: 0 seed: 2 range: 28 azimuth: 64 points unwrapped: 627117 area fraction: 0.99087 average correlation of connected component: 0.9477 number of points for phase bootstrap: 7557 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 627117 area fraction: 0.9909 UNW_RT: phase bootstrap points for next patch: 7612 PATCH: 38 starting line: 4738 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 7.48116E-05 GEN_NEUTRONS: image intensity standard deviation: 1.21280E-04 GEN_NEUTRONS: image intensity neutrons: 57 UNW_RT: number of residues: 6 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 628713 area fraction: 0.99339 average correlation of connected component: 0.9512 number of points for phase bootstrap: 7612 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 628713 area fraction: 0.9934 UNW_RT: phase bootstrap points for next patch: 7623 PATCH: 39 starting line: 4866 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 7.79881E-05 GEN_NEUTRONS: image intensity standard deviation: 1.27979E-04 GEN_NEUTRONS: image intensity neutrons: 87 UNW_RT: number of residues: 16 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 631065 area fraction: 0.99711 average correlation of connected component: 0.9465 number of points for phase bootstrap: 7623 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 631065 area fraction: 0.9971 UNW_RT: phase bootstrap points for next patch: 7646 PATCH: 40 starting line: 4994 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 8.19906E-05 GEN_NEUTRONS: image intensity standard deviation: 1.36574E-04 GEN_NEUTRONS: image intensity neutrons: 104 UNW_RT: number of residues: 24 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 631559 area fraction: 0.99789 average correlation of connected component: 0.9462 number of points for phase bootstrap: 7646 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 631559 area fraction: 0.9979 UNW_RT: phase bootstrap points for next patch: 7646 PATCH: 41 starting line: 5122 lines read: 256 starting output line: 65 ending output line: 192 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 252 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 8.38500E-05 GEN_NEUTRONS: image intensity standard deviation: 1.41706E-04 GEN_NEUTRONS: image intensity neutrons: 93 UNW_RT: number of residues: 15 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 631466 area fraction: 0.99774 average correlation of connected component: 0.9514 number of points for phase bootstrap: 7646 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 631466 area fraction: 0.9977 UNW_RT: phase bootstrap points for next patch: 7647 PATCH: 42 starting line: 5250 lines read: 154 starting output line: 65 ending output line: 154 0 0 0.04076 0 1 0.13534 0 2 0.20190 0 3 0.13534 0 4 0.04076 1 0 0.13534 1 1 0.44933 1 2 0.67032 1 3 0.44933 1 4 0.13534 2 0 0.20190 2 1 0.67032 2 2 1.00000 2 3 0.67032 2 4 0.20190 3 0 0.13534 3 1 0.44933 3 2 0.67032 3 3 0.44933 3 4 0.13534 4 0 0.04076 4 1 0.13534 4 2 0.20190 4 3 0.13534 4 4 0.04076 INIT_UNW_RT: starting unwrap line: 5 ending unwrap line: 150 INIT_UNW_RT: starting unwrap pixel: 5 ending unwrap pixel: 2556 GEN_NEUTRONS: average image intensity: 8.51551E-05 GEN_NEUTRONS: image intensity standard deviation: 1.46218E-04 GEN_NEUTRONS: image intensity neutrons: 41 UNW_RT: number of residues: 2 UNW_RT: GZW trees for unwrapping RT: generating random GZW trees RT: generating random GZW trees RT: generating random GZW trees UNW_RT: patch residual charge: 0 UNW_RT: correlation threshold: 0.500000 seed: 1 range: 12 azimuth: 64 points unwrapped: 371968 area fraction: 0.99833 average correlation of connected component: 0.9543 number of points for phase bootstrap: 7647 bootstrap phase variance : 0.0000 bootstrap phase difference: 0.0000 phase difference (multiples of 2PI): 0.0000 UNW_RT: points unwrapped: 371968 area fraction: 0.9983 UNW_RT: phase bootstrap points for next patch: 7637 *** Normal Completion *** enter I/P file name (unw_phase_mag) /export/air36/airops/1400/ts1400_l.unw_phase_mag enter I/P file name for hdr (amp_file) /export/air36/airops/1400/ts1400_l.amp enter O/P file name for magitude file: /export/air36/airops/1400/ts1400_l.unw_vvvv enter O/P file name for phase file: /export/air36/airops/1400/ts1400_l.unw_intf Reading new header..STARTING at 0 r_new_hdr r_param_hdr ns nl offset : 2560 5402 20480 5401 55336960 27668480 10803 110653440 55326720 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Phase Screen Generation Program ***** ***** ***** ***** This program calculates ***** ***** a phase screen ***** ***** using flat terrain area ***** ***** ***** ************************************************** Enter the name of the interferogram file. Enter the name of the raw lines file. Enter the name of the output averaged lines file. Enter the file with the global line Without the extension. Please enter the name of the sensor file. /export/air32/airops/1400/sensor.hv96l_pr Number of lines in mocomp file: 100000 Transmit leverarm: 0.5200000 1.202806 1.615272 Receive levararm: 0.5400000 0.5371945 -0.2652719 Enter the motion compensation file name. Enter the name of the angle file. Enter the name of the output phase screen file Is this pingpong (long baseline) data (def=y)? Reading unwrapped phase Reading mask Ave phase (rad), standard dev: -0.5367557 0.1953818 Total number of pixels averaged: 27055814 Phase Adjustment in cycles: -8.5427321E-02 Multi-looking lines 5402 read lines.dat: 1 92160 read lines.dat: 1001 184412160 read lines.dat: 2001 368732160 read lines.dat: 3001 553052160 read lines.dat: 4001 737372160 read lines.dat: 5001 921692160 Cosine angle calculation Writing cos(angle) out. ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** DEM Generation Program ***** ***** ***** ***** This program creates DEM from ***** ***** unwrapped phase file. ***** ***** ***** ************************************************** Enter the heoght bias: 0.0000000E+00 Enter the phase bias (# of 2pi) : 0.0000000E+00 Enter the name of the unwrapped phase file. ns np: 2560 5402 ***del_cp del_hp: 0.0000000E+00 0.0000000E+00 Enter the name of the raw lines file. Enter the file with the global line Please enter the name of the sensor file. sensor file:/export/air32/airops/1400/sensor.hv96l_pr Transmit leverarm: 0.5200000 1.202806 1.615272 Receive levararm: 0.5400000 0.5371945 -0.2652719 1st &total # lines: 1 100000 How many transmitting antennas for this combination? ping - pong mode long baseline = 2; 1 otherwise. Enter the phase screen filename. Enter the name of the peg point file. peg point file: /export/air36/airops/1400/ts1400_l.peg peglat,peglon,peghdg 4.922175 114.9847 54.56683 peg Ra: 4.922175 114.9847 54.56683 6363984.500000000 Enter the motion compensation file name. motion file: /export/air36/airops/1400/ts1400_l.mocompv xv0,h_p c s xv: 1 8446.469 8446.468 -54.58189 216.8281 0.0000000E+00 1)xr yr zr: 0.5425376 0.5416690 -0.2505887 -25673.85 -54.58067 8446.468 1)lat lon r_h: 4.787146 114.7965 8446.468 xv0 ,h_p c s xv: 100 8446.469 8446.477 -54.52705 216.8281 8.8663436E-03 100)xr yr zr: 0.5424847 0.5417460 -0.2505370 -25654.98 -54.35270 8446.477 100)lat lon r_h: 4.787247 114.7966 8446.477 Enter the interf. calibration file name. interf. cal: /u/sardine0/airops/OPS/data_proc/intcal0.dat HDDT:96068 ==xv0 h_a== 8446.469 8367.900 78.56836 ==r0 bw wavl dx dr== 9040.540 40.00000 0.2422600 0.5144000 3.331000 ==phbt phtp calf==band 180.4000 41.00000 43.59380 L 0.2422600 40.00000 L-band 0 1 blocks , lines: 13 5 hddt hddt1 hddt2: 96068 96021 96999 hddt ash cln cph0: 96068 0.4000000 0.0000000E+00 195.7800 6 L-band cal ph: -139.4000 41.00000 180.4000 ==ph0 cal-dph cph0: 335.1800 -139.4000 195.7800 Enter the name of the DEM file. Enter the name of the s,c file. CP write NewHead: 0 1000 CP write ParHead: 10240 5000 Ambiguity number = 0.0000000E+00 Do I use this (y/n) Enter the ambiguity to use. Enter the flag for calibration output yes=1: 0 Reading unwrapped phase 5402 3 Reading mask Reading line files Translating the phases to height. ==look_agl==: 1 2601 0.3884400 xv ha cos(p): 0.2504976 0.6907813 0.9998338 xv0 maphgt rf: 8446.469 78.56836 9041.481 **Bliine(100) dy dz:** 0.6517220 1.884598 plane sch 0.0000000E+00 0.0000000E+00 0.0000000E+00 ==look_agl==: 2560 2752 1.074234 xv ha cos(p): 0.2275733 0.6906488 0.9998356 xv0 maphgt rf: 8446.469 78.56836 17564.63 **Bliine(100) dy dz:** 0.6518863 1.884541 plane sch 0.0000000E+00 0.0000000E+00 0.0000000E+00 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 Along-track offset = -24603.37 Writing map out. cal_cp lines: 2560 5402 30720 file cal_cp.dat: 2560 5402 30720 ******************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Scattering area and Incidence Angle ***** ***** Calculations ***** ***** ***** ***** This program usdes the DEM to calculate the ***** ***** size of the scattering area to be used in ***** ***** data calibration. It also calculates the ***** ***** local incidence angle for each pixel. ***** ***** ***** ******************************************************** Enter the name of the dem input file. Enter the name of the correlation file. What is the lowest correlation to use? Enter the name of the scattering area file. Enter the name of the incidence angle file. Enter the global reference line filename headers_sgi: 3 5000 10240 10240 headers_sgi: 3 5000 10240 2560 Reading height information 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 Calculating slopes... Range direction.. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 Azimuth direction.. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 Incidence angle and scattering area.. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 Filtering the results. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 Writing files out. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 ANTENNA_DIR:/u/sardine0/airops/OPS/data_proc/ **************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Single Channel Radiometric Correction ***** ***** ***** ***** This program performs the radiometric ***** ***** correction on single channel data. It ***** ***** is intended to replace the old synoptic ***** ***** data. When topography is available, ***** ***** it is used when corrections are ***** ***** performed. ***** ***** ***** **************************************************** Enter the name of the input file. intf lun: 3 boresight: 50.00000 inunitvvvv lun: 3 Enter the name of output file. Select the polarization combination: (1) HH (2) HV (3) VH (4) VV Is this TOPSAR data? parhead(296:300):96068 HDDT ha: 96068 8367.900 Enter the name of the calibration file. attenuation: 6.000000 6.000000 6.000000 6.000000 +base diff: -1.190000 0.0000000E+00 -1.190000 0.0000000E+00 L-band dhh dhv dhh_l dcal_l: 90.84000 90.60000 150.6050 79.60000 topsar L-band: gain caltone: 150.6050 79.60000 -236.2050 ipol ahh,ahv,avh,AVV: 4 -7.190000 -6.000000 -7.190000 -236.2050 L-band ANT: /u/sardine0/airops/OPS/data_proc/TOPSAR_L.ANT Enter the name of the motion compensation file. motion lun: 5 How many lines of raw data? cal vv gain, rosa cal: 78.30000 -236.2050 Input ground spacing ? cross-track ground spacing: 10.00000 Radiometric Correction Vectors file: /export/air36/airops/1400/ts1400_l.rad_vec vec_len Rn ha y0out dyout: 9616 17564.57 8367.900 3421.930 10.00000 3.331000 NSAMP vec_len rg_len nbytes: 2560 1202 9616 Enter the file with the data lines per pixel. lines lun: 6 Is there a DEM available? Enter the name of the DEM file. dem lun: 7 /export/air36/airops/1400/ts1400_c.dem Byte offset to DEM data: 0 20480 Enter the name of the global reference file /export/air36/airops/1400/ts1400_l.glb Enter the scattering area file name. sca lun: 8 /export/air36/airops/1400/ts1400_c.sca Now doing the actual calibration 5402 10240 20480 1 5402 251 5402 501 5402 751 5402 1001 5402 1251 5402 1501 5402 1751 5402 2001 5402 2251 5402 2501 5402 2751 5402 3001 5402 3251 5402 3501 5402 3751 5402 4001 5402 4251 5402 4501 5402 4751 5402 5001 5402 5251 5402 peg points: 4.922175 114.9847 54.56683 4.922175 114.9847 54.56683 BRUNEI-054-2 NAME OF HEADER PARAMETER SITE NAME Brunei-054-2 LATITUDE OF SITE (DEGREES) 4.9300 LONGITUDE OF SITE (DEGREES) 114.8500 IMAGE TITLE BRUNEI-054-2 HDDT ID 96068 FREQUENCY L POLARIZATION VV CCT TYPE TS CCT ID 1400 ARCHIVAL FLAG 0 TRANSFER START FRAMECOUNT 18822709 PROCESSOR START FRAMECOUNT 18822709 LATITUDE AT START OF SCENE (DEGREES) 4.8131 LONGITUDE AT START OF SCENE (DEGREES) 114.7795 LATITUDE AT END OF SCENE (DEGREES) 5.1294 LONGITUDE AT END OF SCENE (DEGREES) 115.2615 APPROXIMATE STARTING HDDT FOOTAGE 409757 DATE OF ACQUISITION (GMT) 25-NOV-96 TIME OF ACQUISITION: GMT DAY 0 TIME OF ACQUISITION: SECONDS IN DAY 21590.0 RECORD WINDOW DURATION (MICROSECONDS) 65 FREQUENCIES COLLECTED LC DIGITAL DELAY (MICROSECONDS) 93.0 CHIRP DELAY (MICROSECONDS) 32.5 PROCESSOR DELAY (RAW SAMPLES) 0 PRF AT START OF TRANSFER (HZ) 842.6 SAMPLING RATE (MHZ) 90.00 CENTER FREQUENCY AT VIDEO (MHZ) 22.50 CHIRP BANDWIDTH (MHZ) 40.00 TYPE OF CHIRP USED (ANALOG OR DIGITAL) ANALOG PULSE LENGTH (MICROSECONDS) 10.00 PROCESSOR WAVELENGTH (METERS) 0.24226 BAROMETRIC ALTITUDE (METERS) 7932.5 RADAR ALTITUDE (METERS) 8367.9 ALTITUDE USED IN PROCESSOR (METERS) 8367.9 ELEVATION OF INVESTIGATOR SITE (METERS) 15 AIRCRAFT TRACK ANGLE (DEGREES) 54.6 AIRCRAFT YAW ANGLE (DEGREES) -0.2 AIRCRAFT PITCH ANGLE (DEGREES) 1.0 AIRCRAFT ROLL ANGLE (DEGREES) 0.5 PROCESSOR YAW ANGLE USED (DEGREES) VARIABLE PROCESSOR PITCH ANGLE USED (DEGREES) VARIABLE PROCESSOR ROLL ANGLE USED (DEGREES) VARIABLE NOMINAL PRF RATIO (HZ/KNOT) 1.000 NOMINAL PRF RATIO (1/METERS) 1.944 PRF RATIO CORRECTION FACTOR USED 1.0000 RANGE FFT SIZE 8192 AZIMUTH FFT SIZE 8192 FRAME SIZE (RANGE LINES) 4192 NUMBER OF FRAMES PROCESSED 28 RANGE ALIGNMENT DELAY USED,HH (MICROSEC) 0.0000 RANGE ALIGNMENT DELAY USED,HV (MICROSEC) 0.0000 RANGE ALIGNMENT DELAY USED,VH (MICROSEC) 0.0000 RANGE ALIGNMENT DELAY USED,VV (MICROSEC) 0.0222 NEAR SLANT RANGE (METERS) 9040.54 FAR SLANT RANGE (METERS) 17564.64 NEAR LOOK ANGLE (DEGREES) 22.2 FAR LOOK ANGLE (DEGEES) 61.5 NUMBER OF LOOKS PROCESSED IN AZIMUTH 18 NUMBER OF LOOKS PROCESSED IN RANGE 1 RANGE WEIGHTING USED COS2 RANGE WEIGHTING COEFFICIENT 0.100 AZIMUTH WEIGHTING USED NONE AZIMUTH WEIGHTING COEFFICIENT 1.000 PERCENT OF PRF BANDWIDTH PROCESSED 21.4 DESKEW FLAG (1=DESKEWED, 2=NOT DESKEWED) 1 SLANT RANGE SAMPLE SPACING (METERS) 3.3310 NOMINAL SLANT RANGE RESOLUTION (METERS) 5.5 AZIMUTH SAMPLE SPACING (METERS) 9.2600 NOMINAL AZIMUTH RESOLUTION (METERS) 43.2 NUMBER OF INTERPOLATION PNTS USED IN RMC 8 AZIMUTH REFERENCE SIZE/LOOK, NEAR RANGE VARIABLE AZIMUTH REFERENCE SIZE/LOOK, FAR RANGE VARIABLE IMAGE CENTER LATITUDE (DEGREES) 5.0028 IMAGE CENTER LONGITUDE (DEGREES) 114.9983 CALTONE VIDEO FREQUENCY 43.5938 CALTONE POWER MEASURED, DB, HH 78.5 CALTONE POWER MEASURED, DB, HV 78.4 CALTONE POWER MEASURED, DB, VH 78.4 CALTONE POWER MEASURED, DB, VV 78.3 CALIBRATION FACTOR APPLIED, DB, HH 0 CALIBRATION FACTOR APPLIED, DB, HV 0 CALIBRATION FACTOR APPLIED, DB, VH 0 CALIBRATION FACTOR APPLIED, DB, VV -158 MEASURED AND CORRECTED HV/VH POWER RATIO 1.000 MEASURED AND CORRECTED HV/VH PHASE (DEG) 0.0 CALTONE PHASE MEASURED, DEG, HH 180.4 CALTONE PHASE MEASURED, DEG, HV 41.0 CALTONE PHASE MEASURED, DEG, VH 180.7 CALTONE PHASE MEASURED, DEG, VV 41.7 GENERAL SCALE FACTOR 0.0 GPS ALTITUDE, M 8402.0 LATITUDE OF PEG POINT 4.9221749 LONGITUDE OF PEG POINT 114.9847488 HEADING AT PEG POINT 54.5668335 P-BAND RFI FILTER APPLIED FLAG NO P-BAND RFI FILTER ALGORITHM ALONG-TRACK OFFSET S0 (M) 8402.00 CROSS-TRACK OFFSET C0 (M) 8402.00 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Projection Program ***** ***** ***** ***** This program projects from slant ***** ***** range to ground range. ***** ***** ***** ***** It uses an array of values produced ***** ***** by the GENLOC program to perform a ***** ***** nearest neighbor interpolation. ***** ***** ***** ************************************************** Enter the name of the input file. Projecting real*4 data. Projecting dem? Enter the name of the s,c file. Enter the range and azimuth pixel spacing. Enter the output file name. prf bw len: 842.6000 40.00000 10.00000 proj4 nsampr 1202 13041.07 8367.900 3421.930 10.00000 9040.540 # header output no1 no2 no3: 4 1 2 1 Byte offset to cali header out: 0 Byte offset to calheader in: 0 Byte offset to dem header 14424 Byte offset to first data line: 19232 Peg point parameters: 4.922175 114.9847 54.56683 Offset Parameters: s0 (m) = -24603.40 c0 (m) = 3421.930 Reading data. 10240 1202 5402 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Initializing output array. Resampling the data: one pass (DEM version). + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Normalizing feathers + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 + 6400 + 6656 + 6912 + 7168 + 7424 + 7680 + 7936 + 8192 + 8448 + 8704 + 8960 + 9216 + 9472 + 9728 + 9984 +10240 +10496 +10752 +11008 +11264 +11520 +11776 +12032 +12288 +12544 +12800 +13056 +13312 +13568 +13824 +14080 +14336 +14592 +14848 +15104 +15360 Filling in 1 and 2 pixel holes. Number of pixels without data = 2194438 1202 5001 -10000.00 Number of holes filled by WAYNE (real*4) = 0 Neighborhood Pixel Distance Used = 0 Writing map out. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Projection Program ***** ***** ***** ***** This program projects from slant ***** ***** range to ground range. ***** ***** ***** ***** It uses an array of values produced ***** ***** by the GENLOC program to perform a ***** ***** nearest neighbor interpolation. ***** ***** ***** ************************************************** Enter the name of the input file. Projecting real*4 data. Projecting dem? Enter the name of the s,c file. Enter the range and azimuth pixel spacing. Enter the output file name. prf bw len: 842.6000 40.00000 10.00000 nsampr O/p: 1202 13041.07 17564.57 2560 ha,y0out,dyout,rspace: 8367.900 3421.930 10.00000 3.331000 # header output no1 no2 no3: 3 1 2 0 Byte offset to cali header out: 0 Byte offset to calheader in: 0 Byte offset to dem header 0 Byte offset to first data line: 14424 Reading data. 10240 1202 5402 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Initializing output array. Near Range = 3421.930 Resampling the data: first pass. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Resampling the data: second pass. 2560 5402 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Normalizing feathers + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 + 6400 + 6656 + 6912 + 7168 + 7424 + 7680 + 7936 + 8192 + 8448 + 8704 + 8960 + 9216 + 9472 + 9728 + 9984 +10240 +10496 +10752 +11008 +11264 +11520 +11776 +12032 +12288 +12544 +12800 +13056 +13312 +13568 +13824 +14080 +14336 +14592 +14848 +15104 +15360 Filling in 1 and 2 pixel holes. Number of pixels without data = 2213629 1202 5001 0.0000000E+00 Number of holes filled by WAYNE (real*4) = 0 Neighborhood Pixel Distance Used = 0 Writing map out. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Projection Program ***** ***** ***** ***** This program projects from slant ***** ***** range to ground range. ***** ***** ***** ***** It uses an array of values produced ***** ***** by the GENLOC program to perform a ***** ***** nearest neighbor interpolation. ***** ***** ***** ************************************************** Enter the name of the input file. Projecting real*4 data. Projecting dem? Enter the name of the s,c file. Enter the range and azimuth pixel spacing. Enter the output file name. prf bw len: 842.6000 40.00000 10.00000 nsampr O/p: 1202 13041.07 17564.57 2560 ha,y0out,dyout,rspace: 8367.900 3421.930 10.00000 3.331000 # header output no1 no2 no3: 6 1 2 3 Byte offset to cali header out: 14424 Byte offset to calheader in: 20480 Byte offset to dem header 0 Byte offset to first data line: 28848 headers_sgi: 3 9616 30720 19232 Reading data. 10240 1202 5402 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Initializing output array. Near Range = 3421.930 Resampling the data: first pass. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Resampling the data: second pass. 2560 5402 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Normalizing feathers + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 + 5632 + 5888 + 6144 + 6400 + 6656 + 6912 + 7168 + 7424 + 7680 + 7936 + 8192 + 8448 + 8704 + 8960 + 9216 + 9472 + 9728 + 9984 +10240 +10496 +10752 +11008 +11264 +11520 +11776 +12032 +12288 +12544 +12800 +13056 +13312 +13568 +13824 +14080 +14336 +14592 +14848 +15104 +15360 Filling in 1 and 2 pixel holes. Number of pixels without data = 2183879 1202 5001 0.0000000E+00 Number of holes filled by WAYNE (real*4) = 0 Neighborhood Pixel Distance Used = 0 Writing map out. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Projection Program ***** ***** ***** ***** This program projects from slant ***** ***** range to ground range. ***** ***** ***** ***** It uses an array of values produced ***** ***** by the GENLOC program to perform a ***** ***** nearest neighbor interpolation. ***** ***** ***** ************************************************** Enter the name of the input file. Projecting BYTE data. Projecting dem? Enter the name of the s,c file. Enter the range and azimuth pixel spacing. Enter the output file name. prf bw len: 842.6000 40.00000 10.00000 nsampr O/p: 1202 13041.07 8367.900 3421.930 10.00000 Number of header no123: 6 1 5 0 Byte offset to calibration header: 0 Byte offset to dem header: 0 Byte offset to first data line: 7212 Reading data. 2560 1202 5402 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Initializing output array. Near Range = 3421.930 Resampling the data: first pass. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Resampling the data: second pass--fill only. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Number of holes filled by WAYNE (byte) = 0 Neighborhood Pixel Distance Used = 0 Writing map out. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Projection Program ***** ***** ***** ***** This program projects from slant ***** ***** range to ground range. ***** ***** ***** ***** It uses an array of values produced ***** ***** by the GENLOC program to perform a ***** ***** nearest neighbor interpolation. ***** ***** ***** ************************************************** Enter the name of the input file. Projecting BYTE data. Projecting dem? Enter the name of the s,c file. Enter the range and azimuth pixel spacing. Enter the output file name. prf bw len: 842.6000 40.00000 10.00000 nsampr O/p: 1202 13041.07 8367.900 3421.930 10.00000 Number of header no123: 6 1 5 0 Byte offset to calibration header: 0 Byte offset to dem header: 0 Byte offset to first data line: 7212 Reading data. 2560 1202 5402 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Initializing output array. Near Range = 3421.930 Resampling the data: first pass. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Resampling the data: second pass--fill only. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Number of holes filled by WAYNE (byte) = 0 Neighborhood Pixel Distance Used = 0 Writing map out. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 frequency that is currently being worked on Enter filename (c band demgr): Enter filename (l band demgr): Enter filename (c band vvgr): Enter filename (l band vvgr): Enter filename (c band incgr): Enter filename (l band incgr): Enter filename (c band corgr): Enter filename (l band corgr): working on l band now working on dem Reading dem header..STARTING at 14424 working on vv load values update param header only from passing in parameters working on inc load values update param header only from passing in parameters working on cor load values update param header only from passing in parameters Enter number of set to convert: Enter the cband filename: Enter the output filename: Reading new header..STARTING at 0 1202 1202 dumping the rest 1 dumping the rest 2 dumping the rest 3 dumping the rest 4 dumping the rest 5 dumping the rest 6 dumping the rest 7 dumping the rest 8 dumping the rest 9 dumping the rest 10 dumping the rest 11 dumping the rest 12 dumping the rest 13 dumping the rest 14 dumping the rest 15 dumping the rest 16 dumping the rest 17 dumping the rest 18 dumping the rest 19 dumping the rest 20 dumping the rest 21 dumping the rest 22 dumping the rest 23 dumping the rest 24 dumping the rest 25 dumping the rest 26 dumping the rest 27 dumping the rest 28 dumping the rest 29 dumping the rest 30 dumping the rest 31 dumping the rest 32 dumping the rest 33 dumping the rest 34 dumping the rest 35 dumping the rest 36 dumping the rest 37 dumping the rest 38 dumping the rest 39 dumping the rest 40 dumping the rest 41 dumping the rest 42 dumping the rest 43 dumping the rest 44 dumping the rest 45 dumping the rest 46 dumping the rest 47 dumping the rest 48 dumping the rest 49 dumping the rest 50 dumping the rest 51 dumping the rest 52 dumping the rest 53 dumping the rest 54 dumping the rest 55 Enter the cband filename: Enter the output filename: Reading new header..STARTING at 0 1202 1202 dumping the rest 1 dumping the rest 2 dumping the rest 3 dumping the rest 4 dumping the rest 5 dumping the rest 6 dumping the rest 7 dumping the rest 8 dumping the rest 9 dumping the rest 10 dumping the rest 11 dumping the rest 12 dumping the rest 13 dumping the rest 14 dumping the rest 15 dumping the rest 16 dumping the rest 17 dumping the rest 18 dumping the rest 19 dumping the rest 20 dumping the rest 21 dumping the rest 22 dumping the rest 23 dumping the rest 24 dumping the rest 25 dumping the rest 26 dumping the rest 27 dumping the rest 28 dumping the rest 29 dumping the rest 30 dumping the rest 31 dumping the rest 32 dumping the rest 33 dumping the rest 34 dumping the rest 35 dumping the rest 36 dumping the rest 37 dumping the rest 38 dumping the rest 39 dumping the rest 40 dumping the rest 41 dumping the rest 42 dumping the rest 43 dumping the rest 44 dumping the rest 45 dumping the rest 46 dumping the rest 47 dumping the rest 48 dumping the rest 49 dumping the rest 50 dumping the rest 51 dumping the rest 52 dumping the rest 53 dumping the rest 54 dumping the rest 55 Enter the cband filename: Enter the output filename: Reading new header..STARTING at 0 4808 192 4808 4808 192 4808 4808 0 19232 4808 0 33656 4808 0 48080 4808 192 4808 4808 0 19232 4808 0 33656 4808 192 4808 4808 0 19232 4808 0 33656 4808 192 4808 4808 0 19232 4808 0 33656 62504 9616 4808 4808 dumping the rest 1 dumping the rest 2 dumping the rest 3 dumping the rest 4 dumping the rest 5 dumping the rest 6 dumping the rest 7 dumping the rest 8 dumping the rest 9 dumping the rest 10 dumping the rest 11 dumping the rest 12 dumping the rest 13 dumping the rest 14 dumping the rest 15 dumping the rest 16 dumping the rest 17 dumping the rest 18 dumping the rest 19 dumping the rest 20 dumping the rest 21 dumping the rest 22 dumping the rest 23 dumping the rest 24 dumping the rest 25 dumping the rest 26 dumping the rest 27 dumping the rest 28 dumping the rest 29 dumping the rest 30 dumping the rest 31 dumping the rest 32 dumping the rest 33 dumping the rest 34 dumping the rest 35 dumping the rest 36 dumping the rest 37 dumping the rest 38 dumping the rest 39 dumping the rest 40 dumping the rest 41 dumping the rest 42 dumping the rest 43 dumping the rest 44 dumping the rest 45 dumping the rest 46 dumping the rest 47 dumping the rest 48 dumping the rest 49 dumping the rest 50 dumping the rest 51 dumping the rest 52 dumping the rest 53 dumping the rest 54 dumping the rest 55 Enter the cband filename: Enter the output filename: Reading new header..STARTING at 0 4808 192 4808 4808 192 4808 4808 4808 dumping the rest 1 dumping the rest 2 dumping the rest 3 dumping the rest 4 dumping the rest 5 dumping the rest 6 dumping the rest 7 dumping the rest 8 dumping the rest 9 dumping the rest 10 dumping the rest 11 dumping the rest 12 dumping the rest 13 dumping the rest 14 dumping the rest 15 dumping the rest 16 dumping the rest 17 dumping the rest 18 dumping the rest 19 dumping the rest 20 dumping the rest 21 dumping the rest 22 dumping the rest 23 dumping the rest 24 dumping the rest 25 dumping the rest 26 dumping the rest 27 dumping the rest 28 dumping the rest 29 dumping the rest 30 dumping the rest 31 dumping the rest 32 dumping the rest 33 dumping the rest 34 dumping the rest 35 dumping the rest 36 dumping the rest 37 dumping the rest 38 dumping the rest 39 dumping the rest 40 dumping the rest 41 dumping the rest 42 dumping the rest 43 dumping the rest 44 dumping the rest 45 dumping the rest 46 dumping the rest 47 dumping the rest 48 dumping the rest 49 dumping the rest 50 dumping the rest 51 dumping the rest 52 dumping the rest 53 dumping the rest 54 dumping the rest 55 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** DEM Format Program ***** ***** ***** ***** This program outputs heights in ***** ***** 16 bit numbers. ***** ***** ***** ************************************************** Enter the name of the file to be formatted. ibytesdemheadin: 14424 Reading the data .. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 Enter the output file name. ibytesdemheadin: 14424 Finding the maximum and minimum heights.. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 Minimum, Maximum heights: -621.0034 -57.28365 Suggest we use 3.4406722E-02 as increment. Do you agree? Changing to INTEGER*2 format... 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** CVV Format Program ***** ***** ***** ***** This program outputs C-band RCS in ***** ***** 16 bit numbers. ***** ***** ***** ************************************************** Enter the name of the file to be formatted. ns np offset: 1202 5056 62504 ns np offset: 1202 5056 62504 ibytesvectorin nvector: 48080 9616 Reading the data .. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 Finding the average RCS.. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 Average RCS (dB) = -71.04260 Enter the output file name. cal offset: 9616 1 3 data offset: 21636 1 3 1 4 9616 Changing to INTEGER*2 format... 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 *** Convert real*4 to Byte image *** Enter data file to be converted: /export/air36/airops/1400/ts1400_l.vvgr channel= 3 Reading the header. New header present. Record length = 4808 Number of samples per line = 1202 Number of lines in image = 5056 Offset to data = 62504 Status = 0 New header is OK nsamp,nlines,ioff 1202 5056 62504 Enter data file for saving byte output: 33 0.0000000E+00 0.0000000E+00 65 4.1570598E-03 0.0000000E+00 97 4.1570598E-03 0.0000000E+00 129 8.4510902E-03 0.0000000E+00 161 8.4510902E-03 0.0000000E+00 193 8.4510902E-03 0.0000000E+00 225 8.5921464E-03 0.0000000E+00 257 8.5921464E-03 0.0000000E+00 289 8.5921464E-03 0.0000000E+00 321 8.5921464E-03 0.0000000E+00 353 8.5921464E-03 0.0000000E+00 385 8.5921464E-03 0.0000000E+00 417 8.5921464E-03 0.0000000E+00 449 8.5921464E-03 0.0000000E+00 481 8.5921464E-03 0.0000000E+00 513 8.5921464E-03 0.0000000E+00 545 8.5921464E-03 0.0000000E+00 577 8.5921464E-03 0.0000000E+00 609 8.5921464E-03 0.0000000E+00 641 8.5921464E-03 0.0000000E+00 673 8.5921464E-03 0.0000000E+00 705 8.5921464E-03 0.0000000E+00 737 8.5921464E-03 0.0000000E+00 769 8.8073965E-03 0.0000000E+00 801 8.8073965E-03 0.0000000E+00 833 8.8073965E-03 0.0000000E+00 865 8.8073965E-03 0.0000000E+00 897 8.8073965E-03 0.0000000E+00 929 1.0810491E-02 0.0000000E+00 961 1.0810491E-02 0.0000000E+00 993 1.0810491E-02 0.0000000E+00 1025 1.0810491E-02 0.0000000E+00 1057 1.0810491E-02 0.0000000E+00 1089 1.0810491E-02 0.0000000E+00 1121 1.0810491E-02 0.0000000E+00 1153 2.4872081E-02 0.0000000E+00 1185 2.4872081E-02 0.0000000E+00 1217 2.4872081E-02 0.0000000E+00 1249 2.4872081E-02 0.0000000E+00 1281 2.4872081E-02 0.0000000E+00 1313 2.4872081E-02 0.0000000E+00 1345 2.4872081E-02 0.0000000E+00 1377 2.4872081E-02 0.0000000E+00 1409 2.4872081E-02 0.0000000E+00 1441 2.4872081E-02 0.0000000E+00 1473 2.4872081E-02 0.0000000E+00 1505 2.4872081E-02 0.0000000E+00 1537 2.4872081E-02 0.0000000E+00 1569 2.4872081E-02 0.0000000E+00 1601 2.4872081E-02 0.0000000E+00 1633 2.4872081E-02 0.0000000E+00 1665 2.4872081E-02 0.0000000E+00 1697 2.4872081E-02 0.0000000E+00 1729 2.4872081E-02 0.0000000E+00 1761 2.4872081E-02 0.0000000E+00 1793 2.4872081E-02 0.0000000E+00 1825 2.4872081E-02 0.0000000E+00 1857 4.8137769E-02 0.0000000E+00 1889 4.8137769E-02 0.0000000E+00 1921 4.8137769E-02 0.0000000E+00 1953 4.8137769E-02 0.0000000E+00 1985 4.8137769E-02 0.0000000E+00 2017 4.8137769E-02 0.0000000E+00 2049 4.8137769E-02 0.0000000E+00 2081 4.8137769E-02 0.0000000E+00 2113 4.8137769E-02 0.0000000E+00 2145 4.8137769E-02 0.0000000E+00 2177 4.8137769E-02 0.0000000E+00 2209 4.8137769E-02 0.0000000E+00 2241 4.8137769E-02 0.0000000E+00 2273 4.8137769E-02 0.0000000E+00 2305 4.8137769E-02 0.0000000E+00 2337 4.8137769E-02 0.0000000E+00 2369 4.8137769E-02 0.0000000E+00 2401 4.8137769E-02 0.0000000E+00 2433 4.8137769E-02 0.0000000E+00 2465 4.8137769E-02 0.0000000E+00 2497 4.8137769E-02 0.0000000E+00 2529 4.8137769E-02 0.0000000E+00 2561 4.8137769E-02 0.0000000E+00 2593 4.8137769E-02 0.0000000E+00 2625 4.8137769E-02 0.0000000E+00 2657 4.8137769E-02 0.0000000E+00 2689 4.8137769E-02 0.0000000E+00 2721 4.8137769E-02 0.0000000E+00 2753 4.8137769E-02 0.0000000E+00 2785 4.8137769E-02 0.0000000E+00 2817 4.8137769E-02 0.0000000E+00 2849 4.8137769E-02 0.0000000E+00 2881 4.8137769E-02 0.0000000E+00 2913 4.8137769E-02 0.0000000E+00 2945 4.8137769E-02 0.0000000E+00 2977 4.8137769E-02 0.0000000E+00 3009 4.8137769E-02 0.0000000E+00 3041 4.8137769E-02 0.0000000E+00 3073 4.8137769E-02 0.0000000E+00 3105 4.8137769E-02 0.0000000E+00 3137 4.8137769E-02 0.0000000E+00 3169 4.8137769E-02 0.0000000E+00 3201 4.8137769E-02 0.0000000E+00 3233 4.8137769E-02 0.0000000E+00 3265 4.8137769E-02 0.0000000E+00 3297 4.8137769E-02 0.0000000E+00 3329 4.8137769E-02 0.0000000E+00 3361 4.8137769E-02 0.0000000E+00 3393 4.8137769E-02 0.0000000E+00 3425 4.8137769E-02 0.0000000E+00 3457 4.8137769E-02 0.0000000E+00 3489 4.8137769E-02 0.0000000E+00 3521 4.8137769E-02 0.0000000E+00 3553 4.8137769E-02 0.0000000E+00 3585 4.8137769E-02 0.0000000E+00 3617 4.8137769E-02 0.0000000E+00 3649 4.8137769E-02 0.0000000E+00 3681 4.8137769E-02 0.0000000E+00 3713 4.8137769E-02 0.0000000E+00 3745 4.8137769E-02 0.0000000E+00 3777 4.8137769E-02 0.0000000E+00 3809 4.8137769E-02 0.0000000E+00 3841 4.8137769E-02 0.0000000E+00 3873 4.8137769E-02 0.0000000E+00 3905 4.8137769E-02 0.0000000E+00 3937 4.8137769E-02 0.0000000E+00 3969 4.8137769E-02 0.0000000E+00 4001 4.8137769E-02 0.0000000E+00 4033 4.8137769E-02 0.0000000E+00 4065 4.8137769E-02 0.0000000E+00 4097 4.8137769E-02 0.0000000E+00 4129 4.8137769E-02 0.0000000E+00 4161 4.8137769E-02 0.0000000E+00 4193 4.8137769E-02 0.0000000E+00 4225 4.8137769E-02 0.0000000E+00 4257 4.8137769E-02 0.0000000E+00 4289 4.8137769E-02 0.0000000E+00 4321 4.8137769E-02 0.0000000E+00 4353 4.8137769E-02 0.0000000E+00 4385 4.8137769E-02 0.0000000E+00 4417 4.8137769E-02 0.0000000E+00 4449 4.8137769E-02 0.0000000E+00 4481 4.8137769E-02 0.0000000E+00 4513 4.8137769E-02 0.0000000E+00 4545 4.8137769E-02 0.0000000E+00 4577 4.8137769E-02 0.0000000E+00 4609 4.8137769E-02 0.0000000E+00 4641 4.8137769E-02 0.0000000E+00 4673 4.8137769E-02 0.0000000E+00 4705 4.8137769E-02 0.0000000E+00 4737 4.8137769E-02 0.0000000E+00 4769 4.8137769E-02 0.0000000E+00 4801 4.8137769E-02 0.0000000E+00 4833 4.8137769E-02 0.0000000E+00 4865 4.8137769E-02 0.0000000E+00 4897 4.8137769E-02 0.0000000E+00 4929 4.8137769E-02 0.0000000E+00 4961 4.8137769E-02 0.0000000E+00 4993 4.8137769E-02 0.0000000E+00 5025 4.8137769E-02 0.0000000E+00 Min, Max r_scale = 0.0000000E+00 4.8137769E-02 0.5000000 Do you want to change these variables? yes=1 0 50 100 150 200 250 300 350 400 450 500 550 600 650 700 750 800 850 900 950 1000 1050 1100 1150 1200 1250 1300 1350 1400 1450 1500 1550 1600 1650 1700 1750 1800 1850 1900 1950 2000 2050 2100 2150 2200 2250 2300 2350 2400 2450 2500 2550 2600 2650 2700 2750 2800 2850 2900 2950 3000 3050 3100 3150 3200 3250 3300 3350 3400 3450 3500 3550 3600 3650 3700 3750 3800 3850 3900 3950 4000 4050 4100 4150 4200 4250 4300 4350 4400 4450 4500 4550 4600 4650 4700 4750 4800 4850 4900 4950 5000 5050 done Mon Nov 11 13:00:10 PST 2002 Mon Nov 11 13:00:10 PST 2002 Mon Nov 11 13:00:10 PST 2002 No match No match ***************************************************** * * * AIRSAR INTEGRATED PROCESSOR * * * * HEADER PREPROCESSOR * * * * This program reads the raw data header and cal- * * culates the parameters necessary for the motion * * compensation in the integrated processor. * * * ***************************************************** Enter command file name ==> Opening command file... CRD-xdealy: 0.2380000 Reading and decoding header file... fsize_max min: 11907 11863 fsize_max min/ 2: 5954 5932 Finished reading the header file... Data acquired after 1994. J2000 time = -97839530.15473801 GPS J2000 time = -97839532.12479001 Message 1 Time = -97839530.15473801 INS Time = 1.704192000000000 Roll angle = 0.4888916015625000 Pitch angle = 1.038208007812500 Heading angle = 54.35485839843750 Long. acc = 0.1700000000000000 Lat. acc = -1.0000000000000000E-02 Norm. acc = -9.650000000000000 East vel. = 176.2770000000000 North vel. = 126.2550000000000 Up vel. = 0.1210000000000000 True Grnd Spd = 216.8125000000000 Altitude = 8446.000000000000 Latitude = 4.787130374461412 Longitude = 114.7964306641370 Message 6 Week = 881 GPS Time = -97839532.12479001 GDOP = 2.093750000000000 PDOP = 1.937500000000000 HDOP = 1.093750000000000 VDOP = 1.593750000000000 TDOP = 0.7968750000000000 Spherical Acc = 11.00000000000000 Time Acc = 8.0000000000000005E-09 GPS Lat = 4.784968094021508 GPS Lon = 114.7934315981008 GPS Alt = 8449.000000000000 GPS East Vel = 176.2400000000000 GPS North Vel = 126.3000000000000 GPS Up Vel = -0.1100000000000000 Message 3 Del INU Time = 0.7441920000000000 Del vel east = -3.4179687500000000E-03 Del vel north = 1.0253906250000000E-02 Del vel up = 6.4941406250000000E-02 Del pos east = 0.6250000000000000 Del pos north = 0.5000000000000000 Del pos up = -0.1250000000000000 Message 4 Sigma Pos x = 1.250000000000000 Sigma Pos y = 1.500000000000000 Sigma Pos z = 2.000000000000000 Sigma Vel x = 7.0800781250000000E-03 Sigma Vel y = 8.5449218750000000E-03 Sigma Vel z = 1.0009765625000000E-02 Message 7 Satellites used = 10 26 23 30 9 10 Retrived Honeywell data... 11880 Operator Comments: - - - - - - - - - - - - - - - - - - - - - PV RFI near urban areas, but no RX overloading; rebooted HP748i after DIR-1000 interface lockup; getting bumpy at end of run; IG I is OKng Lou, Leon Maldonado, Michael Kobrick, Timothy William Miller van Zyl, David Ryan Haub, Lori Ann Carrico, Timothy W. - - - - - - - - - - - - - - - - - - - - - enter filename for headers (entire path): Which frequency? (C,L or P) number of channels transferred: number of bytes/chan: total # of lines transferred: window delay: enter the .par filename : enter first header to read: enter year data taken: enter HDDT ID for raw data: SONY tapeid: 596068 96068 enter HDDT footage number <0> : enter the title of image: enter the CCT ID: cct: 1400 prod ID1:14001400 prod ID:1400 SONY tapeid: 96068 96068 tapeid:9606896068 tapeid par:96068 prod ID:1400 chrp_delay from subcomm header tapeID: 32.45000 96068 New DCG: chrp_delay is 32.5 usec 32.45000 chrp_delay is 32.5 usec 96068 32.45000 Is this 98039< x >98001 for P-bnad?: 96068 1998 P-band fc? 22.50000 idelay,chrp_delay,xdelay 93 32.45000 0.2380000 near range delr windela: 9040.541 3.331027 0 f_cal 43.59375 1216.406 Parameter header created .. >> Record # : 128 >> GPS Stuff = 1.80 6 9 1 24 26 17 digdelay startrng(us):93 93.00000000000000 startrng(m) elecdelay: 9863.173249999998 2.7200000000000000E-05 >> start range = 9863.1732 >> ccal_amp = -90.39999 >> ccal_atn = 32 >> ratn_phh = 0 14 0 >> ratn_phv = 0 8 0 >> ratn_pvh = 0 8 0 >> ratn_pvv = 0 14 0 >> ratn_lhh = 0 8 0 >> ratn_lhv = 0 8 0 >> ratn_lvh = 0 8 0 >> ratn_lvv = 0 8 0 >> ratn_chh = 0 8 10 >> ratn_chv = 0 8 10 >> ratn_cvh = 0 8 10 >> ratn_cvv = 0 8 10 >> rcvr_chh = >> rcvr_chv = >> rcvr_cvh = >> rcvr_cvv = >> rcvr_cpz = 0.0 >> rcvr_cbw = 1 >> chrp_bnd = 40 >> chrp_len = 10 >> chrp_mod = DN Done decoding data from header array... Data collected on ==> 00-JAN-1996 Starting and end GPS times for SAR data -126338399.2900 -126338162.5340 Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000012 0 hdg 54.32401 53.90442 54.75037 0.1839573 0 trc 54.50528 54.36068 54.69053 0.0875469 0 tgs 216.44132 216.10938 216.82813 0.2168183 0 roll 0.30822 -0.23621 0.72510 0.1837461 0 pitch 1.07499 0.93933 1.30188 0.0565628 0 lati 4.92007 4.78497 5.05509 0.0778559 0 loni 114.98201 114.79343 115.17108 0.1088849 0 latd 4.91742 4.78333 5.05167 0.0779833 0 lond 114.97929 114.79167 115.16833 0.1088942 0 balt 7932.54489 7929.37200 7934.85840 0.9798892 0 ralt 8367.86036 8254.28880 8399.67840 40.1363318 0 dpth 0.99341 0.90000 1.90000 0.0665699 0 droll 0.23431 -0.30000 0.60000 0.1833685 0 thd 54.23086 53.80000 54.60000 0.1842948 0 dad 0.46901 0.20000 0.80000 0.1405592 0 latg 4.92181 4.78635 5.05648 0.0779550 7 long 114.67821 46.71303 115.17265 4.5613505 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8401.98819 8379.99023 8411.06934 6.7947893 7 phh_aten 14.00000 14.00000 14.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 8.00000 8.00000 8.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 8.00000 8.00000 8.00000 0.0000000 0 lhv_aten 8.00000 8.00000 8.00000 0.0000000 0 lvh_aten 8.00000 8.00000 8.00000 0.0000000 0 lvv_aten 8.00000 8.00000 8.00000 0.0000000 0 chh_aten 18.00000 18.00000 18.00000 0.0000000 0 chv_aten 18.00000 18.00000 18.00000 0.0000000 0 cvh_aten 18.00000 18.00000 18.00000 0.0000000 0 cvv_aten 18.00000 18.00000 18.00000 0.0000000 0 hwlat 4.92214 4.78712 5.05676 0.0778090 0 hwlon 114.99456 114.79643 229.97019 1.0605082 0 hwalt 8445.91242 8444.20267 8448.69490 1.1078156 0 hwev 176.22517 175.91100 176.59000 0.1428207 0 hwnv 125.67535 125.01700 126.31100 0.3687243 0 hwuv -0.00038 -0.60000 0.54300 0.2001301 0 hwroll 0.30811 -0.23621 0.72510 0.1837835 0 hwpitch 1.07502 0.93933 1.30188 0.0565736 0 hwhdg 54.32866 53.90442 108.56689 0.5305656 0 hwtrc 54.50999 54.36068 108.87846 0.5064533 0 hwtgs 216.44090 216.10938 216.82813 0.2166153 0 Finished analysis of raw data... Putting in mirror values... Finished with mirror samples... Median filter data... Completed median filter of data... Finished correcting GPS times for pulses... Finished correcting GPS times for SIXGUN data... -97839529.99923338 i_yearind 19960 GPS time for first pulse = -97839530.28283624 -126338399.2900000 New start and number of records = 109 199855 New start and number of blocks = 1 1563 GPS trend coefficients = -11.76622555553974 62.78558206021851 -58.78754310881088 Begin final analysis of data... Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000012 0 hdg 54.32401 53.90442 54.75037 0.1840172 0 trc 54.50535 54.36068 54.69053 0.0875345 0 tgs 216.44117 216.10938 216.82813 0.2166733 0 roll 0.30815 -0.23621 0.72510 0.1837618 0 pitch 1.07498 0.93933 1.30188 0.0565500 0 delx 0.25730 0.00000 0.25738 0.0005761 0 lati 4.92015 4.78497 5.05509 0.0779059 0 loni 114.98213 114.79343 115.17108 0.1089550 0 latd 4.91750 4.78333 5.05167 0.0780253 0 lond 114.97941 114.79167 115.16833 0.1089642 0 balt 7932.54403 7929.37200 7934.85840 0.9801651 0 ralt 8367.88014 8254.28880 8399.67840 40.1278107 0 dpth 0.99296 0.90000 1.20000 0.0626897 0 droll 0.23404 -0.30000 0.60000 0.1836385 0 thd 54.23084 53.80000 54.60000 0.1842375 0 dad 0.46903 0.20000 0.80000 0.1405165 0 latg 4.92162 4.78635 5.05648 0.0779381 0 long 114.98389 114.79526 115.17265 0.1088506 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8401.98819 8391.67622 8415.08752 5.0621651 0 phh_aten 14.00000 14.00000 14.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 8.00000 8.00000 8.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 8.00000 8.00000 8.00000 0.0000000 0 lhv_aten 8.00000 8.00000 8.00000 0.0000000 0 lvh_aten 8.00000 8.00000 8.00000 0.0000000 0 lvv_aten 8.00000 8.00000 8.00000 0.0000000 0 chh_aten 18.00000 18.00000 18.00000 0.0000000 0 chv_aten 18.00000 18.00000 18.00000 0.0000000 0 cvh_aten 18.00000 18.00000 18.00000 0.0000000 0 cvv_aten 18.00000 18.00000 18.00000 0.0000000 0 hwlat 4.92214 4.78715 5.05674 0.0778089 0 hwlon 114.98490 114.79646 115.17338 0.1088269 0 hwalt 8445.91242 8444.20269 8448.69486 1.1078160 0 hwev 176.22516 175.91200 176.58900 0.1428136 0 hwnv 125.67537 125.01900 126.31000 0.3687409 0 hwuv -0.00038 -0.60000 0.54300 0.2001302 0 hwroll 0.30810 -0.23621 0.72510 0.1837604 0 hwpitch 1.07501 0.93933 1.29639 0.0565199 0 hwhdg 54.32408 53.90442 54.74487 0.1840186 0 hwtrc 54.50541 54.36126 54.69004 0.0875148 0 hwtgs 216.44091 216.10938 216.82813 0.2166641 0 Finished final analysis of data... Average Barometric Altitude = 7932.544026103589 Average Radar Altitude = 8367.880135124751 Average GPS Altitude = 8401.988194565911 >>Record # : 128 >>GPS Stuff = 1.80 6 9 1 24 2 >>Record # : 0 >>GPS Stuff = Lock vertical accel to gps(+1) or bar(-1) or IGI (0) ==> Enter a name for the peg data file. Positions and Distances Start position = 4.7871459 114.7964609 8446.470 End position = 5.0567396 115.1733808 8444.912 Loxodromic Heading (deg) = 54.5061343 Loxodromic Distance (km) = 51346.0499506 Geodesic Heading (deg) = 54.4901120 Geodesic Distance (km) = 51346.0480234 Peg latitude and longitude = 4.9221747 114.9847465 Peg heading = 54.5668334 Rotation matrix First row = -0.420819309 -0.717533451 0.555028698 Second row = 0.903077536 -0.389238723 0.181505319 Third row = 0.085802523 0.577614892 0.811787511 Translation vector Vector = -6021.83700 12922.85215 -2435.84204 Local Radius of Curvature = 6363984.385000405 Start and end pulse used = 109 199963 Ellipsoidal delta s (m) = 0.2569177901035996 Delta s on reference surface = 0.2569177986170678 Miscellaneous Information Start range = 9863.173249999998 Start ground range = 5221.184597742174 Time orgin = -97839530.28283624 Pulse spacing = 0.2572961952660497 First frame = 18822817 Thank you for your patronage If a POLTOP mode then...: .mocomp -> .mocomph & .mocompv .mocomph -> .mocomphU & .mocompvU .mocompv -> .mocomphL & .mocompvL Enter the name of the motion compensation file. /export/air36/airops/1400/ts1400_p.mocomp Name of the H-pol motion compensation file? /export/air36/airops/1400/ts1400_p.mocomph Name of the V-pol motion compensation file? /export/air36/airops/1400/ts1400_p.mocompv How many lines per polarization? 100000 + 1 + 10001 + 20001 + 30001 + 40001 + 50001 + 60001 + 70001 + 80001 + 90001 + 100001 + 110001 + 120001 + 130001 + 140001 + 150001 + 160001 + 170001 + 180001 + 190001 ********************************************* * * * AIRSAR INTEGRATED PROCESSOR * * * * CALTONE ESTIMATOR * * * * This program estimates the CALTONE amp- * * litude and phase and writes the result * * into the parameter header. * * * ********************************************* Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) PHH Enter the paramater file name. /export/air36/airops/1400/ts1400_p.par Enter the raw data file name. /export/air32/airops/1400/p_hh Enter the motion compensation file name. /export/air36/airops/1400/ts1400_p.mocomp Enter a file name for the range spectrum: /export/air36/airops/1400/db_p_hh.dat Enter a file name for the sampled caltone power: /export/air36/airops/1400/1st_p_hh.dat Enter histogram of the caltone power file name: /export/air36/airops/1400/pw_hist_p_hh.dat Enter histogram of the caltone phase file name: /export/air36/airops/1400/ph_hist_p_hh.dat Enter start range line #: 1 How many lines of raw data? 100000 How many lines to be processed? 100000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 1 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3756 5932 Prediction cal_bin 1057 start/end pulse: 1 99904 64-Loop Count: 1560 cmplx raw(1 2 3): (-10.02374,0.0000000E+00) (35.08311,0.0000000E+00) (-10.02374,0.0000000E+00) attenuation (dB): 14.00000 no_loop: 64 Pulse#/no_loop: 1 1057 9.5658160E+07 plot_x: 1561 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 79.90935 Power RMS: 0.1653595 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 9898.361 Amp. RMS: 212.7910 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -174.8167 Phase RMS: 5.799380 Incoherent PH 1st: 185.3230 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 80.21677 CalTone Power Coherently dB : 79.90935 Incoherent PW - Coherent PW : 0.3074188 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 10250.65 CalTone Amplitude Coherently : 9898.361 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 352.2910 ------------ *** ------------ running time (sec): 58.71 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) PHV Enter the paramater file name. /export/air36/airops/1400/ts1400_p.par Enter the raw data file name. /export/air32/airops/1400/p_hv Enter the motion compensation file name. /export/air36/airops/1400/ts1400_p.mocomp Enter a file name for the range spectrum: /export/air36/airops/1400/db_p_hv.dat Enter a file name for the sampled caltone power: /export/air36/airops/1400/1st_p_hv.dat Enter histogram of the caltone power file name: /export/air36/airops/1400/pw_hist_p_hv.dat Enter histogram of the caltone phase file name: /export/air36/airops/1400/ph_hist_p_hv.dat Enter start range line #: 1 How many lines of raw data? 100000 How many lines to be processed? 100000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 2 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3756 5932 Prediction cal_bin 1057 start/end pulse: 1 99904 64-Loop Count: 1560 cmplx raw(1 2 3): (52.74961,0.0000000E+00) (-80.38036,0.0000000E+00) (-45.21395,0.0000000E+00) attenuation (dB): 8.000000 no_loop: 64 Pulse#/no_loop: 1 1057 3.4699514E+08 plot_x: 1561 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 85.35898 Power RMS: 0.1189965 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 18535.25 Amp. RMS: 287.3326 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 61.68927 Phase RMS: 5.790027 Incoherent PH 1st: 61.80263 max_bin with Incoherent averaging: 1965 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 91.60779 CalTone Power Coherently dB : 85.35898 WARNING!!! CalTone freq is drifting!!! Using Incoherently pw ph ph_sd: 91.60779 61.80263 16.18983 Incoherent PW - Coherent PW : 6.248810 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 19204.59 CalTone Amplitude Coherently : 18535.25 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 669.3457 ------------ *** ------------ running time (sec): 52.35 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) PVH Enter the paramater file name. /export/air36/airops/1400/ts1400_p.par Enter the raw data file name. /export/air32/airops/1400/p_vh Enter the motion compensation file name. /export/air36/airops/1400/ts1400_p.mocomp Enter a file name for the range spectrum: /export/air36/airops/1400/db_p_vh.dat Enter a file name for the sampled caltone power: /export/air36/airops/1400/1st_p_vh.dat Enter histogram of the caltone power file name: /export/air36/airops/1400/pw_hist_p_vh.dat Enter histogram of the caltone phase file name: /export/air36/airops/1400/ph_hist_p_vh.dat Enter start range line #: 1 How many lines of raw data? 100000 How many lines to be processed? 100000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 3 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3756 5932 Prediction cal_bin 1057 start/end pulse: 1 99904 64-Loop Count: 1560 cmplx raw(1 2 3): (5.023773,0.0000000E+00) (0.0000000E+00,0.0000000E+00) (-15.07132,0.0000000E+00) attenuation (dB): 8.000000 no_loop: 64 Pulse#/no_loop: 1 1057 9.8889504E+07 plot_x: 1561 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 79.96500 Power RMS: 7.9672180E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 9960.702 Amp. RMS: 139.4561 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -175.5450 Phase RMS: 5.797022 Incoherent PH 1st: -175.9487 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 80.27005 CalTone Power Coherently dB : 79.96500 Incoherent PW - Coherent PW : 0.3050461 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 10327.69 CalTone Amplitude Coherently : 9960.702 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 366.9863 ------------ *** ------------ running time (sec): 51.34 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) PVV Enter the paramater file name. /export/air36/airops/1400/ts1400_p.par Enter the raw data file name. /export/air32/airops/1400/p_vv Enter the motion compensation file name. /export/air36/airops/1400/ts1400_p.mocomp Enter a file name for the range spectrum: /export/air36/airops/1400/db_p_vv.dat Enter a file name for the sampled caltone power: /export/air36/airops/1400/1st_p_vv.dat Enter histogram of the caltone power file name: /export/air36/airops/1400/pw_hist_p_vv.dat Enter histogram of the caltone phase file name: /export/air36/airops/1400/ph_hist_p_vv.dat Enter start range line #: 1 How many lines of raw data? 100000 How many lines to be processed? 100000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 4 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3756 5932 Prediction cal_bin 1057 start/end pulse: 1 99904 64-Loop Count: 1560 cmplx raw(1 2 3): (-80.18996,0.0000000E+00) (0.0000000E+00,0.0000000E+00) (-70.16621,0.0000000E+00) attenuation (dB): 14.00000 no_loop: 64 Pulse#/no_loop: 1 1057 3.7481674E+08 plot_x: 1561 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 85.74935 Power RMS: 5.8463398E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 19387.25 Amp. RMS: 301.9404 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 62.31248 Phase RMS: 5.919009 Incoherent PH 1st: 61.95293 max_bin with Incoherent averaging: 1965 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 92.00930 CalTone Power Coherently dB : 85.74935 WARNING!!! CalTone freq is drifting!!! Using Incoherently pw ph ph_sd: 92.00930 61.95293 16.08243 Incoherent PW - Coherent PW : 6.259949 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 20086.01 CalTone Amplitude Coherently : 19387.25 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 698.7598 ------------ *** ------------ running time (sec): 52.25 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 0 *************************************************** * * * AIRSAR INTEGRATED PROCESSOR * * * * Global Line Generator * * * * This program generates the global line to use * * in the single-look processors to resample the * * data. * * * *************************************************** Please enter the name of the sensor file. 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 Enter the name of the parameter file. Please enter the name of the mocomp file. Reading motion compensation data Global reference line calculation results: y fit: constant and linear terms: -50.72683 5.7262240E-04 z fit: constant and linear terms: 0.3981183 -2.1510896E-05 y and z standard deviations (meters) 2.506191 0.6138655 Enter the name of the global line file. Enter the name of the motion compensation file. Enter the number of lines in the mocomp file & first one. Enter the patch size and the max reference fnc length. Enter the maximum Doppler error. Enter the doppler file name. Enter the wavelength and nominal azimuth pixel spacing Initial guess at number of patches = 27.29095 Step size = 3492 PATCH NUMER 1 First line = 1 Averages = 1.8845018E-02 1.7022528E-02 1.6820293E-02 1.6380571E-02 Differences = 1.5779119E-03 -2.4457835E-04 -4.4681318E-04 -8.8653527E-04 PATCH NUMER 2 First line = 3493 Averages = 1.6761744E-02 1.6783398E-02 1.6448954E-02 1.7209454E-02 Differences = -3.9143488E-05 -1.7490238E-05 -3.5193376E-04 4.0856563E-04 PATCH NUMER 3 First line = 6985 Averages = 1.6192906E-02 1.6996693E-02 1.7155590E-02 1.7570158E-02 Differences = -7.8593381E-04 1.7853454E-05 1.7675012E-04 5.9131905E-04 PATCH NUMER 4 First line = 10477 Averages = 1.7395703E-02 1.7810371E-02 1.8119259E-02 1.7668871E-02 Differences = -3.5283901E-04 6.1828643E-05 3.7071668E-04 -7.9670921E-05 PATCH NUMER 5 First line = 13969 Averages = 1.7669240E-02 1.7842671E-02 1.7566631E-02 1.6539387E-02 Differences = 2.6476569E-04 4.3819658E-04 1.6215630E-04 -8.6508691E-04 PATCH NUMER 6 First line = 17461 Averages = 1.7740242E-02 1.6802490E-02 1.4842442E-02 1.4620929E-02 Differences = 1.7387010E-03 8.0094859E-04 -1.1590989E-03 -1.3806121E-03 PATCH NUMER 7 First line = 20953 Averages = 1.5582223E-02 1.4491310E-02 1.5559209E-02 1.7222961E-02 Differences = -1.3171043E-04 -1.2226235E-03 -1.5472528E-04 1.5090276E-03 PATCH NUMER 8 First line = 24445 Averages = 1.5092564E-02 1.6720340E-02 1.7310360E-02 1.7404888E-02 Differences = -1.5394790E-03 8.8296831E-05 6.7831762E-04 7.7284500E-04 PATCH NUMER 9 First line = 27937 Averages = 1.7240494E-02 1.7132591E-02 1.7484276E-02 1.7241875E-02 Differences = -3.4306198E-05 -1.4220923E-04 2.0947494E-04 -3.2925978E-05 PATCH NUMER 10 First line = 31429 Averages = 1.7693439E-02 1.7133042E-02 1.6764775E-02 1.8410299E-02 Differences = 1.9305386E-04 -3.6734343E-04 -7.3561072E-04 9.0991333E-04 PATCH NUMER 11 First line = 34921 Averages = 1.6827688E-02 1.8101959E-02 1.8103091E-02 2.0106675E-02 Differences = -1.4571827E-03 -1.8291175E-04 -1.8177927E-04 1.8218048E-03 PATCH NUMER 12 First line = 38413 Averages = 1.8253643E-02 2.0061206E-02 1.8390724E-02 1.9592816E-02 Differences = -8.2095340E-04 9.8660961E-04 -6.8387203E-04 5.1821955E-04 PATCH NUMER 13 First line = 41905 Averages = 1.8936196E-02 1.9443203E-02 1.9786587E-02 2.0041918E-02 Differences = -6.1577559E-04 -1.0876916E-04 2.3461506E-04 4.8994645E-04 PATCH NUMER 14 First line = 45397 Averages = 1.9564843E-02 2.0013638E-02 2.1090928E-02 2.2261368E-02 Differences = -1.1678655E-03 -7.1907043E-04 3.5822019E-04 1.5286598E-03 PATCH NUMER 15 First line = 48889 Averages = 2.0336406E-02 2.1915471E-02 2.2125240E-02 1.9171173E-02 Differences = -5.5068545E-04 1.0283794E-03 1.2381487E-03 -1.7159190E-03 PATCH NUMER 16 First line = 52381 Averages = 2.2415243E-02 1.9222282E-02 1.9757498E-02 1.9905912E-02 Differences = 2.0900257E-03 -1.1029355E-03 -5.6771934E-04 -4.1930564E-04 PATCH NUMER 17 First line = 55873 Averages = 1.9789178E-02 1.9609969E-02 2.0643830E-02 2.2627750E-02 Differences = -8.7851658E-04 -1.0577254E-03 -2.3864210E-05 1.9600559E-03 PATCH NUMER 18 First line = 59365 Averages = 2.0143481E-02 2.2012597E-02 2.4801934E-02 2.3708954E-02 Differences = -2.5232844E-03 -6.5416843E-04 2.1351688E-03 1.0421891E-03 PATCH NUMER 19 First line = 62857 Averages = 2.4050597E-02 2.4035422E-02 2.1942994E-02 1.9440759E-02 Differences = 1.6831234E-03 1.6679484E-03 -4.2448007E-04 -2.9267147E-03 PATCH NUMER 20 First line = 66349 Averages = 2.2866635E-02 1.9635884E-02 1.9568905E-02 2.2384163E-02 Differences = 1.7527118E-03 -1.4780387E-03 -1.5450176E-03 1.2702402E-03 PATCH NUMER 21 First line = 69841 Averages = 1.8936429E-02 2.1822136E-02 2.3791555E-02 2.5695743E-02 Differences = -3.6251005E-03 -7.3939376E-04 1.2300257E-03 3.1342134E-03 PATCH NUMER 22 First line = 73333 Averages = 2.3048524E-02 2.5458921E-02 2.5428547E-02 2.3617875E-02 Differences = -1.3399329E-03 1.0704640E-03 1.0400899E-03 -7.7058189E-04 PATCH NUMER 23 First line = 76825 Averages = 2.5381735E-02 2.4078975E-02 2.2831917E-02 2.0535227E-02 Differences = 2.1747295E-03 8.7196939E-04 -3.7508830E-04 -2.6717782E-03 PATCH NUMER 24 First line = 80317 Averages = 2.3069825E-02 2.1728132E-02 1.8748891E-02 2.0219810E-02 Differences = 2.1281485E-03 7.8645535E-04 -2.1927860E-03 -7.2186626E-04 PATCH NUMER 25 First line = 83809 Averages = 1.9222451E-02 1.9549508E-02 2.1054411E-02 2.2608317E-02 Differences = -1.3862420E-03 -1.0591857E-03 4.4571795E-04 1.9996241E-03 PATCH NUMER 26 First line = 87301 Averages = 2.0786194E-02 2.2478327E-02 2.2937536E-02 2.2706812E-02 Differences = -1.4410242E-03 2.5110878E-04 7.1031787E-04 4.7959387E-04 PATCH NUMER 27 First line = 90793 Averages = 2.2722665E-02 2.2635460E-02 2.2664709E-02 2.2931278E-02 Differences = -1.5836209E-05 -1.0304153E-04 -7.3792413E-05 1.9277632E-04 PATCH NUMER 28 First line = 94285 last black mod_64: 44 100000 94285 8192 Averages = 2.2686917E-02 2.3161191E-02 2.2964502E-02 2.2931278E-02 Differences = -2.4903566E-04 2.2523850E-04 2.8548762E-05 -4.6752393E-06 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.35 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 1 AZ patch size: 8192 What is the desired az fract (def=1.0)? fract #: 1.000000 Please enter the name of the sensor file. /export/air32/airops/1400/sensor.pp Please enter the name of the parameter file /export/air36/airops/1400/ts1400_p.par hddt: 96068 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 100000 lines Keeping 4192 data points per patch Near range (m) = 9040.540 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 3.500000 Radar wavelength (m) = 0.7012700 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = -3.550000 Range weighting coefficient = 0.1000000 Map height (m) = 78.60000 Transmit leverarm x,y,z = 2.030000 0.5300000 -0.2200000 Receive leverarm x,y,z = 2.030000 0.5300000 -0.2200000 Name of raw data file? /export/air32/airops/1400/p_hh Name of the mocomp data file? /export/air36/airops/1400/ts1400_p.mocomph Output file name w/o ext? /export/air36/airops/1400/ts1400_p Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. hh Raw DIR Path:/export/air32/airops/1400/ output filename: /export/air32/airops/1400/ts1400_p.hh_j *** ipol itop: 1 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /export/air32/airops/1400/deskew.ph WAYNE init fft, calc slant range, load unpack, interpo 1.4557004E-02 reading motion compensation data WAYNE read motion compen 2.289743 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 AnalogChirp>96032Br,fs,T,fc 96068 40.00000 22.50000 90.00000 10.00000 deltaphase -ashift: 5.4456317E-03 3.550000 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.7497542 start range comp, time = 3.243 WAYNE PREV 3.072869 NUMBER OF PROCESSOR USED = 8 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 4 by # 0 Processing block number 1 TESTING WHY -6.4741098E-03 1.8001201E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 3.465 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 53.19344997406006 ATTN ifrq ipol ln 0 1 8192 14.00000 IPOL, ITOP nblock 1 0 1 ****shift in azimuth (fractional pixel)= -0.4999149 shift in azimuth *fractional pixel= -0.4999149 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1952996253967285E-02 TESTING 0.0000000E+00 -47.83564 0.2210198 WAYNE Motion comp. added to patch, time = 19.08538794517517 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.7120113372802734E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -47.83564 0.2210198 HEY,dt,fract,ye,pe -0.4999149 1.000000 -6.4741098E-03 1.8001201E-02 WAYNE Azimuth compression done, time = 345.5361360311508 Writing 4192 lines of data to file WAYNE write output data 6.484686017036438 ==w out 1 0 2001 0 WAYNE PROCESS 424.3159550428391 Processing block number 2 TESTING WHY -6.4040902E-03 1.7581699E-02 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 427.782 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 112.5589189529419 ATTN ifrq ipol ln 0 1 11684 14.00000 IPOL, ITOP nblock 1 0 2 ****shift in azimuth (fractional pixel)= -0.4999168 shift in azimuth *fractional pixel= -0.4999168 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1626005172729492E-02 TESTING 0.0000000E+00 -42.32105 0.4159131 WAYNE Motion comp. added to patch, time = 18.44449901580811 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 4.3395042419433594E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -42.32105 0.4159131 HEY,dt,fract,ye,pe -0.4999168 1.000000 -6.4040902E-03 1.7581699E-02 WAYNE Azimuth compression done, time = 342.6470309495926 Writing 4192 lines of data to file WAYNE write output data 1.907938003540039 ==w out 2 4192 2001 85852160 WAYNE PROCESS 475.6149721145630 Processing block number 3 TESTING WHY -5.7757902E-03 1.7326901E-02 3492 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 903.397 seconds. TESTING 6985 before reading done reading WAYNE load raw data , time = 83.54414403438568 ATTN ifrq ipol ln 0 1 15176 14.00000 IPOL, ITOP nblock 1 0 3 ****shift in azimuth (fractional pixel)= -0.4999217 shift in azimuth *fractional pixel= -0.4999217 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.4979004859924316E-02 TESTING 0.0000000E+00 -37.07621 0.3171375 WAYNE Motion comp. added to patch, time = 18.61586308479309 WAYNE Doppler estimation done, time = 1.4066696166992188E-05 WAYNE write deskew done, time = 2.7033925056457520E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 ra PROCESSING KID# 8 ..... WAYNE IS IN Processing 26 to 28 by # 7 Processing block number 26 WAYNE PATCHES: 87301 95492 patch# 26 reference line: 91396 3.569 seconds. before reading done reading WAYNE load raw data , time = 54.95392000675201 ATTN ifrq ipol ln 0 1 95492 14.00000 IPOL, ITOP nblock 1 0 26 ****shift in azimuth (fractional pixel)= -0.4999087 shift in azimuth *fractional pixel= -0.4999087 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1646032333374023E-02 WAYNE Motion comp. added to patch, time = 18.25681698322296 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.9879808425903320E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 344.2904610633850 Writing 4192 lines of data to file WAYNE write output data 8.429064035415649 ==w out 26 0 2001 0 WAYNE PROCESS 425.9466339349747 Processing block number 27 WAYNE PATCHES: 90793 98984 patch# 27 reference line: 94888 429.516 seconds. before reading done reading WAYNE load raw data , time = 78.35806596279144 ATTN ifrq ipol ln 0 1 98984 14.00000 IPOL, ITOP nblock 1 0 27 ****shift in azimuth (fractional pixel)= -0.4999004 shift in azimuth *fractional pixel= -0.4999004 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1572003364562988E-02 WAYNE Motion comp. added to patch, time = 17.07519400119781 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.7878046035766602E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 338.6626518964767 Writing 4192 lines of data to file WAYNE write output data 2.146979928016663 ==w out 27 4192 2001 85852160 WAYNE PROCESS 436.2839189767838 Processing block number 28 WAYNE PATCHES: 91808 99999 patch# 28 reference line: 95903 865.800 seconds. before reading done reading WAYNE load raw data , time = 95.98031604290009 ATTN ifrq ipol ln 0 1 99999 14.00000 IPOL, ITOP nblock 1 0 28 ****shift in azimuth (fractional pixel)= -0.4999058 shift in azimuth *fractional pixel= -0.4999058 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1005997657775879E-02 WAYNE Motion comp. added to patch, time = 17.18463993072510 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 7.2646975517272949E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 342.8363610506058 Writing 4192 lines of data to file WAYNE write output data 2.149417042732239 ==w out 28 8384 2001 171704320 WAYNE PROCESS 458.2357790470123 ==w out 29 12579 PROCESSING KID# 7 ..... WAYNE IS IN Processing 23 to 25 by # 6 Processing block number 23 WAYNE PATCHES: 76825 85016 patch# 23 reference line: 80920 3.555 seconds. before reading done reading WAYNE load raw data , time = 57.30825805664063 ATTN ifrq ipol ln 0 1 85016 14.00000 IPOL, ITOP nblock 1 0 23 ****shift in azimuth (fractional pixel)= -0.4998994 shift in azimuth *fractional pixel= -0.4998994 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1830925941467285E-02 WAYNE Motion comp. added to patch, time = 18.47276997566223 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 3.0970573425292969E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 343.1598119735718 Writing 4192 lines of data to file WAYNE write output data 33.64408898353577 ==w out 23 0 2001 0 WAYNE PROCESS 452.6019639968872 Processing block number 24 WAYNE PATCHES: 80317 88508 patch# 24 reference line: 84412 456.157 seconds. before reading done reading WAYNE load raw data , time = 55.48429298400879 ATTN ifrq ipol ln 0 1 88508 14.00000 IPOL, ITOP nblock 1 0 24 ****shift in azimuth (fractional pixel)= -0.4999158 shift in azimuth *fractional pixel= -0.4999158 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1679053306579590E-02 WAYNE Motion comp. added to patch, time = 17.70239603519440 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.0686030387878418E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 338.6990039348602 Writing 4192 lines of data to file WAYNE write output data 2.131047010421753 ==w out 24 4192 2001 85852160 WAYNE PROCESS 414.0505819320679 Processing block number 25 WAYNE PATCHES: 83809 92000 patch# 25 reference line: 87904 870.208 seconds. before reading done reading WAYNE load raw data , time = 97.63674604892731 ATTN ifrq ipol ln 0 1 92000 14.00000 IPOL, ITOP nblock 1 0 25 ****shift in azimuth (fractional pixel)= -0.4999176 shift in azimuth *fractional pixel= -0.4999176 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1062026023864746E-02 WAYNE Motion comp. added to patch, time = 16.92908096313477 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 6.6316008567810059E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 342.6616820096970 Writing 4192 lines of data to file WAYNE write output data 1.882477998733521 ==w out 25 8384 2001 171704320 WAYNE PROCESS 459.1889200210571 ==w out 26 12579 PROCESSING KID# 5 ..... WAYNE IS IN Processing 17 to 19 by # 4 Processing block number 17 WAYNE PATCHES: 55873 64064 patch# 17 reference line: 59968 3.527 seconds. before reading done reading WAYNE load raw data , time = 54.77250099182129 ATTN ifrq ipol ln 0 1 64064 14.00000 IPOL, ITOP nblock 1 0 17 ****shift in azimuth (fractional pixel)= -0.4999279 shift in azimuth *fractional pixel= -0.4999279 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.7542004585266113E-02 WAYNE Motion comp. added to patch, time = 18.42247998714447 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.7730464935302734E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 344.0740950107574 Writing 4192 lines of data to file WAYNE write output data 3.253710985183716 ==w out 17 0 2001 0 WAYNE PROCESS 420.5449519157410 Processing block number 18 WAYNE PATCHES: 59365 67556 patch# 18 reference line: 63460 424.072 seconds. before reading done reading WAYNE load raw data , time = 125.9649569988251 ATTN ifrq ipol ln 0 1 67556 14.00000 IPOL, ITOP nblock 1 0 18 ****shift in azimuth (fractional pixel)= -0.4999095 shift in azimuth *fractional pixel= -0.4999095 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1736035346984863E-02 WAYNE Motion comp. added to patch, time = 18.76272904872894 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.3014068603515625E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 341.1623780727386 Writing 4192 lines of data to file WAYNE write output data 7.578444004058838 ==w out 18 4192 2001 85852160 WAYNE PROCESS 493.5051920413971 Processing block number 19 WAYNE PATCHES: 62857 71048 patch# 19 reference line: 66952 917.578 seconds. before reading done reading WAYNE load raw data , time = 74.59310901165009 ATTN ifrq ipol ln 0 1 71048 14.00000 IPOL, ITOP nblock 1 0 19 ****shift in azimuth (fractional pixel)= -0.4999111 shift in azimuth *fractional pixel= -0.4999111 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1346936225891113E-02 WAYNE Motion comp. added to patch, time = 17.75925195217133 WAYNE Doppler estimation done, time = 1.8000602722167969E-05 WAYNE write deskew done, time = 5.2716970443725586E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 341.5488430261612 Writing 4192 lines of data to file WAYNE write output data 1.728421926498413 ==w out 19 8384 2001 171704320 WAYNE PROCESS 435.6953119039536 ==w out 20 12579 PROCESSING KID# 6 ..... WAYNE IS IN Processing 20 to 22 by # 5 Processing block number 20 WAYNE PATCHES: 66349 74540 patch# 20 reference line: 70444 3.542 seconds. before reading done reading WAYNE load raw data , time = 54.45063698291779 ATTN ifrq ipol ln 0 1 74540 14.00000 IPOL, ITOP nblock 1 0 20 ****shift in azimuth (fractional pixel)= -0.4999311 shift in azimuth *fractional pixel= -0.4999311 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1741995811462402E-02 WAYNE Motion comp. added to patch, time = 18.28148591518402 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.7130842208862305E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 342.8722060918808 Writing 4192 lines of data to file WAYNE write output data 1.935654997825623 ==w out 20 0 2001 0 WAYNE PROCESS 417.5559719800949 Processing block number 21 WAYNE PATCHES: 69841 78032 patch# 21 reference line: 73936 421.098 seconds. before reading done reading WAYNE load raw data , time = 131.4270240068436 ATTN ifrq ipol ln 0 1 78032 14.00000 IPOL, ITOP nblock 1 0 21 ****shift in azimuth (fractional pixel)= -0.4999140 shift in azimuth *fractional pixel= -0.4999140 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1865973472595215E-02 WAYNE Motion comp. added to patch, time = 17.95277297496796 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 1.3148069381713867E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 340.4505829811096 Writing 4192 lines of data to file WAYNE write output data 14.49739301204681 ==w out 21 4192 2001 85852160 WAYNE PROCESS 504.3543900251389 Processing block number 22 WAYNE PATCHES: 73333 81524 patch# 22 reference line: 77428 925.453 seconds. before reading done reading WAYNE load raw data , time = 67.68456602096558 ATTN ifrq ipol ln 0 1 81524 14.00000 IPOL, ITOP nblock 1 0 22 ****shift in azimuth (fractional pixel)= -0.4999022 shift in azimuth *fractional pixel= -0.4999022 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1236071586608887E-02 WAYNE Motion comp. added to patch, time = 17.85832488536835 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.6568055152893066E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 341.6881630420685 Writing 4192 lines of data to file WAYNE write output data 1.729562997817993 ==w out 22 8384 2001 171704320 WAYNE PROCESS 429.0002470016479 ==w out 23 12579 PROCESSING KID# 3 ..... WAYNE IS IN Processing 9 to 12 by # 2 Processing block number 9 WAYNE PATCHES: 27937 36128 patch# 9 reference line: 32032 3.498 seconds. before reading done reading WAYNE load raw data , time = 53.77873408794403 ATTN ifrq ipol ln 0 1 36128 14.00000 IPOL, ITOP nblock 1 0 9 ****shift in azimuth (fractional pixel)= -0.4998933 shift in azimuth *fractional pixel= -0.4998933 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.4799952507019043E-02 WAYNE Motion comp. added to patch, time = 18.99289000034332 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.6659965515136719E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 343.7215590476990 Writing 4192 lines of data to file WAYNE write output data 5.080697059631348 ==w out 9 0 2001 0 WAYNE PROCESS 421.5929720401764 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 425.091 seconds. before reading done reading WAYNE load raw data , time = 114.2627109289169 ATTN ifrq ipol ln 0 1 39620 14.00000 IPOL, ITOP nblock 1 0 10 ****shift in azimuth (fractional pixel)= -0.4999059 shift in azimuth *fractional pixel= -0.4999059 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2031078338623047E-02 WAYNE Motion comp. added to patch, time = 18.22003602981567 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.8626918792724609E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 341.7913179397583 Writing 4192 lines of data to file WAYNE write output data 1.890468001365662 ==w out 10 4192 2001 85852160 WAYNE PROCESS 476.2068569660187 Processing block number 11 WAYNE PATCHES: 34921 43112 patch# 11 reference line: 39016 901.298 seconds. before reading done reading WAYNE load raw data , time = 83.79888904094696 ATTN ifrq ipol ln 0 1 43112 14.00000 IPOL, ITOP nblock 1 0 11 ****shift in azimuth (fractional pixel)= -0.4999126 shift in azimuth *fractional pixel= -0.4999126 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1345982551574707E-02 WAYNE Motion comp. added to patch, time = 18.02524900436401 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 6.5080046653747559E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 341.7441579103470 Writing 4192 lines of data to file WAYNE write output data 1.649618029594421 ==w out 11 8384 2001 171704320 WAYNE PROCESS 445.2958890199661 Processing block number 12 WAYNE PATCHES: 38413 46604 patch# 12 reference line: 42508 1346.594 seconds. before reading done reading WAYNE load raw data , time = 76.22026896476746 ATTN ifrq ipol ln 0 1 46604 14.00000 IPOL, ITOP nblock 1 PROCESSING KID# 2 ..... WAYNE IS IN Processing 5 to 8 by # 1 Processing block number 5 WAYNE PATCHES: 13969 22160 patch# 5 reference line: 18064 3.480 seconds. before reading done reading WAYNE load raw data , time = 52.62776899337769 ATTN ifrq ipol ln 0 1 22160 14.00000 IPOL, ITOP nblock 1 0 5 ****shift in azimuth (fractional pixel)= -0.4999060 shift in azimuth *fractional pixel= -0.4999060 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2081027030944824E-02 WAYNE Motion comp. added to patch, time = 18.84873998165131 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.6960372924804688E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 342.8555020093918 Writing 4192 lines of data to file WAYNE write output data 1.958832979202271 ==w out 5 0 2001 0 WAYNE PROCESS 416.3072979450226 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 419.788 seconds. before reading done reading WAYNE load raw data , time = 132.3227869272232 ATTN ifrq ipol ln 0 1 25652 14.00000 IPOL, ITOP nblock 1 0 6 ****shift in azimuth (fractional pixel)= -0.4998952 shift in azimuth *fractional pixel= -0.4998952 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1901021003723145E-02 WAYNE Motion comp. added to patch, time = 18.97577905654907 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.9695987701416016E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 341.1236000061035 Writing 4192 lines of data to file WAYNE write output data 5.559811949729919 ==w out 6 4192 2001 85852160 WAYNE PROCESS 498.0253039598465 Processing block number 7 WAYNE PATCHES: 20953 29144 patch# 7 reference line: 25048 917.813 seconds. before reading done reading WAYNE load raw data , time = 71.89818000793457 ATTN ifrq ipol ln 0 1 29144 14.00000 IPOL, ITOP nblock 1 0 7 ****shift in azimuth (fractional pixel)= -0.4998947 shift in azimuth *fractional pixel= -0.4998947 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.7578005790710449E-02 WAYNE Motion comp. added to patch, time = 18.46378409862518 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.7144074440002441E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 341.4328010082245 Writing 4192 lines of data to file WAYNE write output data 1.833042025566101 ==w out 7 8384 2001 171704320 WAYNE PROCESS 433.6747580766678 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 1351.488 seconds. before reading done reading WAYNE load raw data , time = 75.58587098121643 ATTN ifrq ipol ln 0 1 32636 14.00000 IPOL, ITOP nblock 1 PROCESSING KID# 4 ..... WAYNE IS IN Processing 13 to 16 by # 3 Processing block number 13 WAYNE PATCHES: 41905 50096 patch# 13 reference line: 46000 3.513 seconds. before reading done reading WAYNE load raw data , time = 52.86126792430878 ATTN ifrq ipol ln 0 1 50096 14.00000 IPOL, ITOP nblock 1 0 13 ****shift in azimuth (fractional pixel)= -0.4999056 shift in azimuth *fractional pixel= -0.4999056 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2050986289978027E-02 WAYNE Motion comp. added to patch, time = 18.43194389343262 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.5079250335693359E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 344.7360969781876 Writing 4192 lines of data to file WAYNE write output data 2.228100061416626 ==w out 13 0 2001 0 WAYNE PROCESS 418.2734930515289 Processing block number 14 WAYNE PATCHES: 45397 53588 patch# 14 reference line: 49492 421.786 seconds. before reading done reading WAYNE load raw data , time = 123.0811910629272 ATTN ifrq ipol ln 0 1 53588 14.00000 IPOL, ITOP nblock 1 0 14 ****shift in azimuth (fractional pixel)= -0.4998997 shift in azimuth *fractional pixel= -0.4998997 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2126088142395020E-02 WAYNE Motion comp. added to patch, time = 17.81788301467896 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.1986961364746094E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 341.8535490036011 Writing 4192 lines of data to file WAYNE write output data 1.785139083862305 ==w out 14 4192 2001 85852160 WAYNE PROCESS 484.5734651088715 Processing block number 15 WAYNE PATCHES: 48889 57080 patch# 15 reference line: 52984 906.360 seconds. before reading done reading WAYNE load raw data , time = 83.05152404308319 ATTN ifrq ipol ln 0 1 57080 14.00000 IPOL, ITOP nblock 1 0 15 ****shift in azimuth (fractional pixel)= -0.4999059 shift in azimuth *fractional pixel= -0.4999059 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1186003684997559E-02 WAYNE Motion comp. added to patch, time = 18.06285893917084 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 3.1880974769592285E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 341.7216380834579 Writing 4192 lines of data to file WAYNE write output data 1.805688023567200 ==w out 15 8384 2001 171704320 WAYNE PROCESS 444.6863559484482 Processing block number 16 WAYNE PATCHES: 52381 60572 patch# 16 reference line: 56476 1351.047 seconds. before reading done reading WAYNE load raw data , time = 76.53699696063995 ATTN ifrq ipol ln 0 1 60572 14.00000 IPOL, ITOP nblock 1 0 12 ****shift in azimuth (fractional pixel)= -0.4999159 shift in azimuth *fractional pixel= -0.4999159 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1561989784240723E-02 WAYNE Motion comp. added to patch, time = 15.59051501750946 WAYNE Doppler estimation done, time = 8.1062316894531250E-06 WAYNE write deskew done, time = 2.4549961090087891E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 271.2529560327530 Writing 4192 lines of data to file WAYNE write output data 1.641993999481201 ==w out 12 12576 2001 257556480 WAYNE PROCESS 364.7212580442429 ==w out 13 16771 0 8 ****shift in azimuth (fractional pixel)= -0.4998949 shift in azimuth *fractional pixel= -0.4998949 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1517047882080078E-02 WAYNE Motion comp. added to patch, time = 16.14757907390594 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.4189949035644531E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 271.1243799924850 Writing 4192 lines of data to file WAYNE write output data 1.689344048500061 ==w out 8 12576 2001 257556480 WAYNE PROCESS 364.5626289844513 ==w out 9 16771 0 16 ****shift in azimuth (fractional pixel)= -0.4999078 shift in azimuth *fractional pixel= -0.4999078 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1527061462402344E-02 WAYNE Motion comp. added to patch, time = 15.88854789733887 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.4240016937255859E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 271.9254360198975 Writing 4192 lines of data to file WAYNE write output data 1.749405980110168 ==w out 16 12576 2001 257556480 WAYNE PROCESS 366.1158300638199 ==w out 17 16771 nge migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -37.07621 0.3171375 HEY,dt,fract,ye,pe -0.4999217 1.000000 -5.7757902E-03 1.7326901E-02 WAYNE Azimuth compression done, time = 344.4823489189148 Writing 4192 lines of data to file WAYNE write output data 1.842098951339722 ==w out 3 8384 2001 171704320 WAYNE PROCESS 448.5278689861298 Processing block number 4 TESTING WHY -5.3123902E-03 1.7652800E-02 3492 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 1351.926 seconds. TESTING 10477 before reading done reading WAYNE load raw data , time = 75.53726398944855 ATTN ifrq ipol ln 0 1 18668 14.00000 IPOL, ITOP nblock 1 0 4 ****shift in azimuth (fractional pixel)= -0.4999198 shift in azimuth *fractional pixel= -0.4999198 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1147975921630859E-02 TESTING 0.0000000E+00 -32.53431 -0.3229209 WAYNE Motion comp. added to patch, time = 15.90409398078918 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.4350881576538086E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -32.53431 -0.3229209 HEY,dt,fract,ye,pe -0.4999198 1.000000 -5.3123902E-03 1.7652800E-02 WAYNE Azimuth compression done, time = 272.5806549787521 Writing 4192 lines of data to file WAYNE write output data 1.737202048301697 ==w out 4 12576 2001 257556480 WAYNE PROCESS 365.7739580869675 ==w out 5 16771 1 12469996 0 2 12460477 0 3 12472930 0 4 12470456 0 5 12467340 0 6 12471158 0 7 12470845 0 8 12471418 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 117376kids= 8 Writing variable header... gather image from processor # 0 4 gather image from processor # 1 4 gather image from processor # 2 4 gather image from processor # 3 4 gather image from processor # 4 3 gather image from processor # 5 3 gather image from processor # 6 3 gather image from processor # 7 3 WAYNE gather images takes: 11.70030593872070 WAYNE LOOP TIME: 1739.118222951889 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air32/airops/1400/ts1400_p.hh_j /export/air36/airops/1400/ts1400_p.mocomph /export/air36/airops/1400/ts1400_p.dop /export/air36/airops/1400/ts1400_p.glb 2560 117376 update intf hdr ha: 8367.900 UPDATE: 2560 117376 3.331000 0.5144000 mocompfile /export/air36/airops/1400/ts1400_p.mocomph dopfile /export/air36/airops/1400/ts1400_p.dop globalfile /export/air36/airops/1400/ts1400_p.glb /export/air36/airops/1400/ts1400_p.glb 38 deskew line ra ha trc: 128.5260 249 9042.366 8367.900 54.57177 after deskew line ra ha trc: 128.5260 249 9042.366 8367.900 54.57177 lat1 lon1: 249 4.813068 114.7795 117376 last ra n_ns ns: 9042.366 1 1 117624 117376 lati loni: 117624 5.129428 115.2615 117624 1 center ra n_ns ns: 13302.71 1280 1280 58936 117376 lati loni: 58936 5.002770 114.9983 58936 2560 Updated paramater header in /export/air32/airops/1400/ts1400_p.hh_j WAYNE FINAL PROCESS 1742.468603968620 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 8 16768 4 16768 4 16768 4 16768 4 12576 3 12576 3 12576 3 12576 3 Name of data file to be deskewed? /export/air32/airops/1400/ts1400_p.hh_j Name of the doppler parameter file? /export/air36/airops/1400/ts1400_p.dop Name of the deskew file? /export/air32/airops/1400/deskew.ph Line up to another frequency [y/n]? y Name of the deskew file to line up to? /export/air32/airops/1400/deskew.ch Enter N_AZ, NA_VALID and the ratio of the pixel spacing of the file to line up to relative to the current pixel spacing. 4096 2208 1.000000 Name of the output file? /export/air36/airops/1400/ts1400_p.hh Name of the line output file? /export/air36/airops/1400/p_lines.dat NONE-SYMMETRIC PARALLEL JOBS Deskewing 28 patches Processing block number 1 patch iptc,sj,dgj,dgi,id: 1 1041 98 98 0 half line dmj dgc: 0 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1041 1 Zeroing lines in arrays Total # of output lines = 1 1040 1041 3137 0 2096 patch iptc,sj,dgj,dgi,id: 1 3137 98 98 2096 half line dmj dgc: 1 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3137 1041 Zeroing lines in arrays Total # of output lines = 1 3136 Processing block number 2 3137 4528 -5 1396 patch iptc,sj,dgj,dgi,id: 2 4528 93 98 1396 half line dmj dgc: 0 5493 243 114 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 4528 3137 Zeroing lines in arrays Total # of output lines = 2 4527 4528 6624 0 2096 patch iptc,sj,dgj,dgi,id: 2 6624 93 93 2096 half line dmj dgc: 1 5493 243 114 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 6624 4528 Zeroing lines in arrays Total # of output lines = 2 6623 Processing block number 3 6624 8035 15 1396 patch iptc,sj,dgj,dgi,id: 3 8035 108 93 1396 half line dmj dgc: 0 8985 243 114 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 8035 6624 Zeroing lines in arrays Total # of output lines = 3 8034 8035 10131 0 2096 patch iptc,sj,dgj,dgi,id: 3 10131 108 108 2096 half line dmj dgc: 1 8985 243 114 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 10131 8035 Zeroing lines in arrays Total # of output lines = 3 10130 Processing block number 4 10131 11546 19 1396 patch iptc,sj,dgj,dgi,id: 4 11546 127 108 1396 half line dmj dgc: 0 12477 251 114 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 11546 10131 Zeroing lines in arrays Total # of output lines = 4 11545 11546 13642 0 2096 patch iptc,sj,dgj,dgi,id: 4 13642 127 127 2096 half line dmj dgc: 1 12477 251 114 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 sj>s1: 13642 11546 Zeroing lines in arrays Total # of output lines = 4 13641 Processing block number 5 13642 15008 -30 1396 patch iptc,sj,dgj,dgi,id: 5 15008 97 127 1396 half line dmj dgc: 0 15969 251 114 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 15008 13642 Zeroing lines in arrays Total # of output lines = 5 15007 15008 17104 0 2096 patch iptc,sj,dgj,dgi,id: 5 720 97 97 2096 half line dmj dgc: 1 15969 251 114 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 s1>sj: 15008 720 Zeroing lines in arrays Total # of output lines = 5 17103 Processing block number 6 720 2050 -66 1396 patch iptc,sj,dgj,dgi,id: 6 2050 31 97 1396 half line dmj dgc: 0 19461 242 114 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 2050 720 Zeroing lines in arrays Total # of output lines = 6 18433 2050 4146 0 2096 patch iptc,sj,dgj,dgi,id: 6 4146 31 31 2096 half line dmj dgc: 1 19461 242 114 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 4146 2050 Zeroing lines in arrays Total # of output lines = 6 20529 Processing block number 7 4146 5525 -17 1396 patch iptc,sj,dgj,dgi,id: 7 5525 14 31 1396 half line dmj dgc: 0 22953 241 114 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 5525 4146 Zeroing lines in arrays Total # of output lines = 7 21908 5525 7621 0 2096 patch iptc,sj,dgj,dgi,id: 7 7621 14 14 2096 half line dmj dgc: 1 22953 241 114 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 7621 5525 Zeroing lines in arrays Total # of output lines = 7 24004 Processing block number 8 7621 9046 29 1396 patch iptc,sj,dgj,dgi,id: 8 9046 43 14 1396 half line dmj dgc: 0 26445 249 114 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 sj>s1: 9046 7621 Zeroing lines in arrays Total # of output lines = 8 25429 9046 11142 0 2096 patch iptc,sj,dgj,dgi,id: 8 11142 43 43 2096 half line dmj dgc: 1 26445 249 114 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 sj>s1: 11142 9046 Zeroing lines in arrays Total # of output lines = 8 27525 Processing block number 9 11142 12562 24 1396 patch iptc,sj,dgj,dgi,id: 9 12562 67 43 1396 half line dmj dgc: 0 29937 255 114 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 12562 11142 Zeroing lines in arrays Total # of output lines = 9 28945 12562 14658 0 2096 patch iptc,sj,dgj,dgi,id: 9 14658 67 67 2096 half line dmj dgc: 1 29937 255 114 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 14658 12562 Zeroing lines in arrays Total # of output lines = 9 31041 Processing block number 10 14658 16072 18 1396 patch iptc,sj,dgj,dgi,id: 10 16072 85 67 1396 half line dmj dgc: 0 33429 255 114 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 16072 14658 Zeroing lines in arrays Total # of output lines = 10 32455 16072 18168 0 2096 patch iptc,sj,dgj,dgi,id: 10 1784 85 85 2096 half line dmj dgc: 1 33429 255 114 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 s1>sj: 16072 1784 Zeroing lines in arrays Total # of output lines = 10 34551 Processing block number 11 1784 3217 37 1396 patch iptc,sj,dgj,dgi,id: 11 3217 122 85 1396 half line dmj dgc: 0 36921 260 114 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 3217 1784 Zeroing lines in arrays Total # of output lines = 11 35984 3217 5313 0 2096 patch iptc,sj,dgj,dgi,id: 11 5313 122 122 2096 half line dmj dgc: 1 36921 260 114 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 sj>s1: 5313 3217 Zeroing lines in arrays Total # of output lines = 11 38080 Processing block number 12 5313 6728 19 1396 patch iptc,sj,dgj,dgi,id: 12 6728 141 122 1396 half line dmj dgc: 0 40413 269 114 Actual deskew ireclen: 20480 ** 12 2096 0 48208 Writing data negflag .eq. 0 sj>s1: 6728 5313 Zeroing lines in arrays Total # of output lines = 12 39495 6728 8824 0 2096 patch iptc,sj,dgj,dgi,id: 12 8824 141 141 2096 half line dmj dgc: 1 40413 269 114 Actual deskew ireclen: 20480 ** 12 2096 1 50304 Writing data negflag .eq. 0 sj>s1: 8824 6728 Zeroing lines in arrays Total # of output lines = 12 41591 Processing block number 13 8824 10226 6 1396 patch iptc,sj,dgj,dgi,id: 13 10226 147 141 1396 half line dmj dgc: 0 43905 276 114 Actual deskew ireclen: 20480 ** 13 2096 0 52400 Writing data negflag .eq. 0 sj>s1: 10226 8824 Zeroing lines in arrays Total # of output lines = 13 42993 10226 12322 0 2096 patch iptc,sj,dgj,dgi,id: 13 12322 147 147 2096 half line dmj dgc: 1 43905 276 114 Actual deskew ireclen: 20480 ** 13 2096 1 54496 Writing data negflag .eq. 0 sj>s1: 12322 10226 Zeroing lines in arrays Total # of output lines = 13 45089 Processing block number 14 12322 13761 43 1396 patch iptc,sj,dgj,dgi,id: 14 13761 190 147 1396 half line dmj dgc: 0 47397 286 114 Actual deskew ireclen: 20480 ** 14 2096 0 56592 Writing data negflag .eq. 0 sj>s1: 13761 12322 Zeroing lines in arrays Total # of output lines = 14 46528 13761 15857 0 2096 patch iptc,sj,dgj,dgi,id: 14 15857 190 190 2096 half line dmj dgc: 1 47397 286 114 Actual deskew ireclen: 20480 ** 14 2096 1 58688 Writing data negflag .eq. 0 sj>s1: 15857 13761 Zeroing lines in arrays Total # of output lines = 14 48624 Processing block number 15 15857 17263 10 1396 patch iptc,sj,dgj,dgi,id: 15 879 200 190 1396 half line dmj dgc: 0 50889 286 114 Actual deskew ireclen: 20480 ** 15 2096 0 60784 Writing data negflag .eq. 0 s1>sj: 15857 879 Zeroing lines in arrays Total # of output lines = 15 50030 879 2975 0 2096 patch iptc,sj,dgj,dgi,id: 15 2975 200 200 2096 half line dmj dgc: 1 50889 286 114 Actual deskew ireclen: 20480 ** 15 2096 1 62880 Writing data negflag .eq. 0 sj>s1: 2975 879 Zeroing lines in arrays Total # of output lines = 15 52126 Processing block number 16 2975 4377 6 1396 patch iptc,sj,dgj,dgi,id: 16 4377 206 200 1396 half line dmj dgc: 0 54381 277 114 Actual deskew ireclen: 20480 ** 16 2096 0 64976 Writing data negflag .eq. 0 sj>s1: 4377 2975 Zeroing lines in arrays Total # of output lines = 16 53528 4377 6473 0 2096 patch iptc,sj,dgj,dgi,id: 16 6473 206 206 2096 half line dmj dgc: 1 54381 277 114 Actual deskew ireclen: 20480 ** 16 2096 1 67072 Writing data negflag .eq. 0 sj>s1: 6473 4377 Zeroing lines in arrays Total # of output lines = 16 55624 Processing block number 17 6473 7900 31 1396 patch iptc,sj,dgj,dgi,id: 17 7900 237 206 1396 half line dmj dgc: 0 57873 276 114 Actual deskew ireclen: 20480 ** 17 2096 0 69168 Writing data negflag .eq. 0 sj>s1: 7900 6473 Zeroing lines in arrays Total # of output lines = 17 57051 7900 9996 0 2096 patch iptc,sj,dgj,dgi,id: 17 9996 237 237 2096 half line dmj dgc: 1 57873 276 114 Actual deskew ireclen: 20480 ** 17 2096 1 71264 Writing data negflag .eq. 0 sj>s1: 9996 7900 Zeroing lines in arrays Total # of output lines = 17 59147 Processing block number 18 9996 11451 59 1396 patch iptc,sj,dgj,dgi,id: 18 11451 296 237 1396 half line dmj dgc: 0 61365 298 114 Actual deskew ireclen: 20480 ** 18 2096 0 73360 Writing data negflag .eq. 0 sj>s1: 11451 9996 Zeroing lines in arrays Total # of output lines = 18 60602 11451 13547 0 2096 patch iptc,sj,dgj,dgi,id: 18 13547 296 296 2096 half line dmj dgc: 1 61365 298 114 Actual deskew ireclen: 20480 ** 18 2096 1 75456 Writing data negflag .eq. 0 sj>s1: 13547 11451 Zeroing lines in arrays Total # of output lines = 18 62698 Processing block number 19 13547 14936 -7 1396 patch iptc,sj,dgj,dgi,id: 19 14936 289 296 1396 half line dmj dgc: 0 64857 293 114 Actual deskew ireclen: 20480 ** 19 2096 0 77552 Writing data negflag .eq. 0 sj>s1: 14936 13547 Zeroing lines in arrays Total # of output lines = 19 64087 14936 17032 0 2096 patch iptc,sj,dgj,dgi,id: 19 648 289 289 2096 half line dmj dgc: 1 64857 293 114 Actual deskew ireclen: 20480 ** 19 2096 1 79648 Writing data negflag .eq. 0 s1>sj: 14936 648 Zeroing lines in arrays Total # of output lines = 19 66183 Processing block number 20 648 2015 -29 1396 patch iptc,sj,dgj,dgi,id: 20 2015 260 289 1396 half line dmj dgc: 0 68349 279 114 Actual deskew ireclen: 20480 ** 20 2096 0 81744 Writing data negflag .eq. 0 sj>s1: 2015 648 Zeroing lines in arrays Total # of output lines = 20 67550 2015 4111 0 2096 patch iptc,sj,dgj,dgi,id: 20 4111 260 260 2096 half line dmj dgc: 1 68349 279 114 Actual deskew ireclen: 20480 ** 20 2096 1 83840 Writing data negflag .eq. 0 sj>s1: 4111 2015 Zeroing lines in arrays Total # of output lines = 20 69646 Processing block number 21 4111 5541 34 1396 patch iptc,sj,dgj,dgi,id: 21 5541 294 260 1396 half line dmj dgc: 0 71841 300 114 Actual deskew ireclen: 20480 ** 21 2096 0 85936 Writing data negflag .eq. 0 sj>s1: 5541 4111 Zeroing lines in arrays Total # of output lines = 21 71076 5541 7637 0 2096 patch iptc,sj,dgj,dgi,id: 21 7637 294 294 2096 half line dmj dgc: 1 71841 300 114 Actual deskew ireclen: 20480 ** 21 2096 1 88032 Writing data negflag .eq. 0 sj>s1: 7637 5541 Zeroing lines in arrays Total # of output lines = 21 73172 Processing block number 22 7637 9056 23 1396 patch iptc,sj,dgj,dgi,id: 22 9056 317 294 1396 half line dmj dgc: 0 75333 330 114 Actual deskew ireclen: 20480 ** 22 2096 0 90128 Writing data negflag .eq. 0 sj>s1: 9056 7637 Zeroing lines in arrays Total # of output lines = 22 74591 9056 11152 0 2096 patch iptc,sj,dgj,dgi,id: 22 11152 317 317 2096 half line dmj dgc: 1 75333 330 114 Actual deskew ireclen: 20480 ** 22 2096 1 92224 Writing data negflag .eq. 0 sj>s1: 11152 9056 Zeroing lines in arrays Total # of output lines = 22 76687 Processing block number 23 11152 12510 -38 1396 patch iptc,sj,dgj,dgi,id: 23 12510 279 317 1396 half line dmj dgc: 0 78825 308 114 Actual deskew ireclen: 20480 ** 23 2096 0 94320 Writing data negflag .eq. 0 sj>s1: 12510 11152 Zeroing lines in arrays Total # of output lines = 23 78045 12510 14606 0 2096 patch iptc,sj,dgj,dgi,id: 23 14606 279 279 2096 half line dmj dgc: 1 78825 308 114 Actual deskew ireclen: 20480 ** 23 2096 1 96416 Writing data negflag .eq. 0 sj>s1: 14606 12510 Zeroing lines in arrays Total # of output lines = 23 80141 Processing block number 24 14606 15942 -60 1396 patch iptc,sj,dgj,dgi,id: 24 15942 219 279 1396 half line dmj dgc: 0 82317 284 114 Actual deskew ireclen: 20480 ** 24 2096 0 98512 Writing data negflag .eq. 0 sj>s1: 15942 14606 Zeroing lines in arrays Total # of output lines = 24 81477 15942 18038 0 2096 patch iptc,sj,dgj,dgi,id: 24 1654 219 219 2096 half line dmj dgc: 1 82317 284 114 Actual deskew ireclen: 20480 ** 24 2096 1 100608 Writing data negflag .eq. 0 s1>sj: 15942 1654 Zeroing lines in arrays Total # of output lines = 24 83573 Processing block number 25 1654 3047 -3 1396 patch iptc,sj,dgj,dgi,id: 25 3047 216 219 1396 half line dmj dgc: 0 85809 279 114 Actual deskew ireclen: 20480 ** 25 2096 0 102704 Writing data negflag .eq. 0 sj>s1: 3047 1654 Zeroing lines in arrays Total # of output lines = 25 84966 3047 5143 0 2096 patch iptc,sj,dgj,dgi,id: 25 5143 216 216 2096 half line dmj dgc: 1 85809 279 114 Actual deskew ireclen: 20480 ** 25 2096 1 104800 Writing data negflag .eq. 0 sj>s1: 5143 3047 Zeroing lines in arrays Total # of output lines = 25 87062 Processing block number 26 5143 6581 42 1396 patch iptc,sj,dgj,dgi,id: 26 6581 258 216 1396 half line dmj dgc: 0 89301 297 114 Actual deskew ireclen: 20480 ** 26 2096 0 106896 Writing data negflag .eq. 0 sj>s1: 6581 5143 Zeroing lines in arrays Total # of output lines = 26 88500 6581 8677 0 2096 patch iptc,sj,dgj,dgi,id: 26 8677 258 258 2096 half line dmj dgc: 1 89301 297 114 Actual deskew ireclen: 20480 ** 26 2096 1 108992 Writing data negflag .eq. 0 sj>s1: 8677 6581 Zeroing lines in arrays Total # of output lines = 26 90596 Processing block number 27 8677 10067 -6 1396 patch iptc,sj,dgj,dgi,id: 27 10067 252 258 1396 half line dmj dgc: 0 92793 306 114 Actual deskew ireclen: 20480 ** 27 2096 0 111088 Writing data negflag .eq. 0 sj>s1: 10067 8677 Zeroing lines in arrays Total # of output lines = 27 91986 10067 12163 0 2096 patch iptc,sj,dgj,dgi,id: 27 12163 252 252 2096 half line dmj dgc: 1 92793 306 114 Actual deskew ireclen: 20480 ** 27 2096 1 113184 Writing data negflag .eq. 0 sj>s1: 12163 10067 Zeroing lines in arrays Total # of output lines = 27 94082 Processing block number 28 12163 11063 -19 -1081 patch iptc,sj,dgj,dgi,id: 28 11063 233 252 -1081 half line dmj dgc: 0 93808 312 114 Actual deskew ireclen: 20480 ** 28 2096 0 115280 Zeroing lines in arrays Total # of output lines = 28 94082 12163 13159 0 2096 patch iptc,sj,dgj,dgi,id: 28 13159 233 233 2096 half line dmj dgc: 1 93808 312 114 Actual deskew ireclen: 20480 ** 28 2096 1 117376 Writing data negflag .eq. 0 sj>s1: 13159 12163 Zeroing lines in arrays Total # of output lines = 28 95078 ia dmi dgi: 13159 312 233 Writing the last 2175 lines last half sj>s1 15334 13159 95078 Total # of output lines = 97253 Writing new header.. Closing files .. ileni= 39 ilend= 35 /export/air32/airops/1400/ts1400_p.hh_j.0 /export/air32/airops/1400/deskew.ph.0 /export/air32/airops/1400/ts1400_p.hh_j.1 /export/air32/airops/1400/deskew.ph.1 /export/air32/airops/1400/ts1400_p.hh_j.2 /export/air32/airops/1400/deskew.ph.2 /export/air32/airops/1400/ts1400_p.hh_j.3 /export/air32/airops/1400/deskew.ph.3 /export/air32/airops/1400/ts1400_p.hh_j.4 /export/air32/airops/1400/deskew.ph.4 /export/air32/airops/1400/ts1400_p.hh_j.5 /export/air32/airops/1400/deskew.ph.5 /export/air32/airops/1400/ts1400_p.hh_j.6 /export/air32/airops/1400/deskew.ph.6 /export/air32/airops/1400/ts1400_p.hh_j.7 /export/air32/airops/1400/deskew.ph.7 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.35 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 1 AZ patch size: 8192 What is the desired az fract (def=1.0)? fract #: 1.000000 Please enter the name of the sensor file. /export/air32/airops/1400/sensor.pp Please enter the name of the parameter file /export/air36/airops/1400/ts1400_p.par hddt: 96068 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 100000 lines Keeping 4192 data points per patch Near range (m) = 9040.540 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 3.500000 Radar wavelength (m) = 0.7012700 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = -3.550000 Range weighting coefficient = 0.1000000 Map height (m) = 78.60000 Transmit leverarm x,y,z = 2.030000 0.5300000 -0.2200000 Receive leverarm x,y,z = 2.030000 0.5300000 -0.2200000 Name of raw data file? /export/air32/airops/1400/p_hv Name of the mocomp data file? /export/air36/airops/1400/ts1400_p.mocomph Output file name w/o ext? /export/air36/airops/1400/ts1400_p Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. hv Raw DIR Path:/export/air32/airops/1400/ output filename: /export/air32/airops/1400/ts1400_p.hv_j *** ipol itop: 2 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /export/air32/airops/1400/deskew.ph WAYNE init fft, calc slant range, load unpack, interpo 1.6101994E-02 reading motion compensation data WAYNE read motion compen 2.325764 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 AnalogChirp>96032Br,fs,T,fc 96068 40.00000 22.50000 90.00000 10.00000 deltaphase -ashift: 5.4456317E-03 3.550000 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.7484870 start range comp, time = 3.340 WAYNE PREV 3.108784 NUMBER OF PROCESSOR USED = 8 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 4 by # 0 Processing block number 1 TESTING WHY -6.4741098E-03 1.8001201E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 3.458 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 54.84000396728516 ATTN ifrq ipol ln 0 2 8192 8.000000 IPOL, ITOP nblock 2 0 1 ****shift in azimuth (fractional pixel)= -0.4999149 shift in azimuth *fractional pixel= -0.4999149 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1607050895690918E-02 TESTING 0.0000000E+00 -47.83564 0.2210198 WAYNE Motion comp. added to patch, time = 18.92399096488953 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.7649402618408203E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -47.83564 0.2210198 HEY,dt,fract,ye,pe -0.4999149 1.000000 -6.4741098E-03 1.8001201E-02 WAYNE Azimuth compression done, time = 347.8754040002823 Writing 4192 lines of data to file WAYNE write output data 14.22883999347687 ==w out 1 0 2001 0 WAYNE PROCESS 435.8843250274658 Processing block number 2 TESTING WHY -6.4040902E-03 1.7581699E-02 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 439.344 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 112.4851350784302 ATTN ifrq ipol ln 0 2 11684 8.000000 IPOL, ITOP nblock 2 0 2 ****shift in azimuth (fractional pixel)= -0.4999168 shift in azimuth *fractional pixel= -0.4999168 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1687994003295898E-02 TESTING 0.0000000E+00 -42.32105 0.4159131 WAYNE Motion comp. added to patch, time = 17.99152696132660 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 1.1054992675781250E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -42.32105 0.4159131 HEY,dt,fract,ye,pe -0.4999168 1.000000 -6.4040902E-03 1.7581699E-02 WAYNE Azimuth compression done, time = 339.4533919095993 Writing 4192 lines of data to file WAYNE write output data 15.44227099418640 ==w out 2 4192 2001 85852160 WAYNE PROCESS 485.3969360589981 Processing block number 3 TESTING WHY -5.7757902E-03 1.7326901E-02 3492 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 924.741 seconds. TESTING 6985 before reading done reading WAYNE load raw data , time = 63.66268396377563 ATTN ifrq ipol ln 0 2 15176 8.000000 IPOL, ITOP nblock 2 0 3 ****shift in azimuth (fractional pixel)= -0.4999217 shift in azimuth *fractional pixel= -0.4999217 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1191010475158691E-02 TESTING 0.0000000E+00 -37.07621 0.3171375 WAYNE Motion comp. added to patch, time = 17.64270198345184 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 7.9308032989501953E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 ra PROCESSING KID# 5 ..... WAYNE IS IN Processing 17 to 19 by # 4 Processing block number 17 WAYNE PATCHES: 55873 64064 patch# 17 reference line: 59968 3.516 seconds. before reading done reading WAYNE load raw data , time = 53.96653103828430 ATTN ifrq ipol ln 0 2 64064 8.000000 IPOL, ITOP nblock 2 0 17 ****shift in azimuth (fractional pixel)= -0.4999279 shift in azimuth *fractional pixel= -0.4999279 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1469006538391113E-02 WAYNE Motion comp. added to patch, time = 18.86044609546661 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.6839971542358398E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.0383470058441 Writing 4192 lines of data to file WAYNE write output data 12.63361299037933 ==w out 17 0 2001 0 WAYNE PROCESS 433.5148320198059 Processing block number 18 WAYNE PATCHES: 59365 67556 patch# 18 reference line: 63460 437.032 seconds. before reading done reading WAYNE load raw data , time = 71.67838704586029 ATTN ifrq ipol ln 0 2 67556 8.000000 IPOL, ITOP nblock 2 0 18 ****shift in azimuth (fractional pixel)= -0.4999095 shift in azimuth *fractional pixel= -0.4999095 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1565923690795898E-02 WAYNE Motion comp. added to patch, time = 18.06409800052643 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 7.3688983917236328E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 338.4279359579086 Writing 4192 lines of data to file WAYNE write output data 3.134420990943909 ==w out 18 4192 2001 85852160 WAYNE PROCESS 431.3918089866638 Processing block number 19 WAYNE PATCHES: 62857 71048 patch# 19 reference line: 66952 868.424 seconds. before reading done reading WAYNE load raw data , time = 91.24995005130768 ATTN ifrq ipol ln 0 2 71048 8.000000 IPOL, ITOP nblock 2 0 19 ****shift in azimuth (fractional pixel)= -0.4999111 shift in azimuth *fractional pixel= -0.4999111 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1427998542785645E-02 WAYNE Motion comp. added to patch, time = 17.20082497596741 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.1805882453918457E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 340.4696490764618 Writing 4192 lines of data to file WAYNE write output data 2.211851954460144 ==w out 19 8384 2001 171704320 WAYNE PROCESS 451.1672099828720 ==w out 20 12579 PROCESSING KID# 8 ..... WAYNE IS IN Processing 26 to 28 by # 7 Processing block number 26 WAYNE PATCHES: 87301 95492 patch# 26 reference line: 91396 3.559 seconds. before reading done reading WAYNE load raw data , time = 55.35911297798157 ATTN ifrq ipol ln 0 2 95492 8.000000 IPOL, ITOP nblock 2 0 26 ****shift in azimuth (fractional pixel)= -0.4999087 shift in azimuth *fractional pixel= -0.4999087 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1739969253540039E-02 WAYNE Motion comp. added to patch, time = 18.40295088291168 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.7049779891967773E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.7892969846725 Writing 4192 lines of data to file WAYNE write output data 10.59525299072266 ==w out 26 0 2001 0 WAYNE PROCESS 432.1628229618073 Processing block number 27 WAYNE PATCHES: 90793 98984 patch# 27 reference line: 94888 435.722 seconds. before reading done reading WAYNE load raw data , time = 73.89538300037384 ATTN ifrq ipol ln 0 2 98984 8.000000 IPOL, ITOP nblock 2 0 27 ****shift in azimuth (fractional pixel)= -0.4999004 shift in azimuth *fractional pixel= -0.4999004 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1503934860229492E-02 WAYNE Motion comp. added to patch, time = 17.32638800144196 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 4.1630983352661133E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 338.2040749788284 Writing 4192 lines of data to file WAYNE write output data 2.472792983055115 ==w out 27 4192 2001 85852160 WAYNE PROCESS 431.9534929990768 Processing block number 28 WAYNE PATCHES: 91808 99999 patch# 28 reference line: 95903 867.676 seconds. before reading done reading WAYNE load raw data , time = 92.75098204612732 ATTN ifrq ipol ln 0 2 99999 8.000000 IPOL, ITOP nblock 2 0 28 ****shift in azimuth (fractional pixel)= -0.4999058 shift in azimuth *fractional pixel= -0.4999058 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.0837912559509277E-02 WAYNE Motion comp. added to patch, time = 17.11811995506287 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 5.5423021316528320E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 340.3944150209427 Writing 4192 lines of data to file WAYNE write output data 2.380190014839172 ==w out 28 8384 2001 171704320 WAYNE PROCESS 452.7116539478302 ==w out 29 12579 PROCESSING KID# 7 ..... WAYNE IS IN Processing 23 to 25 by # 6 Processing block number 23 WAYNE PATCHES: 76825 85016 patch# 23 reference line: 80920 3.544 seconds. before reading done reading WAYNE load raw data , time = 54.51106703281403 ATTN ifrq ipol ln 0 2 85016 8.000000 IPOL, ITOP nblock 2 0 23 ****shift in azimuth (fractional pixel)= -0.4998994 shift in azimuth *fractional pixel= -0.4998994 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2073993682861328E-02 WAYNE Motion comp. added to patch, time = 18.70222902297974 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.6749372482299805E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.1932060718536 Writing 4192 lines of data to file WAYNE write output data 12.97810804843903 ==w out 23 0 2001 0 WAYNE PROCESS 434.4010699987411 Processing block number 24 WAYNE PATCHES: 80317 88508 patch# 24 reference line: 84412 437.945 seconds. before reading done reading WAYNE load raw data , time = 102.4956378936768 ATTN ifrq ipol ln 0 2 88508 8.000000 IPOL, ITOP nblock 2 0 24 ****shift in azimuth (fractional pixel)= -0.4999158 shift in azimuth *fractional pixel= -0.4999158 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1817932128906250E-02 WAYNE Motion comp. added to patch, time = 17.88282799720764 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.6110053062438965E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 341.8190410137177 Writing 4192 lines of data to file WAYNE write output data 1.782482981681824 ==w out 24 4192 2001 85852160 WAYNE PROCESS 464.0197470188141 Processing block number 25 WAYNE PATCHES: 83809 92000 patch# 25 reference line: 87904 901.965 seconds. before reading done reading WAYNE load raw data , time = 83.94306397438049 ATTN ifrq ipol ln 0 2 92000 8.000000 IPOL, ITOP nblock 2 0 25 ****shift in azimuth (fractional pixel)= -0.4999176 shift in azimuth *fractional pixel= -0.4999176 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1010050773620605E-02 WAYNE Motion comp. added to patch, time = 16.96082997322083 WAYNE Doppler estimation done, time = 8.1062316894531250E-06 WAYNE write deskew done, time = 0.1626950502395630 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 342.5282690525055 Writing 4192 lines of data to file WAYNE write output data 1.787596940994263 ==w out 25 8384 2001 171704320 WAYNE PROCESS 445.3950459957123 ==w out 26 12579 PROCESSING KID# 6 ..... WAYNE IS IN Processing 20 to 22 by # 5 Processing block number 20 WAYNE PATCHES: 66349 74540 patch# 20 reference line: 70444 3.531 seconds. before reading done reading WAYNE load raw data , time = 56.17386400699615 ATTN ifrq ipol ln 0 2 74540 8.000000 IPOL, ITOP nblock 2 0 20 ****shift in azimuth (fractional pixel)= -0.4999311 shift in azimuth *fractional pixel= -0.4999311 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1960029602050781E-02 WAYNE Motion comp. added to patch, time = 18.45794498920441 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.8250217437744141E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.4347990751266 Writing 4192 lines of data to file WAYNE write output data 8.613976955413818 ==w out 20 0 2001 0 WAYNE PROCESS 429.6970970630646 Processing block number 21 WAYNE PATCHES: 69841 78032 patch# 21 reference line: 73936 433.229 seconds. before reading done reading WAYNE load raw data , time = 112.3933519124985 ATTN ifrq ipol ln 0 2 78032 8.000000 IPOL, ITOP nblock 2 0 21 ****shift in azimuth (fractional pixel)= -0.4999140 shift in azimuth *fractional pixel= -0.4999140 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1772036552429199E-02 WAYNE Motion comp. added to patch, time = 17.77520096302032 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 5.9198021888732910E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 339.6147990226746 Writing 4192 lines of data to file WAYNE write output data 1.756312012672424 ==w out 21 4192 2001 85852160 WAYNE PROCESS 471.6123400926590 Processing block number 22 WAYNE PATCHES: 73333 81524 patch# 22 reference line: 77428 904.842 seconds. before reading done reading WAYNE load raw data , time = 83.59645605087280 ATTN ifrq ipol ln 0 2 81524 8.000000 IPOL, ITOP nblock 2 0 22 ****shift in azimuth (fractional pixel)= -0.4999022 shift in azimuth *fractional pixel= -0.4999022 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1499047279357910E-02 WAYNE Motion comp. added to patch, time = 17.48526191711426 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.3869991302490234E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 340.8680028915405 Writing 4192 lines of data to file WAYNE write output data 2.113961935043335 ==w out 22 8384 2001 171704320 WAYNE PROCESS 444.1007380485535 ==w out 23 12579 PROCESSING KID# 3 ..... WAYNE IS IN Processing 9 to 12 by # 2 Processing block number 9 WAYNE PATCHES: 27937 36128 patch# 9 reference line: 32032 3.488 seconds. before reading done reading WAYNE load raw data , time = 54.08387100696564 ATTN ifrq ipol ln 0 2 36128 8.000000 IPOL, ITOP nblock 2 0 9 ****shift in azimuth (fractional pixel)= -0.4998933 shift in azimuth *fractional pixel= -0.4998933 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1731982231140137E-02 WAYNE Motion comp. added to patch, time = 19.06978106498718 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.7760267257690430E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.4171409606934 Writing 4192 lines of data to file WAYNE write output data 14.97881197929382 ==w out 9 0 2001 0 WAYNE PROCESS 436.5658309459686 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 440.054 seconds. before reading done reading WAYNE load raw data , time = 102.0311360359192 ATTN ifrq ipol ln 0 2 39620 8.000000 IPOL, ITOP nblock 2 0 10 ****shift in azimuth (fractional pixel)= -0.4999059 shift in azimuth *fractional pixel= -0.4999059 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1994004249572754E-02 WAYNE Motion comp. added to patch, time = 17.97544300556183 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 0.1011610031127930 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 341.8205339908600 Writing 4192 lines of data to file WAYNE write output data 1.755555987358093 ==w out 10 4192 2001 85852160 WAYNE PROCESS 463.6976020336151 Processing block number 11 WAYNE PATCHES: 34921 43112 patch# 11 reference line: 39016 903.752 seconds. before reading done reading WAYNE load raw data , time = 83.58575105667114 ATTN ifrq ipol ln 0 2 43112 8.000000 IPOL, ITOP nblock 2 0 11 ****shift in azimuth (fractional pixel)= -0.4999126 shift in azimuth *fractional pixel= -0.4999126 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1209964752197266E-02 WAYNE Motion comp. added to patch, time = 17.50836098194122 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 6.8801045417785645E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 341.5400499105453 Writing 4192 lines of data to file WAYNE write output data 2.103181004524231 ==w out 11 8384 2001 171704320 WAYNE PROCESS 444.8190060853958 Processing block number 12 WAYNE PATCHES: 38413 46604 patch# 12 reference line: 42508 1348.572 seconds. before reading done reading WAYNE load raw data , time = 76.29405295848846 ATTN ifrq ipol ln 0 2 46604 8.000000 IPOL, ITOP nblock 2 PROCESSING KID# 2 ..... WAYNE IS IN Processing 5 to 8 by # 1 Processing block number 5 WAYNE PATCHES: 13969 22160 patch# 5 reference line: 18064 3.473 seconds. before reading done reading WAYNE load raw data , time = 53.39152300357819 ATTN ifrq ipol ln 0 2 22160 8.000000 IPOL, ITOP nblock 2 0 5 ****shift in azimuth (fractional pixel)= -0.4999060 shift in azimuth *fractional pixel= -0.4999060 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1644005775451660E-02 WAYNE Motion comp. added to patch, time = 18.61784696578979 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.7250051498413086E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.3787679672241 Writing 4192 lines of data to file WAYNE write output data 2.513342022895813 ==w out 5 0 2001 0 WAYNE PROCESS 422.9174640178680 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 426.390 seconds. before reading done reading WAYNE load raw data , time = 123.8157089948654 ATTN ifrq ipol ln 0 2 25652 8.000000 IPOL, ITOP nblock 2 0 6 ****shift in azimuth (fractional pixel)= -0.4998952 shift in azimuth *fractional pixel= -0.4998952 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2012958526611328E-02 WAYNE Motion comp. added to patch, time = 18.03908801078796 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 0.1128749847412109 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 339.8258010149002 Writing 4192 lines of data to file WAYNE write output data 7.530555009841919 ==w out 6 4192 2001 85852160 WAYNE PROCESS 489.3377519845963 Processing block number 7 WAYNE PATCHES: 20953 29144 patch# 7 reference line: 25048 915.728 seconds. before reading done reading WAYNE load raw data , time = 71.75954496860504 ATTN ifrq ipol ln 0 2 29144 8.000000 IPOL, ITOP nblock 2 0 7 ****shift in azimuth (fractional pixel)= -0.4998947 shift in azimuth *fractional pixel= -0.4998947 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1235952377319336E-02 WAYNE Motion comp. added to patch, time = 17.70099604129791 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 8.4812045097351074E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 341.3212310075760 Writing 4192 lines of data to file WAYNE write output data 2.101594924926758 ==w out 7 8384 2001 171704320 WAYNE PROCESS 432.9810199737549 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 1348.710 seconds. before reading done reading WAYNE load raw data , time = 77.03391706943512 ATTN ifrq ipol ln 0 2 32636 8.000000 IPOL, ITOP nblock 2 PROCESSING KID# 4 ..... WAYNE IS IN Processing 13 to 16 by # 3 Processing block number 13 WAYNE PATCHES: 41905 50096 patch# 13 reference line: 46000 3.500 seconds. before reading done reading WAYNE load raw data , time = 54.43909502029419 ATTN ifrq ipol ln 0 2 50096 8.000000 IPOL, ITOP nblock 2 0 13 ****shift in azimuth (fractional pixel)= -0.4999056 shift in azimuth *fractional pixel= -0.4999056 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1773109436035156E-02 WAYNE Motion comp. added to patch, time = 18.44696807861328 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.8899908065795898E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.9928910732269 Writing 4192 lines of data to file WAYNE write output data 5.679960012435913 ==w out 13 0 2001 0 WAYNE PROCESS 426.5752869844437 Processing block number 14 WAYNE PATCHES: 45397 53588 patch# 14 reference line: 49492 430.076 seconds. before reading done reading WAYNE load raw data , time = 119.5172309875488 ATTN ifrq ipol ln 0 2 53588 8.000000 IPOL, ITOP nblock 2 0 14 ****shift in azimuth (fractional pixel)= -0.4998997 shift in azimuth *fractional pixel= -0.4998997 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1862039566040039E-02 WAYNE Motion comp. added to patch, time = 17.67094695568085 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.8839945793151855E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 340.4875069856644 Writing 4192 lines of data to file WAYNE write output data 7.524772047996521 ==w out 14 4192 2001 85852160 WAYNE PROCESS 485.2428499460220 Processing block number 15 WAYNE PATCHES: 48889 57080 patch# 15 reference line: 52984 915.319 seconds. before reading done reading WAYNE load raw data , time = 73.10612404346466 ATTN ifrq ipol ln 0 2 57080 8.000000 IPOL, ITOP nblock 2 0 15 ****shift in azimuth (fractional pixel)= -0.4999059 shift in azimuth *fractional pixel= -0.4999059 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1548995971679688E-02 WAYNE Motion comp. added to patch, time = 17.45074105262756 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 5.6105017662048340E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 341.5129159688950 Writing 4192 lines of data to file WAYNE write output data 1.979941010475159 ==w out 15 8384 2001 171704320 WAYNE PROCESS 434.1191589832306 Processing block number 16 WAYNE PATCHES: 52381 60572 patch# 16 reference line: 56476 1349.439 seconds. before reading done reading WAYNE load raw data , time = 77.09475696086884 ATTN ifrq ipol ln 0 2 60572 8.000000 IPOL, ITOP nblock 2 0 12 ****shift in azimuth (fractional pixel)= -0.4999159 shift in azimuth *fractional pixel= -0.4999159 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1438965797424316E-02 WAYNE Motion comp. added to patch, time = 15.53528106212616 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.4399757385253906E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 269.3210918903351 Writing 4192 lines of data to file WAYNE write output data 1.751644015312195 ==w out 12 12576 2001 257556480 WAYNE PROCESS 362.9171680212021 ==w out 13 16771 0 8 ****shift in azimuth (fractional pixel)= -0.4998949 shift in azimuth *fractional pixel= -0.4998949 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1582016944885254E-02 WAYNE Motion comp. added to patch, time = 16.11799705028534 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.4269819259643555E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 268.3798719644547 Writing 4192 lines of data to file WAYNE write output data 1.822793006896973 ==w out 8 12576 2001 257556480 WAYNE PROCESS 363.3698689937592 ==w out 9 16771 0 16 ****shift in azimuth (fractional pixel)= -0.4999078 shift in azimuth *fractional pixel= -0.4999078 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2501001358032227E-02 WAYNE Motion comp. added to patch, time = 15.92316102981567 WAYNE Doppler estimation done, time = 8.1062316894531250E-06 WAYNE write deskew done, time = 2.8440952301025391E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 268.0279960632324 Writing 4192 lines of data to file WAYNE write output data 1.833519935607910 ==w out 16 12576 2001 257556480 WAYNE PROCESS 362.9217790365219 ==w out 17 16771 nge migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -37.07621 0.3171375 HEY,dt,fract,ye,pe -0.4999217 1.000000 -5.7757902E-03 1.7326901E-02 WAYNE Azimuth compression done, time = 340.8295739889145 Writing 4192 lines of data to file WAYNE write output data 2.106570005416870 ==w out 3 8384 2001 171704320 WAYNE PROCESS 424.3337270021439 Processing block number 4 TESTING WHY -5.3123902E-03 1.7652800E-02 3492 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 1349.075 seconds. TESTING 10477 before reading done reading WAYNE load raw data , time = 77.69324004650116 ATTN ifrq ipol ln 0 2 18668 8.000000 IPOL, ITOP nblock 2 0 4 ****shift in azimuth (fractional pixel)= -0.4999198 shift in azimuth *fractional pixel= -0.4999198 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1285066604614258E-02 TESTING 0.0000000E+00 -32.53431 -0.3229209 WAYNE Motion comp. added to patch, time = 15.91550493240356 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.4950504302978516E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -32.53431 -0.3229209 HEY,dt,fract,ye,pe -0.4999198 1.000000 -5.3123902E-03 1.7652800E-02 WAYNE Azimuth compression done, time = 269.0446459054947 Writing 4192 lines of data to file WAYNE write output data 1.749058008193970 ==w out 4 12576 2001 257556480 WAYNE PROCESS 364.4174360036850 ==w out 5 16771 1 12500682 0 2 12504608 0 3 12502655 0 4 12504169 0 5 12504851 0 6 12502657 0 7 12503054 0 8 12502564 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 117376kids= 8 Writing variable header... gather image from processor # 0 4 gather image from processor # 1 4 gather image from processor # 2 4 gather image from processor # 3 4 gather image from processor # 4 3 gather image from processor # 5 3 gather image from processor # 6 3 gather image from processor # 7 3 WAYNE gather images takes: 15.31460404396057 WAYNE LOOP TIME: 1739.523218035698 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air32/airops/1400/ts1400_p.hv_j /export/air36/airops/1400/ts1400_p.mocomph /export/air36/airops/1400/ts1400_p.dop /export/air36/airops/1400/ts1400_p.glb 2560 117376 update intf hdr ha: 8367.900 UPDATE: 2560 117376 3.331000 0.5144000 mocompfile /export/air36/airops/1400/ts1400_p.mocomph dopfile /export/air36/airops/1400/ts1400_p.dop globalfile /export/air36/airops/1400/ts1400_p.glb /export/air36/airops/1400/ts1400_p.glb 38 deskew line ra ha trc: 128.5260 249 9042.366 8367.900 54.57177 after deskew line ra ha trc: 128.5260 249 9042.366 8367.900 54.57177 lat1 lon1: 249 4.813068 114.7795 117376 last ra n_ns ns: 9042.366 1 1 117624 117376 lati loni: 117624 5.129428 115.2615 117624 1 center ra n_ns ns: 13302.71 1280 1280 58936 117376 lati loni: 58936 5.002770 114.9983 58936 2560 Updated paramater header in /export/air32/airops/1400/ts1400_p.hv_j WAYNE FINAL PROCESS 1743.003992915154 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 8 16768 4 16768 4 16768 4 16768 4 12576 3 12576 3 12576 3 12576 3 Name of data file to be deskewed? /export/air32/airops/1400/ts1400_p.hv_j Name of the doppler parameter file? /export/air36/airops/1400/ts1400_p.dop Name of the deskew file? /export/air32/airops/1400/deskew.ph Line up to another frequency [y/n]? y Name of the deskew file to line up to? /export/air32/airops/1400/deskew.ch Enter N_AZ, NA_VALID and the ratio of the pixel spacing of the file to line up to relative to the current pixel spacing. 4096 2208 1.000000 Name of the output file? /export/air36/airops/1400/ts1400_p.hv Name of the line output file? /export/air36/airops/1400/p_lines.dat NONE-SYMMETRIC PARALLEL JOBS Deskewing 28 patches Processing block number 1 patch iptc,sj,dgj,dgi,id: 1 1041 98 98 0 half line dmj dgc: 0 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1041 1 Zeroing lines in arrays Total # of output lines = 1 1040 1041 3137 0 2096 patch iptc,sj,dgj,dgi,id: 1 3137 98 98 2096 half line dmj dgc: 1 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3137 1041 Zeroing lines in arrays Total # of output lines = 1 3136 Processing block number 2 3137 4528 -5 1396 patch iptc,sj,dgj,dgi,id: 2 4528 93 98 1396 half line dmj dgc: 0 5493 243 114 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 4528 3137 Zeroing lines in arrays Total # of output lines = 2 4527 4528 6624 0 2096 patch iptc,sj,dgj,dgi,id: 2 6624 93 93 2096 half line dmj dgc: 1 5493 243 114 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 6624 4528 Zeroing lines in arrays Total # of output lines = 2 6623 Processing block number 3 6624 8035 15 1396 patch iptc,sj,dgj,dgi,id: 3 8035 108 93 1396 half line dmj dgc: 0 8985 243 114 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 8035 6624 Zeroing lines in arrays Total # of output lines = 3 8034 8035 10131 0 2096 patch iptc,sj,dgj,dgi,id: 3 10131 108 108 2096 half line dmj dgc: 1 8985 243 114 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 10131 8035 Zeroing lines in arrays Total # of output lines = 3 10130 Processing block number 4 10131 11546 19 1396 patch iptc,sj,dgj,dgi,id: 4 11546 127 108 1396 half line dmj dgc: 0 12477 251 114 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 11546 10131 Zeroing lines in arrays Total # of output lines = 4 11545 11546 13642 0 2096 patch iptc,sj,dgj,dgi,id: 4 13642 127 127 2096 half line dmj dgc: 1 12477 251 114 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 sj>s1: 13642 11546 Zeroing lines in arrays Total # of output lines = 4 13641 Processing block number 5 13642 15008 -30 1396 patch iptc,sj,dgj,dgi,id: 5 15008 97 127 1396 half line dmj dgc: 0 15969 251 114 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 15008 13642 Zeroing lines in arrays Total # of output lines = 5 15007 15008 17104 0 2096 patch iptc,sj,dgj,dgi,id: 5 720 97 97 2096 half line dmj dgc: 1 15969 251 114 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 s1>sj: 15008 720 Zeroing lines in arrays Total # of output lines = 5 17103 Processing block number 6 720 2050 -66 1396 patch iptc,sj,dgj,dgi,id: 6 2050 31 97 1396 half line dmj dgc: 0 19461 242 114 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 2050 720 Zeroing lines in arrays Total # of output lines = 6 18433 2050 4146 0 2096 patch iptc,sj,dgj,dgi,id: 6 4146 31 31 2096 half line dmj dgc: 1 19461 242 114 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 4146 2050 Zeroing lines in arrays Total # of output lines = 6 20529 Processing block number 7 4146 5525 -17 1396 patch iptc,sj,dgj,dgi,id: 7 5525 14 31 1396 half line dmj dgc: 0 22953 241 114 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 5525 4146 Zeroing lines in arrays Total # of output lines = 7 21908 5525 7621 0 2096 patch iptc,sj,dgj,dgi,id: 7 7621 14 14 2096 half line dmj dgc: 1 22953 241 114 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 7621 5525 Zeroing lines in arrays Total # of output lines = 7 24004 Processing block number 8 7621 9046 29 1396 patch iptc,sj,dgj,dgi,id: 8 9046 43 14 1396 half line dmj dgc: 0 26445 249 114 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 sj>s1: 9046 7621 Zeroing lines in arrays Total # of output lines = 8 25429 9046 11142 0 2096 patch iptc,sj,dgj,dgi,id: 8 11142 43 43 2096 half line dmj dgc: 1 26445 249 114 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 sj>s1: 11142 9046 Zeroing lines in arrays Total # of output lines = 8 27525 Processing block number 9 11142 12562 24 1396 patch iptc,sj,dgj,dgi,id: 9 12562 67 43 1396 half line dmj dgc: 0 29937 255 114 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 12562 11142 Zeroing lines in arrays Total # of output lines = 9 28945 12562 14658 0 2096 patch iptc,sj,dgj,dgi,id: 9 14658 67 67 2096 half line dmj dgc: 1 29937 255 114 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 14658 12562 Zeroing lines in arrays Total # of output lines = 9 31041 Processing block number 10 14658 16072 18 1396 patch iptc,sj,dgj,dgi,id: 10 16072 85 67 1396 half line dmj dgc: 0 33429 255 114 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 16072 14658 Zeroing lines in arrays Total # of output lines = 10 32455 16072 18168 0 2096 patch iptc,sj,dgj,dgi,id: 10 1784 85 85 2096 half line dmj dgc: 1 33429 255 114 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 s1>sj: 16072 1784 Zeroing lines in arrays Total # of output lines = 10 34551 Processing block number 11 1784 3217 37 1396 patch iptc,sj,dgj,dgi,id: 11 3217 122 85 1396 half line dmj dgc: 0 36921 260 114 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 3217 1784 Zeroing lines in arrays Total # of output lines = 11 35984 3217 5313 0 2096 patch iptc,sj,dgj,dgi,id: 11 5313 122 122 2096 half line dmj dgc: 1 36921 260 114 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 sj>s1: 5313 3217 Zeroing lines in arrays Total # of output lines = 11 38080 Processing block number 12 5313 6728 19 1396 patch iptc,sj,dgj,dgi,id: 12 6728 141 122 1396 half line dmj dgc: 0 40413 269 114 Actual deskew ireclen: 20480 ** 12 2096 0 48208 Writing data negflag .eq. 0 sj>s1: 6728 5313 Zeroing lines in arrays Total # of output lines = 12 39495 6728 8824 0 2096 patch iptc,sj,dgj,dgi,id: 12 8824 141 141 2096 half line dmj dgc: 1 40413 269 114 Actual deskew ireclen: 20480 ** 12 2096 1 50304 Writing data negflag .eq. 0 sj>s1: 8824 6728 Zeroing lines in arrays Total # of output lines = 12 41591 Processing block number 13 8824 10226 6 1396 patch iptc,sj,dgj,dgi,id: 13 10226 147 141 1396 half line dmj dgc: 0 43905 276 114 Actual deskew ireclen: 20480 ** 13 2096 0 52400 Writing data negflag .eq. 0 sj>s1: 10226 8824 Zeroing lines in arrays Total # of output lines = 13 42993 10226 12322 0 2096 patch iptc,sj,dgj,dgi,id: 13 12322 147 147 2096 half line dmj dgc: 1 43905 276 114 Actual deskew ireclen: 20480 ** 13 2096 1 54496 Writing data negflag .eq. 0 sj>s1: 12322 10226 Zeroing lines in arrays Total # of output lines = 13 45089 Processing block number 14 12322 13761 43 1396 patch iptc,sj,dgj,dgi,id: 14 13761 190 147 1396 half line dmj dgc: 0 47397 286 114 Actual deskew ireclen: 20480 ** 14 2096 0 56592 Writing data negflag .eq. 0 sj>s1: 13761 12322 Zeroing lines in arrays Total # of output lines = 14 46528 13761 15857 0 2096 patch iptc,sj,dgj,dgi,id: 14 15857 190 190 2096 half line dmj dgc: 1 47397 286 114 Actual deskew ireclen: 20480 ** 14 2096 1 58688 Writing data negflag .eq. 0 sj>s1: 15857 13761 Zeroing lines in arrays Total # of output lines = 14 48624 Processing block number 15 15857 17263 10 1396 patch iptc,sj,dgj,dgi,id: 15 879 200 190 1396 half line dmj dgc: 0 50889 286 114 Actual deskew ireclen: 20480 ** 15 2096 0 60784 Writing data negflag .eq. 0 s1>sj: 15857 879 Zeroing lines in arrays Total # of output lines = 15 50030 879 2975 0 2096 patch iptc,sj,dgj,dgi,id: 15 2975 200 200 2096 half line dmj dgc: 1 50889 286 114 Actual deskew ireclen: 20480 ** 15 2096 1 62880 Writing data negflag .eq. 0 sj>s1: 2975 879 Zeroing lines in arrays Total # of output lines = 15 52126 Processing block number 16 2975 4377 6 1396 patch iptc,sj,dgj,dgi,id: 16 4377 206 200 1396 half line dmj dgc: 0 54381 277 114 Actual deskew ireclen: 20480 ** 16 2096 0 64976 Writing data negflag .eq. 0 sj>s1: 4377 2975 Zeroing lines in arrays Total # of output lines = 16 53528 4377 6473 0 2096 patch iptc,sj,dgj,dgi,id: 16 6473 206 206 2096 half line dmj dgc: 1 54381 277 114 Actual deskew ireclen: 20480 ** 16 2096 1 67072 Writing data negflag .eq. 0 sj>s1: 6473 4377 Zeroing lines in arrays Total # of output lines = 16 55624 Processing block number 17 6473 7900 31 1396 patch iptc,sj,dgj,dgi,id: 17 7900 237 206 1396 half line dmj dgc: 0 57873 276 114 Actual deskew ireclen: 20480 ** 17 2096 0 69168 Writing data negflag .eq. 0 sj>s1: 7900 6473 Zeroing lines in arrays Total # of output lines = 17 57051 7900 9996 0 2096 patch iptc,sj,dgj,dgi,id: 17 9996 237 237 2096 half line dmj dgc: 1 57873 276 114 Actual deskew ireclen: 20480 ** 17 2096 1 71264 Writing data negflag .eq. 0 sj>s1: 9996 7900 Zeroing lines in arrays Total # of output lines = 17 59147 Processing block number 18 9996 11451 59 1396 patch iptc,sj,dgj,dgi,id: 18 11451 296 237 1396 half line dmj dgc: 0 61365 298 114 Actual deskew ireclen: 20480 ** 18 2096 0 73360 Writing data negflag .eq. 0 sj>s1: 11451 9996 Zeroing lines in arrays Total # of output lines = 18 60602 11451 13547 0 2096 patch iptc,sj,dgj,dgi,id: 18 13547 296 296 2096 half line dmj dgc: 1 61365 298 114 Actual deskew ireclen: 20480 ** 18 2096 1 75456 Writing data negflag .eq. 0 sj>s1: 13547 11451 Zeroing lines in arrays Total # of output lines = 18 62698 Processing block number 19 13547 14936 -7 1396 patch iptc,sj,dgj,dgi,id: 19 14936 289 296 1396 half line dmj dgc: 0 64857 293 114 Actual deskew ireclen: 20480 ** 19 2096 0 77552 Writing data negflag .eq. 0 sj>s1: 14936 13547 Zeroing lines in arrays Total # of output lines = 19 64087 14936 17032 0 2096 patch iptc,sj,dgj,dgi,id: 19 648 289 289 2096 half line dmj dgc: 1 64857 293 114 Actual deskew ireclen: 20480 ** 19 2096 1 79648 Writing data negflag .eq. 0 s1>sj: 14936 648 Zeroing lines in arrays Total # of output lines = 19 66183 Processing block number 20 648 2015 -29 1396 patch iptc,sj,dgj,dgi,id: 20 2015 260 289 1396 half line dmj dgc: 0 68349 279 114 Actual deskew ireclen: 20480 ** 20 2096 0 81744 Writing data negflag .eq. 0 sj>s1: 2015 648 Zeroing lines in arrays Total # of output lines = 20 67550 2015 4111 0 2096 patch iptc,sj,dgj,dgi,id: 20 4111 260 260 2096 half line dmj dgc: 1 68349 279 114 Actual deskew ireclen: 20480 ** 20 2096 1 83840 Writing data negflag .eq. 0 sj>s1: 4111 2015 Zeroing lines in arrays Total # of output lines = 20 69646 Processing block number 21 4111 5541 34 1396 patch iptc,sj,dgj,dgi,id: 21 5541 294 260 1396 half line dmj dgc: 0 71841 300 114 Actual deskew ireclen: 20480 ** 21 2096 0 85936 Writing data negflag .eq. 0 sj>s1: 5541 4111 Zeroing lines in arrays Total # of output lines = 21 71076 5541 7637 0 2096 patch iptc,sj,dgj,dgi,id: 21 7637 294 294 2096 half line dmj dgc: 1 71841 300 114 Actual deskew ireclen: 20480 ** 21 2096 1 88032 Writing data negflag .eq. 0 sj>s1: 7637 5541 Zeroing lines in arrays Total # of output lines = 21 73172 Processing block number 22 7637 9056 23 1396 patch iptc,sj,dgj,dgi,id: 22 9056 317 294 1396 half line dmj dgc: 0 75333 330 114 Actual deskew ireclen: 20480 ** 22 2096 0 90128 Writing data negflag .eq. 0 sj>s1: 9056 7637 Zeroing lines in arrays Total # of output lines = 22 74591 9056 11152 0 2096 patch iptc,sj,dgj,dgi,id: 22 11152 317 317 2096 half line dmj dgc: 1 75333 330 114 Actual deskew ireclen: 20480 ** 22 2096 1 92224 Writing data negflag .eq. 0 sj>s1: 11152 9056 Zeroing lines in arrays Total # of output lines = 22 76687 Processing block number 23 11152 12510 -38 1396 patch iptc,sj,dgj,dgi,id: 23 12510 279 317 1396 half line dmj dgc: 0 78825 308 114 Actual deskew ireclen: 20480 ** 23 2096 0 94320 Writing data negflag .eq. 0 sj>s1: 12510 11152 Zeroing lines in arrays Total # of output lines = 23 78045 12510 14606 0 2096 patch iptc,sj,dgj,dgi,id: 23 14606 279 279 2096 half line dmj dgc: 1 78825 308 114 Actual deskew ireclen: 20480 ** 23 2096 1 96416 Writing data negflag .eq. 0 sj>s1: 14606 12510 Zeroing lines in arrays Total # of output lines = 23 80141 Processing block number 24 14606 15942 -60 1396 patch iptc,sj,dgj,dgi,id: 24 15942 219 279 1396 half line dmj dgc: 0 82317 284 114 Actual deskew ireclen: 20480 ** 24 2096 0 98512 Writing data negflag .eq. 0 sj>s1: 15942 14606 Zeroing lines in arrays Total # of output lines = 24 81477 15942 18038 0 2096 patch iptc,sj,dgj,dgi,id: 24 1654 219 219 2096 half line dmj dgc: 1 82317 284 114 Actual deskew ireclen: 20480 ** 24 2096 1 100608 Writing data negflag .eq. 0 s1>sj: 15942 1654 Zeroing lines in arrays Total # of output lines = 24 83573 Processing block number 25 1654 3047 -3 1396 patch iptc,sj,dgj,dgi,id: 25 3047 216 219 1396 half line dmj dgc: 0 85809 279 114 Actual deskew ireclen: 20480 ** 25 2096 0 102704 Writing data negflag .eq. 0 sj>s1: 3047 1654 Zeroing lines in arrays Total # of output lines = 25 84966 3047 5143 0 2096 patch iptc,sj,dgj,dgi,id: 25 5143 216 216 2096 half line dmj dgc: 1 85809 279 114 Actual deskew ireclen: 20480 ** 25 2096 1 104800 Writing data negflag .eq. 0 sj>s1: 5143 3047 Zeroing lines in arrays Total # of output lines = 25 87062 Processing block number 26 5143 6581 42 1396 patch iptc,sj,dgj,dgi,id: 26 6581 258 216 1396 half line dmj dgc: 0 89301 297 114 Actual deskew ireclen: 20480 ** 26 2096 0 106896 Writing data negflag .eq. 0 sj>s1: 6581 5143 Zeroing lines in arrays Total # of output lines = 26 88500 6581 8677 0 2096 patch iptc,sj,dgj,dgi,id: 26 8677 258 258 2096 half line dmj dgc: 1 89301 297 114 Actual deskew ireclen: 20480 ** 26 2096 1 108992 Writing data negflag .eq. 0 sj>s1: 8677 6581 Zeroing lines in arrays Total # of output lines = 26 90596 Processing block number 27 8677 10067 -6 1396 patch iptc,sj,dgj,dgi,id: 27 10067 252 258 1396 half line dmj dgc: 0 92793 306 114 Actual deskew ireclen: 20480 ** 27 2096 0 111088 Writing data negflag .eq. 0 sj>s1: 10067 8677 Zeroing lines in arrays Total # of output lines = 27 91986 10067 12163 0 2096 patch iptc,sj,dgj,dgi,id: 27 12163 252 252 2096 half line dmj dgc: 1 92793 306 114 Actual deskew ireclen: 20480 ** 27 2096 1 113184 Writing data negflag .eq. 0 sj>s1: 12163 10067 Zeroing lines in arrays Total # of output lines = 27 94082 Processing block number 28 12163 11063 -19 -1081 patch iptc,sj,dgj,dgi,id: 28 11063 233 252 -1081 half line dmj dgc: 0 93808 312 114 Actual deskew ireclen: 20480 ** 28 2096 0 115280 Zeroing lines in arrays Total # of output lines = 28 94082 12163 13159 0 2096 patch iptc,sj,dgj,dgi,id: 28 13159 233 233 2096 half line dmj dgc: 1 93808 312 114 Actual deskew ireclen: 20480 ** 28 2096 1 117376 Writing data negflag .eq. 0 sj>s1: 13159 12163 Zeroing lines in arrays Total # of output lines = 28 95078 ia dmi dgi: 13159 312 233 Writing the last 2175 lines last half sj>s1 15334 13159 95078 Total # of output lines = 97253 Writing new header.. Closing files .. ileni= 39 ilend= 35 /export/air32/airops/1400/ts1400_p.hv_j.0 /export/air32/airops/1400/deskew.ph.0 /export/air32/airops/1400/ts1400_p.hv_j.1 /export/air32/airops/1400/deskew.ph.1 /export/air32/airops/1400/ts1400_p.hv_j.2 /export/air32/airops/1400/deskew.ph.2 /export/air32/airops/1400/ts1400_p.hv_j.3 /export/air32/airops/1400/deskew.ph.3 /export/air32/airops/1400/ts1400_p.hv_j.4 /export/air32/airops/1400/deskew.ph.4 /export/air32/airops/1400/ts1400_p.hv_j.5 /export/air32/airops/1400/deskew.ph.5 /export/air32/airops/1400/ts1400_p.hv_j.6 /export/air32/airops/1400/deskew.ph.6 /export/air32/airops/1400/ts1400_p.hv_j.7 /export/air32/airops/1400/deskew.ph.7 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.35 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 1 AZ patch size: 8192 What is the desired az fract (def=1.0)? fract #: 0.0000000E+00 Please enter the name of the sensor file. /export/air32/airops/1400/sensor.pp Please enter the name of the parameter file /export/air36/airops/1400/ts1400_p.par hddt: 96068 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 100000 lines Keeping 4192 data points per patch Near range (m) = 9040.540 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 3.500000 Radar wavelength (m) = 0.7012700 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = -3.550000 Range weighting coefficient = 0.1000000 Map height (m) = 78.60000 Transmit leverarm x,y,z = 2.030000 0.5300000 -0.2200000 Receive leverarm x,y,z = 2.030000 0.5300000 -0.2200000 Name of raw data file? /export/air32/airops/1400/p_vh Name of the mocomp data file? /export/air36/airops/1400/ts1400_p.mocompv Output file name w/o ext? /export/air36/airops/1400/ts1400_p Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. vh Raw DIR Path:/export/air32/airops/1400/ output filename: /export/air32/airops/1400/ts1400_p.vh_j *** ipol itop: 3 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /export/air32/airops/1400/deskew.pv WAYNE init fft, calc slant range, load unpack, interpo 1.6044006E-02 reading motion compensation data WAYNE read motion compen 2.324040 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 AnalogChirp>96032Br,fs,T,fc 96068 40.00000 22.50000 90.00000 10.00000 deltaphase -ashift: 5.4456317E-03 3.550000 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.7595439 start range comp, time = 3.357 WAYNE PREV 3.117193 NUMBER OF PROCESSOR USED = 8 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 4 by # 0 Processing block number 1 TESTING WHY -6.4741098E-03 1.8001201E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 3.478 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 53.19712698459625 ATTN ifrq ipol ln 0 3 8192 8.000000 IPOL, ITOP nblock 3 0 1 WAYNE Motion comp. coeff. calculated, time = 1.1523008346557617E-02 TESTING 0.0000000E+00 -47.83489 0.2210412 WAYNE Motion comp. added to patch, time = 19.17236697673798 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.6689767837524414E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -47.83489 0.2210412 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -6.4741098E-03 1.8001201E-02 WAYNE Azimuth compression done, time = 345.8879289627075 Writing 4192 lines of data to file WAYNE write output data 12.00884497165680 ==w out 1 0 2001 0 WAYNE PROCESS 430.2820650339127 Processing block number 2 TESTING WHY -6.4040902E-03 1.7581699E-02 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 433.761 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 84.73002791404724 ATTN ifrq ipol ln 0 3 11684 8.000000 IPOL, ITOP nblock 3 0 2 WAYNE Motion comp. coeff. calculated, time = 1.1528015136718750E-02 TESTING 0.0000000E+00 -42.32028 0.4159560 WAYNE Motion comp. added to patch, time = 18.35985195636749 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.9426932334899902E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -42.32028 0.4159560 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -6.4040902E-03 1.7581699E-02 WAYNE Azimuth compression done, time = 346.6444269418716 Writing 4192 lines of data to file WAYNE write output data 1.895399928092957 ==w out 2 4192 2001 85852160 WAYNE PROCESS 451.6722840070724 Processing block number 3 TESTING WHY -5.7757902E-03 1.7326901E-02 3492 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 885.434 seconds. TESTING 6985 before reading done reading WAYNE load raw data , time = 101.7272579669952 ATTN ifrq ipol ln 0 3 15176 8.000000 IPOL, ITOP nblock 3 0 3 WAYNE Motion comp. coeff. calculated, time = 1.1671066284179688E-02 TESTING 0.0000000E+00 -37.07550 0.3170763 WAYNE Motion comp. added to patch, time = 18.87533903121948 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 3.1054973602294922E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -37.07550 0.3170763 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -5.7757902E-03 1.7326901E-02 WAYNE Azimuth compression done, time = 344.4490079879761 Writing 4192 lines of data to file WAYNE write ou PROCESSING KID# 6 ..... WAYNE IS IN Processing 20 to 22 by # 5 Processing block number 20 WAYNE PATCHES: 66349 74540 patch# 20 reference line: 70444 3.559 seconds. before reading done reading WAYNE load raw data , time = 53.49463903903961 ATTN ifrq ipol ln 0 3 74540 8.000000 IPOL, ITOP nblock 3 0 20 WAYNE Motion comp. coeff. calculated, time = 1.1488080024719238E-02 WAYNE Motion comp. added to patch, time = 18.27639794349670 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.9100179672241211E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.8295021057129 Writing 4192 lines of data to file WAYNE write output data 4.962506055831909 ==w out 20 0 2001 0 WAYNE PROCESS 422.5791900157928 Processing block number 21 WAYNE PATCHES: 69841 78032 patch# 21 reference line: 73936 426.139 seconds. before reading done reading WAYNE load raw data , time = 97.84917700290680 ATTN ifrq ipol ln 0 3 78032 8.000000 IPOL, ITOP nblock 3 0 21 WAYNE Motion comp. coeff. calculated, time = 1.1465072631835938E-02 WAYNE Motion comp. added to patch, time = 17.90072095394135 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.8948068618774414E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.6327940225601 Writing 4192 lines of data to file WAYNE write output data 7.751495003700256 ==w out 21 4192 2001 85852160 WAYNE PROCESS 469.1770420074463 Processing block number 22 WAYNE PATCHES: 73333 81524 patch# 22 reference line: 77428 895.317 seconds. before reading done reading WAYNE load raw data , time = 87.26197803020477 ATTN ifrq ipol ln 0 3 81524 8.000000 IPOL, ITOP nblock 3 0 22 WAYNE Motion comp. coeff. calculated, time = 1.1787056922912598E-02 WAYNE Motion comp. added to patch, time = 17.56424498558044 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 1.5264987945556641E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.2240660190582 Writing 4192 lines of data to file WAYNE write output data 19.15077698230743 ==w out 22 8384 2001 171704320 WAYNE PROCESS 469.2297880649567 ==w out 23 12579 PROCESSING KID# 7 ..... WAYNE IS IN Processing 23 to 25 by # 6 Processing block number 23 WAYNE PATCHES: 76825 85016 patch# 23 reference line: 80920 3.574 seconds. before reading done reading WAYNE load raw data , time = 53.63794600963593 ATTN ifrq ipol ln 0 3 85016 8.000000 IPOL, ITOP nblock 3 0 23 WAYNE Motion comp. coeff. calculated, time = 1.1628985404968262E-02 WAYNE Motion comp. added to patch, time = 18.78774404525757 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.6519298553466797E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.1364480257034 Writing 4192 lines of data to file WAYNE write output data 3.926049947738647 ==w out 23 0 2001 0 WAYNE PROCESS 422.5040979385376 Processing block number 24 WAYNE PATCHES: 80317 88508 patch# 24 reference line: 84412 426.079 seconds. before reading done reading WAYNE load raw data , time = 96.74820601940155 ATTN ifrq ipol ln 0 3 88508 8.000000 IPOL, ITOP nblock 3 0 24 WAYNE Motion comp. coeff. calculated, time = 1.1640906333923340E-02 WAYNE Motion comp. added to patch, time = 17.89863491058350 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 3.5864949226379395E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.3029260635376 Writing 4192 lines of data to file WAYNE write output data 4.934093952178955 ==w out 24 4192 2001 85852160 WAYNE PROCESS 465.9336179494858 Processing block number 25 WAYNE PATCHES: 83809 92000 patch# 25 reference line: 87904 892.013 seconds. before reading done reading WAYNE load raw data , time = 90.90872895717621 ATTN ifrq ipol ln 0 3 92000 8.000000 IPOL, ITOP nblock 3 0 25 WAYNE Motion comp. coeff. calculated, time = 1.1582016944885254E-02 WAYNE Motion comp. added to patch, time = 16.99443995952606 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 8.9071989059448242E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.5158640146255 Writing 4192 lines of data to file WAYNE write output data 19.09704899787903 ==w out 25 8384 2001 171704320 WAYNE PROCESS 472.6186449527740 ==w out 26 12579 PROCESSING KID# 5 ..... WAYNE IS IN Processing 17 to 19 by # 4 Processing block number 17 WAYNE PATCHES: 55873 64064 patch# 17 reference line: 59968 3.545 seconds. before reading done reading WAYNE load raw data , time = 52.38847196102142 ATTN ifrq ipol ln 0 3 64064 8.000000 IPOL, ITOP nblock 3 0 17 WAYNE Motion comp. coeff. calculated, time = 1.1768937110900879E-02 WAYNE Motion comp. added to patch, time = 18.60253608226776 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.6339292526245117E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.8981469869614 Writing 4192 lines of data to file WAYNE write output data 6.878120064735413 ==w out 17 0 2001 0 WAYNE PROCESS 424.7833510637283 Processing block number 18 WAYNE PATCHES: 59365 67556 patch# 18 reference line: 63460 428.329 seconds. before reading done reading WAYNE load raw data , time = 90.42573201656342 ATTN ifrq ipol ln 0 3 67556 8.000000 IPOL, ITOP nblock 3 0 18 WAYNE Motion comp. coeff. calculated, time = 1.1566996574401855E-02 WAYNE Motion comp. added to patch, time = 18.06162703037262 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 8.8817954063415527E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.4670820236206 Writing 4192 lines of data to file WAYNE write output data 9.602395057678223 ==w out 18 4192 2001 85852160 WAYNE PROCESS 466.6595010757446 Processing block number 19 WAYNE PATCHES: 62857 71048 patch# 19 reference line: 66952 894.989 seconds. before reading done reading WAYNE load raw data , time = 87.22865402698517 ATTN ifrq ipol ln 0 3 71048 8.000000 IPOL, ITOP nblock 3 0 19 WAYNE Motion comp. coeff. calculated, time = 1.2032985687255859E-02 WAYNE Motion comp. added to patch, time = 17.35594499111176 WAYNE Doppler estimation done, time = 9.8943710327148438E-06 WAYNE write deskew done, time = 8.5294961929321289E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.0522470474243 Writing 4192 lines of data to file WAYNE write output data 19.08990204334259 ==w out 19 8384 2001 171704320 WAYNE PROCESS 469.8255710601807 ==w out 20 12579 PROCESSING KID# 8 ..... WAYNE IS IN Processing 26 to 28 by # 7 Processing block number 26 WAYNE PATCHES: 87301 95492 patch# 26 reference line: 91396 3.591 seconds. before reading done reading WAYNE load raw data , time = 55.00004100799561 ATTN ifrq ipol ln 0 3 95492 8.000000 IPOL, ITOP nblock 3 0 26 WAYNE Motion comp. coeff. calculated, time = 1.1656999588012695E-02 WAYNE Motion comp. added to patch, time = 18.32387006282806 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.9000043869018555E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.2075210809708 Writing 4192 lines of data to file WAYNE write output data 31.70532000064850 ==w out 26 0 2001 0 WAYNE PROCESS 451.2531169652939 Processing block number 27 WAYNE PATCHES: 90793 98984 patch# 27 reference line: 94888 454.877 seconds. before reading done reading WAYNE load raw data , time = 78.30655908584595 ATTN ifrq ipol ln 0 3 98984 8.000000 IPOL, ITOP nblock 3 0 27 WAYNE Motion comp. coeff. calculated, time = 1.1642932891845703E-02 WAYNE Motion comp. added to patch, time = 17.32547295093536 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.8421998023986816E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.1555169820786 Writing 4192 lines of data to file WAYNE write output data 22.15246093273163 ==w out 27 4192 2001 85852160 WAYNE PROCESS 462.9825879335403 Processing block number 28 WAYNE PATCHES: 91808 99999 patch# 28 reference line: 95903 917.859 seconds. before reading done reading WAYNE load raw data , time = 66.26548600196838 ATTN ifrq ipol ln 0 3 99999 8.000000 IPOL, ITOP nblock 3 0 28 WAYNE Motion comp. coeff. calculated, time = 1.1607050895690918E-02 WAYNE Motion comp. added to patch, time = 17.00104391574860 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 3.7438035011291504E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.4064199924469 Writing 4192 lines of data to file WAYNE write output data 22.54107511043549 ==w out 28 8384 2001 171704320 WAYNE PROCESS 451.2645640373230 ==w out 29 12579 PROCESSING KID# 3 ..... WAYNE IS IN Processing 9 to 12 by # 2 Processing block number 9 WAYNE PATCHES: 27937 36128 patch# 9 reference line: 32032 3.515 seconds. before reading done reading WAYNE load raw data , time = 51.92920696735382 ATTN ifrq ipol ln 0 3 36128 8.000000 IPOL, ITOP nblock 3 0 9 WAYNE Motion comp. coeff. calculated, time = 1.1824965476989746E-02 WAYNE Motion comp. added to patch, time = 19.13421893119812 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 4.6647906303405762E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.1657649278641 Writing 4192 lines of data to file WAYNE write output data 2.234787106513977 ==w out 9 0 2001 0 WAYNE PROCESS 419.5242440700531 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 423.039 seconds. before reading done reading WAYNE load raw data , time = 110.5801920890808 ATTN ifrq ipol ln 0 3 39620 8.000000 IPOL, ITOP nblock 3 0 10 WAYNE Motion comp. coeff. calculated, time = 1.1566996574401855E-02 WAYNE Motion comp. added to patch, time = 18.34047508239746 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 3.4446954727172852E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.3100279569626 Writing 4192 lines of data to file WAYNE write output data 20.41097402572632 ==w out 10 4192 2001 85852160 WAYNE PROCESS 494.6901921033859 Processing block number 11 WAYNE PATCHES: 34921 43112 patch# 11 reference line: 39016 917.730 seconds. before reading done reading WAYNE load raw data , time = 64.24820601940155 ATTN ifrq ipol ln 0 3 43112 8.000000 IPOL, ITOP nblock 3 0 11 WAYNE Motion comp. coeff. calculated, time = 1.1888980865478516E-02 WAYNE Motion comp. added to patch, time = 17.29607903957367 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 2.7121067047119141E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 344.7752330303192 Writing 4192 lines of data to file WAYNE write output data 1.784395098686218 ==w out 11 8384 2001 171704320 WAYNE PROCESS 428.1444680690765 Processing block number 12 WAYNE PATCHES: 38413 46604 patch# 12 reference line: 42508 1345.874 seconds. before reading done reading WAYNE load raw data , time = 87.99868988990784 ATTN ifrq ipol ln 0 3 46604 8.000000 IPOL, ITOP nblock 3 0 12 WAYNE Motion comp. coeff. calculated, time = 1.1551976203918457E-02 WAYNE Motion comp. added to patch, time = 15.74551498889923 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.1162033081054688E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migrati PROCESSING KID# 4 ..... WAYNE IS IN Processing 13 to 16 by # 3 Processing block number 13 WAYNE PATCHES: 41905 50096 patch# 13 reference line: 46000 3.532 seconds. before reading done reading WAYNE load raw data , time = 53.98066699504852 ATTN ifrq ipol ln 0 3 50096 8.000000 IPOL, ITOP nblock 3 0 13 WAYNE Motion comp. coeff. calculated, time = 1.1821031570434570E-02 WAYNE Motion comp. added to patch, time = 18.62237989902496 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.7790069580078125E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.1013979911804 Writing 4192 lines of data to file WAYNE write output data 9.309022068977356 ==w out 13 0 2001 0 WAYNE PROCESS 428.0299710035324 Processing block number 14 WAYNE PATCHES: 45397 53588 patch# 14 reference line: 49492 431.562 seconds. before reading done reading WAYNE load raw data , time = 89.16804301738739 ATTN ifrq ipol ln 0 3 53588 8.000000 IPOL, ITOP nblock 3 0 14 WAYNE Motion comp. coeff. calculated, time = 1.1456966400146484E-02 WAYNE Motion comp. added to patch, time = 17.81820595264435 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.9731988906860352E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.8832089900970 Writing 4192 lines of data to file WAYNE write output data 7.008385062217712 ==w out 14 4192 2001 85852160 WAYNE PROCESS 459.9210290908813 Processing block number 15 WAYNE PATCHES: 48889 57080 patch# 15 reference line: 52984 891.484 seconds. before reading done reading WAYNE load raw data , time = 92.49559307098389 ATTN ifrq ipol ln 0 3 57080 8.000000 IPOL, ITOP nblock 3 0 15 WAYNE Motion comp. coeff. calculated, time = 1.1529088020324707E-02 WAYNE Motion comp. added to patch, time = 17.51482892036438 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 6.8680047988891602E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.7410640716553 Writing 4192 lines of data to file WAYNE write output data 8.763406991958618 ==w out 15 8384 2001 171704320 WAYNE PROCESS 464.5348479747772 Processing block number 16 WAYNE PATCHES: 52381 60572 patch# 16 reference line: 56476 1356.019 seconds. before reading done reading WAYNE load raw data , time = 79.65767204761505 ATTN ifrq ipol ln 0 3 60572 8.000000 IPOL, ITOP nblock 3 0 16 WAYNE Motion comp. coeff. calculated, time = 1.1478066444396973E-02 WAYNE Motion comp. added to patch, time = 16.16395092010498 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.8578042984008789E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migrati PROCESSING KID# 2 ..... WAYNE IS IN Processing 5 to 8 by # 1 Processing block number 5 WAYNE PATCHES: 13969 22160 patch# 5 reference line: 18064 3.495 seconds. before reading done reading WAYNE load raw data , time = 53.91534900665283 ATTN ifrq ipol ln 0 3 22160 8.000000 IPOL, ITOP nblock 3 0 5 WAYNE Motion comp. coeff. calculated, time = 1.1510968208312988E-02 WAYNE Motion comp. added to patch, time = 18.64120495319366 WAYNE Doppler estimation done, time = 2.6941299438476563E-05 WAYNE write deskew done, time = 2.7780532836914063E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.2730679512024 Writing 4192 lines of data to file WAYNE write output data 11.41957902908325 ==w out 5 0 2001 0 WAYNE PROCESS 430.2654349803925 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 433.761 seconds. before reading done reading WAYNE load raw data , time = 86.85445106029510 ATTN ifrq ipol ln 0 3 25652 8.000000 IPOL, ITOP nblock 3 0 6 WAYNE Motion comp. coeff. calculated, time = 1.1442065238952637E-02 WAYNE Motion comp. added to patch, time = 18.19216203689575 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 8.1626057624816895E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.2349259853363 Writing 4192 lines of data to file WAYNE write output data 8.900768995285034 ==w out 6 4192 2001 85852160 WAYNE PROCESS 460.2774019241333 Processing block number 7 WAYNE PATCHES: 20953 29144 patch# 7 reference line: 25048 894.039 seconds. before reading done reading WAYNE load raw data , time = 88.30773401260376 ATTN ifrq ipol ln 0 3 29144 8.000000 IPOL, ITOP nblock 3 0 7 WAYNE Motion comp. coeff. calculated, time = 1.5182018280029297E-02 WAYNE Motion comp. added to patch, time = 17.65048301219940 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.4886965751647949E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.5876450538635 Writing 4192 lines of data to file WAYNE write output data 1.966660976409912 ==w out 7 8384 2001 171704320 WAYNE PROCESS 453.5541629791260 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 1347.593 seconds. before reading done reading WAYNE load raw data , time = 91.90244901180267 ATTN ifrq ipol ln 0 3 32636 8.000000 IPOL, ITOP nblock 3 0 8 WAYNE Motion comp. coeff. calculated, time = 1.1512994766235352E-02 WAYNE Motion comp. added to patch, time = 16.84343802928925 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.6925086975097656E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 271.1861499547958 Writing 4192 lines of data to file WAYNE write output data 1.716365098953247 ==w out 12 12576 2001 257556480 WAYNE PROCESS 376.6808379888535 ==w out 13 16771 tput data 13.41166496276855 ==w out 3 8384 2001 171704320 WAYNE PROCESS 478.5076339244843 Processing block number 4 TESTING WHY -5.3123902E-03 1.7652800E-02 3492 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 1363.951 seconds. TESTING 10477 before reading done reading WAYNE load raw data , time = 71.53041505813599 ATTN ifrq ipol ln 0 3 18668 8.000000 IPOL, ITOP nblock 3 0 4 WAYNE Motion comp. coeff. calculated, time = 1.1572957038879395E-02 TESTING 0.0000000E+00 -32.53371 -0.3230651 WAYNE Motion comp. added to patch, time = 16.18284904956818 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.5123953819274902E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -32.53371 -0.3230651 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -5.3123902E-03 1.7652800E-02 WAYNE Azimuth compression done, time = 269.4635800123215 Writing 4192 lines of data to file WAYNE write output data 1.733340024948120 ==w out 4 12576 2001 257556480 WAYNE PROCESS 358.9485100507736 ==w out 5 16771 on lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 272.3682860136032 Writing 4192 lines of data to file WAYNE write output data 1.628710985183716 ==w out 16 12576 2001 257556480 WAYNE PROCESS 369.8602640628815 ==w out 17 16771 on lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 271.6563699245453 Writing 4192 lines of data to file WAYNE write output data 1.631600975990295 ==w out 8 12576 2001 257556480 WAYNE PROCESS 382.0739220380783 ==w out 9 16771 1 12536301 0 2 12534899 0 3 12533246 0 4 12536216 0 5 12536568 0 6 12535267 0 7 12536254 0 8 12534949 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 117376kids= 8 Writing variable header... gather image from processor # 0 4 gather image from processor # 1 4 gather image from processor # 2 4 gather image from processor # 3 4 gather image from processor # 4 3 gather image from processor # 5 3 gather image from processor # 6 3 gather image from processor # 7 3 WAYNE gather images takes: 11.24537110328674 WAYNE LOOP TIME: 1749.378116011620 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air32/airops/1400/ts1400_p.vh_j /export/air36/airops/1400/ts1400_p.mocompv /export/air36/airops/1400/ts1400_p.dop /export/air36/airops/1400/ts1400_p.glb 2560 117376 update intf hdr ha: 8367.900 UPDATE: 2560 117376 3.331000 0.5144000 mocompfile /export/air36/airops/1400/ts1400_p.mocompv dopfile /export/air36/airops/1400/ts1400_p.dop globalfile /export/air36/airops/1400/ts1400_p.glb /export/air36/airops/1400/ts1400_p.glb 38 deskew line ra ha trc: 128.5260 249 9042.366 8367.900 54.57177 after deskew line ra ha trc: 128.5260 249 9042.366 8367.900 54.57177 lat1 lon1: 249 4.813068 114.7795 117376 last ra n_ns ns: 9042.366 1 1 117624 117376 lati loni: 117624 5.129428 115.2615 117624 1 center ra n_ns ns: 13302.71 1280 1280 58936 117376 lati loni: 58936 5.002770 114.9983 58936 2560 Updated paramater header in /export/air32/airops/1400/ts1400_p.vh_j WAYNE FINAL PROCESS 1752.858134984970 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 8 16768 4 16768 4 16768 4 16768 4 12576 3 12576 3 12576 3 12576 3 Name of data file to be deskewed? /export/air32/airops/1400/ts1400_p.vh_j Name of the doppler parameter file? /export/air36/airops/1400/ts1400_p.dop Name of the deskew file? /export/air32/airops/1400/deskew.pv Line up to another frequency [y/n]? y Name of the deskew file to line up to? /export/air32/airops/1400/deskew.ch Enter N_AZ, NA_VALID and the ratio of the pixel spacing of the file to line up to relative to the current pixel spacing. 4096 2208 1.000000 Name of the output file? /export/air36/airops/1400/ts1400_p.vh Name of the line output file? /export/air36/airops/1400/p_lines.dat NONE-SYMMETRIC PARALLEL JOBS Deskewing 28 patches Processing block number 1 patch iptc,sj,dgj,dgi,id: 1 1041 98 98 0 half line dmj dgc: 0 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1041 1 Zeroing lines in arrays Total # of output lines = 1 1040 1041 3137 0 2096 patch iptc,sj,dgj,dgi,id: 1 3137 98 98 2096 half line dmj dgc: 1 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3137 1041 Zeroing lines in arrays Total # of output lines = 1 3136 Processing block number 2 3137 4528 -5 1396 patch iptc,sj,dgj,dgi,id: 2 4528 93 98 1396 half line dmj dgc: 0 5493 243 114 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 4528 3137 Zeroing lines in arrays Total # of output lines = 2 4527 4528 6624 0 2096 patch iptc,sj,dgj,dgi,id: 2 6624 93 93 2096 half line dmj dgc: 1 5493 243 114 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 6624 4528 Zeroing lines in arrays Total # of output lines = 2 6623 Processing block number 3 6624 8035 15 1396 patch iptc,sj,dgj,dgi,id: 3 8035 108 93 1396 half line dmj dgc: 0 8985 243 114 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 8035 6624 Zeroing lines in arrays Total # of output lines = 3 8034 8035 10131 0 2096 patch iptc,sj,dgj,dgi,id: 3 10131 108 108 2096 half line dmj dgc: 1 8985 243 114 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 10131 8035 Zeroing lines in arrays Total # of output lines = 3 10130 Processing block number 4 10131 11546 19 1396 patch iptc,sj,dgj,dgi,id: 4 11546 127 108 1396 half line dmj dgc: 0 12477 251 114 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 11546 10131 Zeroing lines in arrays Total # of output lines = 4 11545 11546 13642 0 2096 patch iptc,sj,dgj,dgi,id: 4 13642 127 127 2096 half line dmj dgc: 1 12477 251 114 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 sj>s1: 13642 11546 Zeroing lines in arrays Total # of output lines = 4 13641 Processing block number 5 13642 15008 -30 1396 patch iptc,sj,dgj,dgi,id: 5 15008 97 127 1396 half line dmj dgc: 0 15969 251 114 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 15008 13642 Zeroing lines in arrays Total # of output lines = 5 15007 15008 17104 0 2096 patch iptc,sj,dgj,dgi,id: 5 720 97 97 2096 half line dmj dgc: 1 15969 251 114 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 s1>sj: 15008 720 Zeroing lines in arrays Total # of output lines = 5 17103 Processing block number 6 720 2050 -66 1396 patch iptc,sj,dgj,dgi,id: 6 2050 31 97 1396 half line dmj dgc: 0 19461 242 114 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 2050 720 Zeroing lines in arrays Total # of output lines = 6 18433 2050 4146 0 2096 patch iptc,sj,dgj,dgi,id: 6 4146 31 31 2096 half line dmj dgc: 1 19461 242 114 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 4146 2050 Zeroing lines in arrays Total # of output lines = 6 20529 Processing block number 7 4146 5525 -17 1396 patch iptc,sj,dgj,dgi,id: 7 5525 14 31 1396 half line dmj dgc: 0 22953 241 114 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 5525 4146 Zeroing lines in arrays Total # of output lines = 7 21908 5525 7621 0 2096 patch iptc,sj,dgj,dgi,id: 7 7621 14 14 2096 half line dmj dgc: 1 22953 241 114 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 7621 5525 Zeroing lines in arrays Total # of output lines = 7 24004 Processing block number 8 7621 9046 29 1396 patch iptc,sj,dgj,dgi,id: 8 9046 43 14 1396 half line dmj dgc: 0 26445 249 114 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 sj>s1: 9046 7621 Zeroing lines in arrays Total # of output lines = 8 25429 9046 11142 0 2096 patch iptc,sj,dgj,dgi,id: 8 11142 43 43 2096 half line dmj dgc: 1 26445 249 114 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 sj>s1: 11142 9046 Zeroing lines in arrays Total # of output lines = 8 27525 Processing block number 9 11142 12562 24 1396 patch iptc,sj,dgj,dgi,id: 9 12562 67 43 1396 half line dmj dgc: 0 29937 255 114 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 12562 11142 Zeroing lines in arrays Total # of output lines = 9 28945 12562 14658 0 2096 patch iptc,sj,dgj,dgi,id: 9 14658 67 67 2096 half line dmj dgc: 1 29937 255 114 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 14658 12562 Zeroing lines in arrays Total # of output lines = 9 31041 Processing block number 10 14658 16072 18 1396 patch iptc,sj,dgj,dgi,id: 10 16072 85 67 1396 half line dmj dgc: 0 33429 255 114 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 16072 14658 Zeroing lines in arrays Total # of output lines = 10 32455 16072 18168 0 2096 patch iptc,sj,dgj,dgi,id: 10 1784 85 85 2096 half line dmj dgc: 1 33429 255 114 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 s1>sj: 16072 1784 Zeroing lines in arrays Total # of output lines = 10 34551 Processing block number 11 1784 3217 37 1396 patch iptc,sj,dgj,dgi,id: 11 3217 122 85 1396 half line dmj dgc: 0 36921 260 114 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 3217 1784 Zeroing lines in arrays Total # of output lines = 11 35984 3217 5313 0 2096 patch iptc,sj,dgj,dgi,id: 11 5313 122 122 2096 half line dmj dgc: 1 36921 260 114 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 sj>s1: 5313 3217 Zeroing lines in arrays Total # of output lines = 11 38080 Processing block number 12 5313 6728 19 1396 patch iptc,sj,dgj,dgi,id: 12 6728 141 122 1396 half line dmj dgc: 0 40413 269 114 Actual deskew ireclen: 20480 ** 12 2096 0 48208 Writing data negflag .eq. 0 sj>s1: 6728 5313 Zeroing lines in arrays Total # of output lines = 12 39495 6728 8824 0 2096 patch iptc,sj,dgj,dgi,id: 12 8824 141 141 2096 half line dmj dgc: 1 40413 269 114 Actual deskew ireclen: 20480 ** 12 2096 1 50304 Writing data negflag .eq. 0 sj>s1: 8824 6728 Zeroing lines in arrays Total # of output lines = 12 41591 Processing block number 13 8824 10226 6 1396 patch iptc,sj,dgj,dgi,id: 13 10226 147 141 1396 half line dmj dgc: 0 43905 276 114 Actual deskew ireclen: 20480 ** 13 2096 0 52400 Writing data negflag .eq. 0 sj>s1: 10226 8824 Zeroing lines in arrays Total # of output lines = 13 42993 10226 12322 0 2096 patch iptc,sj,dgj,dgi,id: 13 12322 147 147 2096 half line dmj dgc: 1 43905 276 114 Actual deskew ireclen: 20480 ** 13 2096 1 54496 Writing data negflag .eq. 0 sj>s1: 12322 10226 Zeroing lines in arrays Total # of output lines = 13 45089 Processing block number 14 12322 13761 43 1396 patch iptc,sj,dgj,dgi,id: 14 13761 190 147 1396 half line dmj dgc: 0 47397 286 114 Actual deskew ireclen: 20480 ** 14 2096 0 56592 Writing data negflag .eq. 0 sj>s1: 13761 12322 Zeroing lines in arrays Total # of output lines = 14 46528 13761 15857 0 2096 patch iptc,sj,dgj,dgi,id: 14 15857 190 190 2096 half line dmj dgc: 1 47397 286 114 Actual deskew ireclen: 20480 ** 14 2096 1 58688 Writing data negflag .eq. 0 sj>s1: 15857 13761 Zeroing lines in arrays Total # of output lines = 14 48624 Processing block number 15 15857 17263 10 1396 patch iptc,sj,dgj,dgi,id: 15 879 200 190 1396 half line dmj dgc: 0 50889 286 114 Actual deskew ireclen: 20480 ** 15 2096 0 60784 Writing data negflag .eq. 0 s1>sj: 15857 879 Zeroing lines in arrays Total # of output lines = 15 50030 879 2975 0 2096 patch iptc,sj,dgj,dgi,id: 15 2975 200 200 2096 half line dmj dgc: 1 50889 286 114 Actual deskew ireclen: 20480 ** 15 2096 1 62880 Writing data negflag .eq. 0 sj>s1: 2975 879 Zeroing lines in arrays Total # of output lines = 15 52126 Processing block number 16 2975 4377 6 1396 patch iptc,sj,dgj,dgi,id: 16 4377 206 200 1396 half line dmj dgc: 0 54381 277 114 Actual deskew ireclen: 20480 ** 16 2096 0 64976 Writing data negflag .eq. 0 sj>s1: 4377 2975 Zeroing lines in arrays Total # of output lines = 16 53528 4377 6473 0 2096 patch iptc,sj,dgj,dgi,id: 16 6473 206 206 2096 half line dmj dgc: 1 54381 277 114 Actual deskew ireclen: 20480 ** 16 2096 1 67072 Writing data negflag .eq. 0 sj>s1: 6473 4377 Zeroing lines in arrays Total # of output lines = 16 55624 Processing block number 17 6473 7900 31 1396 patch iptc,sj,dgj,dgi,id: 17 7900 237 206 1396 half line dmj dgc: 0 57873 276 114 Actual deskew ireclen: 20480 ** 17 2096 0 69168 Writing data negflag .eq. 0 sj>s1: 7900 6473 Zeroing lines in arrays Total # of output lines = 17 57051 7900 9996 0 2096 patch iptc,sj,dgj,dgi,id: 17 9996 237 237 2096 half line dmj dgc: 1 57873 276 114 Actual deskew ireclen: 20480 ** 17 2096 1 71264 Writing data negflag .eq. 0 sj>s1: 9996 7900 Zeroing lines in arrays Total # of output lines = 17 59147 Processing block number 18 9996 11451 59 1396 patch iptc,sj,dgj,dgi,id: 18 11451 296 237 1396 half line dmj dgc: 0 61365 298 114 Actual deskew ireclen: 20480 ** 18 2096 0 73360 Writing data negflag .eq. 0 sj>s1: 11451 9996 Zeroing lines in arrays Total # of output lines = 18 60602 11451 13547 0 2096 patch iptc,sj,dgj,dgi,id: 18 13547 296 296 2096 half line dmj dgc: 1 61365 298 114 Actual deskew ireclen: 20480 ** 18 2096 1 75456 Writing data negflag .eq. 0 sj>s1: 13547 11451 Zeroing lines in arrays Total # of output lines = 18 62698 Processing block number 19 13547 14936 -7 1396 patch iptc,sj,dgj,dgi,id: 19 14936 289 296 1396 half line dmj dgc: 0 64857 293 114 Actual deskew ireclen: 20480 ** 19 2096 0 77552 Writing data negflag .eq. 0 sj>s1: 14936 13547 Zeroing lines in arrays Total # of output lines = 19 64087 14936 17032 0 2096 patch iptc,sj,dgj,dgi,id: 19 648 289 289 2096 half line dmj dgc: 1 64857 293 114 Actual deskew ireclen: 20480 ** 19 2096 1 79648 Writing data negflag .eq. 0 s1>sj: 14936 648 Zeroing lines in arrays Total # of output lines = 19 66183 Processing block number 20 648 2015 -29 1396 patch iptc,sj,dgj,dgi,id: 20 2015 260 289 1396 half line dmj dgc: 0 68349 279 114 Actual deskew ireclen: 20480 ** 20 2096 0 81744 Writing data negflag .eq. 0 sj>s1: 2015 648 Zeroing lines in arrays Total # of output lines = 20 67550 2015 4111 0 2096 patch iptc,sj,dgj,dgi,id: 20 4111 260 260 2096 half line dmj dgc: 1 68349 279 114 Actual deskew ireclen: 20480 ** 20 2096 1 83840 Writing data negflag .eq. 0 sj>s1: 4111 2015 Zeroing lines in arrays Total # of output lines = 20 69646 Processing block number 21 4111 5541 34 1396 patch iptc,sj,dgj,dgi,id: 21 5541 294 260 1396 half line dmj dgc: 0 71841 300 114 Actual deskew ireclen: 20480 ** 21 2096 0 85936 Writing data negflag .eq. 0 sj>s1: 5541 4111 Zeroing lines in arrays Total # of output lines = 21 71076 5541 7637 0 2096 patch iptc,sj,dgj,dgi,id: 21 7637 294 294 2096 half line dmj dgc: 1 71841 300 114 Actual deskew ireclen: 20480 ** 21 2096 1 88032 Writing data negflag .eq. 0 sj>s1: 7637 5541 Zeroing lines in arrays Total # of output lines = 21 73172 Processing block number 22 7637 9056 23 1396 patch iptc,sj,dgj,dgi,id: 22 9056 317 294 1396 half line dmj dgc: 0 75333 330 114 Actual deskew ireclen: 20480 ** 22 2096 0 90128 Writing data negflag .eq. 0 sj>s1: 9056 7637 Zeroing lines in arrays Total # of output lines = 22 74591 9056 11152 0 2096 patch iptc,sj,dgj,dgi,id: 22 11152 317 317 2096 half line dmj dgc: 1 75333 330 114 Actual deskew ireclen: 20480 ** 22 2096 1 92224 Writing data negflag .eq. 0 sj>s1: 11152 9056 Zeroing lines in arrays Total # of output lines = 22 76687 Processing block number 23 11152 12510 -38 1396 patch iptc,sj,dgj,dgi,id: 23 12510 279 317 1396 half line dmj dgc: 0 78825 308 114 Actual deskew ireclen: 20480 ** 23 2096 0 94320 Writing data negflag .eq. 0 sj>s1: 12510 11152 Zeroing lines in arrays Total # of output lines = 23 78045 12510 14606 0 2096 patch iptc,sj,dgj,dgi,id: 23 14606 279 279 2096 half line dmj dgc: 1 78825 308 114 Actual deskew ireclen: 20480 ** 23 2096 1 96416 Writing data negflag .eq. 0 sj>s1: 14606 12510 Zeroing lines in arrays Total # of output lines = 23 80141 Processing block number 24 14606 15942 -60 1396 patch iptc,sj,dgj,dgi,id: 24 15942 219 279 1396 half line dmj dgc: 0 82317 284 114 Actual deskew ireclen: 20480 ** 24 2096 0 98512 Writing data negflag .eq. 0 sj>s1: 15942 14606 Zeroing lines in arrays Total # of output lines = 24 81477 15942 18038 0 2096 patch iptc,sj,dgj,dgi,id: 24 1654 219 219 2096 half line dmj dgc: 1 82317 284 114 Actual deskew ireclen: 20480 ** 24 2096 1 100608 Writing data negflag .eq. 0 s1>sj: 15942 1654 Zeroing lines in arrays Total # of output lines = 24 83573 Processing block number 25 1654 3047 -3 1396 patch iptc,sj,dgj,dgi,id: 25 3047 216 219 1396 half line dmj dgc: 0 85809 279 114 Actual deskew ireclen: 20480 ** 25 2096 0 102704 Writing data negflag .eq. 0 sj>s1: 3047 1654 Zeroing lines in arrays Total # of output lines = 25 84966 3047 5143 0 2096 patch iptc,sj,dgj,dgi,id: 25 5143 216 216 2096 half line dmj dgc: 1 85809 279 114 Actual deskew ireclen: 20480 ** 25 2096 1 104800 Writing data negflag .eq. 0 sj>s1: 5143 3047 Zeroing lines in arrays Total # of output lines = 25 87062 Processing block number 26 5143 6581 42 1396 patch iptc,sj,dgj,dgi,id: 26 6581 258 216 1396 half line dmj dgc: 0 89301 297 114 Actual deskew ireclen: 20480 ** 26 2096 0 106896 Writing data negflag .eq. 0 sj>s1: 6581 5143 Zeroing lines in arrays Total # of output lines = 26 88500 6581 8677 0 2096 patch iptc,sj,dgj,dgi,id: 26 8677 258 258 2096 half line dmj dgc: 1 89301 297 114 Actual deskew ireclen: 20480 ** 26 2096 1 108992 Writing data negflag .eq. 0 sj>s1: 8677 6581 Zeroing lines in arrays Total # of output lines = 26 90596 Processing block number 27 8677 10067 -6 1396 patch iptc,sj,dgj,dgi,id: 27 10067 252 258 1396 half line dmj dgc: 0 92793 306 114 Actual deskew ireclen: 20480 ** 27 2096 0 111088 Writing data negflag .eq. 0 sj>s1: 10067 8677 Zeroing lines in arrays Total # of output lines = 27 91986 10067 12163 0 2096 patch iptc,sj,dgj,dgi,id: 27 12163 252 252 2096 half line dmj dgc: 1 92793 306 114 Actual deskew ireclen: 20480 ** 27 2096 1 113184 Writing data negflag .eq. 0 sj>s1: 12163 10067 Zeroing lines in arrays Total # of output lines = 27 94082 Processing block number 28 12163 11063 -19 -1081 patch iptc,sj,dgj,dgi,id: 28 11063 233 252 -1081 half line dmj dgc: 0 93808 312 114 Actual deskew ireclen: 20480 ** 28 2096 0 115280 Zeroing lines in arrays Total # of output lines = 28 94082 12163 13159 0 2096 patch iptc,sj,dgj,dgi,id: 28 13159 233 233 2096 half line dmj dgc: 1 93808 312 114 Actual deskew ireclen: 20480 ** 28 2096 1 117376 Writing data negflag .eq. 0 sj>s1: 13159 12163 Zeroing lines in arrays Total # of output lines = 28 95078 ia dmi dgi: 13159 312 233 Writing the last 2175 lines last half sj>s1 15334 13159 95078 Total # of output lines = 97253 Writing new header.. Closing files .. ileni= 39 ilend= 35 /export/air32/airops/1400/ts1400_p.vh_j.0 /export/air32/airops/1400/deskew.pv.0 /export/air32/airops/1400/ts1400_p.vh_j.1 /export/air32/airops/1400/deskew.pv.1 /export/air32/airops/1400/ts1400_p.vh_j.2 /export/air32/airops/1400/deskew.pv.2 /export/air32/airops/1400/ts1400_p.vh_j.3 /export/air32/airops/1400/deskew.pv.3 /export/air32/airops/1400/ts1400_p.vh_j.4 /export/air32/airops/1400/deskew.pv.4 /export/air32/airops/1400/ts1400_p.vh_j.5 /export/air32/airops/1400/deskew.pv.5 /export/air32/airops/1400/ts1400_p.vh_j.6 /export/air32/airops/1400/deskew.pv.6 /export/air32/airops/1400/ts1400_p.vh_j.7 /export/air32/airops/1400/deskew.pv.7 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.35 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 1 AZ patch size: 8192 What is the desired az fract (def=1.0)? fract #: 0.0000000E+00 Please enter the name of the sensor file. /export/air32/airops/1400/sensor.pp Please enter the name of the parameter file /export/air36/airops/1400/ts1400_p.par hddt: 96068 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 100000 lines Keeping 4192 data points per patch Near range (m) = 9040.540 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 3.500000 Radar wavelength (m) = 0.7012700 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = -3.550000 Range weighting coefficient = 0.1000000 Map height (m) = 78.60000 Transmit leverarm x,y,z = 2.030000 0.5300000 -0.2200000 Receive leverarm x,y,z = 2.030000 0.5300000 -0.2200000 Name of raw data file? /export/air32/airops/1400/p_vv Name of the mocomp data file? /export/air36/airops/1400/ts1400_p.mocompv Output file name w/o ext? /export/air36/airops/1400/ts1400_p Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. vv Raw DIR Path:/export/air32/airops/1400/ output filename: /export/air32/airops/1400/ts1400_p.vv_j *** ipol itop: 4 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /export/air32/airops/1400/deskew.pv WAYNE init fft, calc slant range, load unpack, interpo 1.5672997E-02 reading motion compensation data WAYNE read motion compen 2.329285 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 AnalogChirp>96032Br,fs,T,fc 96068 40.00000 22.50000 90.00000 10.00000 deltaphase -ashift: 5.4456317E-03 3.550000 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.7504499 start range comp, time = 3.406 WAYNE PREV 3.114114 NUMBER OF PROCESSOR USED = 8 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 5 ..... WAYNE IS IN Processing 17 to 19 by # 4 Processing block number 17 WAYNE PATCHES: 55873 64064 patch# 17 reference line: 59968 3.672 seconds. before reading done reading WAYNE load raw data , time = 52.11081910133362 ATTN ifrq ipol ln 0 4 64064 14.00000 IPOL, ITOP nblock 4 0 17 WAYNE Motion comp. coeff. calculated, time = 1.1768102645874023E-02 WAYNE Motion comp. added to patch, time = 18.51547694206238 WAYNE Doppler estimation done, time = 8.1062316894531250E-06 WAYNE write deskew done, time = 2.7329921722412109E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 350.4963369369507 Writing 4192 lines of data to file WAYNE write output data 8.889402985572815 ==w out 17 0 2001 0 WAYNE PROCESS 430.0282349586487 Processing block number 18 WAYNE PATCHES: 59365 67556 patch# 18 reference line: 63460 433.701 seconds. before reading done reading WAYNE load raw data , time = 83.10974800586700 ATTN ifrq ipol ln 0 4 67556 14.00000 IPOL, ITOP nblock 4 0 18 WAYNE Motion comp. coeff. calculated, time = 1.1384963989257813E-02 WAYNE Motion comp. added to patch, time = 18.07844388484955 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 4.0041089057922363E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.6314569711685 Writing 4192 lines of data to file WAYNE write output data 1.872617006301880 ==w out 18 4192 2001 85852160 WAYNE PROCESS 451.7457090616226 Processing block number 19 WAYNE PATCHES: 62857 71048 patch# 19 reference line: 66952 885.447 seconds. before reading done reading WAYNE load raw data , time = 93.64065694808960 ATTN ifrq ipol ln 0 4 71048 14.00000 IPOL, ITOP nblock 4 0 19 WAYNE Motion comp. coeff. calculated, time = 1.1610984802246094E-02 WAYNE Motion comp. added to patch, time = 18.15986394882202 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 3.4387946128845215E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.2516000270844 Writing 4192 lines of data to file WAYNE write output data 2.055523991584778 ==w out 19 8384 2001 171704320 WAYNE PROCESS 461.1554130315781 ==w out 20 12579 PROCESSING KID# 7 ..... WAYNE IS IN Processing 23 to 25 by # 6 Processing block number 23 WAYNE PATCHES: 76825 85016 patch# 23 reference line: 80920 3.702 seconds. before reading done reading WAYNE load raw data , time = 52.50302302837372 ATTN ifrq ipol ln 0 4 85016 14.00000 IPOL, ITOP nblock 4 0 23 WAYNE Motion comp. coeff. calculated, time = 1.1571049690246582E-02 WAYNE Motion comp. added to patch, time = 18.18549394607544 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.7420520782470703E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 349.5463660955429 Writing 4192 lines of data to file WAYNE write output data 8.811347007751465 ==w out 23 0 2001 0 WAYNE PROCESS 429.0623279809952 Processing block number 24 WAYNE PATCHES: 80317 88508 patch# 24 reference line: 84412 432.765 seconds. before reading done reading WAYNE load raw data , time = 85.13937008380890 ATTN ifrq ipol ln 0 4 88508 14.00000 IPOL, ITOP nblock 4 0 24 WAYNE Motion comp. coeff. calculated, time = 1.1438012123107910E-02 WAYNE Motion comp. added to patch, time = 17.88163590431213 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 6.8594932556152344E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.9462050199509 Writing 4192 lines of data to file WAYNE write output data 7.608857035636902 ==w out 24 4192 2001 85852160 WAYNE PROCESS 459.6581070423126 Processing block number 25 WAYNE PATCHES: 83809 92000 patch# 25 reference line: 87904 892.423 seconds. before reading done reading WAYNE load raw data , time = 88.32868301868439 ATTN ifrq ipol ln 0 4 92000 14.00000 IPOL, ITOP nblock 4 0 25 WAYNE Motion comp. coeff. calculated, time = 1.1392951011657715E-02 WAYNE Motion comp. added to patch, time = 17.46167898178101 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.6274085044860840E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.3405879735947 Writing 4192 lines of data to file WAYNE write output data 2.089685082435608 ==w out 25 8384 2001 171704320 WAYNE PROCESS 455.2599220275879 ==w out 26 12579 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 4 by # 0 Processing block number 1 TESTING WHY -6.4741098E-03 1.8001201E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 3.612 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 52.70818698406219 ATTN ifrq ipol ln 0 4 8192 14.00000 IPOL, ITOP nblock 4 0 1 WAYNE Motion comp. coeff. calculated, time = 1.1589050292968750E-02 TESTING 0.0000000E+00 -47.83489 0.2210412 WAYNE Motion comp. added to patch, time = 18.86312401294708 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 2.6190280914306641E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -47.83489 0.2210412 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -6.4741098E-03 1.8001201E-02 WAYNE Azimuth compression done, time = 348.9675500392914 Writing 4192 lines of data to file WAYNE write output data 5.509989976882935 ==w out 1 0 2001 0 WAYNE PROCESS 426.0646569728851 Processing block number 2 TESTING WHY -6.4040902E-03 1.7581699E-02 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 429.678 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 95.53294706344604 ATTN ifrq ipol ln 0 4 11684 14.00000 IPOL, ITOP nblock 4 0 2 WAYNE Motion comp. coeff. calculated, time = 1.1645913124084473E-02 TESTING 0.0000000E+00 -42.32028 0.4159560 WAYNE Motion comp. added to patch, time = 18.36278104782104 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 6.8930387496948242E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -42.32028 0.4159560 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -6.4040902E-03 1.7581699E-02 WAYNE Azimuth compression done, time = 347.3180079460144 Writing 4192 lines of data to file WAYNE write output data 2.376893997192383 ==w out 2 4192 2001 85852160 WAYNE PROCESS 463.6104880571365 Processing block number 3 TESTING WHY -5.7757902E-03 1.7326901E-02 3492 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 893.289 seconds. TESTING 6985 before reading done reading WAYNE load raw data , time = 87.23261201381683 ATTN ifrq ipol ln 0 4 15176 14.00000 IPOL, ITOP nblock 4 0 3 WAYNE Motion comp. coeff. calculated, time = 1.1454939842224121E-02 TESTING 0.0000000E+00 -37.07550 0.3170763 WAYNE Motion comp. added to patch, time = 18.01986300945282 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 0.1264569759368896 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -37.07550 0.3170763 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -5.7757902E-03 1.7326901E-02 WAYNE Azimuth compression done, time = 347.4216560125351 Writing 4192 lines of data to file WAYNE write ou PROCESSING KID# 8 ..... WAYNE IS IN Processing 26 to 28 by # 7 Processing block number 26 WAYNE PATCHES: 87301 95492 patch# 26 reference line: 91396 3.718 seconds. before reading done reading WAYNE load raw data , time = 53.70002698898315 ATTN ifrq ipol ln 0 4 95492 14.00000 IPOL, ITOP nblock 4 0 26 WAYNE Motion comp. coeff. calculated, time = 1.1777043342590332E-02 WAYNE Motion comp. added to patch, time = 18.35794401168823 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.8290748596191406E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 349.7754809856415 Writing 4192 lines of data to file WAYNE write output data 28.26306104660034 ==w out 26 0 2001 0 WAYNE PROCESS 450.1131570339203 Processing block number 27 WAYNE PATCHES: 90793 98984 patch# 27 reference line: 94888 453.832 seconds. before reading done reading WAYNE load raw data , time = 79.16066408157349 ATTN ifrq ipol ln 0 4 98984 14.00000 IPOL, ITOP nblock 4 0 27 WAYNE Motion comp. coeff. calculated, time = 5.3818106651306152E-02 WAYNE Motion comp. added to patch, time = 17.66864502429962 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 4.6154022216796875E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.8128160238266 Writing 4192 lines of data to file WAYNE write output data 4.994932055473328 ==w out 27 4192 2001 85852160 WAYNE PROCESS 447.7397260665894 Processing block number 28 WAYNE PATCHES: 91808 99999 patch# 28 reference line: 95903 901.572 seconds. before reading done reading WAYNE load raw data , time = 80.14875590801239 ATTN ifrq ipol ln 0 4 99999 14.00000 IPOL, ITOP nblock 4 0 28 WAYNE Motion comp. coeff. calculated, time = 1.1641025543212891E-02 WAYNE Motion comp. added to patch, time = 17.53379607200623 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 6.8258881568908691E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.5165580511093 Writing 4192 lines of data to file WAYNE write output data 1.929071068763733 ==w out 28 8384 2001 171704320 WAYNE PROCESS 448.2098000049591 ==w out 29 12579 PROCESSING KID# 6 ..... WAYNE IS IN Processing 20 to 22 by # 5 Processing block number 20 WAYNE PATCHES: 66349 74540 patch# 20 reference line: 70444 3.684 seconds. before reading done reading WAYNE load raw data , time = 52.51005089282990 ATTN ifrq ipol ln 0 4 74540 14.00000 IPOL, ITOP nblock 4 0 20 WAYNE Motion comp. coeff. calculated, time = 1.1691927909851074E-02 WAYNE Motion comp. added to patch, time = 18.21324801445007 WAYNE Doppler estimation done, time = 8.1062316894531250E-06 WAYNE write deskew done, time = 2.6919841766357422E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 349.7996950149536 Writing 4192 lines of data to file WAYNE write output data 6.247323989868164 ==w out 20 0 2001 0 WAYNE PROCESS 426.7863750457764 Processing block number 21 WAYNE PATCHES: 69841 78032 patch# 21 reference line: 73936 430.471 seconds. before reading done reading WAYNE load raw data , time = 88.43280804157257 ATTN ifrq ipol ln 0 4 78032 14.00000 IPOL, ITOP nblock 4 0 21 WAYNE Motion comp. coeff. calculated, time = 1.1582016944885254E-02 WAYNE Motion comp. added to patch, time = 17.85364902019501 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.4606943130493164E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.7622539997101 Writing 4192 lines of data to file WAYNE write output data 7.159878015518188 ==w out 21 4192 2001 85852160 WAYNE PROCESS 461.2467399835587 Processing block number 22 WAYNE PATCHES: 73333 81524 patch# 22 reference line: 77428 891.719 seconds. before reading done reading WAYNE load raw data , time = 96.55969297885895 ATTN ifrq ipol ln 0 4 81524 14.00000 IPOL, ITOP nblock 4 0 22 WAYNE Motion comp. coeff. calculated, time = 1.1500954627990723E-02 WAYNE Motion comp. added to patch, time = 17.94436001777649 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.1814107894897461E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.5245150327682 Writing 4192 lines of data to file WAYNE write output data 1.732573986053467 ==w out 22 8384 2001 171704320 WAYNE PROCESS 462.7963440418243 ==w out 23 12579 PROCESSING KID# 4 ..... WAYNE IS IN Processing 13 to 16 by # 3 Processing block number 13 WAYNE PATCHES: 41905 50096 patch# 13 reference line: 46000 3.655 seconds. before reading done reading WAYNE load raw data , time = 52.49918496608734 ATTN ifrq ipol ln 0 4 50096 14.00000 IPOL, ITOP nblock 4 0 13 WAYNE Motion comp. coeff. calculated, time = 1.1649012565612793E-02 WAYNE Motion comp. added to patch, time = 18.45765495300293 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.7030706405639648E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 350.1665459871292 Writing 4192 lines of data to file WAYNE write output data 5.107320904731750 ==w out 13 0 2001 0 WAYNE PROCESS 426.2467809915543 Processing block number 14 WAYNE PATCHES: 45397 53588 patch# 14 reference line: 49492 429.902 seconds. before reading done reading WAYNE load raw data , time = 90.34463310241699 ATTN ifrq ipol ln 0 4 53588 14.00000 IPOL, ITOP nblock 4 0 14 WAYNE Motion comp. coeff. calculated, time = 1.1472105979919434E-02 WAYNE Motion comp. added to patch, time = 17.97748589515686 WAYNE Doppler estimation done, time = 8.1062316894531250E-06 WAYNE write deskew done, time = 4.8131942749023438E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 349.0306450128555 Writing 4192 lines of data to file WAYNE write output data 7.289758920669556 ==w out 14 4192 2001 85852160 WAYNE PROCESS 464.7043390274048 Processing block number 15 WAYNE PATCHES: 48889 57080 patch# 15 reference line: 52984 894.607 seconds. before reading done reading WAYNE load raw data , time = 85.05075502395630 ATTN ifrq ipol ln 0 4 57080 14.00000 IPOL, ITOP nblock 4 0 15 WAYNE Motion comp. coeff. calculated, time = 1.1546969413757324E-02 WAYNE Motion comp. added to patch, time = 17.97319197654724 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.1038055419921875E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.8131289482117 Writing 4192 lines of data to file WAYNE write output data 1.989378929138184 ==w out 15 8384 2001 171704320 WAYNE PROCESS 453.8605389595032 Processing block number 16 WAYNE PATCHES: 52381 60572 patch# 16 reference line: 56476 1348.468 seconds. before reading done reading WAYNE load raw data , time = 85.19251000881195 ATTN ifrq ipol ln 0 4 60572 14.00000 IPOL, ITOP nblock 4 0 16 WAYNE Motion comp. coeff. calculated, time = 1.1094927787780762E-02 WAYNE Motion comp. added to patch, time = 15.98947489261627 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.4499893188476563E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migrati PROCESSING KID# 3 ..... WAYNE IS IN Processing 9 to 12 by # 2 Processing block number 9 WAYNE PATCHES: 27937 36128 patch# 9 reference line: 32032 3.644 seconds. before reading done reading WAYNE load raw data , time = 52.56300199031830 ATTN ifrq ipol ln 0 4 36128 14.00000 IPOL, ITOP nblock 4 0 9 WAYNE Motion comp. coeff. calculated, time = 1.1620998382568359E-02 WAYNE Motion comp. added to patch, time = 19.05402791500092 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.8049945831298828E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.8274310827255 Writing 4192 lines of data to file WAYNE write output data 7.293905019760132 ==w out 9 0 2001 0 WAYNE PROCESS 427.7545329332352 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 431.399 seconds. before reading done reading WAYNE load raw data , time = 88.24930596351624 ATTN ifrq ipol ln 0 4 39620 14.00000 IPOL, ITOP nblock 4 0 10 WAYNE Motion comp. coeff. calculated, time = 1.1519074440002441E-02 WAYNE Motion comp. added to patch, time = 18.17924892902374 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 1.4322996139526367E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.1811929941177 Writing 4192 lines of data to file WAYNE write output data 5.779567956924438 ==w out 10 4192 2001 85852160 WAYNE PROCESS 460.4170929193497 Processing block number 11 WAYNE PATCHES: 34921 43112 patch# 11 reference line: 39016 891.816 seconds. before reading done reading WAYNE load raw data , time = 94.68577992916107 ATTN ifrq ipol ln 0 4 43112 14.00000 IPOL, ITOP nblock 4 0 11 WAYNE Motion comp. coeff. calculated, time = 1.1536002159118652E-02 WAYNE Motion comp. added to patch, time = 17.82099902629852 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 7.6502084732055664E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.7859480381012 Writing 4192 lines of data to file WAYNE write output data 26.51612794399261 ==w out 11 8384 2001 171704320 WAYNE PROCESS 486.8987489938736 Processing block number 12 WAYNE PATCHES: 38413 46604 patch# 12 reference line: 42508 1378.715 seconds. before reading done reading WAYNE load raw data , time = 56.16514098644257 ATTN ifrq ipol ln 0 4 46604 14.00000 IPOL, ITOP nblock 4 0 12 WAYNE Motion comp. coeff. calculated, time = 1.1051058769226074E-02 WAYNE Motion comp. added to patch, time = 15.57197499275208 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.5007009506225586E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migrati PROCESSING KID# 2 ..... WAYNE IS IN Processing 5 to 8 by # 1 Processing block number 5 WAYNE PATCHES: 13969 22160 patch# 5 reference line: 18064 3.627 seconds. before reading done reading WAYNE load raw data , time = 53.25627100467682 ATTN ifrq ipol ln 0 4 22160 14.00000 IPOL, ITOP nblock 4 0 5 WAYNE Motion comp. coeff. calculated, time = 1.1564970016479492E-02 WAYNE Motion comp. added to patch, time = 18.64063704013824 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.7250051498413086E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 350.8510500192642 Writing 4192 lines of data to file WAYNE write output data 29.54438304901123 ==w out 5 0 2001 0 WAYNE PROCESS 452.3086379766464 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 455.936 seconds. before reading done reading WAYNE load raw data , time = 71.40291702747345 ATTN ifrq ipol ln 0 4 25652 14.00000 IPOL, ITOP nblock 4 0 6 WAYNE Motion comp. coeff. calculated, time = 1.1488914489746094E-02 WAYNE Motion comp. added to patch, time = 18.18368196487427 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 1.5297889709472656E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.2038050889969 Writing 4192 lines of data to file WAYNE write output data 22.91781008243561 ==w out 6 4192 2001 85852160 WAYNE PROCESS 459.7369910478592 Processing block number 7 WAYNE PATCHES: 20953 29144 patch# 7 reference line: 25048 915.674 seconds. before reading done reading WAYNE load raw data , time = 65.94470798969269 ATTN ifrq ipol ln 0 4 29144 14.00000 IPOL, ITOP nblock 4 0 7 WAYNE Motion comp. coeff. calculated, time = 1.1487007141113281E-02 WAYNE Motion comp. added to patch, time = 18.18436908721924 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 3.0207991600036621E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.2981070280075 Writing 4192 lines of data to file WAYNE write output data 1.927486896514893 ==w out 7 8384 2001 171704320 WAYNE PROCESS 434.3978269100189 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 1350.072 seconds. before reading done reading WAYNE load raw data , time = 84.69495701789856 ATTN ifrq ipol ln 0 4 32636 14.00000 IPOL, ITOP nblock 4 0 8 WAYNE Motion comp. coeff. calculated, time = 1.1013031005859375E-02 WAYNE Motion comp. added to patch, time = 16.14071905612946 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.5269985198974609E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 267.0049209594727 Writing 4192 lines of data to file WAYNE write output data 1.708683013916016 ==w out 12 12576 2001 257556480 WAYNE PROCESS 340.4882611036301 ==w out 13 16771 tput data 2.130025982856750 ==w out 3 8384 2001 171704320 WAYNE PROCESS 454.9436179399490 Processing block number 4 TESTING WHY -5.3123902E-03 1.7652800E-02 3492 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 1348.233 seconds. TESTING 10477 before reading done reading WAYNE load raw data , time = 84.95731806755066 ATTN ifrq ipol ln 0 4 18668 14.00000 IPOL, ITOP nblock 4 0 4 WAYNE Motion comp. coeff. calculated, time = 1.0987997055053711E-02 TESTING 0.0000000E+00 -32.53371 -0.3230651 WAYNE Motion comp. added to patch, time = 15.91037905216217 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.3850202560424805E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -32.53371 -0.3230651 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -5.3123902E-03 1.7652800E-02 WAYNE Azimuth compression done, time = 269.0339009761810 Writing 4192 lines of data to file WAYNE write output data 1.758116006851196 ==w out 4 12576 2001 257556480 WAYNE PROCESS 371.6742749214172 ==w out 5 16771 on lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 269.5782109498978 Writing 4192 lines of data to file WAYNE write output data 1.750413060188293 ==w out 16 12576 2001 257556480 WAYNE PROCESS 372.5256561040878 ==w out 17 16771 on lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 269.1881339550018 Writing 4192 lines of data to file WAYNE write output data 1.699036002159119 ==w out 8 12576 2001 257556480 WAYNE PROCESS 371.7376910448074 ==w out 9 16771 1 12567356 0 2 12563824 0 3 12566235 0 4 12568301 0 5 12566983 0 6 12566124 0 7 12564535 0 8 12565374 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 117376kids= 8 Writing variable header... gather image from processor # 0 4 gather image from processor # 1 4 gather image from processor # 2 4 gather image from processor # 3 4 gather image from processor # 4 3 gather image from processor # 5 3 gather image from processor # 6 3 gather image from processor # 7 3 WAYNE gather images takes: 14.07889997959137 WAYNE LOOP TIME: 1747.039590954781 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air32/airops/1400/ts1400_p.vv_j /export/air36/airops/1400/ts1400_p.mocompv /export/air36/airops/1400/ts1400_p.dop /export/air36/airops/1400/ts1400_p.glb 2560 117376 update intf hdr ha: 8367.900 UPDATE: 2560 117376 3.331000 0.5144000 mocompfile /export/air36/airops/1400/ts1400_p.mocompv dopfile /export/air36/airops/1400/ts1400_p.dop globalfile /export/air36/airops/1400/ts1400_p.glb /export/air36/airops/1400/ts1400_p.glb 38 deskew line ra ha trc: 128.5260 249 9042.366 8367.900 54.57177 after deskew line ra ha trc: 128.5260 249 9042.366 8367.900 54.57177 lat1 lon1: 249 4.813068 114.7795 117376 last ra n_ns ns: 9042.366 1 1 117624 117376 lati loni: 117624 5.129428 115.2615 117624 1 center ra n_ns ns: 13302.71 1280 1280 58936 117376 lati loni: 58936 5.002770 114.9983 58936 2560 Updated paramater header in /export/air32/airops/1400/ts1400_p.vv_j WAYNE FINAL PROCESS 1750.565598011017 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 8 16768 4 16768 4 16768 4 16768 4 12576 3 12576 3 12576 3 12576 3 Name of data file to be deskewed? /export/air32/airops/1400/ts1400_p.vv_j Name of the doppler parameter file? /export/air36/airops/1400/ts1400_p.dop Name of the deskew file? /export/air32/airops/1400/deskew.pv Line up to another frequency [y/n]? y Name of the deskew file to line up to? /export/air32/airops/1400/deskew.ch Enter N_AZ, NA_VALID and the ratio of the pixel spacing of the file to line up to relative to the current pixel spacing. 4096 2208 1.000000 Name of the output file? /export/air36/airops/1400/ts1400_p.vv Name of the line output file? /export/air36/airops/1400/p_lines.dat NONE-SYMMETRIC PARALLEL JOBS Deskewing 28 patches Processing block number 1 patch iptc,sj,dgj,dgi,id: 1 1041 98 98 0 half line dmj dgc: 0 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1041 1 Zeroing lines in arrays Total # of output lines = 1 1040 1041 3137 0 2096 patch iptc,sj,dgj,dgi,id: 1 3137 98 98 2096 half line dmj dgc: 1 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3137 1041 Zeroing lines in arrays Total # of output lines = 1 3136 Processing block number 2 3137 4528 -5 1396 patch iptc,sj,dgj,dgi,id: 2 4528 93 98 1396 half line dmj dgc: 0 5493 243 114 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 4528 3137 Zeroing lines in arrays Total # of output lines = 2 4527 4528 6624 0 2096 patch iptc,sj,dgj,dgi,id: 2 6624 93 93 2096 half line dmj dgc: 1 5493 243 114 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 6624 4528 Zeroing lines in arrays Total # of output lines = 2 6623 Processing block number 3 6624 8035 15 1396 patch iptc,sj,dgj,dgi,id: 3 8035 108 93 1396 half line dmj dgc: 0 8985 243 114 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 8035 6624 Zeroing lines in arrays Total # of output lines = 3 8034 8035 10131 0 2096 patch iptc,sj,dgj,dgi,id: 3 10131 108 108 2096 half line dmj dgc: 1 8985 243 114 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 10131 8035 Zeroing lines in arrays Total # of output lines = 3 10130 Processing block number 4 10131 11546 19 1396 patch iptc,sj,dgj,dgi,id: 4 11546 127 108 1396 half line dmj dgc: 0 12477 251 114 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 11546 10131 Zeroing lines in arrays Total # of output lines = 4 11545 11546 13642 0 2096 patch iptc,sj,dgj,dgi,id: 4 13642 127 127 2096 half line dmj dgc: 1 12477 251 114 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 sj>s1: 13642 11546 Zeroing lines in arrays Total # of output lines = 4 13641 Processing block number 5 13642 15008 -30 1396 patch iptc,sj,dgj,dgi,id: 5 15008 97 127 1396 half line dmj dgc: 0 15969 251 114 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 15008 13642 Zeroing lines in arrays Total # of output lines = 5 15007 15008 17104 0 2096 patch iptc,sj,dgj,dgi,id: 5 720 97 97 2096 half line dmj dgc: 1 15969 251 114 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 s1>sj: 15008 720 Zeroing lines in arrays Total # of output lines = 5 17103 Processing block number 6 720 2050 -66 1396 patch iptc,sj,dgj,dgi,id: 6 2050 31 97 1396 half line dmj dgc: 0 19461 242 114 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 2050 720 Zeroing lines in arrays Total # of output lines = 6 18433 2050 4146 0 2096 patch iptc,sj,dgj,dgi,id: 6 4146 31 31 2096 half line dmj dgc: 1 19461 242 114 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 4146 2050 Zeroing lines in arrays Total # of output lines = 6 20529 Processing block number 7 4146 5525 -17 1396 patch iptc,sj,dgj,dgi,id: 7 5525 14 31 1396 half line dmj dgc: 0 22953 241 114 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 5525 4146 Zeroing lines in arrays Total # of output lines = 7 21908 5525 7621 0 2096 patch iptc,sj,dgj,dgi,id: 7 7621 14 14 2096 half line dmj dgc: 1 22953 241 114 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 7621 5525 Zeroing lines in arrays Total # of output lines = 7 24004 Processing block number 8 7621 9046 29 1396 patch iptc,sj,dgj,dgi,id: 8 9046 43 14 1396 half line dmj dgc: 0 26445 249 114 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 sj>s1: 9046 7621 Zeroing lines in arrays Total # of output lines = 8 25429 9046 11142 0 2096 patch iptc,sj,dgj,dgi,id: 8 11142 43 43 2096 half line dmj dgc: 1 26445 249 114 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 sj>s1: 11142 9046 Zeroing lines in arrays Total # of output lines = 8 27525 Processing block number 9 11142 12562 24 1396 patch iptc,sj,dgj,dgi,id: 9 12562 67 43 1396 half line dmj dgc: 0 29937 255 114 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 12562 11142 Zeroing lines in arrays Total # of output lines = 9 28945 12562 14658 0 2096 patch iptc,sj,dgj,dgi,id: 9 14658 67 67 2096 half line dmj dgc: 1 29937 255 114 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 14658 12562 Zeroing lines in arrays Total # of output lines = 9 31041 Processing block number 10 14658 16072 18 1396 patch iptc,sj,dgj,dgi,id: 10 16072 85 67 1396 half line dmj dgc: 0 33429 255 114 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 16072 14658 Zeroing lines in arrays Total # of output lines = 10 32455 16072 18168 0 2096 patch iptc,sj,dgj,dgi,id: 10 1784 85 85 2096 half line dmj dgc: 1 33429 255 114 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 s1>sj: 16072 1784 Zeroing lines in arrays Total # of output lines = 10 34551 Processing block number 11 1784 3217 37 1396 patch iptc,sj,dgj,dgi,id: 11 3217 122 85 1396 half line dmj dgc: 0 36921 260 114 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 3217 1784 Zeroing lines in arrays Total # of output lines = 11 35984 3217 5313 0 2096 patch iptc,sj,dgj,dgi,id: 11 5313 122 122 2096 half line dmj dgc: 1 36921 260 114 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 sj>s1: 5313 3217 Zeroing lines in arrays Total # of output lines = 11 38080 Processing block number 12 5313 6728 19 1396 patch iptc,sj,dgj,dgi,id: 12 6728 141 122 1396 half line dmj dgc: 0 40413 269 114 Actual deskew ireclen: 20480 ** 12 2096 0 48208 Writing data negflag .eq. 0 sj>s1: 6728 5313 Zeroing lines in arrays Total # of output lines = 12 39495 6728 8824 0 2096 patch iptc,sj,dgj,dgi,id: 12 8824 141 141 2096 half line dmj dgc: 1 40413 269 114 Actual deskew ireclen: 20480 ** 12 2096 1 50304 Writing data negflag .eq. 0 sj>s1: 8824 6728 Zeroing lines in arrays Total # of output lines = 12 41591 Processing block number 13 8824 10226 6 1396 patch iptc,sj,dgj,dgi,id: 13 10226 147 141 1396 half line dmj dgc: 0 43905 276 114 Actual deskew ireclen: 20480 ** 13 2096 0 52400 Writing data negflag .eq. 0 sj>s1: 10226 8824 Zeroing lines in arrays Total # of output lines = 13 42993 10226 12322 0 2096 patch iptc,sj,dgj,dgi,id: 13 12322 147 147 2096 half line dmj dgc: 1 43905 276 114 Actual deskew ireclen: 20480 ** 13 2096 1 54496 Writing data negflag .eq. 0 sj>s1: 12322 10226 Zeroing lines in arrays Total # of output lines = 13 45089 Processing block number 14 12322 13761 43 1396 patch iptc,sj,dgj,dgi,id: 14 13761 190 147 1396 half line dmj dgc: 0 47397 286 114 Actual deskew ireclen: 20480 ** 14 2096 0 56592 Writing data negflag .eq. 0 sj>s1: 13761 12322 Zeroing lines in arrays Total # of output lines = 14 46528 13761 15857 0 2096 patch iptc,sj,dgj,dgi,id: 14 15857 190 190 2096 half line dmj dgc: 1 47397 286 114 Actual deskew ireclen: 20480 ** 14 2096 1 58688 Writing data negflag .eq. 0 sj>s1: 15857 13761 Zeroing lines in arrays Total # of output lines = 14 48624 Processing block number 15 15857 17263 10 1396 patch iptc,sj,dgj,dgi,id: 15 879 200 190 1396 half line dmj dgc: 0 50889 286 114 Actual deskew ireclen: 20480 ** 15 2096 0 60784 Writing data negflag .eq. 0 s1>sj: 15857 879 Zeroing lines in arrays Total # of output lines = 15 50030 879 2975 0 2096 patch iptc,sj,dgj,dgi,id: 15 2975 200 200 2096 half line dmj dgc: 1 50889 286 114 Actual deskew ireclen: 20480 ** 15 2096 1 62880 Writing data negflag .eq. 0 sj>s1: 2975 879 Zeroing lines in arrays Total # of output lines = 15 52126 Processing block number 16 2975 4377 6 1396 patch iptc,sj,dgj,dgi,id: 16 4377 206 200 1396 half line dmj dgc: 0 54381 277 114 Actual deskew ireclen: 20480 ** 16 2096 0 64976 Writing data negflag .eq. 0 sj>s1: 4377 2975 Zeroing lines in arrays Total # of output lines = 16 53528 4377 6473 0 2096 patch iptc,sj,dgj,dgi,id: 16 6473 206 206 2096 half line dmj dgc: 1 54381 277 114 Actual deskew ireclen: 20480 ** 16 2096 1 67072 Writing data negflag .eq. 0 sj>s1: 6473 4377 Zeroing lines in arrays Total # of output lines = 16 55624 Processing block number 17 6473 7900 31 1396 patch iptc,sj,dgj,dgi,id: 17 7900 237 206 1396 half line dmj dgc: 0 57873 276 114 Actual deskew ireclen: 20480 ** 17 2096 0 69168 Writing data negflag .eq. 0 sj>s1: 7900 6473 Zeroing lines in arrays Total # of output lines = 17 57051 7900 9996 0 2096 patch iptc,sj,dgj,dgi,id: 17 9996 237 237 2096 half line dmj dgc: 1 57873 276 114 Actual deskew ireclen: 20480 ** 17 2096 1 71264 Writing data negflag .eq. 0 sj>s1: 9996 7900 Zeroing lines in arrays Total # of output lines = 17 59147 Processing block number 18 9996 11451 59 1396 patch iptc,sj,dgj,dgi,id: 18 11451 296 237 1396 half line dmj dgc: 0 61365 298 114 Actual deskew ireclen: 20480 ** 18 2096 0 73360 Writing data negflag .eq. 0 sj>s1: 11451 9996 Zeroing lines in arrays Total # of output lines = 18 60602 11451 13547 0 2096 patch iptc,sj,dgj,dgi,id: 18 13547 296 296 2096 half line dmj dgc: 1 61365 298 114 Actual deskew ireclen: 20480 ** 18 2096 1 75456 Writing data negflag .eq. 0 sj>s1: 13547 11451 Zeroing lines in arrays Total # of output lines = 18 62698 Processing block number 19 13547 14936 -7 1396 patch iptc,sj,dgj,dgi,id: 19 14936 289 296 1396 half line dmj dgc: 0 64857 293 114 Actual deskew ireclen: 20480 ** 19 2096 0 77552 Writing data negflag .eq. 0 sj>s1: 14936 13547 Zeroing lines in arrays Total # of output lines = 19 64087 14936 17032 0 2096 patch iptc,sj,dgj,dgi,id: 19 648 289 289 2096 half line dmj dgc: 1 64857 293 114 Actual deskew ireclen: 20480 ** 19 2096 1 79648 Writing data negflag .eq. 0 s1>sj: 14936 648 Zeroing lines in arrays Total # of output lines = 19 66183 Processing block number 20 648 2015 -29 1396 patch iptc,sj,dgj,dgi,id: 20 2015 260 289 1396 half line dmj dgc: 0 68349 279 114 Actual deskew ireclen: 20480 ** 20 2096 0 81744 Writing data negflag .eq. 0 sj>s1: 2015 648 Zeroing lines in arrays Total # of output lines = 20 67550 2015 4111 0 2096 patch iptc,sj,dgj,dgi,id: 20 4111 260 260 2096 half line dmj dgc: 1 68349 279 114 Actual deskew ireclen: 20480 ** 20 2096 1 83840 Writing data negflag .eq. 0 sj>s1: 4111 2015 Zeroing lines in arrays Total # of output lines = 20 69646 Processing block number 21 4111 5541 34 1396 patch iptc,sj,dgj,dgi,id: 21 5541 294 260 1396 half line dmj dgc: 0 71841 300 114 Actual deskew ireclen: 20480 ** 21 2096 0 85936 Writing data negflag .eq. 0 sj>s1: 5541 4111 Zeroing lines in arrays Total # of output lines = 21 71076 5541 7637 0 2096 patch iptc,sj,dgj,dgi,id: 21 7637 294 294 2096 half line dmj dgc: 1 71841 300 114 Actual deskew ireclen: 20480 ** 21 2096 1 88032 Writing data negflag .eq. 0 sj>s1: 7637 5541 Zeroing lines in arrays Total # of output lines = 21 73172 Processing block number 22 7637 9056 23 1396 patch iptc,sj,dgj,dgi,id: 22 9056 317 294 1396 half line dmj dgc: 0 75333 330 114 Actual deskew ireclen: 20480 ** 22 2096 0 90128 Writing data negflag .eq. 0 sj>s1: 9056 7637 Zeroing lines in arrays Total # of output lines = 22 74591 9056 11152 0 2096 patch iptc,sj,dgj,dgi,id: 22 11152 317 317 2096 half line dmj dgc: 1 75333 330 114 Actual deskew ireclen: 20480 ** 22 2096 1 92224 Writing data negflag .eq. 0 sj>s1: 11152 9056 Zeroing lines in arrays Total # of output lines = 22 76687 Processing block number 23 11152 12510 -38 1396 patch iptc,sj,dgj,dgi,id: 23 12510 279 317 1396 half line dmj dgc: 0 78825 308 114 Actual deskew ireclen: 20480 ** 23 2096 0 94320 Writing data negflag .eq. 0 sj>s1: 12510 11152 Zeroing lines in arrays Total # of output lines = 23 78045 12510 14606 0 2096 patch iptc,sj,dgj,dgi,id: 23 14606 279 279 2096 half line dmj dgc: 1 78825 308 114 Actual deskew ireclen: 20480 ** 23 2096 1 96416 Writing data negflag .eq. 0 sj>s1: 14606 12510 Zeroing lines in arrays Total # of output lines = 23 80141 Processing block number 24 14606 15942 -60 1396 patch iptc,sj,dgj,dgi,id: 24 15942 219 279 1396 half line dmj dgc: 0 82317 284 114 Actual deskew ireclen: 20480 ** 24 2096 0 98512 Writing data negflag .eq. 0 sj>s1: 15942 14606 Zeroing lines in arrays Total # of output lines = 24 81477 15942 18038 0 2096 patch iptc,sj,dgj,dgi,id: 24 1654 219 219 2096 half line dmj dgc: 1 82317 284 114 Actual deskew ireclen: 20480 ** 24 2096 1 100608 Writing data negflag .eq. 0 s1>sj: 15942 1654 Zeroing lines in arrays Total # of output lines = 24 83573 Processing block number 25 1654 3047 -3 1396 patch iptc,sj,dgj,dgi,id: 25 3047 216 219 1396 half line dmj dgc: 0 85809 279 114 Actual deskew ireclen: 20480 ** 25 2096 0 102704 Writing data negflag .eq. 0 sj>s1: 3047 1654 Zeroing lines in arrays Total # of output lines = 25 84966 3047 5143 0 2096 patch iptc,sj,dgj,dgi,id: 25 5143 216 216 2096 half line dmj dgc: 1 85809 279 114 Actual deskew ireclen: 20480 ** 25 2096 1 104800 Writing data negflag .eq. 0 sj>s1: 5143 3047 Zeroing lines in arrays Total # of output lines = 25 87062 Processing block number 26 5143 6581 42 1396 patch iptc,sj,dgj,dgi,id: 26 6581 258 216 1396 half line dmj dgc: 0 89301 297 114 Actual deskew ireclen: 20480 ** 26 2096 0 106896 Writing data negflag .eq. 0 sj>s1: 6581 5143 Zeroing lines in arrays Total # of output lines = 26 88500 6581 8677 0 2096 patch iptc,sj,dgj,dgi,id: 26 8677 258 258 2096 half line dmj dgc: 1 89301 297 114 Actual deskew ireclen: 20480 ** 26 2096 1 108992 Writing data negflag .eq. 0 sj>s1: 8677 6581 Zeroing lines in arrays Total # of output lines = 26 90596 Processing block number 27 8677 10067 -6 1396 patch iptc,sj,dgj,dgi,id: 27 10067 252 258 1396 half line dmj dgc: 0 92793 306 114 Actual deskew ireclen: 20480 ** 27 2096 0 111088 Writing data negflag .eq. 0 sj>s1: 10067 8677 Zeroing lines in arrays Total # of output lines = 27 91986 10067 12163 0 2096 patch iptc,sj,dgj,dgi,id: 27 12163 252 252 2096 half line dmj dgc: 1 92793 306 114 Actual deskew ireclen: 20480 ** 27 2096 1 113184 Writing data negflag .eq. 0 sj>s1: 12163 10067 Zeroing lines in arrays Total # of output lines = 27 94082 Processing block number 28 12163 11063 -19 -1081 patch iptc,sj,dgj,dgi,id: 28 11063 233 252 -1081 half line dmj dgc: 0 93808 312 114 Actual deskew ireclen: 20480 ** 28 2096 0 115280 Zeroing lines in arrays Total # of output lines = 28 94082 12163 13159 0 2096 patch iptc,sj,dgj,dgi,id: 28 13159 233 233 2096 half line dmj dgc: 1 93808 312 114 Actual deskew ireclen: 20480 ** 28 2096 1 117376 Writing data negflag .eq. 0 sj>s1: 13159 12163 Zeroing lines in arrays Total # of output lines = 28 95078 ia dmi dgi: 13159 312 233 Writing the last 2175 lines last half sj>s1 15334 13159 95078 Total # of output lines = 97253 Writing new header.. Closing files .. ileni= 39 ilend= 35 /export/air32/airops/1400/ts1400_p.vv_j.0 /export/air32/airops/1400/deskew.pv.0 /export/air32/airops/1400/ts1400_p.vv_j.1 /export/air32/airops/1400/deskew.pv.1 /export/air32/airops/1400/ts1400_p.vv_j.2 /export/air32/airops/1400/deskew.pv.2 /export/air32/airops/1400/ts1400_p.vv_j.3 /export/air32/airops/1400/deskew.pv.3 /export/air32/airops/1400/ts1400_p.vv_j.4 /export/air32/airops/1400/deskew.pv.4 /export/air32/airops/1400/ts1400_p.vv_j.5 /export/air32/airops/1400/deskew.pv.5 /export/air32/airops/1400/ts1400_p.vv_j.6 /export/air32/airops/1400/deskew.pv.6 /export/air32/airops/1400/ts1400_p.vv_j.7 /export/air32/airops/1400/deskew.pv.7 Enter single look lines filename: Enter single look image filename: Enter output lines filename: Enter number of looks: ns np nlloks: 2560 97253 18 Multi-looking lines.dat file... Total number of lines written to output file: 5402 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.3014586 7.272912 246 0.250 3046 2.344 7.27291 0.004580 3.872035 -0.043441 r_peak,r_snr = 0.3262449 12.81536 346 0.156 3046 1.063 12.81536 0.003223 0.389129 0.007448 r_peak,r_snr = 0.2859226 7.150170 446 0.156 3046 -7.781 7.15017 0.008468 1.233576 0.041530 r_peak,r_snr = 0.3213698 7.892766 546 0.188 3046 -14.219 7.89277 0.005321 0.245656 -0.006816 r_peak,r_snr = 0.2461392 5.816738 646 0.188 3046 7.719 5.81674 0.031912 2.644693 0.237685 r_peak,r_snr = 0.2710339 4.741753 746 0.656 3046 -2.781 4.74175 0.007348 4.585898 0.050562 r_peak,r_snr = 0.1967986 6.386775 846 0.313 3046 -8.219 6.38678 0.053633 2.874118 0.304653 r_peak,r_snr = 0.1912426 7.484666 946 2.719 3046 0.813 7.48467 0.020282 0.768344 -0.058933 r_peak,r_snr = 0.2573500 7.376323 1046 -1.219 3046 8.531 7.37632 0.012498 0.388786 0.012585 r_peak,r_snr = 0.1707318 5.434554 1146 -0.469 3046 10.813 5.43455 0.025423 1.554860 0.002893 r_peak,r_snr = 0.1847940 7.436946 1246 0.406 3046 -3.188 7.43695 0.025514 11.345662 0.216417 r_peak,r_snr = 0.1928851 5.756437 1346 -1.188 3046 -7.531 5.75644 0.028386 0.914796 -0.113283 r_peak,r_snr = 0.1991517 8.163140 1446 0.813 3046 -3.781 8.16314 0.059199 10.184421 0.703494 r_peak,r_snr = 0.1703927 8.923836 1546 0.594 3046 14.250 8.92384 0.009739 0.430056 0.009090 r_peak,r_snr = 0.2749369 7.729604 1646 0.813 3046 0.500 7.72960 0.010658 0.439607 -0.025028 r_peak,r_snr = 0.3593547 3.734577 1746 0.969 3046 0.750 3.73458 0.022786 0.191753 0.039213 r_peak,r_snr = 0.7027313 9.439797 1846 0.969 3046 -0.313 9.43980 0.274456 0.011756 0.050887 r_peak,r_snr = 0.6806321 14.93948 1946 -0.219 3046 0.219 14.93948 0.006572 0.002377 0.000717 r_peak,r_snr = 0.6423569 14.52047 2046 1.063 3046 0.156 14.52047 0.031863 0.003297 0.000778 At line = 3400 Reading in data.... r_peak,r_snr = 0.1557107 10.76848 146 0.344 3446 -5.313 10.76848 0.011628 1.429231 -0.042218 r_peak,r_snr = 0.1815824 9.513973 246 2.750 3446 -0.281 9.51397 0.011685 0.382041 -0.007303 r_peak,r_snr = 0.1456016 6.257174 346 12.375 3446 0.156 6.25717 0.096142 2.693045 -0.403653 r_peak,r_snr = 0.1997778 6.263608 446 0.438 3446 -11.188 6.26361 0.020192 0.704812 -0.024956 r_peak,r_snr = 0.2371890 8.755758 546 0.188 3446 1.094 8.75576 0.011066 1.083599 0.044942 r_peak,r_snr = 0.3819895 4.365473 746 0.563 3446 0.719 4.36547 0.027209 2.157626 -0.189019 r_peak,r_snr = 0.3313704 4.597466 846 0.094 3446 -1.219 4.59747 0.006741 0.552892 -0.002745 r_peak,r_snr = 0.3019558 8.006459 946 0.344 3446 0.750 8.00646 0.021169 5.881296 -0.293995 r_peak,r_snr = 0.4094464 6.380867 1046 0.000 3446 3.219 6.38087 0.007182 0.287485 -0.004927 r_peak,r_snr = 0.2909036 5.328322 1146 1.750 3446 -10.156 5.32832 0.011980 0.262741 0.019486 r_peak,r_snr = 0.3266754 7.054401 1246 0.125 3446 1.250 7.05440 0.017846 0.493255 -0.046018 r_peak,r_snr = 0.2672247 3.977436 1346 0.219 3446 2.813 3.97744 0.016364 1.895707 0.028247 r_peak,r_snr = 0.4331570 2.681459 1446 3.781 3446 -10.906 2.68146 0.011292 0.351521 0.011986 r_peak,r_snr = 0.2235539 5.722283 1546 0.750 3446 1.813 5.72228 0.024613 20.451077 0.096830 r_peak,r_snr = 0.2812985 7.547947 1646 -0.094 3446 -1.094 7.54795 0.013692 0.789533 0.013917 r_peak,r_snr = 0.3837482 9.683338 1746 0.250 3446 -1.031 9.68334 0.008749 0.058259 0.002028 r_peak,r_snr = 0.7324362 11.40119 1846 0.156 3446 0.219 11.40119 0.004876 0.002261 0.001132 r_peak,r_snr = 0.6488258 10.48222 1946 -0.063 3446 -0.094 10.48222 0.009524 0.004533 0.002289 r_peak,r_snr = 0.6222264 14.12358 2046 -0.813 3446 0.094 14.12358 0.008694 0.003309 0.001247 At line = 3800 Reading in data.... r_peak,r_snr = 0.2467660 9.080338 146 0.781 3846 -11.219 9.08034 0.008321 0.452198 0.005214 r_peak,r_snr = 0.2719811 7.284903 246 0.531 3846 3.219 7.28490 0.260736 23.756933 -2.454388 r_peak,r_snr = 0.1859081 8.200200 346 0.063 3846 0.219 8.20020 0.159775 35.521870 -2.289137 r_peak,r_snr = 0.3531695 7.342700 446 0.250 3846 4.219 7.34270 0.006889 0.662257 0.025265 r_peak,r_snr = 0.3654499 7.607145 546 -0.281 3846 -6.781 7.60715 0.004270 0.330422 -0.004968 r_peak,r_snr = 0.1907505 8.336501 646 -0.219 3846 0.813 8.33650 0.020419 2.357828 0.086204 r_peak,r_snr = 0.3438664 6.225236 746 -1.438 3846 7.563 6.22524 0.034305 1.516307 0.188537 r_peak,r_snr = 0.2611425 7.008262 846 -0.688 3846 -3.906 7.00826 0.026630 0.541042 0.019559 r_peak,r_snr = 0.2234008 8.356139 946 0.219 3846 1.688 8.35614 0.034366 0.513229 0.059800 r_peak,r_snr = 0.3436687 3.516372 1046 0.094 3846 4.250 3.51637 0.038820 0.629018 0.079664 r_peak,r_snr = 0.3386272 3.274094 1246 -0.094 3846 7.250 3.27409 0.026223 4.500772 0.128042 r_peak,r_snr = 0.2988037 2.887387 1346 0.750 3846 7.594 2.88739 0.017684 1.423159 0.016478 r_peak,r_snr = 0.3397860 8.793052 1446 -0.031 3846 -1.125 8.79305 0.007774 0.383869 -0.014633 r_peak,r_snr = 0.3301501 5.112037 1546 0.469 3846 -0.781 5.11204 0.018027 0.753994 0.039879 r_peak,r_snr = 0.2197655 6.743673 1646 0.313 3846 -4.969 6.74367 0.016218 1.517818 0.097709 r_peak,r_snr = 0.4305762 2.005252 1746 0.313 3846 -2.813 2.00525 0.198245 2.816994 -0.704651 r_peak,r_snr = 0.6739387 13.21183 1846 0.156 3846 0.125 13.21183 0.010879 0.003014 0.001181 r_peak,r_snr = 0.6028006 15.51535 1946 0.188 3846 0.156 15.51535 0.017161 0.003739 0.003544 r_peak,r_snr = 0.6194882 12.54414 2046 -0.063 3846 -0.281 12.54414 0.017192 0.006606 0.006347 At line = 4200 Reading in data.... r_peak,r_snr = 0.1848269 5.384881 246 1.969 4246 -5.719 5.38488 0.039698 2.952582 0.109881 r_peak,r_snr = 0.4901725 10.20778 346 -0.125 4246 7.750 10.20778 0.001459 0.533528 0.006935 r_peak,r_snr = 0.4752554 8.113950 446 0.125 4246 2.750 8.11395 0.002109 1.483284 -0.027503 r_peak,r_snr = 0.2196223 9.885389 546 -0.094 4246 1.781 9.88539 0.012457 1.562364 0.041711 r_peak,r_snr = 0.2491353 7.969697 646 -0.281 4246 7.656 7.96970 0.013357 1.088236 0.066276 r_peak,r_snr = 0.1701734 13.79593 746 -2.750 4246 14.406 13.79593 0.030443 0.686103 0.078073 r_peak,r_snr = 0.3022433 2.402807 846 0.281 4246 -0.781 2.40281 0.131832 15.155650 1.361734 r_peak,r_snr = 0.4022757 4.446736 946 0.063 4246 2.063 4.44674 0.013672 0.382505 0.027601 r_peak,r_snr = 0.3186655 6.549998 1046 0.188 4246 1.281 6.55000 0.034992 2.731127 0.275884 r_peak,r_snr = 0.2248610 9.669216 1146 1.188 4246 4.781 9.66922 0.020922 0.647642 0.061352 r_peak,r_snr = 0.4248070 4.292759 1246 -1.781 4246 -10.750 4.29276 0.014366 0.398932 -0.022484 r_peak,r_snr = 0.2117331 12.11675 1346 0.063 4246 1.719 12.11675 0.040387 4.060481 -0.323182 r_peak,r_snr = 0.3172832 6.370249 1446 1.188 4246 0.438 6.37025 0.020101 0.076141 -0.008798 r_peak,r_snr = 0.2306543 5.819355 1646 -1.156 4246 -0.750 5.81936 0.069210 0.566574 -0.037226 r_peak,r_snr = 0.3262566 4.146131 1746 0.438 4246 -0.594 4.14613 0.023608 0.109020 0.006527 r_peak,r_snr = 0.5971863 13.48495 1846 -0.625 4246 -0.188 13.48495 0.023117 0.005616 0.004273 r_peak,r_snr = 0.7093987 13.53649 1946 0.250 4246 -0.031 13.53649 0.006631 0.002554 0.000982 r_peak,r_snr = 0.6707442 9.552341 2046 -0.219 4246 -0.031 9.55234 0.023489 0.003027 -0.000316 At line = 4600 Reading in data.... r_peak,r_snr = 0.2588686 7.636146 146 0.375 4646 -0.719 7.63615 0.013748 0.585325 -0.031727 r_peak,r_snr = 0.3266955 8.125560 246 0.219 4646 -6.656 8.12556 0.012416 0.486244 -0.048556 r_peak,r_snr = 0.5382461 12.78291 546 0.250 4646 -0.156 12.78291 0.001025 0.111518 0.000276 r_peak,r_snr = 0.1801472 5.356034 646 -1.125 4646 -6.750 5.35603 0.348274 4.520726 -1.222268 r_peak,r_snr = 0.2142410 6.998878 746 -0.094 4646 2.719 6.99888 0.010835 0.670439 -0.027951 r_peak,r_snr = 0.3564798 6.461637 846 -0.406 4646 -1.781 6.46164 0.007203 1.140703 -0.019094 r_peak,r_snr = 0.1583553 5.769236 946 0.844 4646 0.844 5.76924 0.184224 2.331075 0.361063 r_peak,r_snr = 0.3866247 8.172320 1046 0.594 4646 1.250 8.17232 0.005447 0.298701 -0.016676 r_peak,r_snr = 0.1709032 8.227183 1146 0.281 4646 -1.625 8.22718 0.012850 0.318483 -0.031749 r_peak,r_snr = 0.2810101 9.014956 1246 0.250 4646 2.219 9.01496 0.017813 0.927142 -0.082751 r_peak,r_snr = 0.2100200 7.043455 1346 0.500 4646 -3.750 7.04346 0.037949 2.735970 0.262045 r_peak,r_snr = 0.3912864 3.605475 1446 0.375 4646 0.844 3.60547 0.079288 0.798196 -0.167186 r_peak,r_snr = 0.1604729 9.868786 1646 -4.406 4646 9.219 9.86879 0.018338 0.455853 0.026735 r_peak,r_snr = 0.4625193 3.062337 1746 0.750 4646 0.281 3.06234 0.016771 0.139401 0.008254 r_peak,r_snr = 0.7042148 11.23099 1846 -0.219 4646 0.250 11.23099 0.009875 0.003658 0.001135 r_peak,r_snr = 0.6675590 11.93150 1946 -0.188 4646 0.000 11.93150 0.017893 0.005248 0.007363 r_peak,r_snr = 0.6647131 10.76079 2046 0.844 4646 0.094 10.76079 0.056742 0.006903 0.014581 At line = 5000 Reading in data.... r_peak,r_snr = 0.4487823 8.872626 146 0.313 5046 1.625 8.87263 0.002419 0.971653 0.001904 r_peak,r_snr = 0.1864718 5.616472 246 -0.188 5046 0.875 5.61647 0.007393 2.394662 -0.010104 r_peak,r_snr = 0.3824376 3.797785 346 0.281 5046 9.219 3.79778 0.017029 0.748554 -0.066625 r_peak,r_snr = 0.2872418 6.572745 446 0.563 5046 -1.281 6.57275 0.083237 2.023404 -0.348180 r_peak,r_snr = 0.3590404 8.263753 546 0.406 5046 1.688 8.26375 0.005689 0.540533 -0.016446 r_peak,r_snr = 0.2714559 7.182463 646 0.531 5046 8.281 7.18246 0.011977 0.278041 0.011326 r_peak,r_snr = 0.3648381 5.762223 746 -0.188 5046 7.781 5.76222 0.034430 7.674514 0.465090 r_peak,r_snr = 0.2505259 4.109035 846 -0.688 5046 -6.781 4.10903 0.032810 3.681367 -0.284768 r_peak,r_snr = 0.3018745 5.326114 946 0.688 5046 -4.750 5.32611 0.009745 1.269387 -0.040248 r_peak,r_snr = 0.2791137 5.151360 1046 0.625 5046 1.750 5.15136 0.030267 1.400327 0.128586 r_peak,r_snr = 0.2578661 5.072775 1146 0.813 5046 -4.250 5.07277 0.698773 0.633698 -0.396461 r_peak,r_snr = 0.2245741 4.812719 1246 0.813 5046 -4.750 4.81272 0.027984 5.141979 -0.090015 r_peak,r_snr = 0.2126246 7.168637 1346 0.125 5046 0.813 7.16864 0.024521 6.599415 -0.006200 r_peak,r_snr = 0.4036185 3.092142 1446 0.781 5046 11.094 3.09214 0.015585 0.301375 0.002676 r_peak,r_snr = 0.1961440 7.885859 1546 0.156 5046 7.813 7.88586 0.016321 0.305655 0.013108 r_peak,r_snr = 0.2115546 7.701286 1646 1.031 5046 -2.875 7.70129 0.019087 0.883163 0.084075 r_peak,r_snr = 0.4152888 3.449037 1746 3.625 5046 0.750 3.44904 0.143670 0.501736 0.174435 r_peak,r_snr = 0.6148499 15.74364 1846 0.031 5046 -0.031 15.74364 0.007641 0.003239 0.001395 r_peak,r_snr = 0.6806007 15.01651 1946 0.063 5046 -0.219 15.01651 0.014280 0.002747 0.001364 r_peak,r_snr = 0.6746759 13.13137 2046 1.406 5046 -0.156 13.13137 0.018268 0.004607 0.005809 At line = 5400 Reading in data.... r_peak,r_snr = 0.2604869 10.73363 146 0.375 5446 -1.406 10.73363 0.004769 0.925587 0.025376 r_peak,r_snr = 0.2823820 9.750807 246 0.438 5446 1.938 9.75081 0.013770 0.374277 0.005822 r_peak,r_snr = 0.4189987 8.662487 346 0.250 5446 0.188 8.66249 0.003288 2.481935 -0.006763 r_peak,r_snr = 0.4164438 7.767615 646 0.469 5446 2.219 7.76762 0.004674 0.334632 -0.019085 r_peak,r_snr = 0.2828898 8.093402 746 -0.281 5446 5.813 8.09340 0.006865 2.087639 -0.048265 r_peak,r_snr = 0.2861948 6.719956 846 0.344 5446 9.406 6.71996 0.009807 1.071251 -0.040167 r_peak,r_snr = 0.3034092 8.519477 1046 0.156 5446 -2.063 8.51948 0.006580 0.465359 0.000662 r_peak,r_snr = 0.2685447 8.231957 1146 -0.063 5446 -1.125 8.23196 0.010172 0.558042 -0.016935 r_peak,r_snr = 0.1540545 5.125423 1246 1.438 5446 -3.969 5.12542 0.046919 0.475423 0.046100 r_peak,r_snr = 0.1939352 8.386844 1346 2.063 5446 -9.875 8.38684 0.020530 0.897612 -0.061913 r_peak,r_snr = 0.1503399 6.497823 1446 0.438 5446 3.625 6.49782 0.044477 1.444126 -0.195371 r_peak,r_snr = 0.1532230 9.289848 1546 11.594 5446 -4.438 9.28985 0.021411 0.232238 0.031156 r_peak,r_snr = 0.1948222 7.113661 1646 12.781 5446 8.781 7.11366 0.031132 0.310481 0.022325 r_peak,r_snr = 0.4833976 2.664370 1746 0.719 5446 0.750 2.66437 0.024804 0.132484 0.029843 r_peak,r_snr = 0.7057578 12.84114 1846 1.000 5446 -0.031 12.84114 0.014785 0.001543 0.000690 r_peak,r_snr = 0.6973419 13.13160 1946 -0.188 5446 0.000 13.13160 0.030803 0.001788 -0.000554 r_peak,r_snr = 0.7068495 10.22961 2046 -0.281 5446 0.094 10.22961 0.018664 0.003733 0.003155 At line = 5800 Reading in data.... r_peak,r_snr = 0.4393522 8.323617 146 1.094 5846 -12.313 8.32362 0.003694 2.189494 0.059019 r_peak,r_snr = 0.3562735 6.814571 246 -1.094 5846 12.781 6.81457 0.005591 0.769167 0.034764 r_peak,r_snr = 0.3030155 8.393757 346 0.844 5846 7.031 8.39376 0.008634 2.832947 0.103236 r_peak,r_snr = 0.2597301 7.588666 446 0.063 5846 3.938 7.58867 0.038674 3.659616 0.293537 r_peak,r_snr = 0.4448655 8.070447 646 0.094 5846 -4.188 8.07045 0.002591 0.263396 -0.004108 r_peak,r_snr = 0.2474672 7.503264 746 0.563 5846 0.250 7.50326 0.032266 1.741146 0.148107 r_peak,r_snr = 0.2671610 8.540515 846 0.344 5846 3.813 8.54051 0.015018 7.799641 -0.089087 r_peak,r_snr = 0.2722178 4.558578 946 -0.219 5846 -4.813 4.55858 0.019844 1.098407 -0.010449 r_peak,r_snr = 0.2460910 4.080578 1046 1.031 5846 -1.000 4.08058 0.036430 0.487560 0.076712 r_peak,r_snr = 0.2434663 5.599354 1146 0.781 5846 -2.781 5.59935 0.010765 2.379451 -0.052586 r_peak,r_snr = 0.2424009 4.692345 1246 0.250 5846 3.750 4.69234 0.095972 1.773491 0.316518 r_peak,r_snr = 0.4273396 4.170211 1346 0.563 5846 -3.750 4.17021 0.022998 1.381580 0.093155 r_peak,r_snr = 0.2863273 6.010574 1446 0.750 5846 -1.188 6.01057 0.013363 0.328167 0.002862 r_peak,r_snr = 0.1902345 4.424716 1546 0.969 5846 -7.750 4.42472 0.045453 1.732376 0.166498 r_peak,r_snr = 0.1175392 8.805670 1646 0.781 5846 -12.813 8.80567 0.018621 3.748407 0.182446 r_peak,r_snr = 0.4861837 6.284809 1746 0.281 5846 0.688 6.28481 0.067665 0.028174 0.008902 r_peak,r_snr = 0.7268324 10.68936 1846 0.469 5846 -0.094 10.68936 0.010073 0.003003 0.002088 r_peak,r_snr = 0.6312199 14.53067 1946 0.219 5846 -0.375 14.53067 0.022881 0.003281 0.003032 r_peak,r_snr = 0.7670402 13.15530 2046 0.188 5846 -0.156 13.15530 0.005362 0.001698 0.000352 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.7596775 14.44602 146 0.406 3046 0.344 14.44602 0.000311 0.010961 0.000089 r_peak,r_snr = 0.7279611 14.17859 246 0.281 3046 -0.188 14.17859 0.000366 0.026068 -0.000339 r_peak,r_snr = 0.3218026 12.65909 346 0.250 3046 0.219 12.65909 0.003110 0.118511 0.006152 r_peak,r_snr = 0.4697773 13.14361 446 0.125 3046 0.906 13.14361 0.001752 0.099710 -0.002034 r_peak,r_snr = 0.4381893 10.53994 546 0.250 3046 -1.781 10.53994 0.002444 0.178001 -0.001565 r_peak,r_snr = 0.1958687 4.639809 646 0.594 3046 7.813 4.63981 26.669437 355.671082 -97.271172 r_peak,r_snr = 0.3791659 7.135114 746 0.406 3046 -0.188 7.13511 0.003977 0.170138 0.014069 r_peak,r_snr = 0.3008414 8.694259 846 -0.156 3046 -0.781 8.69426 0.005396 0.426551 0.003427 r_peak,r_snr = 0.2394605 11.39346 946 0.219 3046 -0.031 11.39346 0.009733 0.562413 0.041942 r_peak,r_snr = 0.2030903 5.299782 1046 0.875 3046 0.500 5.29978 0.011718 0.445847 0.019956 r_peak,r_snr = 0.2184492 6.223512 1146 0.531 3046 3.219 6.22351 0.012814 3.989686 -0.039999 r_peak,r_snr = 0.3607392 12.58991 1246 0.000 3046 0.406 12.58991 0.002628 0.255605 0.005205 r_peak,r_snr = 0.2402592 6.524452 1346 0.563 3046 0.813 6.52445 0.013273 0.608022 -0.009292 r_peak,r_snr = 0.2141323 7.875653 1446 0.344 3046 -2.750 7.87565 0.014435 1.028668 -0.026950 r_peak,r_snr = 0.2061050 8.393205 1546 0.375 3046 0.281 8.39320 0.014616 0.429493 -0.000955 r_peak,r_snr = 0.2461564 9.271404 1646 0.656 3046 14.813 9.27140 0.017126 1.185251 -0.070018 r_peak,r_snr = 0.3768113 3.207055 1746 0.125 3046 -1.813 3.20705 0.043941 0.580388 0.132975 r_peak,r_snr = 0.1792093 4.099169 1846 -6.063 3046 7.625 4.09917 0.287696 0.306079 0.051911 r_peak,r_snr = 0.1167919 7.337198 1946 -2.094 3046 5.250 7.33720 0.312705 0.598848 -0.240401 r_peak,r_snr = 0.1720301 5.266518 2046 -1.906 3046 12.438 5.26652 0.188798 0.419655 0.167008 At line = 3400 Reading in data.... r_peak,r_snr = 0.7110399 16.75110 146 0.344 3446 -0.219 16.75110 0.000439 0.014910 -0.000107 r_peak,r_snr = 0.3959079 14.90444 246 0.438 3446 0.250 14.90444 0.002946 0.120792 -0.009813 r_peak,r_snr = 0.3688122 10.31968 346 -0.406 3446 4.813 10.31968 0.001930 0.188825 0.000543 r_peak,r_snr = 0.4259565 14.88901 446 0.313 3446 -0.750 14.88901 0.002184 0.068184 0.000695 r_peak,r_snr = 0.5759164 19.97737 546 0.281 3446 -0.250 19.97737 0.000880 0.031893 -0.000467 r_peak,r_snr = 0.5281959 6.979746 746 0.344 3446 0.750 6.97975 0.002404 0.082674 0.000589 r_peak,r_snr = 0.3627892 5.552157 846 0.438 3446 -4.219 5.55216 0.007161 0.616694 -0.002349 r_peak,r_snr = 0.3192031 8.953057 946 0.219 3446 -0.219 8.95306 0.004328 0.188652 -0.009067 r_peak,r_snr = 0.4264919 6.547643 1046 0.125 3446 0.063 6.54764 0.002819 0.457490 0.000047 r_peak,r_snr = 0.3419984 6.854200 1146 -0.250 3446 0.875 6.85420 0.009195 0.409924 0.011208 r_peak,r_snr = 0.3062944 7.921584 1246 0.063 3446 -0.625 7.92158 0.006053 0.240764 -0.015534 r_peak,r_snr = 0.2892369 4.307053 1346 -0.406 3446 4.813 4.30705 0.009767 6.730426 -0.152685 r_peak,r_snr = 0.4169803 3.459814 1446 0.781 3446 1.781 3.45981 0.039769 1.134618 -0.191039 r_peak,r_snr = 0.2218947 7.172966 1546 -0.344 3446 -0.875 7.17297 0.008502 1.410120 -0.021003 r_peak,r_snr = 0.1749409 5.250582 1646 0.844 3446 -1.875 5.25058 0.019017 1.738150 0.117006 r_peak,r_snr = 0.2591609 3.331184 1746 -7.281 3446 -10.125 3.33118 0.297640 24.381788 2.368470 r_peak,r_snr = 7.5418718E-02 6.585322 2046 17.875 3446 -3.750 6.58532 0.153863 0.479929 0.143976 At line = 3800 Reading in data.... r_peak,r_snr = 0.6546482 17.37777 146 0.375 3846 -0.781 17.37777 0.000500 0.053027 0.001296 r_peak,r_snr = 0.5041615 12.84500 246 0.344 3846 -1.156 12.84500 0.001238 0.067289 -0.001886 r_peak,r_snr = 0.6581098 13.37308 346 0.281 3846 0.313 13.37308 0.000469 0.020314 0.000152 r_peak,r_snr = 0.7699345 11.53689 446 0.313 3846 -0.188 11.53689 0.000343 0.055277 -0.000036 r_peak,r_snr = 0.5343260 9.167521 546 0.406 3846 0.875 9.16752 0.001706 0.035015 -0.000802 r_peak,r_snr = 0.1998286 10.97718 646 0.406 3846 0.156 10.97718 0.025935 0.352308 -0.043497 r_peak,r_snr = 0.2826274 6.666620 846 0.344 3846 -0.750 6.66662 0.017949 0.581999 -0.037213 r_peak,r_snr = 0.2335011 9.064670 946 0.125 3846 -1.094 9.06467 0.007954 0.641527 0.006940 r_peak,r_snr = 0.4723334 4.029220 1046 0.563 3846 -1.625 4.02922 0.005201 0.150103 -0.002321 r_peak,r_snr = 0.3453211 8.966908 1146 0.406 3846 -0.188 8.96691 0.008165 1.245227 -0.032159 r_peak,r_snr = 0.3516273 5.258800 1246 0.031 3846 2.219 5.25880 0.023835 1.396919 0.143222 r_peak,r_snr = 0.3851071 5.356636 1346 -0.250 3846 1.438 5.35664 0.006203 0.504082 0.008675 r_peak,r_snr = 0.5760446 12.34696 1446 0.313 3846 0.094 12.34696 0.000969 0.023418 0.000984 r_peak,r_snr = 0.3449242 7.627856 1546 0.250 3846 0.250 7.62786 0.006840 0.287169 0.010869 r_peak,r_snr = 0.3345519 14.82872 1646 -0.125 3846 0.656 14.82872 0.003487 0.146435 0.000802 r_peak,r_snr = 0.4437937 2.391977 1746 0.313 3846 -0.219 2.39198 0.014845 0.370093 -0.021234 r_peak,r_snr = 0.1047003 2.678587 1846 -4.750 3846 -12.875 2.67859 0.052176 0.471309 -0.009446 r_peak,r_snr = 0.1248971 4.671507 2046 1.906 3846 -10.281 4.67151 0.178549 1.220668 -0.154248 At line = 4200 Reading in data.... r_peak,r_snr = 0.7655561 12.78760 146 0.375 4246 -0.125 12.78760 0.000333 0.007025 -0.000354 r_peak,r_snr = 0.2834390 9.987181 246 0.250 4246 -1.188 9.98718 0.004392 0.525496 -0.018171 r_peak,r_snr = 0.9060038 10.56765 346 0.188 4246 -0.063 10.56765 0.000107 0.007597 0.000011 r_peak,r_snr = 0.6326060 9.418489 446 0.250 4246 0.813 9.41849 0.000758 0.079801 -0.002183 r_peak,r_snr = 0.7299268 18.87478 546 0.063 4246 0.125 18.87478 0.000373 0.010995 0.000119 r_peak,r_snr = 0.2304674 9.339684 746 -0.594 4246 -2.938 9.33968 0.046528 0.493173 -0.116402 r_peak,r_snr = 0.4332322 6.176022 846 0.188 4246 -0.719 6.17602 0.002700 0.193747 -0.007006 r_peak,r_snr = 0.4873579 6.137704 946 0.125 4246 -0.219 6.13770 0.001983 0.134138 0.000532 r_peak,r_snr = 0.3959796 9.221423 1046 0.000 4246 -1.813 9.22142 0.003354 0.575594 0.012804 r_peak,r_snr = 0.2303320 8.633351 1146 0.313 4246 3.906 8.63335 0.011929 0.820706 0.041220 r_peak,r_snr = 0.5665779 8.805248 1246 0.281 4246 -0.031 8.80525 0.001205 0.064677 0.002298 r_peak,r_snr = 0.1784457 5.837437 1346 0.969 4246 3.188 5.83744 0.071752 0.476322 0.057581 r_peak,r_snr = 0.2007582 5.637597 1446 8.094 4246 -10.781 5.63760 0.014738 4.335159 0.043987 r_peak,r_snr = 0.3133602 2.950877 1546 0.031 4246 -3.781 2.95088 0.008309 1.259652 -0.055498 r_peak,r_snr = 0.1940086 3.104072 1646 -1.438 4246 -6.094 3.10407 0.040753 4.931317 -0.219336 r_peak,r_snr = 0.3410401 3.096425 1746 0.406 4246 -1.688 3.09643 0.017426 0.881354 -0.059397 r_peak,r_snr = 0.1151858 7.008992 1946 14.125 4246 9.906 7.00899 0.260009 0.575066 0.208168 r_peak,r_snr = 0.1518051 6.989562 2046 -3.938 4246 -11.375 6.98956 0.212124 0.884529 0.348534 At line = 4600 Reading in data.... r_peak,r_snr = 0.3178875 8.124494 146 0.375 4646 -1.938 8.12449 0.014177 2.164601 -0.132291 r_peak,r_snr = 0.6215737 15.38226 246 0.406 4646 -0.219 15.38226 0.000809 0.020949 -0.000250 r_peak,r_snr = 0.5154732 13.56799 346 0.438 4646 0.188 13.56799 0.001015 0.075004 -0.000231 r_peak,r_snr = 0.8365991 13.09497 446 0.375 4646 -0.156 13.09497 0.000234 0.003241 -0.000037 r_peak,r_snr = 0.8127956 16.02216 546 0.250 4646 0.219 16.02216 0.000233 0.006836 -0.000038 r_peak,r_snr = 0.2203237 7.184825 646 -0.594 4646 2.219 7.18482 0.017042 1.058914 0.027052 r_peak,r_snr = 0.3050233 11.43831 746 0.344 4646 0.781 11.43831 0.006286 0.366602 -0.016913 r_peak,r_snr = 0.3353966 6.107022 846 -0.063 4646 -0.813 6.10702 0.008555 1.654847 -0.007888 r_peak,r_snr = 0.1644796 6.115357 946 1.281 4646 0.813 6.11536 0.032290 3.785836 -0.113557 r_peak,r_snr = 0.4260210 8.986156 1046 0.375 4646 -0.813 8.98616 0.002741 0.226397 0.006155 r_peak,r_snr = 0.2705272 6.814582 1146 0.469 4646 -0.750 6.81458 0.030703 2.073957 0.213963 r_peak,r_snr = 0.2186451 7.803666 1246 1.563 4646 2.844 7.80367 0.017211 0.543129 -0.048073 r_peak,r_snr = 0.1969484 6.389041 1346 0.250 4646 2.750 6.38904 0.011025 1.808095 0.051836 r_peak,r_snr = 0.5442137 5.155964 1446 0.156 4646 0.406 5.15596 0.002253 0.072196 -0.000027 r_peak,r_snr = 0.1899732 4.217531 1546 1.000 4646 -2.813 4.21753 0.061134 0.381848 -0.041794 r_peak,r_snr = 8.8795669E-02 5.273613 1646 -3.219 4646 7.875 5.27361 0.035404 0.311466 0.014673 r_peak,r_snr = 0.4571400 2.787329 1746 -0.594 4646 0.781 2.78733 0.011282 0.404847 -0.005101 r_peak,r_snr = 0.1108507 6.691679 1946 14.844 4646 -3.219 6.69168 0.073293 0.898282 0.152078 r_peak,r_snr = 0.1229264 8.287608 2046 -6.250 4646 -5.094 8.28761 0.035777 1.752516 -0.075651 At line = 5000 Reading in data.... r_peak,r_snr = 0.6432377 10.55862 146 0.344 5046 -0.094 10.55862 0.000859 0.033585 -0.000790 r_peak,r_snr = 0.3502575 11.87947 246 0.313 5046 0.875 11.87947 0.002835 0.269713 -0.000896 r_peak,r_snr = 0.4739767 7.480274 346 0.500 5046 0.750 7.48027 0.003046 0.733175 -0.023264 r_peak,r_snr = 0.6470698 11.22634 446 0.188 5046 -1.750 11.22634 0.000630 0.154369 -0.000551 r_peak,r_snr = 0.5686135 13.20981 546 0.250 5046 0.250 13.20981 0.001125 0.047879 -0.001510 r_peak,r_snr = 0.3459947 7.809707 646 0.500 5046 0.781 7.80971 0.006101 0.281256 -0.011485 r_peak,r_snr = 0.4187413 6.708307 746 0.469 5046 -0.188 6.70831 0.007833 0.956194 -0.051854 r_peak,r_snr = 0.3841592 6.422693 846 0.250 5046 -0.063 6.42269 0.004331 0.330102 0.015120 r_peak,r_snr = 0.3255228 6.290535 946 0.344 5046 -1.188 6.29053 0.008136 0.396624 0.009012 r_peak,r_snr = 0.2524328 7.181222 1046 0.406 5046 0.813 7.18122 0.022725 4.287827 -0.279828 r_peak,r_snr = 0.4576721 8.384766 1146 0.250 5046 0.750 8.38477 0.003702 0.139008 0.008895 r_peak,r_snr = 0.1940659 5.545876 1246 0.625 5046 8.719 5.54588 0.026911 0.576848 -0.011217 r_peak,r_snr = 0.2912869 13.72134 1346 -0.313 5046 1.250 13.72134 0.006285 0.180251 0.008073 r_peak,r_snr = 0.4010886 3.519747 1446 0.281 5046 -1.219 3.51975 0.019367 3.237182 -0.207121 r_peak,r_snr = 0.2493007 9.455019 1546 0.094 5046 1.156 9.45502 0.006286 0.629067 0.011583 r_peak,r_snr = 0.2198045 6.659120 1646 0.750 5046 -1.719 6.65912 0.078692 1.605235 0.060435 r_peak,r_snr = 0.3032586 4.895376 1746 0.875 5046 -1.156 4.89538 0.021676 0.304344 0.030251 r_peak,r_snr = 0.1641780 9.734193 1846 0.563 5046 2.844 9.73419 0.039114 0.221839 0.043440 r_peak,r_snr = 0.1402095 7.330842 1946 -4.656 5046 -10.063 7.33084 0.115278 0.461794 0.147602 r_peak,r_snr = 9.2584565E-02 3.963892 2046 0.406 5046 8.406 3.96389 0.634300 2.069149 0.642152 At line = 5400 Reading in data.... r_peak,r_snr = 0.7834275 13.52520 146 0.344 5446 -0.156 13.52520 0.000266 0.015502 0.000013 r_peak,r_snr = 0.3075709 10.73093 246 0.469 5446 -0.781 10.73093 0.004154 0.323770 0.009977 r_peak,r_snr = 0.6867780 11.45755 346 0.156 5446 0.031 11.45755 0.000494 0.025936 -0.000497 r_peak,r_snr = 0.3312358 5.775290 446 1.063 5446 0.250 5.77529 0.005341 1.026434 -0.019541 r_peak,r_snr = 0.3094024 5.396276 546 0.438 5446 -4.219 5.39628 0.009182 2.574226 0.090792 r_peak,r_snr = 0.4949542 8.675768 646 0.344 5446 5.813 8.67577 0.002099 1.077819 0.014084 r_peak,r_snr = 0.3829737 10.32731 746 0.031 5446 0.500 10.32731 0.003274 0.733820 0.004456 r_peak,r_snr = 0.3715865 6.066236 846 0.969 5446 -4.219 6.06624 0.030256 1.578743 0.180578 r_peak,r_snr = 0.1529309 6.863477 946 0.563 5446 0.031 6.86348 0.038259 0.966346 -0.143232 r_peak,r_snr = 0.4032993 8.911654 1046 0.000 5446 -0.906 8.91165 0.004267 0.128705 0.001962 r_peak,r_snr = 0.3125441 7.403311 1146 0.219 5446 2.156 7.40331 0.015479 1.801475 -0.124319 r_peak,r_snr = 0.3322431 10.50765 1246 0.188 5446 2.250 10.50765 0.005101 0.329022 -0.001432 r_peak,r_snr = 0.2390991 6.927498 1346 1.406 5446 12.563 6.92750 0.015442 0.427118 -0.011902 r_peak,r_snr = 0.2101061 6.703805 1446 -0.156 5446 11.313 6.70380 0.121905 7.460051 0.125342 r_peak,r_snr = 0.2050345 4.679867 1546 -1.438 5446 2.719 4.67987 0.055609 0.665657 0.101761 r_peak,r_snr = 0.3777319 2.731698 1746 0.469 5446 0.719 2.73170 0.103886 3.297484 0.562165 r_peak,r_snr = 0.1338534 7.092118 1846 12.875 5446 -0.406 7.09212 0.168789 0.237692 0.111624 r_peak,r_snr = 0.1203035 11.08372 1946 0.063 5446 3.281 11.08372 0.062267 0.241654 -0.034273 r_peak,r_snr = 0.1231148 6.129289 2046 6.469 5446 5.719 6.12929 0.151666 1.150726 -0.085099 At line = 5800 Reading in data.... r_peak,r_snr = 0.7367948 12.80749 146 0.344 5846 0.813 12.80749 0.000330 0.015684 0.000370 r_peak,r_snr = 0.3531651 6.815878 246 0.000 5846 2.375 6.81588 0.014165 3.397174 0.146539 r_peak,r_snr = 0.5282047 13.36697 346 0.219 5846 -0.188 13.36697 0.000955 0.117636 0.000253 r_peak,r_snr = 0.4027143 14.14190 446 0.188 5846 0.156 14.14190 0.002208 0.078178 0.003018 r_peak,r_snr = 0.3397126 8.443602 546 0.063 5846 0.094 8.44360 0.005885 0.399184 -0.001588 r_peak,r_snr = 0.5791973 8.967375 646 0.219 5846 -0.188 8.96737 0.000964 0.633974 -0.003553 r_peak,r_snr = 0.2546497 7.519747 746 0.250 5846 1.281 7.51975 0.011472 1.663498 -0.054992 r_peak,r_snr = 0.2889185 8.364078 946 0.719 5846 1.063 8.36408 0.019918 0.449929 -0.055751 r_peak,r_snr = 0.3991100 6.447896 1046 0.250 5846 -1.125 6.44790 0.003238 0.248914 0.010330 r_peak,r_snr = 0.3934734 8.841871 1146 0.469 5846 1.219 8.84187 0.008534 0.491292 -0.047775 r_peak,r_snr = 0.2509238 5.010860 1246 0.531 5846 -1.250 5.01086 0.014294 0.396666 0.038467 r_peak,r_snr = 0.7038543 6.858852 1346 0.438 5846 -0.219 6.85885 0.000634 0.023924 0.000491 r_peak,r_snr = 0.2674139 7.893195 1446 1.844 5846 13.219 7.89320 0.009445 0.540189 0.009664 r_peak,r_snr = 0.1291715 6.890115 1646 -3.750 5846 0.156 6.89012 0.007351 0.473174 0.020252 r_peak,r_snr = 0.3327294 8.173554 1746 0.094 5846 0.656 8.17355 0.004170 0.197599 0.003584 r_peak,r_snr = 0.1635767 5.068433 1846 6.750 5846 7.125 5.06843 1.129641 0.805742 -0.642505 r_peak,r_snr = 0.1938466 8.031915 2046 -9.500 5846 2.250 8.03191 0.122307 0.287645 0.093315 *************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Multi-look Program ***** ***** ***** *************************************** Enter the name of the Shh input file. fd for hh: 3 Enter the name of the complex HV file. fd for hv: 4 Enter the name of the complex VH file. fd for vh: 5 Enter the name of the complex VV file. fd for vv: 6 Procmode 0=polsar,1=xti1,2=xti2,3=xti1p,4=xti2p,5=poltop Proc mode: 4 min. window size : 5932 MIN window samp: 2517 90.00000 10.00000 900 2560 MIN window samp: 2517 90.00000 10.00000 900 2560 Calculating the ratio of HV and VH.... amvh,amhv 622.2278 1069.115 Enter the name of the file. Enter the name of the file. Enter the name of the file. Enter the name of the file. Enter the name of the file. Enter the name of the file. Enter the number of looks in azimuth. amplitude ratio and phase = 1.310803 34.31807 40/20 MHz: 2560 10240 40/20 MHz MHz complex: 2560 20480 97236 5402 18 /u/sardine0/airops/OPS/data_proc/ ************************************************* ***** Integrated AIRSAR Processor ***** ***** ***** ***** Radiometric Calibration Program ***** ***** ***** ************************************************* ***** ***** ***** This program performs the following ***** ***** calibrations: ***** ***** ***** ***** (1) Phase calibration ***** ***** (2) Cross-talk removal ***** ***** (3) Antenna pattern removal ***** ***** (4) Scattering area removal ***** ***** ***** ***** If available, the topography is used ***** ***** when removing antenna patterns and ***** ***** scattering areas. In all cases, the ***** ***** aircraft roll is taken into account ***** ***** when the antenna pattern is removed. ***** ***** ***** ************************************************* Enter the name of input file. iline: 5402 2560 hhhh i/p ch : 3 Enter the name of input file. hhhv i/p ch : 4 Enter the name of input file. hhvv i/p ch : 5 Enter the name of input file. hvhv i/p ch : 6 Enter the name of input file. hvvv i/p ch : 7 Enter the name of input file. vvvv i/p ch : 8 Enter the name of output file. hhhh o/p ch : 9 Enter the name of output file. hhhv o/p ch : 10 Enter the name of output file. hhvv o/p ch : 11 Enter the name of output file. hvhv o/p ch : 12 Enter the name of output file. hvvv o/p ch : 13 Enter the name of output file. vvvv o/p ch : 14 Enter the name of the calibration file. calib file bw: /u/sardine0/airops/OPS/data_proc/recal0.dat 40.00000 hddt1 , hddt2: 92001 92999 hddt1 , hddt2: 93001 93999 hddt1 , hddt2: 94001 94999 hddt1 , hddt2: 95001 95999 hddt1 , hddt2: 96001 96022 hddt1 , hddt2: 96023 96031 hddt1 , hddt2: 96032 96099 abs gain: 137.5500 136.3300 137.5500 136.3300 caltone: 83.20000 85.60000 83.10000 86.00000 ifreq 0-p 1-L 2-c: 0 3 cable phase P/L/C: 12.89200 186.9660 56.51500 sigma zero: 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 hddt bw ha T : 96068 40.00000 8367.900 10.00000 $tphase,phasedat: -203.0000 34.30000 $rphase,phasevh,phasehv: -237.3000 -175.5000 61.80000 Reading data size. 5402 5402 2560 2560 Enter H Ant pattern file: POLSAR H-ANT: /u/sardine0/airops/OPS/data_proc/AIRSAR.PH Enter V Ant pattern file: POLSAR V-ANT: /u/sardine0/airops/OPS/data_proc/AIRSAR.PV Enter the name of the motion compensation file. motion lun: 15 How many lines of raw data? How many lines of raw data: 100000 Cross pol phase difference is: 34.30 deg Receiver phase difference is -237.30 deg Transmitter phase difference is -203.00 deg Cable phase difference is 12.89 deg $ghv,phasedat,phi: (0.8260983,0.5635260) 34.30000 34.30000 $phico aphase: -414.5160 12.89200 $fhh,fhv,fvh: (0.5804757,0.8142775) (-0.9844787,-0.1755042) (-0.7143752,-0.6997629) Input ground spacing ? cross-track ground spacing: 10.00000 Input file of Radiometric Correction Vectors: Radiometric Correction Vectors file: /export/air36/airops/1400/ts1400_p.rad_vec Procmode 0=polsar,1=xti1,2=xti2,3=xti1p,4=xti2p,5=poltop Proc mode: 4 Vec_lenRnHaY0outDyout: 9616 1202 17564.57 8367.900 3421.930 10.00000 3.331000 NSAMP vec_len rg_len nbytes: 2560 1202 9616 Reading data to estimate cross-talk. 5402 2560 256 512 768 1024 in cross-talk estimation Estimating the cross-talk parameters. 256 512 768 1024 1280 1536 1792 2048 2304 2560 cross(1,100) 0=-100 dB: (-2.0653488E-02,-0.1065411) (-6.8053283E-02,-4.2853900E-03) Finished estimating cross-talk. Enter the file with the lines per pixel. lines lun: 19 Is there a DEM available? Enter the name of the DEM file. DEM lun : 20 Byte offset to DEM data: 0 Enter the name of the global reference file. Enter the scattering area file name. ha maphgt 8446.500 78.60000 scattering area lun: 21 Now doing the actual calibration DEM. 2560 2560 1 5402 257 5402 513 5402 769 5402 1025 5402 1281 5402 1537 5402 1793 5402 2049 5402 2305 5402 2561 5402 2817 5402 3073 5402 3329 5402 3585 5402 3841 5402 4097 5402 4353 5402 4609 5402 4865 5402 5121 5402 5377 5402 peg file: /export/air36/airops/1400/ts1400_p.peg filter file: /export/air36/airops/1400/ts1400.pfilter ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Compression Program ***** ***** ***** ********************************************* ***** ***** ***** This prgram reads six input ***** ***** cross-product files and then ***** ***** compresses them into either the ***** ***** current AIRSAR compressed Stokes ***** ***** matric format, or the SIR-C com- ***** ***** pressed cross-product format. ***** ***** ***** ********************************************* Enter the name of input file. Enter the name of input file. Enter the name of input file. Enter the name of input file. Enter the name of input file. Enter the name of input file. Enter the name of output file. Please choose the type of compression: (1) Stokes matrix (AIRSAR standard) (2) Cross-products (SIR-C standard) hddt: 96068 Finished writing headers. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Projection Program ***** ***** ***** ***** This program projects from slant ***** ***** range to ground range. ***** ***** ***** ***** It uses an array of values produced ***** ***** by the GENLOC program to perform a ***** ***** nearest neighbor interpolation. ***** ***** ***** ************************************************** Enter the name of the input file. Projecting COMPRESSED STOKES MATRIX data. Projecting dem? Enter the name of the s,c file. Enter the range and azimuth pixel spacing. Enter the output file name. prf bw len: 842.6000 40.00000 10.00000 nsampr O/p: 1202 13041.07 8367.900 3421.930 10.00000 Number of header no123: 6 1 1 4 Byte offset to calibration header: 24040 Byte offset to dem header: 0 Byte offset to first data line: 72120 NewHead nsamp nline: 1202 5001 POLSAR vec length: 9616 1 nbytes calvec: 9616 76800 headers_sgi: 3 9616 76800 36060 2 nbytes calvec: 9616 102400 headers_sgi: 3 9616 102400 48080 3 nbytes calvec: 9616 128000 headers_sgi: 3 9616 128000 60100 Reading data. 25600 1202 1202 5402 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Initializing output array. Near Range = 3421.930 Resampling the data: first pass. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Resampling the data: second pass. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Near Range = 3421.930 Resampling the data. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Filling in 1 and 2 pixel holes. Number of pixels without data = 2113416 Number of holes filled by WAYNE (c10) = 0 Neighborhood Pixel Distance Used = 0 Writing map out. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 Enter number of set to convert: Enter the cband filename: Enter the output filename: Reading new header..STARTING at 0 72120 9616 12020 12020 dumping the rest 1 dumping the rest 2 dumping the rest 3 dumping the rest 4 dumping the rest 5 dumping the rest 6 dumping the rest 7 dumping the rest 8 dumping the rest 9 dumping the rest 10 dumping the rest 11 dumping the rest 12 dumping the rest 13 dumping the rest 14 dumping the rest 15 dumping the rest 16 dumping the rest 17 dumping the rest 18 dumping the rest 19 dumping the rest 20 dumping the rest 21 dumping the rest 22 dumping the rest 23 dumping the rest 24 dumping the rest 25 dumping the rest 26 dumping the rest 27 dumping the rest 28 dumping the rest 29 dumping the rest 30 dumping the rest 31 dumping the rest 32 dumping the rest 33 dumping the rest 34 dumping the rest 35 dumping the rest 36 dumping the rest 37 dumping the rest 38 dumping the rest 39 dumping the rest 40 dumping the rest 41 dumping the rest 42 dumping the rest 43 dumping the rest 44 dumping the rest 45 dumping the rest 46 dumping the rest 47 dumping the rest 48 dumping the rest 49 dumping the rest 50 dumping the rest 51 dumping the rest 52 dumping the rest 53 dumping the rest 54 dumping the rest 55 *** Synthesize 2.5 - 11/30/90 *** Enter the name of input file. Stokes matrix data... Enter the name of the output byte file. Enter the relative scale factor. ibytesdata= 72120 100 200 300 400 500 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 2100 2200 2300 2400 2500 2600 2700 2800 2900 3000 3100 3200 3300 3400 3500 3600 3700 3800 3900 4000 4100 4200 4300 4400 4500 4600 4700 4800 4900 5000 Mon Nov 11 15:51:03 PST 2002 Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin ts1400_p.vvvvr Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin cd /export/air36/airops/1400;am_misregNEW L-C *_c.vvvr *_l.vvvr 2>&1 | cd /export/air36/airops/1400;am_misregNEW P-C *_c.vvvr *_p.vvvvr 2>&1 | cd /export/air36/airops/1400;am_misregNEW P-L *_l.vvvr *_p.vvvvr 2>&1 | Mis-registration QA: No updates to the L-band sensor file;No updates to the P-band sensor file; The Mis-registration check is completed Mis-registration QA: JOB ID: ts1400 L-C: 0.0424 1.44 0.0936 1.32 P-C: 0.254 0.868 -0.0733 1.4 P-L: -0.299 0.494 -0.299 0.871 [1] 12636177 12626489 IDL. Version 4.0.1b (IRIX mipseb). Copyright 1989-1996, Research Systems, Inc. All rights reserved. Unauthorized reproduction prohibited. Installation number: 2972-1. Licensed for use by: JPL Radar Science & Engr % Compiled module: SPAWN_JOB_INFO. Mon Dec 2 14:23:04 PST 2002 RUNNING RFI FILTER... << Clean RFI from TOPSAR Data >> Enter P-band input file name: p_hh.rfi Enter Output file name: p_hh Enter range spectrum file name: ts1400_p_hh_spec.dat Enter range samples: 6144 Enter starting line #: 1 Enter end line #: 100000 Enter 40 MHz flag : 1 Enter the file name of the sub-band fileter coeff : /u/sardine0/airops/OPS/data_proc/par_npr_qmf_8_128_pro.dat Enter the file name of the LMS parameters array : p_hh_par_lms.dat Number of subbands: 8 Length of prototype: 128 Subband Switch Weighting Length Block Step Factor 1 1 1 256 16 0.50 0.9 2 1 1 256 16 0.50 0.9 3 1 1 256 16 0.50 0.9 4 1 1 256 16 0.50 0.9 5 1 1 256 16 0.50 0.9 6 1 1 256 16 0.50 0.9 7 1 1 256 16 0.50 0.9 8 1 1 256 16 0.50 0.9 40/80 MHz flag: 1 3969 4225 1.8671000E-02 4.0637001E-02 Input file name: p_hh.rfi Number of samples: 6144 Overwrite Status: 0 1 (overwrite) or 0 (new file) Output file name: p_hh Range Spectra: 1 1 (dump spectra) or 0 (do not dump) Data Range: 1 to 100000 lines to process FFT size: 8192 Done Initializing c_data block number 1 (x 100) block number 2 (x 100) block number 3 (x 100) block number 4 (x 100) block number 5 (x 100) block number 6 (x 100) block number 7 (x 100) block number 8 (x 100) block number 9 (x 100) At line: 1001 ; # of saturated pulses= 0 block number 10 (x 100) block number 11 (x 100) block number 12 (x 100) block number 13 (x 100) block number 14 (x 100) block number 15 (x 100) block number 16 (x 100) block number 17 (x 100) block number 18 (x 100) block number 19 (x 100) At line: 2001 ; # of saturated pulses= 0 block number 20 (x 100) block number 21 (x 100) block number 22 (x 100) block number 23 (x 100) block number 24 (x 100) block number 25 (x 100) block number 26 (x 100) block number 27 (x 100) block number 28 (x 100) block number 29 (x 100) At line: 3001 ; # of saturated pulses= 0 block number 30 (x 100) block number 31 (x 100) block number 32 (x 100) block number 33 (x 100) block number 34 (x 100) block number 35 (x 100) block number 36 (x 100) block number 37 (x 100) block number 38 (x 100) block number 39 (x 100) At line: 4001 ; # of saturated pulses= 0 block number 40 (x 100) block number 41 (x 100) block number 42 (x 100) block number 43 (x 100) block number 44 (x 100) block number 45 (x 100) block number 46 (x 100) block number 47 (x 100) block number 48 (x 100) block number 49 (x 100) At line: 5001 ; # of saturated pulses= 0 block number 50 (x 100) block number 51 (x 100) block number 52 (x 100) block number 53 (x 100) block number 54 (x 100) block number 55 (x 100) block number 56 (x 100) block number 57 (x 100) block number 58 (x 100) block number 59 (x 100) At line: 6001 ; # of saturated pulses= 0 block number 60 (x 100) block number 61 (x 100) block number 62 (x 100) block number 63 (x 100) block number 64 (x 100) block number 65 (x 100) block number 66 (x 100) block number 67 (x 100) block number 68 (x 100) block number 69 (x 100) At line: 7001 ; # of saturated pulses= 0 block number 70 (x 100) block number 71 (x 100) block number 72 (x 100) block number 73 (x 100) block number 74 (x 100) block number 75 (x 100) block number 76 (x 100) block number 77 (x 100) block number 78 (x 100) block number 79 (x 100) At line: 8001 ; # of saturated pulses= 0 block number 80 (x 100) block number 81 (x 100) block number 82 (x 100) block number 83 (x 100) block number 84 (x 100) block number 85 (x 100) block number 86 (x 100) block number 87 (x 100) block number 88 (x 100) block number 89 (x 100) At line: 9001 ; # of saturated pulses= 0 block number 90 (x 100) block number 91 (x 100) block number 92 (x 100) block number 93 (x 100) block number 94 (x 100) block number 95 (x 100) block number 96 (x 100) block number 97 (x 100) block number 98 (x 100) block number 99 (x 100) At line: 10001 ; # of saturated pulses= 0 block number 100 (x 100) block number 101 (x 100) block number 102 (x 100) block number 103 (x 100) block number 104 (x 100) block number 105 (x 100) block number 106 (x 100) block number 107 (x 100) block number 108 (x 100) block number 109 (x 100) At line: 11001 ; # of saturated pulses= 0 block number 110 (x 100) block number 111 (x 100) block number 112 (x 100) block number 113 (x 100) block number 114 (x 100) block number 115 (x 100) block number 116 (x 100) block number 117 (x 100) block number 118 (x 100) block number 119 (x 100) At line: 12001 ; # of saturated pulses= 0 block number 120 (x 100) block number 121 (x 100) block number 122 (x 100) block number 123 (x 100) block number 124 (x 100) block number 125 (x 100) block number 126 (x 100) block number 127 (x 100) block number 128 (x 100) block number 129 (x 100) At line: 13001 ; # of saturated pulses= 0 block number 130 (x 100) block number 131 (x 100) block number 132 (x 100) block number 133 (x 100) block number 134 (x 100) block number 135 (x 100) block number 136 (x 100) block number 137 (x 100) block number 138 (x 100) block number 139 (x 100) At line: 14001 ; # of saturated pulses= 0 block number 140 (x 100) block number 141 (x 100) block number 142 (x 100) block number 143 (x 100) block number 144 (x 100) block number 145 (x 100) block number 146 (x 100) block number 147 (x 100) block number 148 (x 100) block number 149 (x 100) At line: 15001 ; # of saturated pulses= 0 block number 150 (x 100) block number 151 (x 100) block number 152 (x 100) block number 153 (x 100) block number 154 (x 100) block number 155 (x 100) block number 156 (x 100) block number 157 (x 100) block number 158 (x 100) block number 159 (x 100) At line: 16001 ; # of saturated pulses= 0 block number 160 (x 100) block number 161 (x 100) block number 162 (x 100) block number 163 (x 100) block number 164 (x 100) block number 165 (x 100) block number 166 (x 100) block number 167 (x 100) block number 168 (x 100) block number 169 (x 100) At line: 17001 ; # of saturated pulses= 0 block number 170 (x 100) block number 171 (x 100) block number 172 (x 100) block number 173 (x 100) block number 174 (x 100) block number 175 (x 100) block number 176 (x 100) block number 177 (x 100) block number 178 (x 100) block number 179 (x 100) At line: 18001 ; # of saturated pulses= 0 block number 180 (x 100) block number 181 (x 100) block number 182 (x 100) block number 183 (x 100) block number 184 (x 100) block number 185 (x 100) block number 186 (x 100) block number 187 (x 100) block number 188 (x 100) block number 189 (x 100) At line: 19001 ; # of saturated pulses= 0 block number 190 (x 100) block number 191 (x 100) block number 192 (x 100) block number 193 (x 100) block number 194 (x 100) block number 195 (x 100) block number 196 (x 100) block number 197 (x 100) block number 198 (x 100) block number 199 (x 100) At line: 20001 ; # of saturated pulses= 0 block number 200 (x 100) block number 201 (x 100) block number 202 (x 100) block number 203 (x 100) block number 204 (x 100) block number 205 (x 100) block number 206 (x 100) block number 207 (x 100) block number 208 (x 100) block number 209 (x 100) At line: 21001 ; # of saturated pulses= 0 block number 210 (x 100) block number 211 (x 100) block number 212 (x 100) block number 213 (x 100) block number 214 (x 100) block number 215 (x 100) block number 216 (x 100) block number 217 (x 100) block number 218 (x 100) block number 219 (x 100) At line: 22001 ; # of saturated pulses= 0 block number 220 (x 100) block number 221 (x 100) block number 222 (x 100) block number 223 (x 100) block number 224 (x 100) block number 225 (x 100) block number 226 (x 100) block number 227 (x 100) block number 228 (x 100) block number 229 (x 100) At line: 23001 ; # of saturated pulses= 0 block number 230 (x 100) block number 231 (x 100) block number 232 (x 100) block number 233 (x 100) block number 234 (x 100) block number 235 (x 100) block number 236 (x 100) block number 237 (x 100) block number 238 (x 100) block number 239 (x 100) At line: 24001 ; # of saturated pulses= 0 block number 240 (x 100) block number 241 (x 100) block number 242 (x 100) block number 243 (x 100) block number 244 (x 100) block number 245 (x 100) block number 246 (x 100) block number 247 (x 100) block number 248 (x 100) block number 249 (x 100) At line: 25001 ; # of saturated pulses= 0 block number 250 (x 100) block number 251 (x 100) block number 252 (x 100) block number 253 (x 100) block number 254 (x 100) block number 255 (x 100) block number 256 (x 100) block number 257 (x 100) block number 258 (x 100) block number 259 (x 100) At line: 26001 ; # of saturated pulses= 0 block number 260 (x 100) block number 261 (x 100) block number 262 (x 100) block number 263 (x 100) block number 264 (x 100) block number 265 (x 100) block number 266 (x 100) block number 267 (x 100) block number 268 (x 100) block number 269 (x 100) At line: 27001 ; # of saturated pulses= 0 block number 270 (x 100) block number 271 (x 100) block number 272 (x 100) block number 273 (x 100) block number 274 (x 100) block number 275 (x 100) block number 276 (x 100) block number 277 (x 100) block number 278 (x 100) block number 279 (x 100) At line: 28001 ; # of saturated pulses= 0 block number 280 (x 100) block number 281 (x 100) block number 282 (x 100) block number 283 (x 100) block number 284 (x 100) block number 285 (x 100) block number 286 (x 100) block number 287 (x 100) block number 288 (x 100) block number 289 (x 100) At line: 29001 ; # of saturated pulses= 0 block number 290 (x 100) block number 291 (x 100) block number 292 (x 100) block number 293 (x 100) block number 294 (x 100) block number 295 (x 100) block number 296 (x 100) block number 297 (x 100) block number 298 (x 100) block number 299 (x 100) At line: 30001 ; # of saturated pulses= 0 block number 300 (x 100) block number 301 (x 100) block number 302 (x 100) block number 303 (x 100) block number 304 (x 100) block number 305 (x 100) block number 306 (x 100) block number 307 (x 100) block number 308 (x 100) block number 309 (x 100) At line: 31001 ; # of saturated pulses= 0 block number 310 (x 100) block number 311 (x 100) block number 312 (x 100) block number 313 (x 100) block number 314 (x 100) block number 315 (x 100) block number 316 (x 100) block number 317 (x 100) block number 318 (x 100) block number 319 (x 100) At line: 32001 ; # of saturated pulses= 0 block number 320 (x 100) block number 321 (x 100) block number 322 (x 100) block number 323 (x 100) block number 324 (x 100) block number 325 (x 100) block number 326 (x 100) block number 327 (x 100) block number 328 (x 100) block number 329 (x 100) At line: 33001 ; # of saturated pulses= 0 block number 330 (x 100) block number 331 (x 100) block number 332 (x 100) block number 333 (x 100) block number 334 (x 100) block number 335 (x 100) block number 336 (x 100) block number 337 (x 100) block number 338 (x 100) block number 339 (x 100) At line: 34001 ; # of saturated pulses= 0 block number 340 (x 100) block number 341 (x 100) block number 342 (x 100) block number 343 (x 100) block number 344 (x 100) block number 345 (x 100) block number 346 (x 100) block number 347 (x 100) block number 348 (x 100) block number 349 (x 100) At line: 35001 ; # of saturated pulses= 0 block number 350 (x 100) block number 351 (x 100) block number 352 (x 100) block number 353 (x 100) block number 354 (x 100) block number 355 (x 100) block number 356 (x 100) block number 357 (x 100) block number 358 (x 100) block number 359 (x 100) At line: 36001 ; # of saturated pulses= 0 block number 360 (x 100) block number 361 (x 100) block number 362 (x 100) block number 363 (x 100) block number 364 (x 100) block number 365 (x 100) block number 366 (x 100) block number 367 (x 100) block number 368 (x 100) block number 369 (x 100) At line: 37001 ; # of saturated pulses= 0 block number 370 (x 100) block number 371 (x 100) block number 372 (x 100) block number 373 (x 100) block number 374 (x 100) block number 375 (x 100) block number 376 (x 100) block number 377 (x 100) block number 378 (x 100) block number 379 (x 100) At line: 38001 ; # of saturated pulses= 0 block number 380 (x 100) block number 381 (x 100) block number 382 (x 100) block number 383 (x 100) block number 384 (x 100) block number 385 (x 100) block number 386 (x 100) block number 387 (x 100) block number 388 (x 100) block number 389 (x 100) At line: 39001 ; # of saturated pulses= 0 block number 390 (x 100) block number 391 (x 100) block number 392 (x 100) block number 393 (x 100) block number 394 (x 100) block number 395 (x 100) block number 396 (x 100) block number 397 (x 100) block number 398 (x 100) block number 399 (x 100) At line: 40001 ; # of saturated pulses= 0 block number 400 (x 100) block number 401 (x 100) block number 402 (x 100) block number 403 (x 100) block number 404 (x 100) block number 405 (x 100) block number 406 (x 100) block number 407 (x 100) block number 408 (x 100) block number 409 (x 100) At line: 41001 ; # of saturated pulses= 0 block number 410 (x 100) block number 411 (x 100) block number 412 (x 100) block number 413 (x 100) block number 414 (x 100) block number 415 (x 100) block number 416 (x 100) block number 417 (x 100) block number 418 (x 100) block number 419 (x 100) At line: 42001 ; # of saturated pulses= 0 block number 420 (x 100) block number 421 (x 100) block number 422 (x 100) block number 423 (x 100) block number 424 (x 100) block number 425 (x 100) block number 426 (x 100) block number 427 (x 100) block number 428 (x 100) block number 429 (x 100) At line: 43001 ; # of saturated pulses= 0 block number 430 (x 100) block number 431 (x 100) block number 432 (x 100) block number 433 (x 100) block number 434 (x 100) block number 435 (x 100) block number 436 (x 100) block number 437 (x 100) block number 438 (x 100) block number 439 (x 100) At line: 44001 ; # of saturated pulses= 0 block number 440 (x 100) block number 441 (x 100) block number 442 (x 100) block number 443 (x 100) block number 444 (x 100) block number 445 (x 100) block number 446 (x 100) block number 447 (x 100) block number 448 (x 100) block number 449 (x 100) At line: 45001 ; # of saturated pulses= 0 block number 450 (x 100) block number 451 (x 100) block number 452 (x 100) block number 453 (x 100) block number 454 (x 100) block number 455 (x 100) block number 456 (x 100) block number 457 (x 100) block number 458 (x 100) block number 459 (x 100) At line: 46001 ; # of saturated pulses= 0 block number 460 (x 100) block number 461 (x 100) block number 462 (x 100) block number 463 (x 100) block number 464 (x 100) block number 465 (x 100) block number 466 (x 100) block number 467 (x 100) block number 468 (x 100) block number 469 (x 100) At line: 47001 ; # of saturated pulses= 0 block number 470 (x 100) block number 471 (x 100) block number 472 (x 100) block number 473 (x 100) block number 474 (x 100) block number 475 (x 100) block number 476 (x 100) block number 477 (x 100) block number 478 (x 100) block number 479 (x 100) At line: 48001 ; # of saturated pulses= 0 block number 480 (x 100) block number 481 (x 100) block number 482 (x 100) block number 483 (x 100) block number 484 (x 100) block number 485 (x 100) block number 486 (x 100) block number 487 (x 100) block number 488 (x 100) block number 489 (x 100) At line: 49001 ; # of saturated pulses= 0 block number 490 (x 100) block number 491 (x 100) block number 492 (x 100) block number 493 (x 100) block number 494 (x 100) block number 495 (x 100) block number 496 (x 100) block number 497 (x 100) block number 498 (x 100) block number 499 (x 100) At line: 50001 ; # of saturated pulses= 0 block number 500 (x 100) block number 501 (x 100) block number 502 (x 100) block number 503 (x 100) block number 504 (x 100) block number 505 (x 100) block number 506 (x 100) block number 507 (x 100) block number 508 (x 100) block number 509 (x 100) At line: 51001 ; # of saturated pulses= 0 block number 510 (x 100) block number 511 (x 100) block number 512 (x 100) block number 513 (x 100) block number 514 (x 100) block number 515 (x 100) block number 516 (x 100) block number 517 (x 100) block number 518 (x 100) block number 519 (x 100) At line: 52001 ; # of saturated pulses= 0 block number 520 (x 100) block number 521 (x 100) block number 522 (x 100) block number 523 (x 100) block number 524 (x 100) block number 525 (x 100) block number 526 (x 100) block number 527 (x 100) block number 528 (x 100) block number 529 (x 100) At line: 53001 ; # of saturated pulses= 0 block number 530 (x 100) block number 531 (x 100) block number 532 (x 100) block number 533 (x 100) block number 534 (x 100) block number 535 (x 100) block number 536 (x 100) block number 537 (x 100) block number 538 (x 100) block number 539 (x 100) At line: 54001 ; # of saturated pulses= 0 block number 540 (x 100) block number 541 (x 100) block number 542 (x 100) block number 543 (x 100) block number 544 (x 100) block number 545 (x 100) block number 546 (x 100) block number 547 (x 100) block number 548 (x 100) block number 549 (x 100) At line: 55001 ; # of saturated pulses= 0 block number 550 (x 100) block number 551 (x 100) block number 552 (x 100) block number 553 (x 100) block number 554 (x 100) block number 555 (x 100) block number 556 (x 100) block number 557 (x 100) block number 558 (x 100) block number 559 (x 100) At line: 56001 ; # of saturated pulses= 0 block number 560 (x 100) block number 561 (x 100) block number 562 (x 100) block number 563 (x 100) block number 564 (x 100) block number 565 (x 100) block number 566 (x 100) block number 567 (x 100) block number 568 (x 100) block number 569 (x 100) At line: 57001 ; # of saturated pulses= 0 block number 570 (x 100) block number 571 (x 100) block number 572 (x 100) block number 573 (x 100) block number 574 (x 100) block number 575 (x 100) block number 576 (x 100) block number 577 (x 100) block number 578 (x 100) block number 579 (x 100) At line: 58001 ; # of saturated pulses= 0 block number 580 (x 100) block number 581 (x 100) block number 582 (x 100) block number 583 (x 100) block number 584 (x 100) block number 585 (x 100) block number 586 (x 100) block number 587 (x 100) block number 588 (x 100) block number 589 (x 100) At line: 59001 ; # of saturated pulses= 0 block number 590 (x 100) block number 591 (x 100) block number 592 (x 100) block number 593 (x 100) block number 594 (x 100) block number 595 (x 100) block number 596 (x 100) block number 597 (x 100) block number 598 (x 100) block number 599 (x 100) At line: 60001 ; # of saturated pulses= 0 block number 600 (x 100) block number 601 (x 100) block number 602 (x 100) block number 603 (x 100) block number 604 (x 100) block number 605 (x 100) block number 606 (x 100) block number 607 (x 100) block number 608 (x 100) block number 609 (x 100) At line: 61001 ; # of saturated pulses= 0 block number 610 (x 100) block number 611 (x 100) block number 612 (x 100) block number 613 (x 100) block number 614 (x 100) block number 615 (x 100) block number 616 (x 100) block number 617 (x 100) block number 618 (x 100) block number 619 (x 100) At line: 62001 ; # of saturated pulses= 0 block number 620 (x 100) block number 621 (x 100) block number 622 (x 100) block number 623 (x 100) block number 624 (x 100) block number 625 (x 100) block number 626 (x 100) block number 627 (x 100) block number 628 (x 100) block number 629 (x 100) At line: 63001 ; # of saturated pulses= 0 block number 630 (x 100) block number 631 (x 100) block number 632 (x 100) block number 633 (x 100) block number 634 (x 100) block number 635 (x 100) block number 636 (x 100) block number 637 (x 100) block number 638 (x 100) block number 639 (x 100) At line: 64001 ; # of saturated pulses= 0 block number 640 (x 100) block number 641 (x 100) block number 642 (x 100) block number 643 (x 100) block number 644 (x 100) block number 645 (x 100) block number 646 (x 100) block number 647 (x 100) block number 648 (x 100) block number 649 (x 100) At line: 65001 ; # of saturated pulses= 0 block number 650 (x 100) block number 651 (x 100) block number 652 (x 100) block number 653 (x 100) block number 654 (x 100) block number 655 (x 100) block number 656 (x 100) block number 657 (x 100) block number 658 (x 100) block number 659 (x 100) At line: 66001 ; # of saturated pulses= 0 block number 660 (x 100) block number 661 (x 100) block number 662 (x 100) block number 663 (x 100) block number 664 (x 100) block number 665 (x 100) block number 666 (x 100) block number 667 (x 100) block number 668 (x 100) block number 669 (x 100) At line: 67001 ; # of saturated pulses= 0 block number 670 (x 100) block number 671 (x 100) block number 672 (x 100) block number 673 (x 100) block number 674 (x 100) block number 675 (x 100) block number 676 (x 100) block number 677 (x 100) block number 678 (x 100) block number 679 (x 100) At line: 68001 ; # of saturated pulses= 0 block number 680 (x 100) block number 681 (x 100) block number 682 (x 100) block number 683 (x 100) block number 684 (x 100) block number 685 (x 100) block number 686 (x 100) block number 687 (x 100) block number 688 (x 100) block number 689 (x 100) At line: 69001 ; # of saturated pulses= 0 block number 690 (x 100) block number 691 (x 100) block number 692 (x 100) block number 693 (x 100) block number 694 (x 100) block number 695 (x 100) block number 696 (x 100) block number 697 (x 100) block number 698 (x 100) block number 699 (x 100) At line: 70001 ; # of saturated pulses= 0 block number 700 (x 100) block number 701 (x 100) block number 702 (x 100) block number 703 (x 100) block number 704 (x 100) block number 705 (x 100) block number 706 (x 100) block number 707 (x 100) block number 708 (x 100) block number 709 (x 100) At line: 71001 ; # of saturated pulses= 0 block number 710 (x 100) block number 711 (x 100) block number 712 (x 100) block number 713 (x 100) block number 714 (x 100) block number 715 (x 100) block number 716 (x 100) block number 717 (x 100) block number 718 (x 100) block number 719 (x 100) At line: 72001 ; # of saturated pulses= 0 block number 720 (x 100) block number 721 (x 100) block number 722 (x 100) block number 723 (x 100) block number 724 (x 100) block number 725 (x 100) block number 726 (x 100) block number 727 (x 100) block number 728 (x 100) block number 729 (x 100) At line: 73001 ; # of saturated pulses= 0 block number 730 (x 100) block number 731 (x 100) block number 732 (x 100) block number 733 (x 100) block number 734 (x 100) block number 735 (x 100) block number 736 (x 100) block number 737 (x 100) block number 738 (x 100) block number 739 (x 100) At line: 74001 ; # of saturated pulses= 0 block number 740 (x 100) block number 741 (x 100) block number 742 (x 100) block number 743 (x 100) block number 744 (x 100) block number 745 (x 100) block number 746 (x 100) block number 747 (x 100) block number 748 (x 100) block number 749 (x 100) At line: 75001 ; # of saturated pulses= 0 block number 750 (x 100) block number 751 (x 100) block number 752 (x 100) block number 753 (x 100) block number 754 (x 100) block number 755 (x 100) block number 756 (x 100) block number 757 (x 100) block number 758 (x 100) block number 759 (x 100) At line: 76001 ; # of saturated pulses= 0 block number 760 (x 100) block number 761 (x 100) block number 762 (x 100) block number 763 (x 100) block number 764 (x 100) block number 765 (x 100) block number 766 (x 100) block number 767 (x 100) block number 768 (x 100) block number 769 (x 100) At line: 77001 ; # of saturated pulses= 0 block number 770 (x 100) block number 771 (x 100) block number 772 (x 100) block number 773 (x 100) block number 774 (x 100) block number 775 (x 100) block number 776 (x 100) block number 777 (x 100) block number 778 (x 100) block number 779 (x 100) At line: 78001 ; # of saturated pulses= 0 block number 780 (x 100) block number 781 (x 100) block number 782 (x 100) block number 783 (x 100) block number 784 (x 100) block number 785 (x 100) block number 786 (x 100) block number 787 (x 100) block number 788 (x 100) block number 789 (x 100) At line: 79001 ; # of saturated pulses= 0 block number 790 (x 100) block number 791 (x 100) block number 792 (x 100) block number 793 (x 100) block number 794 (x 100) block number 795 (x 100) block number 796 (x 100) block number 797 (x 100) block number 798 (x 100) block number 799 (x 100) At line: 80001 ; # of saturated pulses= 0 block number 800 (x 100) block number 801 (x 100) block number 802 (x 100) block number 803 (x 100) block number 804 (x 100) block number 805 (x 100) block number 806 (x 100) block number 807 (x 100) block number 808 (x 100) block number 809 (x 100) At line: 81001 ; # of saturated pulses= 0 block number 810 (x 100) block number 811 (x 100) block number 812 (x 100) block number 813 (x 100) block number 814 (x 100) block number 815 (x 100) block number 816 (x 100) block number 817 (x 100) block number 818 (x 100) block number 819 (x 100) At line: 82001 ; # of saturated pulses= 0 block number 820 (x 100) block number 821 (x 100) block number 822 (x 100) block number 823 (x 100) block number 824 (x 100) block number 825 (x 100) block number 826 (x 100) block number 827 (x 100) block number 828 (x 100) block number 829 (x 100) At line: 83001 ; # of saturated pulses= 0 block number 830 (x 100) block number 831 (x 100) block number 832 (x 100) block number 833 (x 100) block number 834 (x 100) block number 835 (x 100) block number 836 (x 100) block number 837 (x 100) block number 838 (x 100) block number 839 (x 100) At line: 84001 ; # of saturated pulses= 0 block number 840 (x 100) block number 841 (x 100) block number 842 (x 100) block number 843 (x 100) block number 844 (x 100) block number 845 (x 100) block number 846 (x 100) block number 847 (x 100) block number 848 (x 100) block number 849 (x 100) At line: 85001 ; # of saturated pulses= 0 block number 850 (x 100) block number 851 (x 100) block number 852 (x 100) block number 853 (x 100) block number 854 (x 100) block number 855 (x 100) block number 856 (x 100) block number 857 (x 100) block number 858 (x 100) block number 859 (x 100) At line: 86001 ; # of saturated pulses= 0 block number 860 (x 100) block number 861 (x 100) block number 862 (x 100) block number 863 (x 100) block number 864 (x 100) block number 865 (x 100) block number 866 (x 100) block number 867 (x 100) block number 868 (x 100) block number 869 (x 100) At line: 87001 ; # of saturated pulses= 0 block number 870 (x 100) block number 871 (x 100) block number 872 (x 100) block number 873 (x 100) block number 874 (x 100) block number 875 (x 100) block number 876 (x 100) block number 877 (x 100) block number 878 (x 100) block number 879 (x 100) At line: 88001 ; # of saturated pulses= 0 block number 880 (x 100) block number 881 (x 100) block number 882 (x 100) block number 883 (x 100) block number 884 (x 100) block number 885 (x 100) block number 886 (x 100) block number 887 (x 100) block number 888 (x 100) block number 889 (x 100) At line: 89001 ; # of saturated pulses= 0 block number 890 (x 100) block number 891 (x 100) block number 892 (x 100) block number 893 (x 100) block number 894 (x 100) block number 895 (x 100) block number 896 (x 100) block number 897 (x 100) block number 898 (x 100) block number 899 (x 100) At line: 90001 ; # of saturated pulses= 0 block number 900 (x 100) block number 901 (x 100) block number 902 (x 100) block number 903 (x 100) block number 904 (x 100) block number 905 (x 100) block number 906 (x 100) block number 907 (x 100) block number 908 (x 100) block number 909 (x 100) At line: 91001 ; # of saturated pulses= 0 block number 910 (x 100) block number 911 (x 100) block number 912 (x 100) block number 913 (x 100) block number 914 (x 100) block number 915 (x 100) block number 916 (x 100) block number 917 (x 100) block number 918 (x 100) block number 919 (x 100) At line: 92001 ; # of saturated pulses= 0 block number 920 (x 100) block number 921 (x 100) block number 922 (x 100) block number 923 (x 100) block number 924 (x 100) block number 925 (x 100) block number 926 (x 100) block number 927 (x 100) block number 928 (x 100) block number 929 (x 100) At line: 93001 ; # of saturated pulses= 0 block number 930 (x 100) block number 931 (x 100) block number 932 (x 100) block number 933 (x 100) block number 934 (x 100) block number 935 (x 100) block number 936 (x 100) block number 937 (x 100) block number 938 (x 100) block number 939 (x 100) At line: 94001 ; # of saturated pulses= 0 block number 940 (x 100) block number 941 (x 100) block number 942 (x 100) block number 943 (x 100) block number 944 (x 100) block number 945 (x 100) block number 946 (x 100) block number 947 (x 100) block number 948 (x 100) block number 949 (x 100) At line: 95001 ; # of saturated pulses= 0 block number 950 (x 100) block number 951 (x 100) block number 952 (x 100) block number 953 (x 100) block number 954 (x 100) block number 955 (x 100) block number 956 (x 100) block number 957 (x 100) block number 958 (x 100) block number 959 (x 100) At line: 96001 ; # of saturated pulses= 0 block number 960 (x 100) block number 961 (x 100) block number 962 (x 100) block number 963 (x 100) block number 964 (x 100) block number 965 (x 100) block number 966 (x 100) block number 967 (x 100) block number 968 (x 100) block number 969 (x 100) At line: 97001 ; # of saturated pulses= 0 block number 970 (x 100) block number 971 (x 100) block number 972 (x 100) block number 973 (x 100) block number 974 (x 100) block number 975 (x 100) block number 976 (x 100) block number 977 (x 100) block number 978 (x 100) block number 979 (x 100) At line: 98001 ; # of saturated pulses= 0 block number 980 (x 100) block number 981 (x 100) block number 982 (x 100) block number 983 (x 100) block number 984 (x 100) block number 985 (x 100) block number 986 (x 100) block number 987 (x 100) block number 988 (x 100) block number 989 (x 100) At line: 99001 ; # of saturated pulses= 0 block number 990 (x 100) block number 991 (x 100) block number 992 (x 100) block number 993 (x 100) block number 994 (x 100) block number 995 (x 100) block number 996 (x 100) block number 997 (x 100) block number 998 (x 100) block number 999 (x 100) At line: 100001 ; # of saturated pulses= 0 block number 1000 (x 100) Writing file: ts1400_p_hh_spec.dat How many problems did you sweep under the rug this time? Total run time = cputime: 9611.548 sys time: 28.10953 9611.566 28.15016 << Clean RFI from TOPSAR Data >> Enter P-band input file name: p_hv.rfi Enter Output file name: p_hv Enter range spectrum file name: ts1400_p_hv_spec.dat Enter range samples: 6144 Enter starting line #: 1 Enter end line #: 100000 Enter 40 MHz flag : 1 Enter the file name of the sub-band fileter coeff : /u/sardine0/airops/OPS/data_proc/par_npr_qmf_8_128_pro.dat Enter the file name of the LMS parameters array : p_hv_par_lms.dat Number of subbands: 8 Length of prototype: 128 Subband Switch Weighting Length Block Step Factor 1 1 1 256 16 0.50 0.9 2 1 1 256 16 0.50 0.9 3 1 1 256 16 0.50 0.9 4 1 1 256 16 0.50 0.9 5 1 1 256 16 0.50 0.9 6 1 1 256 16 0.50 0.9 7 1 1 256 16 0.50 0.9 8 1 1 256 16 0.50 0.9 40/80 MHz flag: 1 3969 4225 2.3326000E-02 5.6047998E-02 Input file name: p_hv.rfi Number of samples: 6144 Overwrite Status: 0 1 (overwrite) or 0 (new file) Output file name: p_hv Range Spectra: 1 1 (dump spectra) or 0 (do not dump) Data Range: 1 to 100000 lines to process FFT size: 8192 Done Initializing c_data block number 1 (x 100) block number 2 (x 100) block number 3 (x 100) block number 4 (x 100) block number 5 (x 100) block number 6 (x 100) block number 7 (x 100) block number 8 (x 100) block number 9 (x 100) At line: 1001 ; # of saturated pulses= 0 block number 10 (x 100) block number 11 (x 100) block number 12 (x 100) block number 13 (x 100) block number 14 (x 100) block number 15 (x 100) block number 16 (x 100) block number 17 (x 100) block number 18 (x 100) block number 19 (x 100) At line: 2001 ; # of saturated pulses= 0 block number 20 (x 100) block number 21 (x 100) block number 22 (x 100) block number 23 (x 100) block number 24 (x 100) block number 25 (x 100) block number 26 (x 100) block number 27 (x 100) block number 28 (x 100) block number 29 (x 100) At line: 3001 ; # of saturated pulses= 0 block number 30 (x 100) block number 31 (x 100) block number 32 (x 100) block number 33 (x 100) block number 34 (x 100) block number 35 (x 100) block number 36 (x 100) block number 37 (x 100) block number 38 (x 100) block number 39 (x 100) At line: 4001 ; # of saturated pulses= 0 block number 40 (x 100) block number 41 (x 100) block number 42 (x 100) block number 43 (x 100) block number 44 (x 100) block number 45 (x 100) block number 46 (x 100) block number 47 (x 100) block number 48 (x 100) block number 49 (x 100) At line: 5001 ; # of saturated pulses= 0 block number 50 (x 100) block number 51 (x 100) block number 52 (x 100) block number 53 (x 100) block number 54 (x 100) block number 55 (x 100) block number 56 (x 100) block number 57 (x 100) block number 58 (x 100) block number 59 (x 100) At line: 6001 ; # of saturated pulses= 0 block number 60 (x 100) block number 61 (x 100) block number 62 (x 100) block number 63 (x 100) block number 64 (x 100) block number 65 (x 100) block number 66 (x 100) block number 67 (x 100) block number 68 (x 100) block number 69 (x 100) At line: 7001 ; # of saturated pulses= 0 block number 70 (x 100) block number 71 (x 100) block number 72 (x 100) block number 73 (x 100) block number 74 (x 100) block number 75 (x 100) block number 76 (x 100) block number 77 (x 100) block number 78 (x 100) block number 79 (x 100) At line: 8001 ; # of saturated pulses= 0 block number 80 (x 100) block number 81 (x 100) block number 82 (x 100) block number 83 (x 100) block number 84 (x 100) block number 85 (x 100) block number 86 (x 100) block number 87 (x 100) block number 88 (x 100) block number 89 (x 100) At line: 9001 ; # of saturated pulses= 0 block number 90 (x 100) block number 91 (x 100) block number 92 (x 100) block number 93 (x 100) block number 94 (x 100) block number 95 (x 100) block number 96 (x 100) block number 97 (x 100) block number 98 (x 100) block number 99 (x 100) At line: 10001 ; # of saturated pulses= 0 block number 100 (x 100) block number 101 (x 100) block number 102 (x 100) block number 103 (x 100) block number 104 (x 100) block number 105 (x 100) block number 106 (x 100) block number 107 (x 100) block number 108 (x 100) block number 109 (x 100) At line: 11001 ; # of saturated pulses= 0 block number 110 (x 100) block number 111 (x 100) block number 112 (x 100) block number 113 (x 100) block number 114 (x 100) block number 115 (x 100) block number 116 (x 100) block number 117 (x 100) block number 118 (x 100) block number 119 (x 100) At line: 12001 ; # of saturated pulses= 0 block number 120 (x 100) block number 121 (x 100) block number 122 (x 100) block number 123 (x 100) block number 124 (x 100) block number 125 (x 100) block number 126 (x 100) block number 127 (x 100) block number 128 (x 100) block number 129 (x 100) At line: 13001 ; # of saturated pulses= 0 block number 130 (x 100) block number 131 (x 100) block number 132 (x 100) block number 133 (x 100) block number 134 (x 100) block number 135 (x 100) block number 136 (x 100) block number 137 (x 100) block number 138 (x 100) block number 139 (x 100) At line: 14001 ; # of saturated pulses= 0 block number 140 (x 100) block number 141 (x 100) block number 142 (x 100) block number 143 (x 100) block number 144 (x 100) block number 145 (x 100) block number 146 (x 100) block number 147 (x 100) block number 148 (x 100) block number 149 (x 100) At line: 15001 ; # of saturated pulses= 0 block number 150 (x 100) block number 151 (x 100) block number 152 (x 100) block number 153 (x 100) block number 154 (x 100) block number 155 (x 100) block number 156 (x 100) block number 157 (x 100) block number 158 (x 100) block number 159 (x 100) At line: 16001 ; # of saturated pulses= 0 block number 160 (x 100) block number 161 (x 100) block number 162 (x 100) block number 163 (x 100) block number 164 (x 100) block number 165 (x 100) block number 166 (x 100) block number 167 (x 100) block number 168 (x 100) block number 169 (x 100) At line: 17001 ; # of saturated pulses= 0 block number 170 (x 100) block number 171 (x 100) block number 172 (x 100) block number 173 (x 100) block number 174 (x 100) block number 175 (x 100) block number 176 (x 100) block number 177 (x 100) block number 178 (x 100) block number 179 (x 100) At line: 18001 ; # of saturated pulses= 0 block number 180 (x 100) block number 181 (x 100) block number 182 (x 100) block number 183 (x 100) block number 184 (x 100) block number 185 (x 100) block number 186 (x 100) block number 187 (x 100) block number 188 (x 100) block number 189 (x 100) At line: 19001 ; # of saturated pulses= 0 block number 190 (x 100) block number 191 (x 100) block number 192 (x 100) block number 193 (x 100) block number 194 (x 100) block number 195 (x 100) block number 196 (x 100) block number 197 (x 100) block number 198 (x 100) block number 199 (x 100) At line: 20001 ; # of saturated pulses= 0 block number 200 (x 100) block number 201 (x 100) block number 202 (x 100) block number 203 (x 100) block number 204 (x 100) block number 205 (x 100) block number 206 (x 100) block number 207 (x 100) block number 208 (x 100) block number 209 (x 100) At line: 21001 ; # of saturated pulses= 0 block number 210 (x 100) block number 211 (x 100) block number 212 (x 100) block number 213 (x 100) block number 214 (x 100) block number 215 (x 100) block number 216 (x 100) block number 217 (x 100) block number 218 (x 100) block number 219 (x 100) At line: 22001 ; # of saturated pulses= 0 block number 220 (x 100) block number 221 (x 100) block number 222 (x 100) block number 223 (x 100) block number 224 (x 100) block number 225 (x 100) block number 226 (x 100) block number 227 (x 100) block number 228 (x 100) block number 229 (x 100) At line: 23001 ; # of saturated pulses= 0 block number 230 (x 100) block number 231 (x 100) block number 232 (x 100) block number 233 (x 100) block number 234 (x 100) block number 235 (x 100) block number 236 (x 100) block number 237 (x 100) block number 238 (x 100) block number 239 (x 100) At line: 24001 ; # of saturated pulses= 0 block number 240 (x 100) block number 241 (x 100) block number 242 (x 100) block number 243 (x 100) block number 244 (x 100) block number 245 (x 100) block number 246 (x 100) block number 247 (x 100) block number 248 (x 100) block number 249 (x 100) At line: 25001 ; # of saturated pulses= 0 block number 250 (x 100) block number 251 (x 100) block number 252 (x 100) block number 253 (x 100) block number 254 (x 100) block number 255 (x 100) block number 256 (x 100) block number 257 (x 100) block number 258 (x 100) block number 259 (x 100) At line: 26001 ; # of saturated pulses= 0 block number 260 (x 100) block number 261 (x 100) block number 262 (x 100) block number 263 (x 100) block number 264 (x 100) block number 265 (x 100) block number 266 (x 100) block number 267 (x 100) block number 268 (x 100) block number 269 (x 100) At line: 27001 ; # of saturated pulses= 0 block number 270 (x 100) block number 271 (x 100) block number 272 (x 100) block number 273 (x 100) block number 274 (x 100) block number 275 (x 100) block number 276 (x 100) block number 277 (x 100) block number 278 (x 100) block number 279 (x 100) At line: 28001 ; # of saturated pulses= 0 block number 280 (x 100) block number 281 (x 100) block number 282 (x 100) block number 283 (x 100) block number 284 (x 100) block number 285 (x 100) block number 286 (x 100) block number 287 (x 100) block number 288 (x 100) block number 289 (x 100) At line: 29001 ; # of saturated pulses= 0 block number 290 (x 100) block number 291 (x 100) block number 292 (x 100) block number 293 (x 100) block number 294 (x 100) block number 295 (x 100) block number 296 (x 100) block number 297 (x 100) block number 298 (x 100) block number 299 (x 100) At line: 30001 ; # of saturated pulses= 0 block number 300 (x 100) block number 301 (x 100) block number 302 (x 100) block number 303 (x 100) block number 304 (x 100) block number 305 (x 100) block number 306 (x 100) block number 307 (x 100) block number 308 (x 100) block number 309 (x 100) At line: 31001 ; # of saturated pulses= 0 block number 310 (x 100) block number 311 (x 100) block number 312 (x 100) block number 313 (x 100) block number 314 (x 100) block number 315 (x 100) block number 316 (x 100) block number 317 (x 100) block number 318 (x 100) block number 319 (x 100) At line: 32001 ; # of saturated pulses= 0 block number 320 (x 100) block number 321 (x 100) block number 322 (x 100) block number 323 (x 100) block number 324 (x 100) block number 325 (x 100) block number 326 (x 100) block number 327 (x 100) block number 328 (x 100) block number 329 (x 100) At line: 33001 ; # of saturated pulses= 0 block number 330 (x 100) block number 331 (x 100) block number 332 (x 100) block number 333 (x 100) block number 334 (x 100) block number 335 (x 100) block number 336 (x 100) block number 337 (x 100) block number 338 (x 100) block number 339 (x 100) At line: 34001 ; # of saturated pulses= 0 block number 340 (x 100) block number 341 (x 100) block number 342 (x 100) block number 343 (x 100) block number 344 (x 100) block number 345 (x 100) block number 346 (x 100) block number 347 (x 100) block number 348 (x 100) block number 349 (x 100) At line: 35001 ; # of saturated pulses= 0 block number 350 (x 100) block number 351 (x 100) block number 352 (x 100) block number 353 (x 100) block number 354 (x 100) block number 355 (x 100) block number 356 (x 100) block number 357 (x 100) block number 358 (x 100) block number 359 (x 100) At line: 36001 ; # of saturated pulses= 0 block number 360 (x 100) block number 361 (x 100) block number 362 (x 100) block number 363 (x 100) block number 364 (x 100) block number 365 (x 100) block number 366 (x 100) block number 367 (x 100) block number 368 (x 100) block number 369 (x 100) At line: 37001 ; # of saturated pulses= 0 block number 370 (x 100) block number 371 (x 100) block number 372 (x 100) block number 373 (x 100) block number 374 (x 100) block number 375 (x 100) block number 376 (x 100) block number 377 (x 100) block number 378 (x 100) block number 379 (x 100) At line: 38001 ; # of saturated pulses= 0 block number 380 (x 100) block number 381 (x 100) block number 382 (x 100) block number 383 (x 100) block number 384 (x 100) block number 385 (x 100) block number 386 (x 100) block number 387 (x 100) block number 388 (x 100) block number 389 (x 100) At line: 39001 ; # of saturated pulses= 0 block number 390 (x 100) block number 391 (x 100) block number 392 (x 100) block number 393 (x 100) block number 394 (x 100) block number 395 (x 100) block number 396 (x 100) block number 397 (x 100) block number 398 (x 100) block number 399 (x 100) At line: 40001 ; # of saturated pulses= 0 block number 400 (x 100) block number 401 (x 100) block number 402 (x 100) block number 403 (x 100) block number 404 (x 100) block number 405 (x 100) block number 406 (x 100) block number 407 (x 100) block number 408 (x 100) block number 409 (x 100) At line: 41001 ; # of saturated pulses= 0 block number 410 (x 100) block number 411 (x 100) block number 412 (x 100) block number 413 (x 100) block number 414 (x 100) block number 415 (x 100) block number 416 (x 100) block number 417 (x 100) block number 418 (x 100) block number 419 (x 100) At line: 42001 ; # of saturated pulses= 0 block number 420 (x 100) block number 421 (x 100) block number 422 (x 100) block number 423 (x 100) block number 424 (x 100) block number 425 (x 100) block number 426 (x 100) block number 427 (x 100) block number 428 (x 100) block number 429 (x 100) At line: 43001 ; # of saturated pulses= 0 block number 430 (x 100) block number 431 (x 100) block number 432 (x 100) block number 433 (x 100) block number 434 (x 100) block number 435 (x 100) block number 436 (x 100) block number 437 (x 100) block number 438 (x 100) block number 439 (x 100) At line: 44001 ; # of saturated pulses= 0 block number 440 (x 100) block number 441 (x 100) block number 442 (x 100) block number 443 (x 100) block number 444 (x 100) block number 445 (x 100) block number 446 (x 100) block number 447 (x 100) block number 448 (x 100) block number 449 (x 100) At line: 45001 ; # of saturated pulses= 0 block number 450 (x 100) block number 451 (x 100) block number 452 (x 100) block number 453 (x 100) block number 454 (x 100) block number 455 (x 100) block number 456 (x 100) block number 457 (x 100) block number 458 (x 100) block number 459 (x 100) At line: 46001 ; # of saturated pulses= 0 block number 460 (x 100) block number 461 (x 100) block number 462 (x 100) block number 463 (x 100) block number 464 (x 100) block number 465 (x 100) block number 466 (x 100) block number 467 (x 100) block number 468 (x 100) block number 469 (x 100) At line: 47001 ; # of saturated pulses= 0 block number 470 (x 100) block number 471 (x 100) block number 472 (x 100) block number 473 (x 100) block number 474 (x 100) block number 475 (x 100) block number 476 (x 100) block number 477 (x 100) block number 478 (x 100) block number 479 (x 100) At line: 48001 ; # of saturated pulses= 0 block number 480 (x 100) block number 481 (x 100) block number 482 (x 100) block number 483 (x 100) block number 484 (x 100) block number 485 (x 100) block number 486 (x 100) block number 487 (x 100) block number 488 (x 100) block number 489 (x 100) At line: 49001 ; # of saturated pulses= 0 block number 490 (x 100) block number 491 (x 100) block number 492 (x 100) block number 493 (x 100) block number 494 (x 100) block number 495 (x 100) block number 496 (x 100) block number 497 (x 100) block number 498 (x 100) block number 499 (x 100) At line: 50001 ; # of saturated pulses= 0 block number 500 (x 100) block number 501 (x 100) block number 502 (x 100) block number 503 (x 100) block number 504 (x 100) block number 505 (x 100) block number 506 (x 100) block number 507 (x 100) block number 508 (x 100) block number 509 (x 100) At line: 51001 ; # of saturated pulses= 0 block number 510 (x 100) block number 511 (x 100) block number 512 (x 100) block number 513 (x 100) block number 514 (x 100) block number 515 (x 100) block number 516 (x 100) block number 517 (x 100) block number 518 (x 100) block number 519 (x 100) At line: 52001 ; # of saturated pulses= 0 block number 520 (x 100) block number 521 (x 100) block number 522 (x 100) block number 523 (x 100) block number 524 (x 100) block number 525 (x 100) block number 526 (x 100) block number 527 (x 100) block number 528 (x 100) block number 529 (x 100) At line: 53001 ; # of saturated pulses= 0 block number 530 (x 100) block number 531 (x 100) block number 532 (x 100) block number 533 (x 100) block number 534 (x 100) block number 535 (x 100) block number 536 (x 100) block number 537 (x 100) block number 538 (x 100) block number 539 (x 100) At line: 54001 ; # of saturated pulses= 0 block number 540 (x 100) block number 541 (x 100) block number 542 (x 100) block number 543 (x 100) block number 544 (x 100) block number 545 (x 100) block number 546 (x 100) block number 547 (x 100) block number 548 (x 100) block number 549 (x 100) At line: 55001 ; # of saturated pulses= 0 block number 550 (x 100) block number 551 (x 100) block number 552 (x 100) block number 553 (x 100) block number 554 (x 100) block number 555 (x 100) block number 556 (x 100) block number 557 (x 100) block number 558 (x 100) block number 559 (x 100) At line: 56001 ; # of saturated pulses= 0 block number 560 (x 100) block number 561 (x 100) block number 562 (x 100) block number 563 (x 100) block number 564 (x 100) block number 565 (x 100) block number 566 (x 100) block number 567 (x 100) block number 568 (x 100) block number 569 (x 100) At line: 57001 ; # of saturated pulses= 0 block number 570 (x 100) block number 571 (x 100) block number 572 (x 100) block number 573 (x 100) block number 574 (x 100) block number 575 (x 100) block number 576 (x 100) block number 577 (x 100) block number 578 (x 100) block number 579 (x 100) At line: 58001 ; # of saturated pulses= 0 block number 580 (x 100) block number 581 (x 100) block number 582 (x 100) block number 583 (x 100) block number 584 (x 100) block number 585 (x 100) block number 586 (x 100) block number 587 (x 100) block number 588 (x 100) block number 589 (x 100) At line: 59001 ; # of saturated pulses= 0 block number 590 (x 100) block number 591 (x 100) block number 592 (x 100) block number 593 (x 100) block number 594 (x 100) block number 595 (x 100) block number 596 (x 100) block number 597 (x 100) block number 598 (x 100) block number 599 (x 100) At line: 60001 ; # of saturated pulses= 0 block number 600 (x 100) block number 601 (x 100) block number 602 (x 100) block number 603 (x 100) block number 604 (x 100) block number 605 (x 100) block number 606 (x 100) block number 607 (x 100) block number 608 (x 100) block number 609 (x 100) At line: 61001 ; # of saturated pulses= 0 block number 610 (x 100) block number 611 (x 100) block number 612 (x 100) block number 613 (x 100) block number 614 (x 100) block number 615 (x 100) block number 616 (x 100) block number 617 (x 100) block number 618 (x 100) block number 619 (x 100) At line: 62001 ; # of saturated pulses= 0 block number 620 (x 100) block number 621 (x 100) block number 622 (x 100) block number 623 (x 100) block number 624 (x 100) block number 625 (x 100) block number 626 (x 100) block number 627 (x 100) block number 628 (x 100) block number 629 (x 100) At line: 63001 ; # of saturated pulses= 0 block number 630 (x 100) block number 631 (x 100) block number 632 (x 100) block number 633 (x 100) block number 634 (x 100) block number 635 (x 100) block number 636 (x 100) block number 637 (x 100) block number 638 (x 100) block number 639 (x 100) At line: 64001 ; # of saturated pulses= 0 block number 640 (x 100) block number 641 (x 100) block number 642 (x 100) block number 643 (x 100) block number 644 (x 100) block number 645 (x 100) block number 646 (x 100) block number 647 (x 100) block number 648 (x 100) block number 649 (x 100) At line: 65001 ; # of saturated pulses= 0 block number 650 (x 100) block number 651 (x 100) block number 652 (x 100) block number 653 (x 100) block number 654 (x 100) block number 655 (x 100) block number 656 (x 100) block number 657 (x 100) block number 658 (x 100) block number 659 (x 100) At line: 66001 ; # of saturated pulses= 0 block number 660 (x 100) block number 661 (x 100) block number 662 (x 100) block number 663 (x 100) block number 664 (x 100) block number 665 (x 100) block number 666 (x 100) block number 667 (x 100) block number 668 (x 100) block number 669 (x 100) At line: 67001 ; # of saturated pulses= 0 block number 670 (x 100) block number 671 (x 100) block number 672 (x 100) block number 673 (x 100) block number 674 (x 100) block number 675 (x 100) block number 676 (x 100) block number 677 (x 100) block number 678 (x 100) block number 679 (x 100) At line: 68001 ; # of saturated pulses= 0 block number 680 (x 100) block number 681 (x 100) block number 682 (x 100) block number 683 (x 100) block number 684 (x 100) block number 685 (x 100) block number 686 (x 100) block number 687 (x 100) block number 688 (x 100) block number 689 (x 100) At line: 69001 ; # of saturated pulses= 0 block number 690 (x 100) block number 691 (x 100) block number 692 (x 100) block number 693 (x 100) block number 694 (x 100) block number 695 (x 100) block number 696 (x 100) block number 697 (x 100) block number 698 (x 100) block number 699 (x 100) At line: 70001 ; # of saturated pulses= 0 block number 700 (x 100) block number 701 (x 100) block number 702 (x 100) block number 703 (x 100) block number 704 (x 100) block number 705 (x 100) block number 706 (x 100) block number 707 (x 100) block number 708 (x 100) block number 709 (x 100) At line: 71001 ; # of saturated pulses= 0 block number 710 (x 100) block number 711 (x 100) block number 712 (x 100) block number 713 (x 100) block number 714 (x 100) block number 715 (x 100) block number 716 (x 100) block number 717 (x 100) block number 718 (x 100) block number 719 (x 100) At line: 72001 ; # of saturated pulses= 0 block number 720 (x 100) block number 721 (x 100) block number 722 (x 100) block number 723 (x 100) block number 724 (x 100) block number 725 (x 100) block number 726 (x 100) block number 727 (x 100) block number 728 (x 100) block number 729 (x 100) At line: 73001 ; # of saturated pulses= 0 block number 730 (x 100) block number 731 (x 100) block number 732 (x 100) block number 733 (x 100) block number 734 (x 100) block number 735 (x 100) block number 736 (x 100) block number 737 (x 100) block number 738 (x 100) block number 739 (x 100) At line: 74001 ; # of saturated pulses= 0 block number 740 (x 100) block number 741 (x 100) block number 742 (x 100) block number 743 (x 100) block number 744 (x 100) block number 745 (x 100) block number 746 (x 100) block number 747 (x 100) block number 748 (x 100) block number 749 (x 100) At line: 75001 ; # of saturated pulses= 0 block number 750 (x 100) block number 751 (x 100) block number 752 (x 100) block number 753 (x 100) block number 754 (x 100) block number 755 (x 100) block number 756 (x 100) block number 757 (x 100) block number 758 (x 100) block number 759 (x 100) At line: 76001 ; # of saturated pulses= 0 block number 760 (x 100) block number 761 (x 100) block number 762 (x 100) block number 763 (x 100) block number 764 (x 100) block number 765 (x 100) block number 766 (x 100) block number 767 (x 100) block number 768 (x 100) block number 769 (x 100) At line: 77001 ; # of saturated pulses= 0 block number 770 (x 100) block number 771 (x 100) block number 772 (x 100) block number 773 (x 100) block number 774 (x 100) block number 775 (x 100) block number 776 (x 100) block number 777 (x 100) block number 778 (x 100) block number 779 (x 100) At line: 78001 ; # of saturated pulses= 0 block number 780 (x 100) block number 781 (x 100) block number 782 (x 100) block number 783 (x 100) block number 784 (x 100) block number 785 (x 100) block number 786 (x 100) block number 787 (x 100) block number 788 (x 100) block number 789 (x 100) At line: 79001 ; # of saturated pulses= 0 block number 790 (x 100) block number 791 (x 100) block number 792 (x 100) block number 793 (x 100) block number 794 (x 100) block number 795 (x 100) block number 796 (x 100) block number 797 (x 100) block number 798 (x 100) block number 799 (x 100) At line: 80001 ; # of saturated pulses= 0 block number 800 (x 100) block number 801 (x 100) block number 802 (x 100) block number 803 (x 100) block number 804 (x 100) block number 805 (x 100) block number 806 (x 100) block number 807 (x 100) block number 808 (x 100) block number 809 (x 100) At line: 81001 ; # of saturated pulses= 0 block number 810 (x 100) block number 811 (x 100) block number 812 (x 100) block number 813 (x 100) block number 814 (x 100) block number 815 (x 100) block number 816 (x 100) block number 817 (x 100) block number 818 (x 100) block number 819 (x 100) At line: 82001 ; # of saturated pulses= 0 block number 820 (x 100) block number 821 (x 100) block number 822 (x 100) block number 823 (x 100) block number 824 (x 100) block number 825 (x 100) block number 826 (x 100) block number 827 (x 100) block number 828 (x 100) block number 829 (x 100) At line: 83001 ; # of saturated pulses= 0 block number 830 (x 100) block number 831 (x 100) block number 832 (x 100) block number 833 (x 100) block number 834 (x 100) block number 835 (x 100) block number 836 (x 100) block number 837 (x 100) block number 838 (x 100) block number 839 (x 100) At line: 84001 ; # of saturated pulses= 0 block number 840 (x 100) block number 841 (x 100) block number 842 (x 100) block number 843 (x 100) block number 844 (x 100) block number 845 (x 100) block number 846 (x 100) block number 847 (x 100) block number 848 (x 100) block number 849 (x 100) At line: 85001 ; # of saturated pulses= 0 block number 850 (x 100) block number 851 (x 100) block number 852 (x 100) block number 853 (x 100) block number 854 (x 100) block number 855 (x 100) block number 856 (x 100) block number 857 (x 100) block number 858 (x 100) block number 859 (x 100) At line: 86001 ; # of saturated pulses= 0 block number 860 (x 100) block number 861 (x 100) block number 862 (x 100) block number 863 (x 100) block number 864 (x 100) block number 865 (x 100) block number 866 (x 100) block number 867 (x 100) block number 868 (x 100) block number 869 (x 100) At line: 87001 ; # of saturated pulses= 0 block number 870 (x 100) block number 871 (x 100) block number 872 (x 100) block number 873 (x 100) block number 874 (x 100) block number 875 (x 100) block number 876 (x 100) block number 877 (x 100) block number 878 (x 100) block number 879 (x 100) At line: 88001 ; # of saturated pulses= 0 block number 880 (x 100) block number 881 (x 100) block number 882 (x 100) block number 883 (x 100) block number 884 (x 100) block number 885 (x 100) block number 886 (x 100) block number 887 (x 100) block number 888 (x 100) block number 889 (x 100) At line: 89001 ; # of saturated pulses= 0 block number 890 (x 100) block number 891 (x 100) block number 892 (x 100) block number 893 (x 100) block number 894 (x 100) block number 895 (x 100) block number 896 (x 100) block number 897 (x 100) block number 898 (x 100) block number 899 (x 100) At line: 90001 ; # of saturated pulses= 0 block number 900 (x 100) block number 901 (x 100) block number 902 (x 100) block number 903 (x 100) block number 904 (x 100) block number 905 (x 100) block number 906 (x 100) block number 907 (x 100) block number 908 (x 100) block number 909 (x 100) At line: 91001 ; # of saturated pulses= 0 block number 910 (x 100) block number 911 (x 100) block number 912 (x 100) block number 913 (x 100) block number 914 (x 100) block number 915 (x 100) block number 916 (x 100) block number 917 (x 100) block number 918 (x 100) block number 919 (x 100) At line: 92001 ; # of saturated pulses= 0 block number 920 (x 100) block number 921 (x 100) block number 922 (x 100) block number 923 (x 100) block number 924 (x 100) block number 925 (x 100) block number 926 (x 100) block number 927 (x 100) block number 928 (x 100) block number 929 (x 100) At line: 93001 ; # of saturated pulses= 0 block number 930 (x 100) block number 931 (x 100) block number 932 (x 100) block number 933 (x 100) block number 934 (x 100) block number 935 (x 100) block number 936 (x 100) block number 937 (x 100) block number 938 (x 100) block number 939 (x 100) At line: 94001 ; # of saturated pulses= 0 block number 940 (x 100) block number 941 (x 100) block number 942 (x 100) block number 943 (x 100) block number 944 (x 100) block number 945 (x 100) block number 946 (x 100) block number 947 (x 100) block number 948 (x 100) block number 949 (x 100) At line: 95001 ; # of saturated pulses= 0 block number 950 (x 100) block number 951 (x 100) block number 952 (x 100) block number 953 (x 100) block number 954 (x 100) block number 955 (x 100) block number 956 (x 100) block number 957 (x 100) block number 958 (x 100) block number 959 (x 100) At line: 96001 ; # of saturated pulses= 0 block number 960 (x 100) block number 961 (x 100) block number 962 (x 100) block number 963 (x 100) block number 964 (x 100) block number 965 (x 100) block number 966 (x 100) block number 967 (x 100) block number 968 (x 100) block number 969 (x 100) At line: 97001 ; # of saturated pulses= 0 block number 970 (x 100) block number 971 (x 100) block number 972 (x 100) block number 973 (x 100) block number 974 (x 100) block number 975 (x 100) block number 976 (x 100) block number 977 (x 100) block number 978 (x 100) block number 979 (x 100) At line: 98001 ; # of saturated pulses= 0 block number 980 (x 100) block number 981 (x 100) block number 982 (x 100) block number 983 (x 100) block number 984 (x 100) block number 985 (x 100) block number 986 (x 100) block number 987 (x 100) block number 988 (x 100) block number 989 (x 100) At line: 99001 ; # of saturated pulses= 0 block number 990 (x 100) block number 991 (x 100) block number 992 (x 100) block number 993 (x 100) block number 994 (x 100) block number 995 (x 100) block number 996 (x 100) block number 997 (x 100) block number 998 (x 100) block number 999 (x 100) At line: 100001 ; # of saturated pulses= 0 block number 1000 (x 100) Writing file: ts1400_p_hv_spec.dat How many problems did you sweep under the rug this time? Total run time = cputime: 7759.237 sys time: 25.21393 7759.261 25.26998 << Clean RFI from TOPSAR Data >> Enter P-band input file name: p_vh.rfi Enter Output file name: p_vh Enter range spectrum file name: ts1400_p_vh_spec.dat Enter range samples: 6144 Enter starting line #: 1 Enter end line #: 100000 Enter 40 MHz flag : 1 Enter the file name of the sub-band fileter coeff : /u/sardine0/airops/OPS/data_proc/par_npr_qmf_8_128_pro.dat Enter the file name of the LMS parameters array : p_vh_par_lms.dat Number of subbands: 8 Length of prototype: 128 Subband Switch Weighting Length Block Step Factor 1 1 1 256 16 0.50 0.9 2 1 1 256 16 0.50 0.9 3 1 1 256 16 0.50 0.9 4 1 1 256 16 0.50 0.9 5 1 1 256 16 0.50 0.9 6 1 1 256 16 0.50 0.9 7 1 1 256 16 0.50 0.9 8 1 1 256 16 0.50 0.9 40/80 MHz flag: 1 3969 4225 1.9239999E-02 4.1366000E-02 Input file name: p_vh.rfi Number of samples: 6144 Overwrite Status: 0 1 (overwrite) or 0 (new file) Output file name: p_vh Range Spectra: 1 1 (dump spectra) or 0 (do not dump) Data Range: 1 to 100000 lines to process FFT size: 8192 Done Initializing c_data block number 1 (x 100) block number 2 (x 100) block number 3 (x 100) block number 4 (x 100) block number 5 (x 100) block number 6 (x 100) block number 7 (x 100) block number 8 (x 100) block number 9 (x 100) At line: 1001 ; # of saturated pulses= 0 block number 10 (x 100) block number 11 (x 100) block number 12 (x 100) block number 13 (x 100) block number 14 (x 100) block number 15 (x 100) block number 16 (x 100) block number 17 (x 100) block number 18 (x 100) block number 19 (x 100) At line: 2001 ; # of saturated pulses= 0 block number 20 (x 100) block number 21 (x 100) block number 22 (x 100) block number 23 (x 100) block number 24 (x 100) block number 25 (x 100) block number 26 (x 100) block number 27 (x 100) block number 28 (x 100) block number 29 (x 100) At line: 3001 ; # of saturated pulses= 0 block number 30 (x 100) block number 31 (x 100) block number 32 (x 100) block number 33 (x 100) block number 34 (x 100) block number 35 (x 100) block number 36 (x 100) block number 37 (x 100) block number 38 (x 100) block number 39 (x 100) At line: 4001 ; # of saturated pulses= 0 block number 40 (x 100) block number 41 (x 100) block number 42 (x 100) block number 43 (x 100) block number 44 (x 100) block number 45 (x 100) block number 46 (x 100) block number 47 (x 100) block number 48 (x 100) block number 49 (x 100) At line: 5001 ; # of saturated pulses= 0 block number 50 (x 100) block number 51 (x 100) block number 52 (x 100) block number 53 (x 100) block number 54 (x 100) block number 55 (x 100) block number 56 (x 100) block number 57 (x 100) block number 58 (x 100) block number 59 (x 100) At line: 6001 ; # of saturated pulses= 0 block number 60 (x 100) block number 61 (x 100) block number 62 (x 100) block number 63 (x 100) block number 64 (x 100) block number 65 (x 100) block number 66 (x 100) block number 67 (x 100) block number 68 (x 100) block number 69 (x 100) At line: 7001 ; # of saturated pulses= 0 block number 70 (x 100) block number 71 (x 100) block number 72 (x 100) block number 73 (x 100) block number 74 (x 100) block number 75 (x 100) block number 76 (x 100) block number 77 (x 100) block number 78 (x 100) block number 79 (x 100) At line: 8001 ; # of saturated pulses= 0 block number 80 (x 100) block number 81 (x 100) block number 82 (x 100) block number 83 (x 100) block number 84 (x 100) block number 85 (x 100) block number 86 (x 100) block number 87 (x 100) block number 88 (x 100) block number 89 (x 100) At line: 9001 ; # of saturated pulses= 0 block number 90 (x 100) block number 91 (x 100) block number 92 (x 100) block number 93 (x 100) block number 94 (x 100) block number 95 (x 100) block number 96 (x 100) block number 97 (x 100) block number 98 (x 100) block number 99 (x 100) At line: 10001 ; # of saturated pulses= 0 block number 100 (x 100) block number 101 (x 100) block number 102 (x 100) block number 103 (x 100) block number 104 (x 100) block number 105 (x 100) block number 106 (x 100) block number 107 (x 100) block number 108 (x 100) block number 109 (x 100) At line: 11001 ; # of saturated pulses= 0 block number 110 (x 100) block number 111 (x 100) block number 112 (x 100) block number 113 (x 100) block number 114 (x 100) block number 115 (x 100) block number 116 (x 100) block number 117 (x 100) block number 118 (x 100) block number 119 (x 100) At line: 12001 ; # of saturated pulses= 0 block number 120 (x 100) block number 121 (x 100) block number 122 (x 100) block number 123 (x 100) block number 124 (x 100) block number 125 (x 100) block number 126 (x 100) block number 127 (x 100) block number 128 (x 100) block number 129 (x 100) At line: 13001 ; # of saturated pulses= 0 block number 130 (x 100) block number 131 (x 100) block number 132 (x 100) block number 133 (x 100) block number 134 (x 100) block number 135 (x 100) block number 136 (x 100) block number 137 (x 100) block number 138 (x 100) block number 139 (x 100) At line: 14001 ; # of saturated pulses= 0 block number 140 (x 100) block number 141 (x 100) block number 142 (x 100) block number 143 (x 100) block number 144 (x 100) block number 145 (x 100) block number 146 (x 100) block number 147 (x 100) block number 148 (x 100) block number 149 (x 100) At line: 15001 ; # of saturated pulses= 0 block number 150 (x 100) block number 151 (x 100) block number 152 (x 100) block number 153 (x 100) block number 154 (x 100) block number 155 (x 100) block number 156 (x 100) block number 157 (x 100) block number 158 (x 100) block number 159 (x 100) At line: 16001 ; # of saturated pulses= 0 block number 160 (x 100) block number 161 (x 100) block number 162 (x 100) block number 163 (x 100) block number 164 (x 100) block number 165 (x 100) block number 166 (x 100) block number 167 (x 100) block number 168 (x 100) block number 169 (x 100) At line: 17001 ; # of saturated pulses= 0 block number 170 (x 100) block number 171 (x 100) block number 172 (x 100) block number 173 (x 100) block number 174 (x 100) block number 175 (x 100) block number 176 (x 100) block number 177 (x 100) block number 178 (x 100) block number 179 (x 100) At line: 18001 ; # of saturated pulses= 0 block number 180 (x 100) block number 181 (x 100) block number 182 (x 100) block number 183 (x 100) block number 184 (x 100) block number 185 (x 100) block number 186 (x 100) block number 187 (x 100) block number 188 (x 100) block number 189 (x 100) At line: 19001 ; # of saturated pulses= 0 block number 190 (x 100) block number 191 (x 100) block number 192 (x 100) block number 193 (x 100) block number 194 (x 100) block number 195 (x 100) block number 196 (x 100) block number 197 (x 100) block number 198 (x 100) block number 199 (x 100) At line: 20001 ; # of saturated pulses= 0 block number 200 (x 100) block number 201 (x 100) block number 202 (x 100) block number 203 (x 100) block number 204 (x 100) block number 205 (x 100) block number 206 (x 100) block number 207 (x 100) block number 208 (x 100) block number 209 (x 100) At line: 21001 ; # of saturated pulses= 0 block number 210 (x 100) block number 211 (x 100) block number 212 (x 100) block number 213 (x 100) block number 214 (x 100) block number 215 (x 100) block number 216 (x 100) block number 217 (x 100) block number 218 (x 100) block number 219 (x 100) At line: 22001 ; # of saturated pulses= 0 block number 220 (x 100) block number 221 (x 100) block number 222 (x 100) block number 223 (x 100) block number 224 (x 100) block number 225 (x 100) block number 226 (x 100) block number 227 (x 100) block number 228 (x 100) block number 229 (x 100) At line: 23001 ; # of saturated pulses= 0 block number 230 (x 100) block number 231 (x 100) block number 232 (x 100) block number 233 (x 100) block number 234 (x 100) block number 235 (x 100) block number 236 (x 100) block number 237 (x 100) block number 238 (x 100) block number 239 (x 100) At line: 24001 ; # of saturated pulses= 0 block number 240 (x 100) block number 241 (x 100) block number 242 (x 100) block number 243 (x 100) block number 244 (x 100) block number 245 (x 100) block number 246 (x 100) block number 247 (x 100) block number 248 (x 100) block number 249 (x 100) At line: 25001 ; # of saturated pulses= 0 block number 250 (x 100) block number 251 (x 100) block number 252 (x 100) block number 253 (x 100) block number 254 (x 100) block number 255 (x 100) block number 256 (x 100) block number 257 (x 100) block number 258 (x 100) block number 259 (x 100) At line: 26001 ; # of saturated pulses= 0 block number 260 (x 100) block number 261 (x 100) block number 262 (x 100) block number 263 (x 100) block number 264 (x 100) block number 265 (x 100) block number 266 (x 100) block number 267 (x 100) block number 268 (x 100) block number 269 (x 100) At line: 27001 ; # of saturated pulses= 0 block number 270 (x 100) block number 271 (x 100) block number 272 (x 100) block number 273 (x 100) block number 274 (x 100) block number 275 (x 100) block number 276 (x 100) block number 277 (x 100) block number 278 (x 100) block number 279 (x 100) At line: 28001 ; # of saturated pulses= 0 block number 280 (x 100) block number 281 (x 100) block number 282 (x 100) block number 283 (x 100) block number 284 (x 100) block number 285 (x 100) block number 286 (x 100) block number 287 (x 100) block number 288 (x 100) block number 289 (x 100) At line: 29001 ; # of saturated pulses= 0 block number 290 (x 100) block number 291 (x 100) block number 292 (x 100) block number 293 (x 100) block number 294 (x 100) block number 295 (x 100) block number 296 (x 100) block number 297 (x 100) block number 298 (x 100) block number 299 (x 100) At line: 30001 ; # of saturated pulses= 0 block number 300 (x 100) block number 301 (x 100) block number 302 (x 100) block number 303 (x 100) block number 304 (x 100) block number 305 (x 100) block number 306 (x 100) block number 307 (x 100) block number 308 (x 100) block number 309 (x 100) At line: 31001 ; # of saturated pulses= 0 block number 310 (x 100) block number 311 (x 100) block number 312 (x 100) block number 313 (x 100) block number 314 (x 100) block number 315 (x 100) block number 316 (x 100) block number 317 (x 100) block number 318 (x 100) block number 319 (x 100) At line: 32001 ; # of saturated pulses= 0 block number 320 (x 100) block number 321 (x 100) block number 322 (x 100) block number 323 (x 100) block number 324 (x 100) block number 325 (x 100) block number 326 (x 100) block number 327 (x 100) block number 328 (x 100) block number 329 (x 100) At line: 33001 ; # of saturated pulses= 0 block number 330 (x 100) block number 331 (x 100) block number 332 (x 100) block number 333 (x 100) block number 334 (x 100) block number 335 (x 100) block number 336 (x 100) block number 337 (x 100) block number 338 (x 100) block number 339 (x 100) At line: 34001 ; # of saturated pulses= 0 block number 340 (x 100) block number 341 (x 100) block number 342 (x 100) block number 343 (x 100) block number 344 (x 100) block number 345 (x 100) block number 346 (x 100) block number 347 (x 100) block number 348 (x 100) block number 349 (x 100) At line: 35001 ; # of saturated pulses= 0 block number 350 (x 100) block number 351 (x 100) block number 352 (x 100) block number 353 (x 100) block number 354 (x 100) block number 355 (x 100) block number 356 (x 100) block number 357 (x 100) block number 358 (x 100) block number 359 (x 100) At line: 36001 ; # of saturated pulses= 0 block number 360 (x 100) block number 361 (x 100) block number 362 (x 100) block number 363 (x 100) block number 364 (x 100) block number 365 (x 100) block number 366 (x 100) block number 367 (x 100) block number 368 (x 100) block number 369 (x 100) At line: 37001 ; # of saturated pulses= 0 block number 370 (x 100) block number 371 (x 100) block number 372 (x 100) block number 373 (x 100) block number 374 (x 100) block number 375 (x 100) block number 376 (x 100) block number 377 (x 100) block number 378 (x 100) block number 379 (x 100) At line: 38001 ; # of saturated pulses= 0 block number 380 (x 100) block number 381 (x 100) block number 382 (x 100) block number 383 (x 100) block number 384 (x 100) block number 385 (x 100) block number 386 (x 100) block number 387 (x 100) block number 388 (x 100) block number 389 (x 100) At line: 39001 ; # of saturated pulses= 0 block number 390 (x 100) block number 391 (x 100) block number 392 (x 100) block number 393 (x 100) block number 394 (x 100) block number 395 (x 100) block number 396 (x 100) block number 397 (x 100) block number 398 (x 100) block number 399 (x 100) At line: 40001 ; # of saturated pulses= 0 block number 400 (x 100) block number 401 (x 100) block number 402 (x 100) block number 403 (x 100) block number 404 (x 100) block number 405 (x 100) block number 406 (x 100) block number 407 (x 100) block number 408 (x 100) block number 409 (x 100) At line: 41001 ; # of saturated pulses= 0 block number 410 (x 100) block number 411 (x 100) block number 412 (x 100) block number 413 (x 100) block number 414 (x 100) block number 415 (x 100) block number 416 (x 100) block number 417 (x 100) block number 418 (x 100) block number 419 (x 100) At line: 42001 ; # of saturated pulses= 0 block number 420 (x 100) block number 421 (x 100) block number 422 (x 100) block number 423 (x 100) block number 424 (x 100) block number 425 (x 100) block number 426 (x 100) block number 427 (x 100) block number 428 (x 100) block number 429 (x 100) At line: 43001 ; # of saturated pulses= 0 block number 430 (x 100) block number 431 (x 100) block number 432 (x 100) block number 433 (x 100) block number 434 (x 100) block number 435 (x 100) block number 436 (x 100) block number 437 (x 100) block number 438 (x 100) block number 439 (x 100) At line: 44001 ; # of saturated pulses= 0 block number 440 (x 100) block number 441 (x 100) block number 442 (x 100) block number 443 (x 100) block number 444 (x 100) block number 445 (x 100) block number 446 (x 100) block number 447 (x 100) block number 448 (x 100) block number 449 (x 100) At line: 45001 ; # of saturated pulses= 0 block number 450 (x 100) block number 451 (x 100) block number 452 (x 100) block number 453 (x 100) block number 454 (x 100) block number 455 (x 100) block number 456 (x 100) block number 457 (x 100) block number 458 (x 100) block number 459 (x 100) At line: 46001 ; # of saturated pulses= 0 block number 460 (x 100) block number 461 (x 100) block number 462 (x 100) block number 463 (x 100) block number 464 (x 100) block number 465 (x 100) block number 466 (x 100) block number 467 (x 100) block number 468 (x 100) block number 469 (x 100) At line: 47001 ; # of saturated pulses= 0 block number 470 (x 100) block number 471 (x 100) block number 472 (x 100) block number 473 (x 100) block number 474 (x 100) block number 475 (x 100) block number 476 (x 100) block number 477 (x 100) block number 478 (x 100) block number 479 (x 100) At line: 48001 ; # of saturated pulses= 0 block number 480 (x 100) block number 481 (x 100) block number 482 (x 100) block number 483 (x 100) block number 484 (x 100) block number 485 (x 100) block number 486 (x 100) block number 487 (x 100) block number 488 (x 100) block number 489 (x 100) At line: 49001 ; # of saturated pulses= 0 block number 490 (x 100) block number 491 (x 100) block number 492 (x 100) block number 493 (x 100) block number 494 (x 100) block number 495 (x 100) block number 496 (x 100) block number 497 (x 100) block number 498 (x 100) block number 499 (x 100) At line: 50001 ; # of saturated pulses= 0 block number 500 (x 100) block number 501 (x 100) block number 502 (x 100) block number 503 (x 100) block number 504 (x 100) block number 505 (x 100) block number 506 (x 100) block number 507 (x 100) block number 508 (x 100) block number 509 (x 100) At line: 51001 ; # of saturated pulses= 0 block number 510 (x 100) block number 511 (x 100) block number 512 (x 100) block number 513 (x 100) block number 514 (x 100) block number 515 (x 100) block number 516 (x 100) block number 517 (x 100) block number 518 (x 100) block number 519 (x 100) At line: 52001 ; # of saturated pulses= 0 block number 520 (x 100) block number 521 (x 100) block number 522 (x 100) block number 523 (x 100) block number 524 (x 100) block number 525 (x 100) block number 526 (x 100) block number 527 (x 100) block number 528 (x 100) block number 529 (x 100) At line: 53001 ; # of saturated pulses= 0 block number 530 (x 100) block number 531 (x 100) block number 532 (x 100) block number 533 (x 100) block number 534 (x 100) block number 535 (x 100) block number 536 (x 100) block number 537 (x 100) block number 538 (x 100) block number 539 (x 100) At line: 54001 ; # of saturated pulses= 0 block number 540 (x 100) block number 541 (x 100) block number 542 (x 100) block number 543 (x 100) block number 544 (x 100) block number 545 (x 100) block number 546 (x 100) block number 547 (x 100) block number 548 (x 100) block number 549 (x 100) At line: 55001 ; # of saturated pulses= 0 block number 550 (x 100) block number 551 (x 100) block number 552 (x 100) block number 553 (x 100) block number 554 (x 100) block number 555 (x 100) block number 556 (x 100) block number 557 (x 100) block number 558 (x 100) block number 559 (x 100) At line: 56001 ; # of saturated pulses= 0 block number 560 (x 100) block number 561 (x 100) block number 562 (x 100) block number 563 (x 100) block number 564 (x 100) block number 565 (x 100) block number 566 (x 100) block number 567 (x 100) block number 568 (x 100) block number 569 (x 100) At line: 57001 ; # of saturated pulses= 0 block number 570 (x 100) block number 571 (x 100) block number 572 (x 100) block number 573 (x 100) block number 574 (x 100) block number 575 (x 100) block number 576 (x 100) block number 577 (x 100) block number 578 (x 100) block number 579 (x 100) At line: 58001 ; # of saturated pulses= 0 block number 580 (x 100) block number 581 (x 100) block number 582 (x 100) block number 583 (x 100) block number 584 (x 100) block number 585 (x 100) block number 586 (x 100) block number 587 (x 100) block number 588 (x 100) block number 589 (x 100) At line: 59001 ; # of saturated pulses= 0 block number 590 (x 100) block number 591 (x 100) block number 592 (x 100) block number 593 (x 100) block number 594 (x 100) block number 595 (x 100) block number 596 (x 100) block number 597 (x 100) block number 598 (x 100) block number 599 (x 100) At line: 60001 ; # of saturated pulses= 0 block number 600 (x 100) block number 601 (x 100) block number 602 (x 100) block number 603 (x 100) block number 604 (x 100) block number 605 (x 100) block number 606 (x 100) block number 607 (x 100) block number 608 (x 100) block number 609 (x 100) At line: 61001 ; # of saturated pulses= 0 block number 610 (x 100) block number 611 (x 100) block number 612 (x 100) block number 613 (x 100) block number 614 (x 100) block number 615 (x 100) block number 616 (x 100) block number 617 (x 100) block number 618 (x 100) block number 619 (x 100) At line: 62001 ; # of saturated pulses= 0 block number 620 (x 100) block number 621 (x 100) block number 622 (x 100) block number 623 (x 100) block number 624 (x 100) block number 625 (x 100) block number 626 (x 100) block number 627 (x 100) block number 628 (x 100) block number 629 (x 100) At line: 63001 ; # of saturated pulses= 0 block number 630 (x 100) block number 631 (x 100) block number 632 (x 100) block number 633 (x 100) block number 634 (x 100) block number 635 (x 100) block number 636 (x 100) block number 637 (x 100) block number 638 (x 100) block number 639 (x 100) At line: 64001 ; # of saturated pulses= 0 block number 640 (x 100) block number 641 (x 100) block number 642 (x 100) block number 643 (x 100) block number 644 (x 100) block number 645 (x 100) block number 646 (x 100) block number 647 (x 100) block number 648 (x 100) block number 649 (x 100) At line: 65001 ; # of saturated pulses= 0 block number 650 (x 100) block number 651 (x 100) block number 652 (x 100) block number 653 (x 100) block number 654 (x 100) block number 655 (x 100) block number 656 (x 100) block number 657 (x 100) block number 658 (x 100) block number 659 (x 100) At line: 66001 ; # of saturated pulses= 0 block number 660 (x 100) block number 661 (x 100) block number 662 (x 100) block number 663 (x 100) block number 664 (x 100) block number 665 (x 100) block number 666 (x 100) block number 667 (x 100) block number 668 (x 100) block number 669 (x 100) At line: 67001 ; # of saturated pulses= 0 block number 670 (x 100) block number 671 (x 100) block number 672 (x 100) block number 673 (x 100) block number 674 (x 100) block number 675 (x 100) block number 676 (x 100) block number 677 (x 100) block number 678 (x 100) block number 679 (x 100) At line: 68001 ; # of saturated pulses= 0 block number 680 (x 100) block number 681 (x 100) block number 682 (x 100) block number 683 (x 100) block number 684 (x 100) block number 685 (x 100) block number 686 (x 100) block number 687 (x 100) block number 688 (x 100) block number 689 (x 100) At line: 69001 ; # of saturated pulses= 0 block number 690 (x 100) block number 691 (x 100) block number 692 (x 100) block number 693 (x 100) block number 694 (x 100) block number 695 (x 100) block number 696 (x 100) block number 697 (x 100) block number 698 (x 100) block number 699 (x 100) At line: 70001 ; # of saturated pulses= 0 block number 700 (x 100) block number 701 (x 100) block number 702 (x 100) block number 703 (x 100) block number 704 (x 100) block number 705 (x 100) block number 706 (x 100) block number 707 (x 100) block number 708 (x 100) block number 709 (x 100) At line: 71001 ; # of saturated pulses= 0 block number 710 (x 100) block number 711 (x 100) block number 712 (x 100) block number 713 (x 100) block number 714 (x 100) block number 715 (x 100) block number 716 (x 100) block number 717 (x 100) block number 718 (x 100) block number 719 (x 100) At line: 72001 ; # of saturated pulses= 0 block number 720 (x 100) block number 721 (x 100) block number 722 (x 100) block number 723 (x 100) block number 724 (x 100) block number 725 (x 100) block number 726 (x 100) block number 727 (x 100) block number 728 (x 100) block number 729 (x 100) At line: 73001 ; # of saturated pulses= 0 block number 730 (x 100) block number 731 (x 100) block number 732 (x 100) block number 733 (x 100) block number 734 (x 100) block number 735 (x 100) block number 736 (x 100) block number 737 (x 100) block number 738 (x 100) block number 739 (x 100) At line: 74001 ; # of saturated pulses= 0 block number 740 (x 100) block number 741 (x 100) block number 742 (x 100) block number 743 (x 100) block number 744 (x 100) block number 745 (x 100) block number 746 (x 100) block number 747 (x 100) block number 748 (x 100) block number 749 (x 100) At line: 75001 ; # of saturated pulses= 0 block number 750 (x 100) block number 751 (x 100) block number 752 (x 100) block number 753 (x 100) block number 754 (x 100) block number 755 (x 100) block number 756 (x 100) block number 757 (x 100) block number 758 (x 100) block number 759 (x 100) At line: 76001 ; # of saturated pulses= 0 block number 760 (x 100) block number 761 (x 100) block number 762 (x 100) block number 763 (x 100) block number 764 (x 100) block number 765 (x 100) block number 766 (x 100) block number 767 (x 100) block number 768 (x 100) block number 769 (x 100) At line: 77001 ; # of saturated pulses= 0 block number 770 (x 100) block number 771 (x 100) block number 772 (x 100) block number 773 (x 100) block number 774 (x 100) block number 775 (x 100) block number 776 (x 100) block number 777 (x 100) block number 778 (x 100) block number 779 (x 100) At line: 78001 ; # of saturated pulses= 0 block number 780 (x 100) block number 781 (x 100) block number 782 (x 100) block number 783 (x 100) block number 784 (x 100) block number 785 (x 100) block number 786 (x 100) block number 787 (x 100) block number 788 (x 100) block number 789 (x 100) At line: 79001 ; # of saturated pulses= 0 block number 790 (x 100) block number 791 (x 100) block number 792 (x 100) block number 793 (x 100) block number 794 (x 100) block number 795 (x 100) block number 796 (x 100) block number 797 (x 100) block number 798 (x 100) block number 799 (x 100) At line: 80001 ; # of saturated pulses= 0 block number 800 (x 100) block number 801 (x 100) block number 802 (x 100) block number 803 (x 100) block number 804 (x 100) block number 805 (x 100) block number 806 (x 100) block number 807 (x 100) block number 808 (x 100) block number 809 (x 100) At line: 81001 ; # of saturated pulses= 0 block number 810 (x 100) block number 811 (x 100) block number 812 (x 100) block number 813 (x 100) block number 814 (x 100) block number 815 (x 100) block number 816 (x 100) block number 817 (x 100) block number 818 (x 100) block number 819 (x 100) At line: 82001 ; # of saturated pulses= 0 block number 820 (x 100) block number 821 (x 100) block number 822 (x 100) block number 823 (x 100) block number 824 (x 100) block number 825 (x 100) block number 826 (x 100) block number 827 (x 100) block number 828 (x 100) block number 829 (x 100) At line: 83001 ; # of saturated pulses= 0 block number 830 (x 100) block number 831 (x 100) block number 832 (x 100) block number 833 (x 100) block number 834 (x 100) block number 835 (x 100) block number 836 (x 100) block number 837 (x 100) block number 838 (x 100) block number 839 (x 100) At line: 84001 ; # of saturated pulses= 0 block number 840 (x 100) block number 841 (x 100) block number 842 (x 100) block number 843 (x 100) block number 844 (x 100) block number 845 (x 100) block number 846 (x 100) block number 847 (x 100) block number 848 (x 100) block number 849 (x 100) At line: 85001 ; # of saturated pulses= 0 block number 850 (x 100) block number 851 (x 100) block number 852 (x 100) block number 853 (x 100) block number 854 (x 100) block number 855 (x 100) block number 856 (x 100) block number 857 (x 100) block number 858 (x 100) block number 859 (x 100) At line: 86001 ; # of saturated pulses= 0 block number 860 (x 100) block number 861 (x 100) block number 862 (x 100) block number 863 (x 100) block number 864 (x 100) block number 865 (x 100) block number 866 (x 100) block number 867 (x 100) block number 868 (x 100) block number 869 (x 100) At line: 87001 ; # of saturated pulses= 0 block number 870 (x 100) block number 871 (x 100) block number 872 (x 100) block number 873 (x 100) block number 874 (x 100) block number 875 (x 100) block number 876 (x 100) block number 877 (x 100) block number 878 (x 100) block number 879 (x 100) At line: 88001 ; # of saturated pulses= 0 block number 880 (x 100) block number 881 (x 100) block number 882 (x 100) block number 883 (x 100) block number 884 (x 100) block number 885 (x 100) block number 886 (x 100) block number 887 (x 100) block number 888 (x 100) block number 889 (x 100) At line: 89001 ; # of saturated pulses= 0 block number 890 (x 100) block number 891 (x 100) block number 892 (x 100) block number 893 (x 100) block number 894 (x 100) block number 895 (x 100) block number 896 (x 100) block number 897 (x 100) block number 898 (x 100) block number 899 (x 100) At line: 90001 ; # of saturated pulses= 0 block number 900 (x 100) block number 901 (x 100) block number 902 (x 100) block number 903 (x 100) block number 904 (x 100) block number 905 (x 100) block number 906 (x 100) block number 907 (x 100) block number 908 (x 100) block number 909 (x 100) At line: 91001 ; # of saturated pulses= 0 block number 910 (x 100) block number 911 (x 100) block number 912 (x 100) block number 913 (x 100) block number 914 (x 100) block number 915 (x 100) block number 916 (x 100) block number 917 (x 100) block number 918 (x 100) block number 919 (x 100) At line: 92001 ; # of saturated pulses= 0 block number 920 (x 100) block number 921 (x 100) block number 922 (x 100) block number 923 (x 100) block number 924 (x 100) block number 925 (x 100) block number 926 (x 100) block number 927 (x 100) block number 928 (x 100) block number 929 (x 100) At line: 93001 ; # of saturated pulses= 0 block number 930 (x 100) block number 931 (x 100) block number 932 (x 100) block number 933 (x 100) block number 934 (x 100) block number 935 (x 100) block number 936 (x 100) block number 937 (x 100) block number 938 (x 100) block number 939 (x 100) At line: 94001 ; # of saturated pulses= 0 block number 940 (x 100) block number 941 (x 100) block number 942 (x 100) block number 943 (x 100) block number 944 (x 100) block number 945 (x 100) block number 946 (x 100) block number 947 (x 100) block number 948 (x 100) block number 949 (x 100) At line: 95001 ; # of saturated pulses= 0 block number 950 (x 100) block number 951 (x 100) block number 952 (x 100) block number 953 (x 100) block number 954 (x 100) block number 955 (x 100) block number 956 (x 100) block number 957 (x 100) block number 958 (x 100) block number 959 (x 100) At line: 96001 ; # of saturated pulses= 0 block number 960 (x 100) block number 961 (x 100) block number 962 (x 100) block number 963 (x 100) block number 964 (x 100) block number 965 (x 100) block number 966 (x 100) block number 967 (x 100) block number 968 (x 100) block number 969 (x 100) At line: 97001 ; # of saturated pulses= 0 block number 970 (x 100) block number 971 (x 100) block number 972 (x 100) block number 973 (x 100) block number 974 (x 100) block number 975 (x 100) block number 976 (x 100) block number 977 (x 100) block number 978 (x 100) block number 979 (x 100) At line: 98001 ; # of saturated pulses= 0 block number 980 (x 100) block number 981 (x 100) block number 982 (x 100) block number 983 (x 100) block number 984 (x 100) block number 985 (x 100) block number 986 (x 100) block number 987 (x 100) block number 988 (x 100) block number 989 (x 100) At line: 99001 ; # of saturated pulses= 0 block number 990 (x 100) block number 991 (x 100) block number 992 (x 100) block number 993 (x 100) block number 994 (x 100) block number 995 (x 100) block number 996 (x 100) block number 997 (x 100) block number 998 (x 100) block number 999 (x 100) At line: 100001 ; # of saturated pulses= 0 block number 1000 (x 100) Writing file: ts1400_p_vh_spec.dat How many problems did you sweep under the rug this time? Total run time = cputime: 6563.191 sys time: 24.93989 6563.210 24.98126 << Clean RFI from TOPSAR Data >> Enter P-band input file name: p_vv.rfi Enter Output file name: p_vv Enter range spectrum file name: ts1400_p_vv_spec.dat Enter range samples: 6144 Enter starting line #: 1 Enter end line #: 100000 Enter 40 MHz flag : 1 Enter the file name of the sub-band fileter coeff : /u/sardine0/airops/OPS/data_proc/par_npr_qmf_8_128_pro.dat Enter the file name of the LMS parameters array : p_vv_par_lms.dat Number of subbands: 8 Length of prototype: 128 Subband Switch Weighting Length Block Step Factor 1 1 1 256 16 0.50 0.9 2 0 1 256 16 0.50 0.9 3 1 1 256 16 0.50 0.9 4 1 1 256 16 0.50 0.9 5 1 1 256 16 0.50 0.9 6 1 1 256 16 0.50 0.9 7 1 1 256 16 0.50 0.9 8 1 1 256 16 0.50 0.9 40/80 MHz flag: 1 3969 4225 1.8867999E-02 4.0006999E-02 Input file name: p_vv.rfi Number of samples: 6144 Overwrite Status: 0 1 (overwrite) or 0 (new file) Output file name: p_vv Range Spectra: 1 1 (dump spectra) or 0 (do not dump) Data Range: 1 to 100000 lines to process FFT size: 8192 Done Initializing c_data block number 1 (x 100) block number 2 (x 100) block number 3 (x 100) block number 4 (x 100) block number 5 (x 100) block number 6 (x 100) block number 7 (x 100) block number 8 (x 100) block number 9 (x 100) At line: 1001 ; # of saturated pulses= 0 block number 10 (x 100) block number 11 (x 100) block number 12 (x 100) block number 13 (x 100) block number 14 (x 100) block number 15 (x 100) block number 16 (x 100) block number 17 (x 100) block number 18 (x 100) block number 19 (x 100) At line: 2001 ; # of saturated pulses= 0 block number 20 (x 100) block number 21 (x 100) block number 22 (x 100) block number 23 (x 100) block number 24 (x 100) block number 25 (x 100) block number 26 (x 100) block number 27 (x 100) block number 28 (x 100) block number 29 (x 100) At line: 3001 ; # of saturated pulses= 0 block number 30 (x 100) block number 31 (x 100) block number 32 (x 100) block number 33 (x 100) block number 34 (x 100) block number 35 (x 100) block number 36 (x 100) block number 37 (x 100) block number 38 (x 100) block number 39 (x 100) At line: 4001 ; # of saturated pulses= 0 block number 40 (x 100) block number 41 (x 100) block number 42 (x 100) block number 43 (x 100) block number 44 (x 100) block number 45 (x 100) block number 46 (x 100) block number 47 (x 100) block number 48 (x 100) block number 49 (x 100) At line: 5001 ; # of saturated pulses= 0 block number 50 (x 100) block number 51 (x 100) block number 52 (x 100) block number 53 (x 100) block number 54 (x 100) block number 55 (x 100) block number 56 (x 100) block number 57 (x 100) block number 58 (x 100) block number 59 (x 100) At line: 6001 ; # of saturated pulses= 0 block number 60 (x 100) block number 61 (x 100) block number 62 (x 100) block number 63 (x 100) block number 64 (x 100) block number 65 (x 100) block number 66 (x 100) block number 67 (x 100) block number 68 (x 100) block number 69 (x 100) At line: 7001 ; # of saturated pulses= 0 block number 70 (x 100) block number 71 (x 100) block number 72 (x 100) block number 73 (x 100) block number 74 (x 100) block number 75 (x 100) block number 76 (x 100) block number 77 (x 100) block number 78 (x 100) block number 79 (x 100) At line: 8001 ; # of saturated pulses= 0 block number 80 (x 100) block number 81 (x 100) block number 82 (x 100) block number 83 (x 100) block number 84 (x 100) block number 85 (x 100) block number 86 (x 100) block number 87 (x 100) block number 88 (x 100) block number 89 (x 100) At line: 9001 ; # of saturated pulses= 0 block number 90 (x 100) block number 91 (x 100) block number 92 (x 100) block number 93 (x 100) block number 94 (x 100) block number 95 (x 100) block number 96 (x 100) block number 97 (x 100) block number 98 (x 100) block number 99 (x 100) At line: 10001 ; # of saturated pulses= 0 block number 100 (x 100) block number 101 (x 100) block number 102 (x 100) block number 103 (x 100) block number 104 (x 100) block number 105 (x 100) block number 106 (x 100) block number 107 (x 100) block number 108 (x 100) block number 109 (x 100) At line: 11001 ; # of saturated pulses= 0 block number 110 (x 100) block number 111 (x 100) block number 112 (x 100) block number 113 (x 100) block number 114 (x 100) block number 115 (x 100) block number 116 (x 100) block number 117 (x 100) block number 118 (x 100) block number 119 (x 100) At line: 12001 ; # of saturated pulses= 0 block number 120 (x 100) block number 121 (x 100) block number 122 (x 100) block number 123 (x 100) block number 124 (x 100) block number 125 (x 100) block number 126 (x 100) block number 127 (x 100) block number 128 (x 100) block number 129 (x 100) At line: 13001 ; # of saturated pulses= 0 block number 130 (x 100) block number 131 (x 100) block number 132 (x 100) block number 133 (x 100) block number 134 (x 100) block number 135 (x 100) block number 136 (x 100) block number 137 (x 100) block number 138 (x 100) block number 139 (x 100) At line: 14001 ; # of saturated pulses= 0 block number 140 (x 100) block number 141 (x 100) block number 142 (x 100) block number 143 (x 100) block number 144 (x 100) block number 145 (x 100) block number 146 (x 100) block number 147 (x 100) block number 148 (x 100) block number 149 (x 100) At line: 15001 ; # of saturated pulses= 0 block number 150 (x 100) block number 151 (x 100) block number 152 (x 100) block number 153 (x 100) block number 154 (x 100) block number 155 (x 100) block number 156 (x 100) block number 157 (x 100) block number 158 (x 100) block number 159 (x 100) At line: 16001 ; # of saturated pulses= 0 block number 160 (x 100) block number 161 (x 100) block number 162 (x 100) block number 163 (x 100) block number 164 (x 100) block number 165 (x 100) block number 166 (x 100) block number 167 (x 100) block number 168 (x 100) block number 169 (x 100) At line: 17001 ; # of saturated pulses= 0 block number 170 (x 100) block number 171 (x 100) block number 172 (x 100) block number 173 (x 100) block number 174 (x 100) block number 175 (x 100) block number 176 (x 100) block number 177 (x 100) block number 178 (x 100) block number 179 (x 100) At line: 18001 ; # of saturated pulses= 0 block number 180 (x 100) block number 181 (x 100) block number 182 (x 100) block number 183 (x 100) block number 184 (x 100) block number 185 (x 100) block number 186 (x 100) block number 187 (x 100) block number 188 (x 100) block number 189 (x 100) At line: 19001 ; # of saturated pulses= 0 block number 190 (x 100) block number 191 (x 100) block number 192 (x 100) block number 193 (x 100) block number 194 (x 100) block number 195 (x 100) block number 196 (x 100) block number 197 (x 100) block number 198 (x 100) block number 199 (x 100) At line: 20001 ; # of saturated pulses= 0 block number 200 (x 100) block number 201 (x 100) block number 202 (x 100) block number 203 (x 100) block number 204 (x 100) block number 205 (x 100) block number 206 (x 100) block number 207 (x 100) block number 208 (x 100) block number 209 (x 100) At line: 21001 ; # of saturated pulses= 0 block number 210 (x 100) block number 211 (x 100) block number 212 (x 100) block number 213 (x 100) block number 214 (x 100) block number 215 (x 100) block number 216 (x 100) block number 217 (x 100) block number 218 (x 100) block number 219 (x 100) At line: 22001 ; # of saturated pulses= 0 block number 220 (x 100) block number 221 (x 100) block number 222 (x 100) block number 223 (x 100) block number 224 (x 100) block number 225 (x 100) block number 226 (x 100) block number 227 (x 100) block number 228 (x 100) block number 229 (x 100) At line: 23001 ; # of saturated pulses= 0 block number 230 (x 100) block number 231 (x 100) block number 232 (x 100) block number 233 (x 100) block number 234 (x 100) block number 235 (x 100) block number 236 (x 100) block number 237 (x 100) block number 238 (x 100) block number 239 (x 100) At line: 24001 ; # of saturated pulses= 0 block number 240 (x 100) block number 241 (x 100) block number 242 (x 100) block number 243 (x 100) block number 244 (x 100) block number 245 (x 100) block number 246 (x 100) block number 247 (x 100) block number 248 (x 100) block number 249 (x 100) At line: 25001 ; # of saturated pulses= 0 block number 250 (x 100) block number 251 (x 100) block number 252 (x 100) block number 253 (x 100) block number 254 (x 100) block number 255 (x 100) block number 256 (x 100) block number 257 (x 100) block number 258 (x 100) block number 259 (x 100) At line: 26001 ; # of saturated pulses= 0 block number 260 (x 100) block number 261 (x 100) block number 262 (x 100) block number 263 (x 100) block number 264 (x 100) block number 265 (x 100) block number 266 (x 100) block number 267 (x 100) block number 268 (x 100) block number 269 (x 100) At line: 27001 ; # of saturated pulses= 0 block number 270 (x 100) block number 271 (x 100) block number 272 (x 100) block number 273 (x 100) block number 274 (x 100) block number 275 (x 100) block number 276 (x 100) block number 277 (x 100) block number 278 (x 100) block number 279 (x 100) At line: 28001 ; # of saturated pulses= 0 block number 280 (x 100) block number 281 (x 100) block number 282 (x 100) block number 283 (x 100) block number 284 (x 100) block number 285 (x 100) block number 286 (x 100) block number 287 (x 100) block number 288 (x 100) block number 289 (x 100) At line: 29001 ; # of saturated pulses= 0 block number 290 (x 100) block number 291 (x 100) block number 292 (x 100) block number 293 (x 100) block number 294 (x 100) block number 295 (x 100) block number 296 (x 100) block number 297 (x 100) block number 298 (x 100) block number 299 (x 100) At line: 30001 ; # of saturated pulses= 0 block number 300 (x 100) block number 301 (x 100) block number 302 (x 100) block number 303 (x 100) block number 304 (x 100) block number 305 (x 100) block number 306 (x 100) block number 307 (x 100) block number 308 (x 100) block number 309 (x 100) At line: 31001 ; # of saturated pulses= 0 block number 310 (x 100) block number 311 (x 100) block number 312 (x 100) block number 313 (x 100) block number 314 (x 100) block number 315 (x 100) block number 316 (x 100) block number 317 (x 100) block number 318 (x 100) block number 319 (x 100) At line: 32001 ; # of saturated pulses= 0 block number 320 (x 100) block number 321 (x 100) block number 322 (x 100) block number 323 (x 100) block number 324 (x 100) block number 325 (x 100) block number 326 (x 100) block number 327 (x 100) block number 328 (x 100) block number 329 (x 100) At line: 33001 ; # of saturated pulses= 0 block number 330 (x 100) block number 331 (x 100) block number 332 (x 100) block number 333 (x 100) block number 334 (x 100) block number 335 (x 100) block number 336 (x 100) block number 337 (x 100) block number 338 (x 100) block number 339 (x 100) At line: 34001 ; # of saturated pulses= 0 block number 340 (x 100) block number 341 (x 100) block number 342 (x 100) block number 343 (x 100) block number 344 (x 100) block number 345 (x 100) block number 346 (x 100) block number 347 (x 100) block number 348 (x 100) block number 349 (x 100) At line: 35001 ; # of saturated pulses= 0 block number 350 (x 100) block number 351 (x 100) block number 352 (x 100) block number 353 (x 100) block number 354 (x 100) block number 355 (x 100) block number 356 (x 100) block number 357 (x 100) block number 358 (x 100) block number 359 (x 100) At line: 36001 ; # of saturated pulses= 0 block number 360 (x 100) block number 361 (x 100) block number 362 (x 100) block number 363 (x 100) block number 364 (x 100) block number 365 (x 100) block number 366 (x 100) block number 367 (x 100) block number 368 (x 100) block number 369 (x 100) At line: 37001 ; # of saturated pulses= 0 block number 370 (x 100) block number 371 (x 100) block number 372 (x 100) block number 373 (x 100) block number 374 (x 100) block number 375 (x 100) block number 376 (x 100) block number 377 (x 100) block number 378 (x 100) block number 379 (x 100) At line: 38001 ; # of saturated pulses= 0 block number 380 (x 100) block number 381 (x 100) block number 382 (x 100) block number 383 (x 100) block number 384 (x 100) block number 385 (x 100) block number 386 (x 100) block number 387 (x 100) block number 388 (x 100) block number 389 (x 100) At line: 39001 ; # of saturated pulses= 0 block number 390 (x 100) block number 391 (x 100) block number 392 (x 100) block number 393 (x 100) block number 394 (x 100) block number 395 (x 100) block number 396 (x 100) block number 397 (x 100) block number 398 (x 100) block number 399 (x 100) At line: 40001 ; # of saturated pulses= 0 block number 400 (x 100) block number 401 (x 100) block number 402 (x 100) block number 403 (x 100) block number 404 (x 100) block number 405 (x 100) block number 406 (x 100) block number 407 (x 100) block number 408 (x 100) block number 409 (x 100) At line: 41001 ; # of saturated pulses= 0 block number 410 (x 100) block number 411 (x 100) block number 412 (x 100) block number 413 (x 100) block number 414 (x 100) block number 415 (x 100) block number 416 (x 100) block number 417 (x 100) block number 418 (x 100) block number 419 (x 100) At line: 42001 ; # of saturated pulses= 0 block number 420 (x 100) block number 421 (x 100) block number 422 (x 100) block number 423 (x 100) block number 424 (x 100) block number 425 (x 100) block number 426 (x 100) block number 427 (x 100) block number 428 (x 100) block number 429 (x 100) At line: 43001 ; # of saturated pulses= 0 block number 430 (x 100) block number 431 (x 100) block number 432 (x 100) block number 433 (x 100) block number 434 (x 100) block number 435 (x 100) block number 436 (x 100) block number 437 (x 100) block number 438 (x 100) block number 439 (x 100) At line: 44001 ; # of saturated pulses= 0 block number 440 (x 100) block number 441 (x 100) block number 442 (x 100) block number 443 (x 100) block number 444 (x 100) block number 445 (x 100) block number 446 (x 100) block number 447 (x 100) block number 448 (x 100) block number 449 (x 100) At line: 45001 ; # of saturated pulses= 0 block number 450 (x 100) block number 451 (x 100) block number 452 (x 100) block number 453 (x 100) block number 454 (x 100) block number 455 (x 100) block number 456 (x 100) block number 457 (x 100) block number 458 (x 100) block number 459 (x 100) At line: 46001 ; # of saturated pulses= 0 block number 460 (x 100) block number 461 (x 100) block number 462 (x 100) block number 463 (x 100) block number 464 (x 100) block number 465 (x 100) block number 466 (x 100) block number 467 (x 100) block number 468 (x 100) block number 469 (x 100) At line: 47001 ; # of saturated pulses= 0 block number 470 (x 100) block number 471 (x 100) block number 472 (x 100) block number 473 (x 100) block number 474 (x 100) block number 475 (x 100) block number 476 (x 100) block number 477 (x 100) block number 478 (x 100) block number 479 (x 100) At line: 48001 ; # of saturated pulses= 0 block number 480 (x 100) block number 481 (x 100) block number 482 (x 100) block number 483 (x 100) block number 484 (x 100) block number 485 (x 100) block number 486 (x 100) block number 487 (x 100) block number 488 (x 100) block number 489 (x 100) At line: 49001 ; # of saturated pulses= 0 block number 490 (x 100) block number 491 (x 100) block number 492 (x 100) block number 493 (x 100) block number 494 (x 100) block number 495 (x 100) block number 496 (x 100) block number 497 (x 100) block number 498 (x 100) block number 499 (x 100) At line: 50001 ; # of saturated pulses= 0 block number 500 (x 100) block number 501 (x 100) block number 502 (x 100) block number 503 (x 100) block number 504 (x 100) block number 505 (x 100) block number 506 (x 100) block number 507 (x 100) block number 508 (x 100) block number 509 (x 100) At line: 51001 ; # of saturated pulses= 0 block number 510 (x 100) block number 511 (x 100) block number 512 (x 100) block number 513 (x 100) block number 514 (x 100) block number 515 (x 100) block number 516 (x 100) block number 517 (x 100) block number 518 (x 100) block number 519 (x 100) At line: 52001 ; # of saturated pulses= 0 block number 520 (x 100) block number 521 (x 100) block number 522 (x 100) block number 523 (x 100) block number 524 (x 100) block number 525 (x 100) block number 526 (x 100) block number 527 (x 100) block number 528 (x 100) block number 529 (x 100) At line: 53001 ; # of saturated pulses= 0 block number 530 (x 100) block number 531 (x 100) block number 532 (x 100) block number 533 (x 100) block number 534 (x 100) block number 535 (x 100) block number 536 (x 100) block number 537 (x 100) block number 538 (x 100) block number 539 (x 100) At line: 54001 ; # of saturated pulses= 0 block number 540 (x 100) block number 541 (x 100) block number 542 (x 100) block number 543 (x 100) block number 544 (x 100) block number 545 (x 100) block number 546 (x 100) block number 547 (x 100) block number 548 (x 100) block number 549 (x 100) At line: 55001 ; # of saturated pulses= 0 block number 550 (x 100) block number 551 (x 100) block number 552 (x 100) block number 553 (x 100) block number 554 (x 100) block number 555 (x 100) block number 556 (x 100) block number 557 (x 100) block number 558 (x 100) block number 559 (x 100) At line: 56001 ; # of saturated pulses= 0 block number 560 (x 100) block number 561 (x 100) block number 562 (x 100) block number 563 (x 100) block number 564 (x 100) block number 565 (x 100) block number 566 (x 100) block number 567 (x 100) block number 568 (x 100) block number 569 (x 100) At line: 57001 ; # of saturated pulses= 0 block number 570 (x 100) block number 571 (x 100) block number 572 (x 100) block number 573 (x 100) block number 574 (x 100) block number 575 (x 100) block number 576 (x 100) block number 577 (x 100) block number 578 (x 100) block number 579 (x 100) At line: 58001 ; # of saturated pulses= 0 block number 580 (x 100) block number 581 (x 100) block number 582 (x 100) block number 583 (x 100) block number 584 (x 100) block number 585 (x 100) block number 586 (x 100) block number 587 (x 100) block number 588 (x 100) block number 589 (x 100) At line: 59001 ; # of saturated pulses= 0 block number 590 (x 100) block number 591 (x 100) block number 592 (x 100) block number 593 (x 100) block number 594 (x 100) block number 595 (x 100) block number 596 (x 100) block number 597 (x 100) block number 598 (x 100) block number 599 (x 100) At line: 60001 ; # of saturated pulses= 0 block number 600 (x 100) block number 601 (x 100) block number 602 (x 100) block number 603 (x 100) block number 604 (x 100) block number 605 (x 100) block number 606 (x 100) block number 607 (x 100) block number 608 (x 100) block number 609 (x 100) At line: 61001 ; # of saturated pulses= 0 block number 610 (x 100) block number 611 (x 100) block number 612 (x 100) block number 613 (x 100) block number 614 (x 100) block number 615 (x 100) block number 616 (x 100) block number 617 (x 100) block number 618 (x 100) block number 619 (x 100) At line: 62001 ; # of saturated pulses= 0 block number 620 (x 100) block number 621 (x 100) block number 622 (x 100) block number 623 (x 100) block number 624 (x 100) block number 625 (x 100) block number 626 (x 100) block number 627 (x 100) block number 628 (x 100) block number 629 (x 100) At line: 63001 ; # of saturated pulses= 0 block number 630 (x 100) block number 631 (x 100) block number 632 (x 100) block number 633 (x 100) block number 634 (x 100) block number 635 (x 100) block number 636 (x 100) block number 637 (x 100) block number 638 (x 100) block number 639 (x 100) At line: 64001 ; # of saturated pulses= 0 block number 640 (x 100) block number 641 (x 100) block number 642 (x 100) block number 643 (x 100) block number 644 (x 100) block number 645 (x 100) block number 646 (x 100) block number 647 (x 100) block number 648 (x 100) block number 649 (x 100) At line: 65001 ; # of saturated pulses= 0 block number 650 (x 100) block number 651 (x 100) block number 652 (x 100) block number 653 (x 100) block number 654 (x 100) block number 655 (x 100) block number 656 (x 100) block number 657 (x 100) block number 658 (x 100) block number 659 (x 100) At line: 66001 ; # of saturated pulses= 0 block number 660 (x 100) block number 661 (x 100) block number 662 (x 100) block number 663 (x 100) block number 664 (x 100) block number 665 (x 100) block number 666 (x 100) block number 667 (x 100) block number 668 (x 100) block number 669 (x 100) At line: 67001 ; # of saturated pulses= 0 block number 670 (x 100) block number 671 (x 100) block number 672 (x 100) block number 673 (x 100) block number 674 (x 100) block number 675 (x 100) block number 676 (x 100) block number 677 (x 100) block number 678 (x 100) block number 679 (x 100) At line: 68001 ; # of saturated pulses= 0 block number 680 (x 100) block number 681 (x 100) block number 682 (x 100) block number 683 (x 100) block number 684 (x 100) block number 685 (x 100) block number 686 (x 100) block number 687 (x 100) block number 688 (x 100) block number 689 (x 100) At line: 69001 ; # of saturated pulses= 0 block number 690 (x 100) block number 691 (x 100) block number 692 (x 100) block number 693 (x 100) block number 694 (x 100) block number 695 (x 100) block number 696 (x 100) block number 697 (x 100) block number 698 (x 100) block number 699 (x 100) At line: 70001 ; # of saturated pulses= 0 block number 700 (x 100) block number 701 (x 100) block number 702 (x 100) block number 703 (x 100) block number 704 (x 100) block number 705 (x 100) block number 706 (x 100) block number 707 (x 100) block number 708 (x 100) block number 709 (x 100) At line: 71001 ; # of saturated pulses= 0 block number 710 (x 100) block number 711 (x 100) block number 712 (x 100) block number 713 (x 100) block number 714 (x 100) block number 715 (x 100) block number 716 (x 100) block number 717 (x 100) block number 718 (x 100) block number 719 (x 100) At line: 72001 ; # of saturated pulses= 0 block number 720 (x 100) block number 721 (x 100) block number 722 (x 100) block number 723 (x 100) block number 724 (x 100) block number 725 (x 100) block number 726 (x 100) block number 727 (x 100) block number 728 (x 100) block number 729 (x 100) At line: 73001 ; # of saturated pulses= 0 block number 730 (x 100) block number 731 (x 100) block number 732 (x 100) block number 733 (x 100) block number 734 (x 100) block number 735 (x 100) block number 736 (x 100) block number 737 (x 100) block number 738 (x 100) block number 739 (x 100) At line: 74001 ; # of saturated pulses= 0 block number 740 (x 100) block number 741 (x 100) block number 742 (x 100) block number 743 (x 100) block number 744 (x 100) block number 745 (x 100) block number 746 (x 100) block number 747 (x 100) block number 748 (x 100) block number 749 (x 100) At line: 75001 ; # of saturated pulses= 0 block number 750 (x 100) block number 751 (x 100) block number 752 (x 100) block number 753 (x 100) block number 754 (x 100) block number 755 (x 100) block number 756 (x 100) block number 757 (x 100) block number 758 (x 100) block number 759 (x 100) At line: 76001 ; # of saturated pulses= 0 block number 760 (x 100) block number 761 (x 100) block number 762 (x 100) block number 763 (x 100) block number 764 (x 100) block number 765 (x 100) block number 766 (x 100) block number 767 (x 100) block number 768 (x 100) block number 769 (x 100) At line: 77001 ; # of saturated pulses= 0 block number 770 (x 100) block number 771 (x 100) block number 772 (x 100) block number 773 (x 100) block number 774 (x 100) block number 775 (x 100) block number 776 (x 100) block number 777 (x 100) block number 778 (x 100) block number 779 (x 100) At line: 78001 ; # of saturated pulses= 0 block number 780 (x 100) block number 781 (x 100) block number 782 (x 100) block number 783 (x 100) block number 784 (x 100) block number 785 (x 100) block number 786 (x 100) block number 787 (x 100) block number 788 (x 100) block number 789 (x 100) At line: 79001 ; # of saturated pulses= 0 block number 790 (x 100) block number 791 (x 100) block number 792 (x 100) block number 793 (x 100) block number 794 (x 100) block number 795 (x 100) block number 796 (x 100) block number 797 (x 100) block number 798 (x 100) block number 799 (x 100) At line: 80001 ; # of saturated pulses= 0 block number 800 (x 100) block number 801 (x 100) block number 802 (x 100) block number 803 (x 100) block number 804 (x 100) block number 805 (x 100) block number 806 (x 100) block number 807 (x 100) block number 808 (x 100) block number 809 (x 100) At line: 81001 ; # of saturated pulses= 0 block number 810 (x 100) block number 811 (x 100) block number 812 (x 100) block number 813 (x 100) block number 814 (x 100) block number 815 (x 100) block number 816 (x 100) block number 817 (x 100) block number 818 (x 100) block number 819 (x 100) At line: 82001 ; # of saturated pulses= 0 block number 820 (x 100) block number 821 (x 100) block number 822 (x 100) block number 823 (x 100) block number 824 (x 100) block number 825 (x 100) block number 826 (x 100) block number 827 (x 100) block number 828 (x 100) block number 829 (x 100) At line: 83001 ; # of saturated pulses= 0 block number 830 (x 100) block number 831 (x 100) block number 832 (x 100) block number 833 (x 100) block number 834 (x 100) block number 835 (x 100) block number 836 (x 100) block number 837 (x 100) block number 838 (x 100) block number 839 (x 100) At line: 84001 ; # of saturated pulses= 0 block number 840 (x 100) block number 841 (x 100) block number 842 (x 100) block number 843 (x 100) block number 844 (x 100) block number 845 (x 100) block number 846 (x 100) block number 847 (x 100) block number 848 (x 100) block number 849 (x 100) At line: 85001 ; # of saturated pulses= 0 block number 850 (x 100) block number 851 (x 100) block number 852 (x 100) block number 853 (x 100) block number 854 (x 100) block number 855 (x 100) block number 856 (x 100) block number 857 (x 100) block number 858 (x 100) block number 859 (x 100) At line: 86001 ; # of saturated pulses= 0 block number 860 (x 100) block number 861 (x 100) block number 862 (x 100) block number 863 (x 100) block number 864 (x 100) block number 865 (x 100) block number 866 (x 100) block number 867 (x 100) block number 868 (x 100) block number 869 (x 100) At line: 87001 ; # of saturated pulses= 0 block number 870 (x 100) block number 871 (x 100) block number 872 (x 100) block number 873 (x 100) block number 874 (x 100) block number 875 (x 100) block number 876 (x 100) block number 877 (x 100) block number 878 (x 100) block number 879 (x 100) At line: 88001 ; # of saturated pulses= 0 block number 880 (x 100) block number 881 (x 100) block number 882 (x 100) block number 883 (x 100) block number 884 (x 100) block number 885 (x 100) block number 886 (x 100) block number 887 (x 100) block number 888 (x 100) block number 889 (x 100) At line: 89001 ; # of saturated pulses= 0 block number 890 (x 100) block number 891 (x 100) block number 892 (x 100) block number 893 (x 100) block number 894 (x 100) block number 895 (x 100) block number 896 (x 100) block number 897 (x 100) block number 898 (x 100) block number 899 (x 100) At line: 90001 ; # of saturated pulses= 0 block number 900 (x 100) block number 901 (x 100) block number 902 (x 100) block number 903 (x 100) block number 904 (x 100) block number 905 (x 100) block number 906 (x 100) block number 907 (x 100) block number 908 (x 100) block number 909 (x 100) At line: 91001 ; # of saturated pulses= 0 block number 910 (x 100) block number 911 (x 100) block number 912 (x 100) block number 913 (x 100) block number 914 (x 100) block number 915 (x 100) block number 916 (x 100) block number 917 (x 100) block number 918 (x 100) block number 919 (x 100) At line: 92001 ; # of saturated pulses= 0 block number 920 (x 100) block number 921 (x 100) block number 922 (x 100) block number 923 (x 100) block number 924 (x 100) block number 925 (x 100) block number 926 (x 100) block number 927 (x 100) block number 928 (x 100) block number 929 (x 100) At line: 93001 ; # of saturated pulses= 0 block number 930 (x 100) block number 931 (x 100) block number 932 (x 100) block number 933 (x 100) block number 934 (x 100) block number 935 (x 100) block number 936 (x 100) block number 937 (x 100) block number 938 (x 100) block number 939 (x 100) At line: 94001 ; # of saturated pulses= 0 block number 940 (x 100) block number 941 (x 100) block number 942 (x 100) block number 943 (x 100) block number 944 (x 100) block number 945 (x 100) block number 946 (x 100) block number 947 (x 100) block number 948 (x 100) block number 949 (x 100) At line: 95001 ; # of saturated pulses= 0 block number 950 (x 100) block number 951 (x 100) block number 952 (x 100) block number 953 (x 100) block number 954 (x 100) block number 955 (x 100) block number 956 (x 100) block number 957 (x 100) block number 958 (x 100) block number 959 (x 100) At line: 96001 ; # of saturated pulses= 0 block number 960 (x 100) block number 961 (x 100) block number 962 (x 100) block number 963 (x 100) block number 964 (x 100) block number 965 (x 100) block number 966 (x 100) block number 967 (x 100) block number 968 (x 100) block number 969 (x 100) At line: 97001 ; # of saturated pulses= 0 block number 970 (x 100) block number 971 (x 100) block number 972 (x 100) block number 973 (x 100) block number 974 (x 100) block number 975 (x 100) block number 976 (x 100) block number 977 (x 100) block number 978 (x 100) block number 979 (x 100) At line: 98001 ; # of saturated pulses= 0 block number 980 (x 100) block number 981 (x 100) block number 982 (x 100) block number 983 (x 100) block number 984 (x 100) block number 985 (x 100) block number 986 (x 100) block number 987 (x 100) block number 988 (x 100) block number 989 (x 100) At line: 99001 ; # of saturated pulses= 0 block number 990 (x 100) block number 991 (x 100) block number 992 (x 100) block number 993 (x 100) block number 994 (x 100) block number 995 (x 100) block number 996 (x 100) block number 997 (x 100) block number 998 (x 100) block number 999 (x 100) At line: 100001 ; # of saturated pulses= 0 block number 1000 (x 100) Writing file: ts1400_p_vv_spec.dat How many problems did you sweep under the rug this time? Total run time = cputime: 6076.861 sys time: 24.42887 6076.880 24.46888 RFI FILTER COMPLETED. Mon Dec 2 23:29:33 PST 2002 No match ***************************************************** * * * AIRSAR INTEGRATED PROCESSOR * * * * HEADER PREPROCESSOR * * * * This program reads the raw data header and cal- * * culates the parameters necessary for the motion * * compensation in the integrated processor. * * * ***************************************************** Enter command file name ==> Opening command file... CRD-xdealy: 0.2380000 Reading and decoding header file... fsize_max min: 11907 11863 fsize_max min/ 2: 5954 5932 Finished reading the header file... Data acquired after 1994. J2000 time = -97839530.15473801 GPS J2000 time = -97839532.12479001 Message 1 Time = -97839530.15473801 INS Time = 1.704192000000000 Roll angle = 0.4888916015625000 Pitch angle = 1.038208007812500 Heading angle = 54.35485839843750 Long. acc = 0.1700000000000000 Lat. acc = -1.0000000000000000E-02 Norm. acc = -9.650000000000000 East vel. = 176.2770000000000 North vel. = 126.2550000000000 Up vel. = 0.1210000000000000 True Grnd Spd = 216.8125000000000 Altitude = 8446.000000000000 Latitude = 4.787130374461412 Longitude = 114.7964306641370 Message 6 Week = 881 GPS Time = -97839532.12479001 GDOP = 2.093750000000000 PDOP = 1.937500000000000 HDOP = 1.093750000000000 VDOP = 1.593750000000000 TDOP = 0.7968750000000000 Spherical Acc = 11.00000000000000 Time Acc = 8.0000000000000005E-09 GPS Lat = 4.784968094021508 GPS Lon = 114.7934315981008 GPS Alt = 8449.000000000000 GPS East Vel = 176.2400000000000 GPS North Vel = 126.3000000000000 GPS Up Vel = -0.1100000000000000 Message 3 Del INU Time = 0.7441920000000000 Del vel east = -3.4179687500000000E-03 Del vel north = 1.0253906250000000E-02 Del vel up = 6.4941406250000000E-02 Del pos east = 0.6250000000000000 Del pos north = 0.5000000000000000 Del pos up = -0.1250000000000000 Message 4 Sigma Pos x = 1.250000000000000 Sigma Pos y = 1.500000000000000 Sigma Pos z = 2.000000000000000 Sigma Vel x = 7.0800781250000000E-03 Sigma Vel y = 8.5449218750000000E-03 Sigma Vel z = 1.0009765625000000E-02 Message 7 Satellites used = 10 26 23 30 9 10 Retrived Honeywell data... 11880 Operator Comments: - - - - - - - - - - - - - - - - - - - - - PV RFI near urban areas, but no RX overloading; rebooted HP748i after DIR-1000 interface lockup; getting bumpy at end of run; IG I is OKng Lou, Leon Maldonado, Michael Kobrick, Timothy William Miller van Zyl, David Ryan Haub, Lori Ann Carrico, Timothy W. - - - - - - - - - - - - - - - - - - - - - enter filename for headers (entire path): Which frequency? (C,L or P) number of channels transferred: number of bytes/chan: total # of lines transferred: window delay: enter the .par filename : enter first header to read: enter year data taken: enter HDDT ID for raw data: SONY tapeid: 596068 96068 enter HDDT footage number <0> : enter the title of image: enter the CCT ID: cct: 1400 prod ID1:14001400 prod ID:1400 SONY tapeid: 96068 96068 tapeid:9606896068 tapeid par:96068 prod ID:1400 chrp_delay from subcomm header tapeID: 32.45000 96068 New DCG: chrp_delay is 32.5 usec 32.45000 chrp_delay is 32.5 usec 96068 32.45000 Is this 98039< x >98001 for P-bnad?: 96068 1998 P-band fc? 22.50000 idelay,chrp_delay,xdelay 93 32.45000 0.2380000 near range delr windela: 9040.541 3.331027 0 f_cal 43.59375 1216.406 Parameter header created .. >> Record # : 128 >> GPS Stuff = 1.80 6 9 1 24 26 17 digdelay startrng(us):93 93.00000000000000 startrng(m) elecdelay: 9863.173249999998 2.7200000000000000E-05 >> start range = 9863.1732 >> ccal_amp = -90.39999 >> ccal_atn = 32 >> ratn_phh = 0 14 0 >> ratn_phv = 0 8 0 >> ratn_pvh = 0 8 0 >> ratn_pvv = 0 14 0 >> ratn_lhh = 0 8 0 >> ratn_lhv = 0 8 0 >> ratn_lvh = 0 8 0 >> ratn_lvv = 0 8 0 >> ratn_chh = 0 8 10 >> ratn_chv = 0 8 10 >> ratn_cvh = 0 8 10 >> ratn_cvv = 0 8 10 >> rcvr_chh = >> rcvr_chv = >> rcvr_cvh = >> rcvr_cvv = >> rcvr_cpz = 0.0 >> rcvr_cbw = 1 >> chrp_bnd = 40 >> chrp_len = 10 >> chrp_mod = DN Done decoding data from header array... Data collected on ==> 00-JAN-1996 Starting and end GPS times for SAR data -126338399.2900 -126338162.5340 Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000012 0 hdg 54.32401 53.90442 54.75037 0.1839573 0 trc 54.50528 54.36068 54.69053 0.0875469 0 tgs 216.44132 216.10938 216.82813 0.2168183 0 roll 0.30822 -0.23621 0.72510 0.1837461 0 pitch 1.07499 0.93933 1.30188 0.0565628 0 lati 4.92007 4.78497 5.05509 0.0778559 0 loni 114.98201 114.79343 115.17108 0.1088849 0 latd 4.91742 4.78333 5.05167 0.0779833 0 lond 114.97929 114.79167 115.16833 0.1088942 0 balt 7932.54489 7929.37200 7934.85840 0.9798892 0 ralt 8367.86036 8254.28880 8399.67840 40.1363318 0 dpth 0.99341 0.90000 1.90000 0.0665699 0 droll 0.23431 -0.30000 0.60000 0.1833685 0 thd 54.23086 53.80000 54.60000 0.1842948 0 dad 0.46901 0.20000 0.80000 0.1405592 0 latg 4.92181 4.78635 5.05648 0.0779550 7 long 114.67821 46.71303 115.17265 4.5613505 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8401.98819 8379.99023 8411.06934 6.7947893 7 phh_aten 14.00000 14.00000 14.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 8.00000 8.00000 8.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 8.00000 8.00000 8.00000 0.0000000 0 lhv_aten 8.00000 8.00000 8.00000 0.0000000 0 lvh_aten 8.00000 8.00000 8.00000 0.0000000 0 lvv_aten 8.00000 8.00000 8.00000 0.0000000 0 chh_aten 18.00000 18.00000 18.00000 0.0000000 0 chv_aten 18.00000 18.00000 18.00000 0.0000000 0 cvh_aten 18.00000 18.00000 18.00000 0.0000000 0 cvv_aten 18.00000 18.00000 18.00000 0.0000000 0 hwlat 4.92214 4.78712 5.05676 0.0778090 0 hwlon 114.99456 114.79643 229.97019 1.0605082 0 hwalt 8445.91242 8444.20267 8448.69490 1.1078156 0 hwev 176.22517 175.91100 176.59000 0.1428207 0 hwnv 125.67535 125.01700 126.31100 0.3687243 0 hwuv -0.00038 -0.60000 0.54300 0.2001301 0 hwroll 0.30811 -0.23621 0.72510 0.1837835 0 hwpitch 1.07502 0.93933 1.30188 0.0565736 0 hwhdg 54.32866 53.90442 108.56689 0.5305656 0 hwtrc 54.50999 54.36068 108.87846 0.5064533 0 hwtgs 216.44090 216.10938 216.82813 0.2166153 0 Finished analysis of raw data... Putting in mirror values... Finished with mirror samples... Median filter data... Completed median filter of data... Finished correcting GPS times for pulses... Finished correcting GPS times for SIXGUN data... -97839529.99923338 i_yearind 19960 GPS time for first pulse = -97839530.28283624 -126338399.2900000 New start and number of records = 109 199855 New start and number of blocks = 1 1563 GPS trend coefficients = -11.76622555553974 62.78558206021851 -58.78754310881088 Begin final analysis of data... Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00119 0.00119 0.00119 0.0000012 0 hdg 54.32401 53.90442 54.75037 0.1840172 0 trc 54.50535 54.36068 54.69053 0.0875345 0 tgs 216.44117 216.10938 216.82813 0.2166733 0 roll 0.30815 -0.23621 0.72510 0.1837618 0 pitch 1.07498 0.93933 1.30188 0.0565500 0 delx 0.25730 0.00000 0.25738 0.0005761 0 lati 4.92015 4.78497 5.05509 0.0779059 0 loni 114.98213 114.79343 115.17108 0.1089550 0 latd 4.91750 4.78333 5.05167 0.0780253 0 lond 114.97941 114.79167 115.16833 0.1089642 0 balt 7932.54403 7929.37200 7934.85840 0.9801651 0 ralt 8367.88014 8254.28880 8399.67840 40.1278107 0 dpth 0.99296 0.90000 1.20000 0.0626897 0 droll 0.23404 -0.30000 0.60000 0.1836385 0 thd 54.23084 53.80000 54.60000 0.1842375 0 dad 0.46903 0.20000 0.80000 0.1405165 0 latg 4.92162 4.78635 5.05648 0.0779381 0 long 114.98389 114.79526 115.17265 0.1088506 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 8401.98819 8391.67622 8415.08752 5.0621651 0 phh_aten 14.00000 14.00000 14.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 8.00000 8.00000 8.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 8.00000 8.00000 8.00000 0.0000000 0 lhv_aten 8.00000 8.00000 8.00000 0.0000000 0 lvh_aten 8.00000 8.00000 8.00000 0.0000000 0 lvv_aten 8.00000 8.00000 8.00000 0.0000000 0 chh_aten 18.00000 18.00000 18.00000 0.0000000 0 chv_aten 18.00000 18.00000 18.00000 0.0000000 0 cvh_aten 18.00000 18.00000 18.00000 0.0000000 0 cvv_aten 18.00000 18.00000 18.00000 0.0000000 0 hwlat 4.92214 4.78715 5.05674 0.0778089 0 hwlon 114.98490 114.79646 115.17338 0.1088269 0 hwalt 8445.91242 8444.20269 8448.69486 1.1078160 0 hwev 176.22516 175.91200 176.58900 0.1428136 0 hwnv 125.67537 125.01900 126.31000 0.3687409 0 hwuv -0.00038 -0.60000 0.54300 0.2001302 0 hwroll 0.30810 -0.23621 0.72510 0.1837604 0 hwpitch 1.07501 0.93933 1.29639 0.0565199 0 hwhdg 54.32408 53.90442 54.74487 0.1840186 0 hwtrc 54.50541 54.36126 54.69004 0.0875148 0 hwtgs 216.44091 216.10938 216.82813 0.2166641 0 Finished final analysis of data... Average Barometric Altitude = 7932.544026103589 Average Radar Altitude = 8367.880135124751 Average GPS Altitude = 8401.988194565911 >>Record # : 128 >>GPS Stuff = 1.80 6 9 1 24 2 >>Record # : 0 >>GPS Stuff = Lock vertical accel to gps(+1) or bar(-1) or IGI (0) ==> Enter a name for the peg data file. Positions and Distances Start position = 4.7871459 114.7964609 8446.470 End position = 5.0567396 115.1733808 8444.912 Loxodromic Heading (deg) = 54.5061343 Loxodromic Distance (km) = 51346.0499506 Geodesic Heading (deg) = 54.4901120 Geodesic Distance (km) = 51346.0480234 Peg latitude and longitude = 4.9221747 114.9847465 Peg heading = 54.5668334 Rotation matrix First row = -0.420819309 -0.717533451 0.555028698 Second row = 0.903077536 -0.389238723 0.181505319 Third row = 0.085802523 0.577614892 0.811787511 Translation vector Vector = -6021.83700 12922.85215 -2435.84204 Local Radius of Curvature = 6363984.385000405 Start and end pulse used = 109 199963 Ellipsoidal delta s (m) = 0.2569177901035996 Delta s on reference surface = 0.2569177986170678 Miscellaneous Information Start range = 9863.173249999998 Start ground range = 5221.184597742174 Time orgin = -97839530.28283624 Pulse spacing = 0.2572961952660497 First frame = 18822817 Thank you for your patronage If a POLTOP mode then...: .mocomp -> .mocomph & .mocompv .mocomph -> .mocomphU & .mocompvU .mocompv -> .mocomphL & .mocompvL Enter the name of the motion compensation file. /export/air36/airops/1400/ts1400_p.mocomp Name of the H-pol motion compensation file? /export/air36/airops/1400/ts1400_p.mocomph Name of the V-pol motion compensation file? /export/air36/airops/1400/ts1400_p.mocompv How many lines per polarization? 100000 + 1 + 10001 + 20001 + 30001 + 40001 + 50001 + 60001 + 70001 + 80001 + 90001 + 100001 + 110001 + 120001 + 130001 + 140001 + 150001 + 160001 + 170001 + 180001 + 190001 ********************************************* * * * AIRSAR INTEGRATED PROCESSOR * * * * CALTONE ESTIMATOR * * * * This program estimates the CALTONE amp- * * litude and phase and writes the result * * into the parameter header. * * * ********************************************* Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) PHH Enter the paramater file name. /export/air36/airops/1400/ts1400_p.par Enter the raw data file name. /export/air32/airops/1400/p_hh Enter the motion compensation file name. /export/air36/airops/1400/ts1400_p.mocomp Enter a file name for the range spectrum: /export/air36/airops/1400/db_p_hh.dat Enter a file name for the sampled caltone power: /export/air36/airops/1400/1st_p_hh.dat Enter histogram of the caltone power file name: /export/air36/airops/1400/pw_hist_p_hh.dat Enter histogram of the caltone phase file name: /export/air36/airops/1400/ph_hist_p_hh.dat Enter start range line #: 1 How many lines of raw data? 100000 How many lines to be processed? 100000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 1 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3756 5932 Prediction cal_bin 1057 start/end pulse: 1 99904 64-Loop Count: 1560 cmplx raw(1 2 3): (-5.011872,0.0000000E+00) (50.11872,0.0000000E+00) (-20.04749,0.0000000E+00) attenuation (dB): 14.00000 no_loop: 64 Pulse#/no_loop: 1 1057 9.0994208E+07 plot_x: 1561 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 79.71410 Power RMS: 0.1913664 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 9678.493 Amp. RMS: 211.1682 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -174.9376 Phase RMS: 5.816699 Incoherent PH 1st: 185.2102 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 80.02397 CalTone Power Coherently dB : 79.71410 Incoherent PW - Coherent PW : 0.3098755 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 10025.70 CalTone Amplitude Coherently : 9678.493 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 347.2070 ------------ *** ------------ running time (sec): 58.28 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) PHV Enter the paramater file name. /export/air36/airops/1400/ts1400_p.par Enter the raw data file name. /export/air32/airops/1400/p_hv Enter the motion compensation file name. /export/air36/airops/1400/ts1400_p.mocomp Enter a file name for the range spectrum: /export/air36/airops/1400/db_p_hv.dat Enter a file name for the sampled caltone power: /export/air36/airops/1400/1st_p_hv.dat Enter histogram of the caltone power file name: /export/air36/airops/1400/pw_hist_p_hv.dat Enter histogram of the caltone phase file name: /export/air36/airops/1400/ph_hist_p_hv.dat Enter start range line #: 1 How many lines of raw data? 100000 How many lines to be processed? 100000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 2 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3756 5932 Prediction cal_bin 1057 start/end pulse: 1 99904 64-Loop Count: 1560 cmplx raw(1 2 3): (20.09509,0.0000000E+00) (-12.55943,0.0000000E+00) (-15.07132,0.0000000E+00) attenuation (dB): 8.000000 no_loop: 64 Pulse#/no_loop: 1 1057 3.2974326E+08 plot_x: 1561 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 85.17751 Power RMS: 9.8821178E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 18151.97 Amp. RMS: 279.7713 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 61.74525 Phase RMS: 5.791186 Incoherent PH 1st: 61.86088 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 85.48534 CalTone Power Coherently dB : 85.17751 Incoherent PW - Coherent PW : 0.3078308 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 18810.54 CalTone Amplitude Coherently : 18151.97 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 658.5664 ------------ *** ------------ running time (sec): 50.16 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) PVH Enter the paramater file name. /export/air36/airops/1400/ts1400_p.par Enter the raw data file name. /export/air32/airops/1400/p_vh Enter the motion compensation file name. /export/air36/airops/1400/ts1400_p.mocomp Enter a file name for the range spectrum: /export/air36/airops/1400/db_p_vh.dat Enter a file name for the sampled caltone power: /export/air36/airops/1400/1st_p_vh.dat Enter histogram of the caltone power file name: /export/air36/airops/1400/pw_hist_p_vh.dat Enter histogram of the caltone phase file name: /export/air36/airops/1400/ph_hist_p_vh.dat Enter start range line #: 1 How many lines of raw data? 100000 How many lines to be processed? 100000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 3 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3756 5932 Prediction cal_bin 1057 start/end pulse: 1 99904 64-Loop Count: 1560 cmplx raw(1 2 3): (5.023773,0.0000000E+00) (12.55943,0.0000000E+00) (-10.04755,0.0000000E+00) attenuation (dB): 8.000000 no_loop: 64 Pulse#/no_loop: 1 1057 9.4572568E+07 plot_x: 1561 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 79.77489 Power RMS: 0.1379963 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 9745.132 Amp. RMS: 136.8795 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -175.6514 Phase RMS: 5.802916 Incoherent PH 1st: -176.0431 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 80.08035 CalTone Power Coherently dB : 79.77489 Incoherent PW - Coherent PW : 0.3054504 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 10104.63 CalTone Amplitude Coherently : 9745.132 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 359.5029 ------------ *** ------------ running time (sec): 54.83 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 1 Enter Channel Flag:(ctp,cbt,lhh,lhv,lvh,lvv,phh..) PVV Enter the paramater file name. /export/air36/airops/1400/ts1400_p.par Enter the raw data file name. /export/air32/airops/1400/p_vv Enter the motion compensation file name. /export/air36/airops/1400/ts1400_p.mocomp Enter a file name for the range spectrum: /export/air36/airops/1400/db_p_vv.dat Enter a file name for the sampled caltone power: /export/air36/airops/1400/1st_p_vv.dat Enter histogram of the caltone power file name: /export/air36/airops/1400/pw_hist_p_vv.dat Enter histogram of the caltone phase file name: /export/air36/airops/1400/ph_hist_p_vv.dat Enter start range line #: 1 How many lines of raw data? 100000 How many lines to be processed? 100000 Enter polarization (1=HH,2=HV,3=VH,4=VV): 4 Sampling frequency = 90.00000 Raw data samples per line = 2560 Raw data samples per line = 6144 Caltone frequency = 43.59380 Enter # of range line per loop: 64 Enter offset of range sample 0:512-2560; 2048:2560-4608: 0 start bin ,min. window size : 3756 5932 Prediction cal_bin 1057 start/end pulse: 1 99904 64-Loop Count: 1560 cmplx raw(1 2 3): (-30.07123,0.0000000E+00) (25.05936,0.0000000E+00) (-20.04749,0.0000000E+00) attenuation (dB): 14.00000 no_loop: 64 Pulse#/no_loop: 1 1057 3.5747821E+08 plot_x: 1561 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 85.56142 Power RMS: 0.1546796 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 18972.52 Amp. RMS: 302.7870 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 62.33788 Phase RMS: 5.913562 Incoherent PH 1st: 61.95773 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 85.86900 CalTone Power Coherently dB : 85.56142 Incoherent PW - Coherent PW : 0.3075790 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 19658.99 CalTone Amplitude Coherently : 18972.52 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 686.4727 ------------ *** ------------ running time (sec): 53.86 ********** Next Channel ************ Enter Batch Mode Flag: yes=1; no=else 0 *************************************************** * * * AIRSAR INTEGRATED PROCESSOR * * * * Global Line Generator * * * * This program generates the global line to use * * in the single-look processors to resample the * * data. * * * *************************************************** Please enter the name of the sensor file. 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 Enter the name of the parameter file. Please enter the name of the mocomp file. Reading motion compensation data Global reference line calculation results: y fit: constant and linear terms: -50.72684 5.7262264E-04 z fit: constant and linear terms: 0.3981189 -2.1510907E-05 y and z standard deviations (meters) 2.506191 0.6138655 Enter the name of the global line file. Enter the name of the motion compensation file. Enter the number of lines in the mocomp file & first one. Enter the patch size and the max reference fnc length. Enter the maximum Doppler error. Enter the doppler file name. Enter the wavelength and nominal azimuth pixel spacing Initial guess at number of patches = 27.29095 Step size = 3492 PATCH NUMER 1 First line = 1 Averages = 1.8845018E-02 1.7022528E-02 1.6820293E-02 1.6380571E-02 Differences = 1.5779119E-03 -2.4457835E-04 -4.4681318E-04 -8.8653527E-04 PATCH NUMER 2 First line = 3493 Averages = 1.6761744E-02 1.6783398E-02 1.6448954E-02 1.7209454E-02 Differences = -3.9143488E-05 -1.7490238E-05 -3.5193376E-04 4.0856563E-04 PATCH NUMER 3 First line = 6985 Averages = 1.6192906E-02 1.6996693E-02 1.7155590E-02 1.7570158E-02 Differences = -7.8593381E-04 1.7853454E-05 1.7675012E-04 5.9131905E-04 PATCH NUMER 4 First line = 10477 Averages = 1.7395703E-02 1.7810371E-02 1.8119259E-02 1.7668871E-02 Differences = -3.5283901E-04 6.1828643E-05 3.7071668E-04 -7.9670921E-05 PATCH NUMER 5 First line = 13969 Averages = 1.7669240E-02 1.7842671E-02 1.7566631E-02 1.6539387E-02 Differences = 2.6476569E-04 4.3819658E-04 1.6215630E-04 -8.6508691E-04 PATCH NUMER 6 First line = 17461 Averages = 1.7740242E-02 1.6802490E-02 1.4842442E-02 1.4620929E-02 Differences = 1.7387010E-03 8.0094859E-04 -1.1590989E-03 -1.3806121E-03 PATCH NUMER 7 First line = 20953 Averages = 1.5582223E-02 1.4491310E-02 1.5559209E-02 1.7222961E-02 Differences = -1.3171043E-04 -1.2226235E-03 -1.5472528E-04 1.5090276E-03 PATCH NUMER 8 First line = 24445 Averages = 1.5092564E-02 1.6720340E-02 1.7310360E-02 1.7404888E-02 Differences = -1.5394790E-03 8.8296831E-05 6.7831762E-04 7.7284500E-04 PATCH NUMER 9 First line = 27937 Averages = 1.7240494E-02 1.7132591E-02 1.7484276E-02 1.7241875E-02 Differences = -3.4306198E-05 -1.4220923E-04 2.0947494E-04 -3.2925978E-05 PATCH NUMER 10 First line = 31429 Averages = 1.7693439E-02 1.7133042E-02 1.6764775E-02 1.8410299E-02 Differences = 1.9305386E-04 -3.6734343E-04 -7.3561072E-04 9.0991333E-04 PATCH NUMER 11 First line = 34921 Averages = 1.6827688E-02 1.8101959E-02 1.8103091E-02 2.0106675E-02 Differences = -1.4571827E-03 -1.8291175E-04 -1.8177927E-04 1.8218048E-03 PATCH NUMER 12 First line = 38413 Averages = 1.8253643E-02 2.0061206E-02 1.8390724E-02 1.9592816E-02 Differences = -8.2095340E-04 9.8660961E-04 -6.8387203E-04 5.1821955E-04 PATCH NUMER 13 First line = 41905 Averages = 1.8936196E-02 1.9443203E-02 1.9786587E-02 2.0041918E-02 Differences = -6.1577559E-04 -1.0876916E-04 2.3461506E-04 4.8994645E-04 PATCH NUMER 14 First line = 45397 Averages = 1.9564843E-02 2.0013638E-02 2.1090928E-02 2.2261368E-02 Differences = -1.1678655E-03 -7.1907043E-04 3.5822019E-04 1.5286598E-03 PATCH NUMER 15 First line = 48889 Averages = 2.0336406E-02 2.1915471E-02 2.2125240E-02 1.9171173E-02 Differences = -5.5068545E-04 1.0283794E-03 1.2381487E-03 -1.7159190E-03 PATCH NUMER 16 First line = 52381 Averages = 2.2415243E-02 1.9222282E-02 1.9757498E-02 1.9905912E-02 Differences = 2.0900257E-03 -1.1029355E-03 -5.6771934E-04 -4.1930564E-04 PATCH NUMER 17 First line = 55873 Averages = 1.9789178E-02 1.9609969E-02 2.0643830E-02 2.2627750E-02 Differences = -8.7851658E-04 -1.0577254E-03 -2.3864210E-05 1.9600559E-03 PATCH NUMER 18 First line = 59365 Averages = 2.0143481E-02 2.2012597E-02 2.4801934E-02 2.3708954E-02 Differences = -2.5232844E-03 -6.5416843E-04 2.1351688E-03 1.0421891E-03 PATCH NUMER 19 First line = 62857 Averages = 2.4050597E-02 2.4035422E-02 2.1942994E-02 1.9440759E-02 Differences = 1.6831234E-03 1.6679484E-03 -4.2448007E-04 -2.9267147E-03 PATCH NUMER 20 First line = 66349 Averages = 2.2866635E-02 1.9635884E-02 1.9568905E-02 2.2384163E-02 Differences = 1.7527118E-03 -1.4780387E-03 -1.5450176E-03 1.2702402E-03 PATCH NUMER 21 First line = 69841 Averages = 1.8936429E-02 2.1822136E-02 2.3791555E-02 2.5695743E-02 Differences = -3.6251005E-03 -7.3939376E-04 1.2300257E-03 3.1342134E-03 PATCH NUMER 22 First line = 73333 Averages = 2.3048524E-02 2.5458921E-02 2.5428547E-02 2.3617875E-02 Differences = -1.3399329E-03 1.0704640E-03 1.0400899E-03 -7.7058189E-04 PATCH NUMER 23 First line = 76825 Averages = 2.5381735E-02 2.4078975E-02 2.2831917E-02 2.0535227E-02 Differences = 2.1747295E-03 8.7196939E-04 -3.7508830E-04 -2.6717782E-03 PATCH NUMER 24 First line = 80317 Averages = 2.3069825E-02 2.1728132E-02 1.8748891E-02 2.0219810E-02 Differences = 2.1281485E-03 7.8645535E-04 -2.1927860E-03 -7.2186626E-04 PATCH NUMER 25 First line = 83809 Averages = 1.9222451E-02 1.9549508E-02 2.1054411E-02 2.2608317E-02 Differences = -1.3862420E-03 -1.0591857E-03 4.4571795E-04 1.9996241E-03 PATCH NUMER 26 First line = 87301 Averages = 2.0786194E-02 2.2478327E-02 2.2937536E-02 2.2706812E-02 Differences = -1.4410242E-03 2.5110878E-04 7.1031787E-04 4.7959387E-04 PATCH NUMER 27 First line = 90793 Averages = 2.2722665E-02 2.2635460E-02 2.2664709E-02 2.2931278E-02 Differences = -1.5836209E-05 -1.0304153E-04 -7.3792413E-05 1.9277632E-04 PATCH NUMER 28 First line = 94285 last black mod_64: 44 100000 94285 8192 Averages = 2.2686917E-02 2.3161191E-02 2.2964502E-02 2.2931278E-02 Differences = -2.4903566E-04 2.2523850E-04 2.8548762E-05 -4.6752393E-06 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.35 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 1 AZ patch size: 8192 What is the desired az fract (def=1.0)? fract #: 1.000000 Please enter the name of the sensor file. /export/air32/airops/1400/sensor.pp Please enter the name of the parameter file /export/air36/airops/1400/ts1400_p.par hddt: 96068 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 100000 lines Keeping 4192 data points per patch Near range (m) = 9040.540 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 3.500000 Radar wavelength (m) = 0.7012700 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = -3.550000 Range weighting coefficient = 0.1000000 Map height (m) = 78.60000 Transmit leverarm x,y,z = 2.030000 0.5300000 -0.2200000 Receive leverarm x,y,z = 2.030000 0.5300000 -0.2200000 Name of raw data file? /export/air32/airops/1400/p_hh Name of the mocomp data file? /export/air36/airops/1400/ts1400_p.mocomph Output file name w/o ext? /export/air36/airops/1400/ts1400_p Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. hh Raw DIR Path:/export/air32/airops/1400/ output filename: /export/air32/airops/1400/ts1400_p.hh_j *** ipol itop: 1 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /export/air32/airops/1400/deskew.ph WAYNE init fft, calc slant range, load unpack, interpo 1.4176998E-02 reading motion compensation data WAYNE read motion compen 2.320094 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 AnalogChirp>96032Br,fs,T,fc 96068 40.00000 22.50000 90.00000 10.00000 deltaphase -ashift: 5.4456317E-03 3.550000 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.7524850 start range comp, time = 3.265 WAYNE PREV 3.104160 NUMBER OF PROCESSOR USED = 8 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 4 by # 0 Processing block number 1 TESTING WHY -6.4741098E-03 1.8001201E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 3.478 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 53.24522900581360 ATTN ifrq ipol ln 0 1 8192 14.00000 IPOL, ITOP nblock 1 0 1 ****shift in azimuth (fractional pixel)= -0.4999149 shift in azimuth *fractional pixel= -0.4999149 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1916041374206543E-02 TESTING 0.0000000E+00 -47.83564 0.2210198 WAYNE Motion comp. added to patch, time = 19.95756804943085 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 2.7348995208740234E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -47.83564 0.2210198 HEY,dt,fract,ye,pe -0.4999149 1.000000 -6.4741098E-03 1.8001201E-02 WAYNE Azimuth compression done, time = 348.1084480285645 Writing 4192 lines of data to file WAYNE write output data 16.93967509269714 ==w out 1 0 2001 0 WAYNE PROCESS 438.2672860622406 Processing block number 2 TESTING WHY -6.4040902E-03 1.7581699E-02 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 441.746 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 73.22469902038574 ATTN ifrq ipol ln 0 1 11684 14.00000 IPOL, ITOP nblock 1 0 2 ****shift in azimuth (fractional pixel)= -0.4999168 shift in azimuth *fractional pixel= -0.4999168 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1726975440979004E-02 TESTING 0.0000000E+00 -42.32105 0.4159131 WAYNE Motion comp. added to patch, time = 18.98610711097717 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 2.2664070129394531E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -42.32105 0.4159131 HEY,dt,fract,ye,pe -0.4999168 1.000000 -6.4040902E-03 1.7581699E-02 WAYNE Azimuth compression done, time = 347.3085659742355 Writing 4192 lines of data to file WAYNE write output data 7.335703015327454 ==w out 2 4192 2001 85852160 WAYNE PROCESS 446.8908070325851 Processing block number 3 TESTING WHY -5.7757902E-03 1.7326901E-02 3492 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 888.637 seconds. TESTING 6985 before reading done reading WAYNE load raw data , time = 89.14934504032135 ATTN ifrq ipol ln 0 1 15176 14.00000 IPOL, ITOP nblock 1 0 3 ****shift in azimuth (fractional pixel)= -0.4999217 shift in azimuth *fractional pixel= -0.4999217 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1847019195556641E-02 TESTING 0.0000000E+00 -37.07621 0.3171375 WAYNE Motion comp. added to patch, time = 18.78682208061218 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 4.2028069496154785E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 ra PROCESSING KID# 8 ..... WAYNE IS IN Processing 26 to 28 by # 7 Processing block number 26 WAYNE PATCHES: 87301 95492 patch# 26 reference line: 91396 3.577 seconds. before reading done reading WAYNE load raw data , time = 53.89801895618439 ATTN ifrq ipol ln 0 1 95492 14.00000 IPOL, ITOP nblock 1 0 26 ****shift in azimuth (fractional pixel)= -0.4999087 shift in azimuth *fractional pixel= -0.4999087 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2112021446228027E-02 WAYNE Motion comp. added to patch, time = 19.18474900722504 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.7099847793579102E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.2288969755173 Writing 4192 lines of data to file WAYNE write output data 11.14981496334076 ==w out 26 0 2001 0 WAYNE PROCESS 431.4777579307556 Processing block number 27 WAYNE PATCHES: 90793 98984 patch# 27 reference line: 94888 435.055 seconds. before reading done reading WAYNE load raw data , time = 79.83714699745178 ATTN ifrq ipol ln 0 1 98984 14.00000 IPOL, ITOP nblock 1 0 27 ****shift in azimuth (fractional pixel)= -0.4999004 shift in azimuth *fractional pixel= -0.4999004 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1860966682434082E-02 WAYNE Motion comp. added to patch, time = 18.14268493652344 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.2764086723327637E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.8186169862747 Writing 4192 lines of data to file WAYNE write output data 1.931005001068115 ==w out 27 4192 2001 85852160 WAYNE PROCESS 445.7657029628754 Processing block number 28 WAYNE PATCHES: 91808 99999 patch# 28 reference line: 95903 880.821 seconds. before reading done reading WAYNE load raw data , time = 94.79280793666840 ATTN ifrq ipol ln 0 1 99999 14.00000 IPOL, ITOP nblock 1 0 28 ****shift in azimuth (fractional pixel)= -0.4999058 shift in azimuth *fractional pixel= -0.4999058 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1762976646423340E-02 WAYNE Motion comp. added to patch, time = 18.10873901844025 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.8375983238220215E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.0812768936157 Writing 4192 lines of data to file WAYNE write output data 1.823858976364136 ==w out 28 8384 2001 171704320 WAYNE PROCESS 462.8483999967575 ==w out 29 12579 PROCESSING KID# 6 ..... WAYNE IS IN Processing 20 to 22 by # 5 Processing block number 20 WAYNE PATCHES: 66349 74540 patch# 20 reference line: 70444 3.553 seconds. before reading done reading WAYNE load raw data , time = 52.92416298389435 ATTN ifrq ipol ln 0 1 74540 14.00000 IPOL, ITOP nblock 1 0 20 ****shift in azimuth (fractional pixel)= -0.4999311 shift in azimuth *fractional pixel= -0.4999311 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2250900268554688E-02 WAYNE Motion comp. added to patch, time = 19.29323995113373 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.6959180831909180E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.0117689371109 Writing 4192 lines of data to file WAYNE write output data 2.308243989944458 ==w out 20 0 2001 0 WAYNE PROCESS 421.5539729595184 Processing block number 21 WAYNE PATCHES: 69841 78032 patch# 21 reference line: 73936 425.108 seconds. before reading done reading WAYNE load raw data , time = 117.1376019716263 ATTN ifrq ipol ln 0 1 78032 14.00000 IPOL, ITOP nblock 1 0 21 ****shift in azimuth (fractional pixel)= -0.4999140 shift in azimuth *fractional pixel= -0.4999140 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2774944305419922E-02 WAYNE Motion comp. added to patch, time = 18.98642098903656 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.9268980026245117E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 342.1961179971695 Writing 4192 lines of data to file WAYNE write output data 2.173210024833679 ==w out 21 4192 2001 85852160 WAYNE PROCESS 480.5370619297028 Processing block number 22 WAYNE PATCHES: 73333 81524 patch# 22 reference line: 77428 905.645 seconds. before reading done reading WAYNE load raw data , time = 71.34458792209625 ATTN ifrq ipol ln 0 1 81524 14.00000 IPOL, ITOP nblock 1 0 22 ****shift in azimuth (fractional pixel)= -0.4999022 shift in azimuth *fractional pixel= -0.4999022 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1817932128906250E-02 WAYNE Motion comp. added to patch, time = 18.80091202259064 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 3.1514048576354980E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.3216879367828 Writing 4192 lines of data to file WAYNE write output data 1.815289974212646 ==w out 22 8384 2001 171704320 WAYNE PROCESS 440.3274869918823 ==w out 23 12579 PROCESSING KID# 7 ..... WAYNE IS IN Processing 23 to 25 by # 6 Processing block number 23 WAYNE PATCHES: 76825 85016 patch# 23 reference line: 80920 3.566 seconds. before reading done reading WAYNE load raw data , time = 53.66316890716553 ATTN ifrq ipol ln 0 1 85016 14.00000 IPOL, ITOP nblock 1 0 23 ****shift in azimuth (fractional pixel)= -0.4998994 shift in azimuth *fractional pixel= -0.4998994 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2333989143371582E-02 WAYNE Motion comp. added to patch, time = 19.58527398109436 WAYNE Doppler estimation done, time = 2.0027160644531250E-05 WAYNE write deskew done, time = 2.9079914093017578E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 349.5318510532379 Writing 4192 lines of data to file WAYNE write output data 10.95603799819946 ==w out 23 0 2001 0 WAYNE PROCESS 433.7536380290985 Processing block number 24 WAYNE PATCHES: 80317 88508 patch# 24 reference line: 84412 437.320 seconds. before reading done reading WAYNE load raw data , time = 78.57942390441895 ATTN ifrq ipol ln 0 1 88508 14.00000 IPOL, ITOP nblock 1 0 24 ****shift in azimuth (fractional pixel)= -0.4999158 shift in azimuth *fractional pixel= -0.4999158 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1703968048095703E-02 WAYNE Motion comp. added to patch, time = 18.63040900230408 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.5033950805664063E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.4613900184631 Writing 4192 lines of data to file WAYNE write output data 7.292793989181519 ==w out 24 4192 2001 85852160 WAYNE PROCESS 452.0021609067917 Processing block number 25 WAYNE PATCHES: 83809 92000 patch# 25 reference line: 87904 889.322 seconds. before reading done reading WAYNE load raw data , time = 89.84088504314423 ATTN ifrq ipol ln 0 1 92000 14.00000 IPOL, ITOP nblock 1 0 25 ****shift in azimuth (fractional pixel)= -0.4999176 shift in azimuth *fractional pixel= -0.4999176 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1855006217956543E-02 WAYNE Motion comp. added to patch, time = 18.06533801555634 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 2.5222063064575195E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 350.7396099567413 Writing 4192 lines of data to file WAYNE write output data 1.634143948554993 ==w out 25 8384 2001 171704320 WAYNE PROCESS 460.3186470270157 ==w out 26 12579 PROCESSING KID# 5 ..... WAYNE IS IN Processing 17 to 19 by # 4 Processing block number 17 WAYNE PATCHES: 55873 64064 patch# 17 reference line: 59968 3.539 seconds. before reading done reading WAYNE load raw data , time = 54.25104701519012 ATTN ifrq ipol ln 0 1 64064 14.00000 IPOL, ITOP nblock 1 0 17 ****shift in azimuth (fractional pixel)= -0.4999279 shift in azimuth *fractional pixel= -0.4999279 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2123942375183105E-02 WAYNE Motion comp. added to patch, time = 19.31741905212402 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.9990673065185547E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.1011899709702 Writing 4192 lines of data to file WAYNE write output data 13.48278796672821 ==w out 17 0 2001 0 WAYNE PROCESS 435.1694129705429 Processing block number 18 WAYNE PATCHES: 59365 67556 patch# 18 reference line: 63460 438.709 seconds. before reading done reading WAYNE load raw data , time = 76.95352900028229 ATTN ifrq ipol ln 0 1 67556 14.00000 IPOL, ITOP nblock 1 0 18 ****shift in azimuth (fractional pixel)= -0.4999095 shift in azimuth *fractional pixel= -0.4999095 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1983036994934082E-02 WAYNE Motion comp. added to patch, time = 18.95637094974518 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 1.9873976707458496E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.2254480123520 Writing 4192 lines of data to file WAYNE write output data 7.323258042335510 ==w out 18 4192 2001 85852160 WAYNE PROCESS 449.4919439554214 Processing block number 19 WAYNE PATCHES: 62857 71048 patch# 19 reference line: 66952 888.201 seconds. before reading done reading WAYNE load raw data , time = 90.86602604389191 ATTN ifrq ipol ln 0 1 71048 14.00000 IPOL, ITOP nblock 1 0 19 ****shift in azimuth (fractional pixel)= -0.4999111 shift in azimuth *fractional pixel= -0.4999111 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1884093284606934E-02 WAYNE Motion comp. added to patch, time = 18.17685902118683 WAYNE Doppler estimation done, time = 1.3947486877441406E-05 WAYNE write deskew done, time = 1.9384026527404785E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 349.0891330242157 Writing 4192 lines of data to file WAYNE write output data 18.10279703140259 ==w out 19 8384 2001 171704320 WAYNE PROCESS 476.2676789760590 ==w out 20 12579 PROCESSING KID# 2 ..... WAYNE IS IN Processing 5 to 8 by # 1 Processing block number 5 WAYNE PATCHES: 13969 22160 patch# 5 reference line: 18064 3.495 seconds. before reading done reading WAYNE load raw data , time = 52.53993797302246 ATTN ifrq ipol ln 0 1 22160 14.00000 IPOL, ITOP nblock 1 0 5 ****shift in azimuth (fractional pixel)= -0.4999060 shift in azimuth *fractional pixel= -0.4999060 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2653946876525879E-02 WAYNE Motion comp. added to patch, time = 19.68356204032898 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.6240348815917969E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.4629770517349 Writing 4192 lines of data to file WAYNE write output data 8.653167963027954 ==w out 5 0 2001 0 WAYNE PROCESS 428.3565880060196 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 431.852 seconds. before reading done reading WAYNE load raw data , time = 82.90626394748688 ATTN ifrq ipol ln 0 1 25652 14.00000 IPOL, ITOP nblock 1 0 6 ****shift in azimuth (fractional pixel)= -0.4998952 shift in azimuth *fractional pixel= -0.4998952 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1996030807495117E-02 WAYNE Motion comp. added to patch, time = 19.21691691875458 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.1663904190063477E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.4826149940491 Writing 4192 lines of data to file WAYNE write output data 7.211580991744995 ==w out 6 4192 2001 85852160 WAYNE PROCESS 455.8524940013885 Processing block number 7 WAYNE PATCHES: 20953 29144 patch# 7 reference line: 25048 887.705 seconds. before reading done reading WAYNE load raw data , time = 89.89473497867584 ATTN ifrq ipol ln 0 1 29144 14.00000 IPOL, ITOP nblock 1 0 7 ****shift in azimuth (fractional pixel)= -0.4998947 shift in azimuth *fractional pixel= -0.4998947 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1839032173156738E-02 WAYNE Motion comp. added to patch, time = 18.89409899711609 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 3.5609960556030273E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 349.0224330425262 Writing 4192 lines of data to file WAYNE write output data 1.984424948692322 ==w out 7 8384 2001 171704320 WAYNE PROCESS 459.8448919057846 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 1347.550 seconds. before reading done reading WAYNE load raw data , time = 86.87086999416351 ATTN ifrq ipol ln 0 1 32636 14.00000 IPOL, ITOP nblock 1 PROCESSING KID# 4 ..... WAYNE IS IN Processing 13 to 16 by # 3 Processing block number 13 WAYNE PATCHES: 41905 50096 patch# 13 reference line: 46000 3.524 seconds. before reading done reading WAYNE load raw data , time = 52.98893797397614 ATTN ifrq ipol ln 0 1 50096 14.00000 IPOL, ITOP nblock 1 0 13 ****shift in azimuth (fractional pixel)= -0.4999056 shift in azimuth *fractional pixel= -0.4999056 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2248992919921875E-02 WAYNE Motion comp. added to patch, time = 19.33262395858765 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.6979446411132813E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.1976759433746 Writing 4192 lines of data to file WAYNE write output data 2.532104969024658 ==w out 13 0 2001 0 WAYNE PROCESS 422.0679290294647 Processing block number 14 WAYNE PATCHES: 45397 53588 patch# 14 reference line: 49492 425.592 seconds. before reading done reading WAYNE load raw data , time = 109.6033869981766 ATTN ifrq ipol ln 0 1 53588 14.00000 IPOL, ITOP nblock 1 0 14 ****shift in azimuth (fractional pixel)= -0.4998997 shift in azimuth *fractional pixel= -0.4998997 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2894988059997559E-02 WAYNE Motion comp. added to patch, time = 19.24093794822693 WAYNE Doppler estimation done, time = 1.5020370483398438E-05 WAYNE write deskew done, time = 2.5883078575134277E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 344.0746730566025 Writing 4192 lines of data to file WAYNE write output data 7.166856050491333 ==w out 14 4192 2001 85852160 WAYNE PROCESS 480.1262500286102 Processing block number 15 WAYNE PATCHES: 48889 57080 patch# 15 reference line: 52984 905.719 seconds. before reading done reading WAYNE load raw data , time = 71.92418801784515 ATTN ifrq ipol ln 0 1 57080 14.00000 IPOL, ITOP nblock 1 0 15 ****shift in azimuth (fractional pixel)= -0.4999059 shift in azimuth *fractional pixel= -0.4999059 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1785984039306641E-02 WAYNE Motion comp. added to patch, time = 18.58396792411804 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 6.5096974372863770E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.9531919956207 Writing 4192 lines of data to file WAYNE write output data 1.919748902320862 ==w out 15 8384 2001 171704320 WAYNE PROCESS 441.4597089290619 Processing block number 16 WAYNE PATCHES: 52381 60572 patch# 16 reference line: 56476 1347.179 seconds. before reading done reading WAYNE load raw data , time = 87.59904909133911 ATTN ifrq ipol ln 0 1 60572 14.00000 IPOL, ITOP nblock 1 PROCESSING KID# 3 ..... WAYNE IS IN Processing 9 to 12 by # 2 Processing block number 9 WAYNE PATCHES: 27937 36128 patch# 9 reference line: 32032 3.510 seconds. before reading done reading WAYNE load raw data , time = 53.47401595115662 ATTN ifrq ipol ln 0 1 36128 14.00000 IPOL, ITOP nblock 1 0 9 ****shift in azimuth (fractional pixel)= -0.4998933 shift in azimuth *fractional pixel= -0.4998933 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1929035186767578E-02 WAYNE Motion comp. added to patch, time = 19.89004004001617 WAYNE Doppler estimation done, time = 1.4901161193847656E-05 WAYNE write deskew done, time = 2.7350187301635742E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.3204820156097 Writing 4192 lines of data to file WAYNE write output data 10.05063605308533 ==w out 9 0 2001 0 WAYNE PROCESS 431.7517150640488 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 435.263 seconds. before reading done reading WAYNE load raw data , time = 99.95170509815216 ATTN ifrq ipol ln 0 1 39620 14.00000 IPOL, ITOP nblock 1 0 10 ****shift in azimuth (fractional pixel)= -0.4999059 shift in azimuth *fractional pixel= -0.4999059 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2912988662719727E-02 WAYNE Motion comp. added to patch, time = 19.21186089515686 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.2356033325195313E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 344.4902080297470 Writing 4192 lines of data to file WAYNE write output data 6.778712987899780 ==w out 10 4192 2001 85852160 WAYNE PROCESS 470.4695379734039 Processing block number 11 WAYNE PATCHES: 34921 43112 patch# 11 reference line: 39016 905.733 seconds. before reading done reading WAYNE load raw data , time = 73.04318606853485 ATTN ifrq ipol ln 0 1 43112 14.00000 IPOL, ITOP nblock 1 0 11 ****shift in azimuth (fractional pixel)= -0.4999126 shift in azimuth *fractional pixel= -0.4999126 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1957049369812012E-02 WAYNE Motion comp. added to patch, time = 18.15624594688416 WAYNE Doppler estimation done, time = 1.4901161193847656E-05 WAYNE write deskew done, time = 5.7909965515136719E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 349.1004209518433 Writing 4192 lines of data to file WAYNE write output data 18.21223807334900 ==w out 11 8384 2001 171704320 WAYNE PROCESS 458.5837460756302 Processing block number 12 WAYNE PATCHES: 38413 46604 patch# 12 reference line: 42508 1364.317 seconds. before reading done reading WAYNE load raw data , time = 71.83058905601501 ATTN ifrq ipol ln 0 1 46604 14.00000 IPOL, ITOP nblock 1 0 8 ****shift in azimuth (fractional pixel)= -0.4998949 shift in azimuth *fractional pixel= -0.4998949 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1929035186767578E-02 WAYNE Motion comp. added to patch, time = 17.02679705619812 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.4920701980590820E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 268.2503750324249 Writing 4192 lines of data to file WAYNE write output data 1.668467044830322 ==w out 8 12576 2001 257556480 WAYNE PROCESS 373.8323010206223 ==w out 9 16771 0 16 ****shift in azimuth (fractional pixel)= -0.4999078 shift in azimuth *fractional pixel= -0.4999078 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1803030967712402E-02 WAYNE Motion comp. added to patch, time = 16.82415509223938 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.6080608367919922E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 269.9973239898682 Writing 4192 lines of data to file WAYNE write output data 1.659149050712585 ==w out 16 12576 2001 257556480 WAYNE PROCESS 376.0954990386963 ==w out 17 16771 0 12 ****shift in azimuth (fractional pixel)= -0.4999159 shift in azimuth *fractional pixel= -0.4999159 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2110948562622070E-02 WAYNE Motion comp. added to patch, time = 16.31933796405792 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.7366042137145996E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 271.2213129997253 Writing 4192 lines of data to file WAYNE write output data 1.765565991401672 ==w out 12 12576 2001 257556480 WAYNE PROCESS 361.1778090000153 ==w out 13 16771 nge migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -37.07621 0.3171375 HEY,dt,fract,ye,pe -0.4999217 1.000000 -5.7757902E-03 1.7326901E-02 WAYNE Azimuth compression done, time = 349.2928400039673 Writing 4192 lines of data to file WAYNE write output data 18.25687301158905 ==w out 3 8384 2001 171704320 WAYNE PROCESS 475.5412899255753 Processing block number 4 TESTING WHY -5.3123902E-03 1.7652800E-02 3492 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 1364.179 seconds. TESTING 10477 before reading done reading WAYNE load raw data , time = 71.46593701839447 ATTN ifrq ipol ln 0 1 18668 14.00000 IPOL, ITOP nblock 1 0 4 ****shift in azimuth (fractional pixel)= -0.4999198 shift in azimuth *fractional pixel= -0.4999198 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1438012123107910E-02 TESTING 0.0000000E+00 -32.53431 -0.3229209 WAYNE Motion comp. added to patch, time = 16.80011308193207 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.4200677871704102E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -32.53431 -0.3229209 HEY,dt,fract,ye,pe -0.4999198 1.000000 -5.3123902E-03 1.7652800E-02 WAYNE Azimuth compression done, time = 271.3711540699005 Writing 4192 lines of data to file WAYNE write output data 1.746608018875122 ==w out 4 12576 2001 257556480 WAYNE PROCESS 361.3990529775620 ==w out 5 16771 1 15693136 0 2 15694150 0 3 15688225 0 4 14857449 0 5 15692435 0 6 15685306 0 7 15692421 0 8 15691647 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 117376kids= 8 Writing variable header... gather image from processor # 0 4 gather image from processor # 1 4 gather image from processor # 2 4 gather image from processor # 3 4 gather image from processor # 4 3 gather image from processor # 5 3 gather image from processor # 6 3 gather image from processor # 7 3 WAYNE gather images takes: 16.31079292297363 WAYNE LOOP TIME: 1748.634320974350 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air32/airops/1400/ts1400_p.hh_j /export/air36/airops/1400/ts1400_p.mocomph /export/air36/airops/1400/ts1400_p.dop /export/air36/airops/1400/ts1400_p.glb 2560 100000 100000 update intf hdr ha: 8367.900 UPDATE: 2560 100000 3.331000 0.5144000 1 18822709 18822709 mocompfile /export/air36/airops/1400/ts1400_p.mocomph dopfile /export/air36/airops/1400/ts1400_p.dop globalfile /export/air36/airops/1400/ts1400_p.glb /export/air36/airops/1400/ts1400_p.glb 38 deskew line ra ha trc: 128.5260 249 9042.366 8367.900 54.57177 after deskew line ra ha trc: 128.5260 249 9042.366 8367.900 54.57177 lat1 lon1: 249 4.813068 114.7795 100000 last ra n_ns ns: 9042.366 1 1 100248 100000 lati loni: 100248 5.082698 115.1903 100248 1 center ra n_ns ns: 13302.71 1280 1280 50248 100000 lati loni: 50248 4.979404 114.9627 50248 2560 Updated paramater header in /export/air32/airops/1400/ts1400_p.hh_j WAYNE FINAL PROCESS 1752.368979096413 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 8 16768 4 16768 4 16768 4 16768 4 12576 3 12576 3 12576 3 12576 3 Name of data file to be deskewed? /export/air32/airops/1400/ts1400_p.hh_j Name of the doppler parameter file? /export/air36/airops/1400/ts1400_p.dop Name of the deskew file? /export/air32/airops/1400/deskew.ph Line up to another frequency [y/n]? y Name of the deskew file to line up to? /export/air32/airops/1400/deskew.ch Enter N_AZ, NA_VALID and the ratio of the pixel spacing of the file to line up to relative to the current pixel spacing. 4096 2208 1.000000 Name of the output file? /export/air36/airops/1400/ts1400_p.hh Name of the line output file? /export/air36/airops/1400/p_lines.dat NONE-SYMMETRIC PARALLEL JOBS Deskewing 28 patches Processing block number 1 patch iptc,sj,dgj,dgi,id: 1 1041 98 98 0 half line dmj dgc: 0 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1041 1 Zeroing lines in arrays Total # of output lines = 1 1040 1041 3137 0 2096 patch iptc,sj,dgj,dgi,id: 1 3137 98 98 2096 half line dmj dgc: 1 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3137 1041 Zeroing lines in arrays Total # of output lines = 1 3136 Processing block number 2 3137 4528 -5 1396 patch iptc,sj,dgj,dgi,id: 2 4528 93 98 1396 half line dmj dgc: 0 5493 243 114 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 4528 3137 Zeroing lines in arrays Total # of output lines = 2 4527 4528 6624 0 2096 patch iptc,sj,dgj,dgi,id: 2 6624 93 93 2096 half line dmj dgc: 1 5493 243 114 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 6624 4528 Zeroing lines in arrays Total # of output lines = 2 6623 Processing block number 3 6624 8035 15 1396 patch iptc,sj,dgj,dgi,id: 3 8035 108 93 1396 half line dmj dgc: 0 8985 243 114 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 8035 6624 Zeroing lines in arrays Total # of output lines = 3 8034 8035 10131 0 2096 patch iptc,sj,dgj,dgi,id: 3 10131 108 108 2096 half line dmj dgc: 1 8985 243 114 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 10131 8035 Zeroing lines in arrays Total # of output lines = 3 10130 Processing block number 4 10131 11546 19 1396 patch iptc,sj,dgj,dgi,id: 4 11546 127 108 1396 half line dmj dgc: 0 12477 251 114 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 11546 10131 Zeroing lines in arrays Total # of output lines = 4 11545 11546 13642 0 2096 patch iptc,sj,dgj,dgi,id: 4 13642 127 127 2096 half line dmj dgc: 1 12477 251 114 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 sj>s1: 13642 11546 Zeroing lines in arrays Total # of output lines = 4 13641 Processing block number 5 13642 15008 -30 1396 patch iptc,sj,dgj,dgi,id: 5 15008 97 127 1396 half line dmj dgc: 0 15969 251 114 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 15008 13642 Zeroing lines in arrays Total # of output lines = 5 15007 15008 17104 0 2096 patch iptc,sj,dgj,dgi,id: 5 720 97 97 2096 half line dmj dgc: 1 15969 251 114 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 s1>sj: 15008 720 Zeroing lines in arrays Total # of output lines = 5 17103 Processing block number 6 720 2050 -66 1396 patch iptc,sj,dgj,dgi,id: 6 2050 31 97 1396 half line dmj dgc: 0 19461 242 114 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 2050 720 Zeroing lines in arrays Total # of output lines = 6 18433 2050 4146 0 2096 patch iptc,sj,dgj,dgi,id: 6 4146 31 31 2096 half line dmj dgc: 1 19461 242 114 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 4146 2050 Zeroing lines in arrays Total # of output lines = 6 20529 Processing block number 7 4146 5525 -17 1396 patch iptc,sj,dgj,dgi,id: 7 5525 14 31 1396 half line dmj dgc: 0 22953 241 114 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 5525 4146 Zeroing lines in arrays Total # of output lines = 7 21908 5525 7621 0 2096 patch iptc,sj,dgj,dgi,id: 7 7621 14 14 2096 half line dmj dgc: 1 22953 241 114 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 7621 5525 Zeroing lines in arrays Total # of output lines = 7 24004 Processing block number 8 7621 9046 29 1396 patch iptc,sj,dgj,dgi,id: 8 9046 43 14 1396 half line dmj dgc: 0 26445 249 114 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 sj>s1: 9046 7621 Zeroing lines in arrays Total # of output lines = 8 25429 9046 11142 0 2096 patch iptc,sj,dgj,dgi,id: 8 11142 43 43 2096 half line dmj dgc: 1 26445 249 114 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 sj>s1: 11142 9046 Zeroing lines in arrays Total # of output lines = 8 27525 Processing block number 9 11142 12562 24 1396 patch iptc,sj,dgj,dgi,id: 9 12562 67 43 1396 half line dmj dgc: 0 29937 255 114 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 12562 11142 Zeroing lines in arrays Total # of output lines = 9 28945 12562 14658 0 2096 patch iptc,sj,dgj,dgi,id: 9 14658 67 67 2096 half line dmj dgc: 1 29937 255 114 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 14658 12562 Zeroing lines in arrays Total # of output lines = 9 31041 Processing block number 10 14658 16072 18 1396 patch iptc,sj,dgj,dgi,id: 10 16072 85 67 1396 half line dmj dgc: 0 33429 255 114 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 16072 14658 Zeroing lines in arrays Total # of output lines = 10 32455 16072 18168 0 2096 patch iptc,sj,dgj,dgi,id: 10 1784 85 85 2096 half line dmj dgc: 1 33429 255 114 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 s1>sj: 16072 1784 Zeroing lines in arrays Total # of output lines = 10 34551 Processing block number 11 1784 3217 37 1396 patch iptc,sj,dgj,dgi,id: 11 3217 122 85 1396 half line dmj dgc: 0 36921 260 114 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 3217 1784 Zeroing lines in arrays Total # of output lines = 11 35984 3217 5313 0 2096 patch iptc,sj,dgj,dgi,id: 11 5313 122 122 2096 half line dmj dgc: 1 36921 260 114 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 sj>s1: 5313 3217 Zeroing lines in arrays Total # of output lines = 11 38080 Processing block number 12 5313 6728 19 1396 patch iptc,sj,dgj,dgi,id: 12 6728 141 122 1396 half line dmj dgc: 0 40413 269 114 Actual deskew ireclen: 20480 ** 12 2096 0 48208 Writing data negflag .eq. 0 sj>s1: 6728 5313 Zeroing lines in arrays Total # of output lines = 12 39495 6728 8824 0 2096 patch iptc,sj,dgj,dgi,id: 12 8824 141 141 2096 half line dmj dgc: 1 40413 269 114 Actual deskew ireclen: 20480 ** 12 2096 1 50304 Writing data negflag .eq. 0 sj>s1: 8824 6728 Zeroing lines in arrays Total # of output lines = 12 41591 Processing block number 13 8824 10226 6 1396 patch iptc,sj,dgj,dgi,id: 13 10226 147 141 1396 half line dmj dgc: 0 43905 276 114 Actual deskew ireclen: 20480 ** 13 2096 0 52400 Writing data negflag .eq. 0 sj>s1: 10226 8824 Zeroing lines in arrays Total # of output lines = 13 42993 10226 12322 0 2096 patch iptc,sj,dgj,dgi,id: 13 12322 147 147 2096 half line dmj dgc: 1 43905 276 114 Actual deskew ireclen: 20480 ** 13 2096 1 54496 Writing data negflag .eq. 0 sj>s1: 12322 10226 Zeroing lines in arrays Total # of output lines = 13 45089 Processing block number 14 12322 13761 43 1396 patch iptc,sj,dgj,dgi,id: 14 13761 190 147 1396 half line dmj dgc: 0 47397 286 114 Actual deskew ireclen: 20480 ** 14 2096 0 56592 Writing data negflag .eq. 0 sj>s1: 13761 12322 Zeroing lines in arrays Total # of output lines = 14 46528 13761 15857 0 2096 patch iptc,sj,dgj,dgi,id: 14 15857 190 190 2096 half line dmj dgc: 1 47397 286 114 Actual deskew ireclen: 20480 ** 14 2096 1 58688 Writing data negflag .eq. 0 sj>s1: 15857 13761 Zeroing lines in arrays Total # of output lines = 14 48624 Processing block number 15 15857 17263 10 1396 patch iptc,sj,dgj,dgi,id: 15 879 200 190 1396 half line dmj dgc: 0 50889 286 114 Actual deskew ireclen: 20480 ** 15 2096 0 60784 Writing data negflag .eq. 0 s1>sj: 15857 879 Zeroing lines in arrays Total # of output lines = 15 50030 879 2975 0 2096 patch iptc,sj,dgj,dgi,id: 15 2975 200 200 2096 half line dmj dgc: 1 50889 286 114 Actual deskew ireclen: 20480 ** 15 2096 1 62880 Writing data negflag .eq. 0 sj>s1: 2975 879 Zeroing lines in arrays Total # of output lines = 15 52126 Processing block number 16 2975 4377 6 1396 patch iptc,sj,dgj,dgi,id: 16 4377 206 200 1396 half line dmj dgc: 0 54381 277 114 Actual deskew ireclen: 20480 ** 16 2096 0 64976 Writing data negflag .eq. 0 sj>s1: 4377 2975 Zeroing lines in arrays Total # of output lines = 16 53528 4377 6473 0 2096 patch iptc,sj,dgj,dgi,id: 16 6473 206 206 2096 half line dmj dgc: 1 54381 277 114 Actual deskew ireclen: 20480 ** 16 2096 1 67072 Writing data negflag .eq. 0 sj>s1: 6473 4377 Zeroing lines in arrays Total # of output lines = 16 55624 Processing block number 17 6473 7900 31 1396 patch iptc,sj,dgj,dgi,id: 17 7900 237 206 1396 half line dmj dgc: 0 57873 276 114 Actual deskew ireclen: 20480 ** 17 2096 0 69168 Writing data negflag .eq. 0 sj>s1: 7900 6473 Zeroing lines in arrays Total # of output lines = 17 57051 7900 9996 0 2096 patch iptc,sj,dgj,dgi,id: 17 9996 237 237 2096 half line dmj dgc: 1 57873 276 114 Actual deskew ireclen: 20480 ** 17 2096 1 71264 Writing data negflag .eq. 0 sj>s1: 9996 7900 Zeroing lines in arrays Total # of output lines = 17 59147 Processing block number 18 9996 11451 59 1396 patch iptc,sj,dgj,dgi,id: 18 11451 296 237 1396 half line dmj dgc: 0 61365 298 114 Actual deskew ireclen: 20480 ** 18 2096 0 73360 Writing data negflag .eq. 0 sj>s1: 11451 9996 Zeroing lines in arrays Total # of output lines = 18 60602 11451 13547 0 2096 patch iptc,sj,dgj,dgi,id: 18 13547 296 296 2096 half line dmj dgc: 1 61365 298 114 Actual deskew ireclen: 20480 ** 18 2096 1 75456 Writing data negflag .eq. 0 sj>s1: 13547 11451 Zeroing lines in arrays Total # of output lines = 18 62698 Processing block number 19 13547 14936 -7 1396 patch iptc,sj,dgj,dgi,id: 19 14936 289 296 1396 half line dmj dgc: 0 64857 293 114 Actual deskew ireclen: 20480 ** 19 2096 0 77552 Writing data negflag .eq. 0 sj>s1: 14936 13547 Zeroing lines in arrays Total # of output lines = 19 64087 14936 17032 0 2096 patch iptc,sj,dgj,dgi,id: 19 648 289 289 2096 half line dmj dgc: 1 64857 293 114 Actual deskew ireclen: 20480 ** 19 2096 1 79648 Writing data negflag .eq. 0 s1>sj: 14936 648 Zeroing lines in arrays Total # of output lines = 19 66183 Processing block number 20 648 2015 -29 1396 patch iptc,sj,dgj,dgi,id: 20 2015 260 289 1396 half line dmj dgc: 0 68349 279 114 Actual deskew ireclen: 20480 ** 20 2096 0 81744 Writing data negflag .eq. 0 sj>s1: 2015 648 Zeroing lines in arrays Total # of output lines = 20 67550 2015 4111 0 2096 patch iptc,sj,dgj,dgi,id: 20 4111 260 260 2096 half line dmj dgc: 1 68349 279 114 Actual deskew ireclen: 20480 ** 20 2096 1 83840 Writing data negflag .eq. 0 sj>s1: 4111 2015 Zeroing lines in arrays Total # of output lines = 20 69646 Processing block number 21 4111 5541 34 1396 patch iptc,sj,dgj,dgi,id: 21 5541 294 260 1396 half line dmj dgc: 0 71841 300 114 Actual deskew ireclen: 20480 ** 21 2096 0 85936 Writing data negflag .eq. 0 sj>s1: 5541 4111 Zeroing lines in arrays Total # of output lines = 21 71076 5541 7637 0 2096 patch iptc,sj,dgj,dgi,id: 21 7637 294 294 2096 half line dmj dgc: 1 71841 300 114 Actual deskew ireclen: 20480 ** 21 2096 1 88032 Writing data negflag .eq. 0 sj>s1: 7637 5541 Zeroing lines in arrays Total # of output lines = 21 73172 Processing block number 22 7637 9056 23 1396 patch iptc,sj,dgj,dgi,id: 22 9056 317 294 1396 half line dmj dgc: 0 75333 330 114 Actual deskew ireclen: 20480 ** 22 2096 0 90128 Writing data negflag .eq. 0 sj>s1: 9056 7637 Zeroing lines in arrays Total # of output lines = 22 74591 9056 11152 0 2096 patch iptc,sj,dgj,dgi,id: 22 11152 317 317 2096 half line dmj dgc: 1 75333 330 114 Actual deskew ireclen: 20480 ** 22 2096 1 92224 Writing data negflag .eq. 0 sj>s1: 11152 9056 Zeroing lines in arrays Total # of output lines = 22 76687 Processing block number 23 11152 12510 -38 1396 patch iptc,sj,dgj,dgi,id: 23 12510 279 317 1396 half line dmj dgc: 0 78825 308 114 Actual deskew ireclen: 20480 ** 23 2096 0 94320 Writing data negflag .eq. 0 sj>s1: 12510 11152 Zeroing lines in arrays Total # of output lines = 23 78045 12510 14606 0 2096 patch iptc,sj,dgj,dgi,id: 23 14606 279 279 2096 half line dmj dgc: 1 78825 308 114 Actual deskew ireclen: 20480 ** 23 2096 1 96416 Writing data negflag .eq. 0 sj>s1: 14606 12510 Zeroing lines in arrays Total # of output lines = 23 80141 Processing block number 24 14606 15942 -60 1396 patch iptc,sj,dgj,dgi,id: 24 15942 219 279 1396 half line dmj dgc: 0 82317 284 114 Actual deskew ireclen: 20480 ** 24 2096 0 98512 Writing data negflag .eq. 0 sj>s1: 15942 14606 Zeroing lines in arrays Total # of output lines = 24 81477 15942 18038 0 2096 patch iptc,sj,dgj,dgi,id: 24 1654 219 219 2096 half line dmj dgc: 1 82317 284 114 Actual deskew ireclen: 20480 ** 24 2096 1 100608 Writing data negflag .eq. 0 s1>sj: 15942 1654 Zeroing lines in arrays Total # of output lines = 24 83573 Processing block number 25 1654 3047 -3 1396 patch iptc,sj,dgj,dgi,id: 25 3047 216 219 1396 half line dmj dgc: 0 85809 279 114 Actual deskew ireclen: 20480 ** 25 2096 0 102704 Writing data negflag .eq. 0 sj>s1: 3047 1654 Zeroing lines in arrays Total # of output lines = 25 84966 3047 5143 0 2096 patch iptc,sj,dgj,dgi,id: 25 5143 216 216 2096 half line dmj dgc: 1 85809 279 114 Actual deskew ireclen: 20480 ** 25 2096 1 104800 Writing data negflag .eq. 0 sj>s1: 5143 3047 Zeroing lines in arrays Total # of output lines = 25 87062 Processing block number 26 5143 6581 42 1396 patch iptc,sj,dgj,dgi,id: 26 6581 258 216 1396 half line dmj dgc: 0 89301 297 114 Actual deskew ireclen: 20480 ** 26 2096 0 106896 Writing data negflag .eq. 0 sj>s1: 6581 5143 Zeroing lines in arrays Total # of output lines = 26 88500 6581 8677 0 2096 patch iptc,sj,dgj,dgi,id: 26 8677 258 258 2096 half line dmj dgc: 1 89301 297 114 Actual deskew ireclen: 20480 ** 26 2096 1 108992 Writing data negflag .eq. 0 sj>s1: 8677 6581 Zeroing lines in arrays Total # of output lines = 26 90596 Processing block number 27 8677 10067 -6 1396 patch iptc,sj,dgj,dgi,id: 27 10067 252 258 1396 half line dmj dgc: 0 92793 306 114 Actual deskew ireclen: 20480 ** 27 2096 0 111088 Writing data negflag .eq. 0 sj>s1: 10067 8677 Zeroing lines in arrays Total # of output lines = 27 91986 10067 12163 0 2096 patch iptc,sj,dgj,dgi,id: 27 12163 252 252 2096 half line dmj dgc: 1 92793 306 114 Actual deskew ireclen: 20480 ** 27 2096 1 113184 Writing data negflag .eq. 0 sj>s1: 12163 10067 Zeroing lines in arrays Total # of output lines = 27 94082 Processing block number 28 12163 11063 -19 -1081 patch iptc,sj,dgj,dgi,id: 28 11063 233 252 -1081 half line dmj dgc: 0 93808 312 114 Actual deskew ireclen: 20480 ** 28 2096 0 115280 Zeroing lines in arrays Total # of output lines = 28 94082 12163 13159 0 2096 patch iptc,sj,dgj,dgi,id: 28 13159 233 233 2096 half line dmj dgc: 1 93808 312 114 Actual deskew ireclen: 20480 ** 28 2096 1 117376 Writing data negflag .eq. 0 sj>s1: 13159 12163 Zeroing lines in arrays Total # of output lines = 28 95078 ia dmi dgi: 13159 312 233 Writing the last 2175 lines last half sj>s1 15334 13159 95078 Total # of output lines = 97253 Writing new header.. Closing files .. ileni= 39 ilend= 35 /export/air32/airops/1400/ts1400_p.hh_j.0 /export/air32/airops/1400/deskew.ph.0 /export/air32/airops/1400/ts1400_p.hh_j.1 /export/air32/airops/1400/deskew.ph.1 /export/air32/airops/1400/ts1400_p.hh_j.2 /export/air32/airops/1400/deskew.ph.2 /export/air32/airops/1400/ts1400_p.hh_j.3 /export/air32/airops/1400/deskew.ph.3 /export/air32/airops/1400/ts1400_p.hh_j.4 /export/air32/airops/1400/deskew.ph.4 /export/air32/airops/1400/ts1400_p.hh_j.5 /export/air32/airops/1400/deskew.ph.5 /export/air32/airops/1400/ts1400_p.hh_j.6 /export/air32/airops/1400/deskew.ph.6 /export/air32/airops/1400/ts1400_p.hh_j.7 /export/air32/airops/1400/deskew.ph.7 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.35 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 1 AZ patch size: 8192 What is the desired az fract (def=1.0)? fract #: 1.000000 Please enter the name of the sensor file. /export/air32/airops/1400/sensor.pp Please enter the name of the parameter file /export/air36/airops/1400/ts1400_p.par hddt: 96068 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 100000 lines Keeping 4192 data points per patch Near range (m) = 9040.540 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 3.500000 Radar wavelength (m) = 0.7012700 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = -3.550000 Range weighting coefficient = 0.1000000 Map height (m) = 78.60000 Transmit leverarm x,y,z = 2.030000 0.5300000 -0.2200000 Receive leverarm x,y,z = 2.030000 0.5300000 -0.2200000 Name of raw data file? /export/air32/airops/1400/p_hv Name of the mocomp data file? /export/air36/airops/1400/ts1400_p.mocomph Output file name w/o ext? /export/air36/airops/1400/ts1400_p Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. hv Raw DIR Path:/export/air32/airops/1400/ output filename: /export/air32/airops/1400/ts1400_p.hv_j *** ipol itop: 2 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /export/air32/airops/1400/deskew.ph WAYNE init fft, calc slant range, load unpack, interpo 1.5443996E-02 reading motion compensation data WAYNE read motion compen 2.356705 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 AnalogChirp>96032Br,fs,T,fc 96068 40.00000 22.50000 90.00000 10.00000 deltaphase -ashift: 5.4456317E-03 3.550000 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.7526722 start range comp, time = 3.439 WAYNE PREV 3.145746 NUMBER OF PROCESSOR USED = 8 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 4 by # 0 Processing block number 1 TESTING WHY -6.4741098E-03 1.8001201E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 3.596 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 55.68221700191498 ATTN ifrq ipol ln 0 2 8192 8.000000 IPOL, ITOP nblock 2 0 1 ****shift in azimuth (fractional pixel)= -0.4999149 shift in azimuth *fractional pixel= -0.4999149 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1997938156127930E-02 TESTING 0.0000000E+00 -47.83564 0.2210198 WAYNE Motion comp. added to patch, time = 25.28626203536987 WAYNE Doppler estimation done, time = 1.1920928955078125E-05 WAYNE write deskew done, time = 2.7559995651245117E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -47.83564 0.2210198 HEY,dt,fract,ye,pe -0.4999149 1.000000 -6.4741098E-03 1.8001201E-02 WAYNE Azimuth compression done, time = 352.9956979751587 Writing 4192 lines of data to file WAYNE write output data 20.19313704967499 ==w out 1 0 2001 0 WAYNE PROCESS 454.1735910177231 Processing block number 2 TESTING WHY -6.4040902E-03 1.7581699E-02 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 457.770 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 72.63688695430756 ATTN ifrq ipol ln 0 2 11684 8.000000 IPOL, ITOP nblock 2 0 2 ****shift in azimuth (fractional pixel)= -0.4999168 shift in azimuth *fractional pixel= -0.4999168 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1083960533142090E-02 TESTING 0.0000000E+00 -42.32105 0.4159131 WAYNE Motion comp. added to patch, time = 19.74336493015289 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 1.7578005790710449E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -42.32105 0.4159131 HEY,dt,fract,ye,pe -0.4999168 1.000000 -6.4040902E-03 1.7581699E-02 WAYNE Azimuth compression done, time = 354.4658590555191 Writing 4192 lines of data to file WAYNE write output data 18.09448802471161 ==w out 2 4192 2001 85852160 WAYNE PROCESS 464.9705060720444 Processing block number 3 TESTING WHY -5.7757902E-03 1.7326901E-02 3492 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 922.742 seconds. TESTING 6985 before reading done reading WAYNE load raw data , time = 81.69684410095215 ATTN ifrq ipol ln 0 2 15176 8.000000 IPOL, ITOP nblock 2 0 3 ****shift in azimuth (fractional pixel)= -0.4999217 shift in azimuth *fractional pixel= -0.4999217 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.5732049942016602E-02 TESTING 0.0000000E+00 -37.07621 0.3171375 WAYNE Motion comp. added to patch, time = 19.77035105228424 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 2.6676058769226074E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 ra PROCESSING KID# 8 ..... WAYNE IS IN Processing 26 to 28 by # 7 Processing block number 26 WAYNE PATCHES: 87301 95492 patch# 26 reference line: 91396 3.696 seconds. before reading done reading WAYNE load raw data , time = 56.30061399936676 ATTN ifrq ipol ln 0 2 95492 8.000000 IPOL, ITOP nblock 2 0 26 ****shift in azimuth (fractional pixel)= -0.4999087 shift in azimuth *fractional pixel= -0.4999087 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2296915054321289E-02 WAYNE Motion comp. added to patch, time = 19.67400991916656 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.7450323104858398E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 351.9051589965820 Writing 4192 lines of data to file WAYNE write output data 2.264889001846313 ==w out 26 0 2001 0 WAYNE PROCESS 430.1614251136780 Processing block number 27 WAYNE PATCHES: 90793 98984 patch# 27 reference line: 94888 433.858 seconds. before reading done reading WAYNE load raw data , time = 97.77463495731354 ATTN ifrq ipol ln 0 2 98984 8.000000 IPOL, ITOP nblock 2 0 27 ****shift in azimuth (fractional pixel)= -0.4999004 shift in azimuth *fractional pixel= -0.4999004 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.4802932739257813E-02 WAYNE Motion comp. added to patch, time = 18.56949508190155 WAYNE Doppler estimation done, time = 1.3947486877441406E-05 WAYNE write deskew done, time = 4.7767996788024902E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 354.3276580572128 Writing 4192 lines of data to file WAYNE write output data 6.522902011871338 ==w out 27 4192 2001 85852160 WAYNE PROCESS 477.2589960098267 Processing block number 28 WAYNE PATCHES: 91808 99999 patch# 28 reference line: 95903 911.117 seconds. before reading done reading WAYNE load raw data , time = 93.30389094352722 ATTN ifrq ipol ln 0 2 99999 8.000000 IPOL, ITOP nblock 2 0 28 ****shift in azimuth (fractional pixel)= -0.4999058 shift in azimuth *fractional pixel= -0.4999058 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1906981468200684E-02 WAYNE Motion comp. added to patch, time = 18.78458404541016 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 1.8491029739379883E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 353.8726220130920 Writing 4192 lines of data to file WAYNE write output data 1.988291025161743 ==w out 28 8384 2001 171704320 WAYNE PROCESS 467.9812859296799 ==w out 29 12579 PROCESSING KID# 6 ..... WAYNE IS IN Processing 20 to 22 by # 5 Processing block number 20 WAYNE PATCHES: 66349 74540 patch# 20 reference line: 70444 3.666 seconds. before reading done reading WAYNE load raw data , time = 57.76172697544098 ATTN ifrq ipol ln 0 2 74540 8.000000 IPOL, ITOP nblock 2 0 20 ****shift in azimuth (fractional pixel)= -0.4999311 shift in azimuth *fractional pixel= -0.4999311 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1986970901489258E-02 WAYNE Motion comp. added to patch, time = 24.34873902797699 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 2.7940273284912109E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 351.7866380214691 Writing 4192 lines of data to file WAYNE write output data 20.33188700675964 ==w out 20 0 2001 0 WAYNE PROCESS 454.2455470561981 Processing block number 21 WAYNE PATCHES: 69841 78032 patch# 21 reference line: 73936 457.912 seconds. before reading done reading WAYNE load raw data , time = 75.35082602500916 ATTN ifrq ipol ln 0 2 78032 8.000000 IPOL, ITOP nblock 2 0 21 ****shift in azimuth (fractional pixel)= -0.4999140 shift in azimuth *fractional pixel= -0.4999140 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1605978012084961E-02 WAYNE Motion comp. added to patch, time = 19.07168602943420 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 6.9390535354614258E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 353.6371250152588 Writing 4192 lines of data to file WAYNE write output data 17.69339001178741 ==w out 21 4192 2001 85852160 WAYNE PROCESS 465.7730820178986 Processing block number 22 WAYNE PATCHES: 73333 81524 patch# 22 reference line: 77428 923.686 seconds. before reading done reading WAYNE load raw data , time = 81.24150502681732 ATTN ifrq ipol ln 0 2 81524 8.000000 IPOL, ITOP nblock 2 0 22 ****shift in azimuth (fractional pixel)= -0.4999022 shift in azimuth *fractional pixel= -0.4999022 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1927962303161621E-02 WAYNE Motion comp. added to patch, time = 19.74484610557556 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 6.8279504776000977E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 354.7615920305252 Writing 4192 lines of data to file WAYNE write output data 5.255820989608765 ==w out 22 8384 2001 171704320 WAYNE PROCESS 461.0240470170975 ==w out 23 12579 PROCESSING KID# 5 ..... WAYNE IS IN Processing 17 to 19 by # 4 Processing block number 17 WAYNE PATCHES: 55873 64064 patch# 17 reference line: 59968 3.645 seconds. before reading done reading WAYNE load raw data , time = 55.25784194469452 ATTN ifrq ipol ln 0 2 64064 8.000000 IPOL, ITOP nblock 2 0 17 ****shift in azimuth (fractional pixel)= -0.4999279 shift in azimuth *fractional pixel= -0.4999279 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1834025382995605E-02 WAYNE Motion comp. added to patch, time = 20.29622399806976 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.6770830154418945E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 351.9602169990540 Writing 4192 lines of data to file WAYNE write output data 1.941920995712280 ==w out 17 0 2001 0 WAYNE PROCESS 429.4723440408707 Processing block number 18 WAYNE PATCHES: 59365 67556 patch# 18 reference line: 63460 433.118 seconds. before reading done reading WAYNE load raw data , time = 96.90642702579498 ATTN ifrq ipol ln 0 2 67556 8.000000 IPOL, ITOP nblock 2 0 18 ****shift in azimuth (fractional pixel)= -0.4999095 shift in azimuth *fractional pixel= -0.4999095 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1259913444519043E-02 WAYNE Motion comp. added to patch, time = 19.47843301296234 WAYNE Doppler estimation done, time = 1.1920928955078125E-05 WAYNE write deskew done, time = 2.2559046745300293E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 352.9498538970947 Writing 4192 lines of data to file WAYNE write output data 2.207386970520020 ==w out 18 4192 2001 85852160 WAYNE PROCESS 471.5773179531097 Processing block number 19 WAYNE PATCHES: 62857 71048 patch# 19 reference line: 66952 904.696 seconds. before reading done reading WAYNE load raw data , time = 97.82409501075745 ATTN ifrq ipol ln 0 2 71048 8.000000 IPOL, ITOP nblock 2 0 19 ****shift in azimuth (fractional pixel)= -0.4999111 shift in azimuth *fractional pixel= -0.4999111 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2444019317626953E-02 WAYNE Motion comp. added to patch, time = 18.82537496089935 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 8.2589983940124512E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 354.2357119321823 Writing 4192 lines of data to file WAYNE write output data 13.19052696228027 ==w out 19 8384 2001 171704320 WAYNE PROCESS 484.1722769737244 ==w out 20 12579 PROCESSING KID# 7 ..... WAYNE IS IN Processing 23 to 25 by # 6 Processing block number 23 WAYNE PATCHES: 76825 85016 patch# 23 reference line: 80920 3.702 seconds. before reading done reading WAYNE load raw data , time = 56.36178195476532 ATTN ifrq ipol ln 0 2 85016 8.000000 IPOL, ITOP nblock 2 0 23 ****shift in azimuth (fractional pixel)= -0.4998994 shift in azimuth *fractional pixel= -0.4998994 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2109994888305664E-02 WAYNE Motion comp. added to patch, time = 20.31797099113464 WAYNE Doppler estimation done, time = 1.3947486877441406E-05 WAYNE write deskew done, time = 2.8290748596191406E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 352.0539560317993 Writing 4192 lines of data to file WAYNE write output data 2.230055928230286 ==w out 23 0 2001 0 WAYNE PROCESS 430.9802409410477 Processing block number 24 WAYNE PATCHES: 80317 88508 patch# 24 reference line: 84412 434.683 seconds. before reading done reading WAYNE load raw data , time = 95.31929504871368 ATTN ifrq ipol ln 0 2 88508 8.000000 IPOL, ITOP nblock 2 0 24 ****shift in azimuth (fractional pixel)= -0.4999158 shift in azimuth *fractional pixel= -0.4999158 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1159062385559082E-02 WAYNE Motion comp. added to patch, time = 19.23354196548462 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 4.6843051910400391E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 353.0444369316101 Writing 4192 lines of data to file WAYNE write output data 2.213277935981750 ==w out 24 4192 2001 85852160 WAYNE PROCESS 469.8708848953247 Processing block number 25 WAYNE PATCHES: 83809 92000 patch# 25 reference line: 87904 904.554 seconds. before reading done reading WAYNE load raw data , time = 104.6478840112686 ATTN ifrq ipol ln 0 2 92000 8.000000 IPOL, ITOP nblock 2 0 25 ****shift in azimuth (fractional pixel)= -0.4999176 shift in azimuth *fractional pixel= -0.4999176 1.000000 WAYNE Motion comp. coeff. calculated, time = 2.2271037101745605E-02 WAYNE Motion comp. added to patch, time = 18.77486395835876 WAYNE Doppler estimation done, time = 1.4066696166992188E-05 WAYNE write deskew done, time = 2.8336048126220703E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 353.2913929224014 Writing 4192 lines of data to file WAYNE write output data 18.13813292980194 ==w out 25 8384 2001 171704320 WAYNE PROCESS 494.9044719934464 ==w out 26 12579 PROCESSING KID# 3 ..... WAYNE IS IN Processing 9 to 12 by # 2 Processing block number 9 WAYNE PATCHES: 27937 36128 patch# 9 reference line: 32032 3.619 seconds. before reading done reading WAYNE load raw data , time = 55.69575297832489 ATTN ifrq ipol ln 0 2 36128 8.000000 IPOL, ITOP nblock 2 0 9 ****shift in azimuth (fractional pixel)= -0.4998933 shift in azimuth *fractional pixel= -0.4998933 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2224078178405762E-02 WAYNE Motion comp. added to patch, time = 25.07924795150757 WAYNE Doppler estimation done, time = 1.4066696166992188E-05 WAYNE write deskew done, time = 2.8569698333740234E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 351.5852680206299 Writing 4192 lines of data to file WAYNE write output data 17.77097499370575 ==w out 9 0 2001 0 WAYNE PROCESS 450.1482759714127 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 453.767 seconds. before reading done reading WAYNE load raw data , time = 75.12259495258331 ATTN ifrq ipol ln 0 2 39620 8.000000 IPOL, ITOP nblock 2 0 10 ****shift in azimuth (fractional pixel)= -0.4999059 shift in azimuth *fractional pixel= -0.4999059 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1088013648986816E-02 WAYNE Motion comp. added to patch, time = 19.70318996906281 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 2.9063105583190918E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 354.1689881086349 Writing 4192 lines of data to file WAYNE write output data 2.222506999969482 ==w out 10 4192 2001 85852160 WAYNE PROCESS 451.2587610483170 Processing block number 11 WAYNE PATCHES: 34921 43112 patch# 11 reference line: 39016 905.026 seconds. before reading done reading WAYNE load raw data , time = 96.32242000102997 ATTN ifrq ipol ln 0 2 43112 8.000000 IPOL, ITOP nblock 2 0 11 ****shift in azimuth (fractional pixel)= -0.4999126 shift in azimuth *fractional pixel= -0.4999126 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1806011199951172E-02 WAYNE Motion comp. added to patch, time = 19.08276402950287 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 4.1487932205200195E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 353.6325969696045 Writing 4192 lines of data to file WAYNE write output data 2.102443933486938 ==w out 11 8384 2001 171704320 WAYNE PROCESS 471.1950309276581 Processing block number 12 WAYNE PATCHES: 38413 46604 patch# 12 reference line: 42508 1376.222 seconds. before reading done reading WAYNE load raw data , time = 88.75134289264679 ATTN ifrq ipol ln 0 2 46604 8.000000 IPOL, ITOP nblock 2 PROCESSING KID# 2 ..... WAYNE IS IN Processing 5 to 8 by # 1 Processing block number 5 WAYNE PATCHES: 13969 22160 patch# 5 reference line: 18064 3.618 seconds. before reading done reading WAYNE load raw data , time = 54.68329703807831 ATTN ifrq ipol ln 0 2 22160 8.000000 IPOL, ITOP nblock 2 0 5 ****shift in azimuth (fractional pixel)= -0.4999060 shift in azimuth *fractional pixel= -0.4999060 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2485027313232422E-02 WAYNE Motion comp. added to patch, time = 20.35189104080200 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.7250051498413086E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 353.4382270574570 Writing 4192 lines of data to file WAYNE write output data 2.171800971031189 ==w out 5 0 2001 0 WAYNE PROCESS 430.6621949672699 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 434.281 seconds. before reading done reading WAYNE load raw data , time = 94.31719899177551 ATTN ifrq ipol ln 0 2 25652 8.000000 IPOL, ITOP nblock 2 0 6 ****shift in azimuth (fractional pixel)= -0.4998952 shift in azimuth *fractional pixel= -0.4998952 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2452960014343262E-02 WAYNE Motion comp. added to patch, time = 19.61103904247284 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.9305934906005859E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 354.6384959220886 Writing 4192 lines of data to file WAYNE write output data 5.486236929893494 ==w out 6 4192 2001 85852160 WAYNE PROCESS 474.0960829257965 Processing block number 7 WAYNE PATCHES: 20953 29144 patch# 7 reference line: 25048 908.377 seconds. before reading done reading WAYNE load raw data , time = 93.61017203330994 ATTN ifrq ipol ln 0 2 29144 8.000000 IPOL, ITOP nblock 2 0 7 ****shift in azimuth (fractional pixel)= -0.4998947 shift in azimuth *fractional pixel= -0.4998947 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1695027351379395E-02 WAYNE Motion comp. added to patch, time = 19.61643290519714 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 6.5542936325073242E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 356.2543630599976 Writing 4192 lines of data to file WAYNE write output data 21.43428397178650 ==w out 7 8384 2001 171704320 WAYNE PROCESS 490.9940270185471 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 1399.371 seconds. before reading done reading WAYNE load raw data , time = 65.87363302707672 ATTN ifrq ipol ln 0 2 32636 8.000000 IPOL, ITOP nblock 2 PROCESSING KID# 4 ..... WAYNE IS IN Processing 13 to 16 by # 3 Processing block number 13 WAYNE PATCHES: 41905 50096 patch# 13 reference line: 46000 3.633 seconds. before reading done reading WAYNE load raw data , time = 60.30353808403015 ATTN ifrq ipol ln 0 2 50096 8.000000 IPOL, ITOP nblock 2 0 13 ****shift in azimuth (fractional pixel)= -0.4999056 shift in azimuth *fractional pixel= -0.4999056 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2030005455017090E-02 WAYNE Motion comp. added to patch, time = 19.67052209377289 WAYNE Doppler estimation done, time = 1.3947486877441406E-05 WAYNE write deskew done, time = 3.0140876770019531E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 353.5221920013428 Writing 4192 lines of data to file WAYNE write output data 20.55927693843842 ==w out 13 0 2001 0 WAYNE PROCESS 454.0722069740295 Processing block number 14 WAYNE PATCHES: 45397 53588 patch# 14 reference line: 49492 457.706 seconds. before reading done reading WAYNE load raw data , time = 78.14992499351501 ATTN ifrq ipol ln 0 2 53588 8.000000 IPOL, ITOP nblock 2 0 14 ****shift in azimuth (fractional pixel)= -0.4998997 shift in azimuth *fractional pixel= -0.4998997 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1204957962036133E-02 WAYNE Motion comp. added to patch, time = 18.94038105010986 WAYNE Doppler estimation done, time = 1.8954277038574219E-05 WAYNE write deskew done, time = 4.9916982650756836E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 353.9485620260239 Writing 4192 lines of data to file WAYNE write output data 19.76490199565887 ==w out 14 4192 2001 85852160 WAYNE PROCESS 470.8667819499969 Processing block number 15 WAYNE PATCHES: 48889 57080 patch# 15 reference line: 52984 928.573 seconds. before reading done reading WAYNE load raw data , time = 79.07859599590302 ATTN ifrq ipol ln 0 2 57080 8.000000 IPOL, ITOP nblock 2 0 15 ****shift in azimuth (fractional pixel)= -0.4999059 shift in azimuth *fractional pixel= -0.4999059 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1705040931701660E-02 WAYNE Motion comp. added to patch, time = 19.20550799369812 WAYNE Doppler estimation done, time = 1.5974044799804688E-05 WAYNE write deskew done, time = 5.0691962242126465E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 354.7063128948212 Writing 4192 lines of data to file WAYNE write output data 17.85549998283386 ==w out 15 8384 2001 171704320 WAYNE PROCESS 470.9099069833755 Processing block number 16 WAYNE PATCHES: 52381 60572 patch# 16 reference line: 56476 1399.483 seconds. before reading done reading WAYNE load raw data , time = 71.38368606567383 ATTN ifrq ipol ln 0 2 60572 8.000000 IPOL, ITOP nblock 2 0 12 ****shift in azimuth (fractional pixel)= -0.4999159 shift in azimuth *fractional pixel= -0.4999159 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.3051986694335938E-02 WAYNE Motion comp. added to patch, time = 16.77733802795410 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 2.4767041206359863E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 270.6001819372177 Writing 4192 lines of data to file WAYNE write output data 1.615453004837036 ==w out 12 12576 2001 257556480 WAYNE PROCESS 377.7837589979172 ==w out 13 16771 0 8 ****shift in azimuth (fractional pixel)= -0.4998949 shift in azimuth *fractional pixel= -0.4998949 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2449026107788086E-02 WAYNE Motion comp. added to patch, time = 17.38641595840454 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.8613924980163574E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 272.5760290622711 Writing 4192 lines of data to file WAYNE write output data 1.739777088165283 ==w out 8 12576 2001 257556480 WAYNE PROCESS 357.6185439825058 ==w out 9 16771 nge migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -37.07621 0.3171375 HEY,dt,fract,ye,pe -0.4999217 1.000000 -5.7757902E-03 1.7326901E-02 WAYNE Azimuth compression done, time = 356.2929110527039 Writing 4192 lines of data to file WAYNE write output data 18.53122103214264 ==w out 3 8384 2001 171704320 WAYNE PROCESS 476.3352689743042 Processing block number 4 TESTING WHY -5.3123902E-03 1.7652800E-02 3492 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 1399.077 seconds. TESTING 10477 before reading done reading WAYNE load raw data , time = 66.54705595970154 ATTN ifrq ipol ln 0 2 18668 8.000000 IPOL, ITOP nblock 2 0 4 ****shift in azimuth (fractional pixel)= -0.4999198 shift in azimuth *fractional pixel= -0.4999198 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.1867046356201172E-02 TESTING 0.0000000E+00 -32.53431 -0.3229209 WAYNE Motion comp. added to patch, time = 17.26797902584076 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 1.8701076507568359E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -32.53431 -0.3229209 HEY,dt,fract,ye,pe -0.4999198 1.000000 -5.3123902E-03 1.7652800E-02 WAYNE Azimuth compression done, time = 272.4345010519028 Writing 4192 lines of data to file WAYNE write output data 1.739037990570068 ==w out 4 12576 2001 257556480 WAYNE PROCESS 358.0206179618835 ==w out 5 16771 0 16 ****shift in azimuth (fractional pixel)= -0.4999078 shift in azimuth *fractional pixel= -0.4999078 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.2454986572265625E-02 WAYNE Motion comp. added to patch, time = 17.22220993041992 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.4364113807678223E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 271.2732909917831 Writing 4192 lines of data to file WAYNE write output data 1.609322071075439 ==w out 16 12576 2001 257556480 WAYNE PROCESS 361.5267610549927 ==w out 17 16771 1 15725830 0 2 15723991 0 3 15720651 0 4 15724001 0 5 15725780 0 6 15726911 0 7 15727065 0 8 15726380 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 117376kids= 8 Writing variable header... gather image from processor # 0 4 gather image from processor # 1 4 gather image from processor # 2 4 gather image from processor # 3 4 gather image from processor # 4 3 gather image from processor # 5 3 gather image from processor # 6 3 gather image from processor # 7 3 WAYNE gather images takes: 0.1277860403060913 WAYNE LOOP TIME: 1780.885223984718 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air32/airops/1400/ts1400_p.hv_j /export/air36/airops/1400/ts1400_p.mocomph /export/air36/airops/1400/ts1400_p.dop /export/air36/airops/1400/ts1400_p.glb 2560 100000 100000 update intf hdr ha: 8367.900 UPDATE: 2560 100000 3.331000 0.5144000 1 18822709 18822709 mocompfile /export/air36/airops/1400/ts1400_p.mocomph dopfile /export/air36/airops/1400/ts1400_p.dop globalfile /export/air36/airops/1400/ts1400_p.glb /export/air36/airops/1400/ts1400_p.glb 38 deskew line ra ha trc: 128.5260 249 9042.366 8367.900 54.57177 after deskew line ra ha trc: 128.5260 249 9042.366 8367.900 54.57177 lat1 lon1: 249 4.813068 114.7795 100000 last ra n_ns ns: 9042.366 1 1 100248 100000 lati loni: 100248 5.082698 115.1903 100248 1 center ra n_ns ns: 13302.71 1280 1280 50248 100000 lati loni: 50248 4.979404 114.9627 50248 2560 Updated paramater header in /export/air32/airops/1400/ts1400_p.hv_j WAYNE FINAL PROCESS 1784.463533043861 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 8 16768 4 16768 4 16768 4 16768 4 12576 3 12576 3 12576 3 12576 3 Name of data file to be deskewed? /export/air32/airops/1400/ts1400_p.hv_j Name of the doppler parameter file? /export/air36/airops/1400/ts1400_p.dop Name of the deskew file? /export/air32/airops/1400/deskew.ph Line up to another frequency [y/n]? y Name of the deskew file to line up to? /export/air32/airops/1400/deskew.ch Enter N_AZ, NA_VALID and the ratio of the pixel spacing of the file to line up to relative to the current pixel spacing. 4096 2208 1.000000 Name of the output file? /export/air36/airops/1400/ts1400_p.hv Name of the line output file? /export/air36/airops/1400/p_lines.dat NONE-SYMMETRIC PARALLEL JOBS Deskewing 28 patches Processing block number 1 patch iptc,sj,dgj,dgi,id: 1 1041 98 98 0 half line dmj dgc: 0 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1041 1 Zeroing lines in arrays Total # of output lines = 1 1040 1041 3137 0 2096 patch iptc,sj,dgj,dgi,id: 1 3137 98 98 2096 half line dmj dgc: 1 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3137 1041 Zeroing lines in arrays Total # of output lines = 1 3136 Processing block number 2 3137 4528 -5 1396 patch iptc,sj,dgj,dgi,id: 2 4528 93 98 1396 half line dmj dgc: 0 5493 243 114 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 4528 3137 Zeroing lines in arrays Total # of output lines = 2 4527 4528 6624 0 2096 patch iptc,sj,dgj,dgi,id: 2 6624 93 93 2096 half line dmj dgc: 1 5493 243 114 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 6624 4528 Zeroing lines in arrays Total # of output lines = 2 6623 Processing block number 3 6624 8035 15 1396 patch iptc,sj,dgj,dgi,id: 3 8035 108 93 1396 half line dmj dgc: 0 8985 243 114 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 8035 6624 Zeroing lines in arrays Total # of output lines = 3 8034 8035 10131 0 2096 patch iptc,sj,dgj,dgi,id: 3 10131 108 108 2096 half line dmj dgc: 1 8985 243 114 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 10131 8035 Zeroing lines in arrays Total # of output lines = 3 10130 Processing block number 4 10131 11546 19 1396 patch iptc,sj,dgj,dgi,id: 4 11546 127 108 1396 half line dmj dgc: 0 12477 251 114 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 11546 10131 Zeroing lines in arrays Total # of output lines = 4 11545 11546 13642 0 2096 patch iptc,sj,dgj,dgi,id: 4 13642 127 127 2096 half line dmj dgc: 1 12477 251 114 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 sj>s1: 13642 11546 Zeroing lines in arrays Total # of output lines = 4 13641 Processing block number 5 13642 15008 -30 1396 patch iptc,sj,dgj,dgi,id: 5 15008 97 127 1396 half line dmj dgc: 0 15969 251 114 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 15008 13642 Zeroing lines in arrays Total # of output lines = 5 15007 15008 17104 0 2096 patch iptc,sj,dgj,dgi,id: 5 720 97 97 2096 half line dmj dgc: 1 15969 251 114 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 s1>sj: 15008 720 Zeroing lines in arrays Total # of output lines = 5 17103 Processing block number 6 720 2050 -66 1396 patch iptc,sj,dgj,dgi,id: 6 2050 31 97 1396 half line dmj dgc: 0 19461 242 114 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 2050 720 Zeroing lines in arrays Total # of output lines = 6 18433 2050 4146 0 2096 patch iptc,sj,dgj,dgi,id: 6 4146 31 31 2096 half line dmj dgc: 1 19461 242 114 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 4146 2050 Zeroing lines in arrays Total # of output lines = 6 20529 Processing block number 7 4146 5525 -17 1396 patch iptc,sj,dgj,dgi,id: 7 5525 14 31 1396 half line dmj dgc: 0 22953 241 114 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 5525 4146 Zeroing lines in arrays Total # of output lines = 7 21908 5525 7621 0 2096 patch iptc,sj,dgj,dgi,id: 7 7621 14 14 2096 half line dmj dgc: 1 22953 241 114 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 7621 5525 Zeroing lines in arrays Total # of output lines = 7 24004 Processing block number 8 7621 9046 29 1396 patch iptc,sj,dgj,dgi,id: 8 9046 43 14 1396 half line dmj dgc: 0 26445 249 114 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 sj>s1: 9046 7621 Zeroing lines in arrays Total # of output lines = 8 25429 9046 11142 0 2096 patch iptc,sj,dgj,dgi,id: 8 11142 43 43 2096 half line dmj dgc: 1 26445 249 114 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 sj>s1: 11142 9046 Zeroing lines in arrays Total # of output lines = 8 27525 Processing block number 9 11142 12562 24 1396 patch iptc,sj,dgj,dgi,id: 9 12562 67 43 1396 half line dmj dgc: 0 29937 255 114 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 12562 11142 Zeroing lines in arrays Total # of output lines = 9 28945 12562 14658 0 2096 patch iptc,sj,dgj,dgi,id: 9 14658 67 67 2096 half line dmj dgc: 1 29937 255 114 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 14658 12562 Zeroing lines in arrays Total # of output lines = 9 31041 Processing block number 10 14658 16072 18 1396 patch iptc,sj,dgj,dgi,id: 10 16072 85 67 1396 half line dmj dgc: 0 33429 255 114 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 16072 14658 Zeroing lines in arrays Total # of output lines = 10 32455 16072 18168 0 2096 patch iptc,sj,dgj,dgi,id: 10 1784 85 85 2096 half line dmj dgc: 1 33429 255 114 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 s1>sj: 16072 1784 Zeroing lines in arrays Total # of output lines = 10 34551 Processing block number 11 1784 3217 37 1396 patch iptc,sj,dgj,dgi,id: 11 3217 122 85 1396 half line dmj dgc: 0 36921 260 114 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 3217 1784 Zeroing lines in arrays Total # of output lines = 11 35984 3217 5313 0 2096 patch iptc,sj,dgj,dgi,id: 11 5313 122 122 2096 half line dmj dgc: 1 36921 260 114 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 sj>s1: 5313 3217 Zeroing lines in arrays Total # of output lines = 11 38080 Processing block number 12 5313 6728 19 1396 patch iptc,sj,dgj,dgi,id: 12 6728 141 122 1396 half line dmj dgc: 0 40413 269 114 Actual deskew ireclen: 20480 ** 12 2096 0 48208 Writing data negflag .eq. 0 sj>s1: 6728 5313 Zeroing lines in arrays Total # of output lines = 12 39495 6728 8824 0 2096 patch iptc,sj,dgj,dgi,id: 12 8824 141 141 2096 half line dmj dgc: 1 40413 269 114 Actual deskew ireclen: 20480 ** 12 2096 1 50304 Writing data negflag .eq. 0 sj>s1: 8824 6728 Zeroing lines in arrays Total # of output lines = 12 41591 Processing block number 13 8824 10226 6 1396 patch iptc,sj,dgj,dgi,id: 13 10226 147 141 1396 half line dmj dgc: 0 43905 276 114 Actual deskew ireclen: 20480 ** 13 2096 0 52400 Writing data negflag .eq. 0 sj>s1: 10226 8824 Zeroing lines in arrays Total # of output lines = 13 42993 10226 12322 0 2096 patch iptc,sj,dgj,dgi,id: 13 12322 147 147 2096 half line dmj dgc: 1 43905 276 114 Actual deskew ireclen: 20480 ** 13 2096 1 54496 Writing data negflag .eq. 0 sj>s1: 12322 10226 Zeroing lines in arrays Total # of output lines = 13 45089 Processing block number 14 12322 13761 43 1396 patch iptc,sj,dgj,dgi,id: 14 13761 190 147 1396 half line dmj dgc: 0 47397 286 114 Actual deskew ireclen: 20480 ** 14 2096 0 56592 Writing data negflag .eq. 0 sj>s1: 13761 12322 Zeroing lines in arrays Total # of output lines = 14 46528 13761 15857 0 2096 patch iptc,sj,dgj,dgi,id: 14 15857 190 190 2096 half line dmj dgc: 1 47397 286 114 Actual deskew ireclen: 20480 ** 14 2096 1 58688 Writing data negflag .eq. 0 sj>s1: 15857 13761 Zeroing lines in arrays Total # of output lines = 14 48624 Processing block number 15 15857 17263 10 1396 patch iptc,sj,dgj,dgi,id: 15 879 200 190 1396 half line dmj dgc: 0 50889 286 114 Actual deskew ireclen: 20480 ** 15 2096 0 60784 Writing data negflag .eq. 0 s1>sj: 15857 879 Zeroing lines in arrays Total # of output lines = 15 50030 879 2975 0 2096 patch iptc,sj,dgj,dgi,id: 15 2975 200 200 2096 half line dmj dgc: 1 50889 286 114 Actual deskew ireclen: 20480 ** 15 2096 1 62880 Writing data negflag .eq. 0 sj>s1: 2975 879 Zeroing lines in arrays Total # of output lines = 15 52126 Processing block number 16 2975 4377 6 1396 patch iptc,sj,dgj,dgi,id: 16 4377 206 200 1396 half line dmj dgc: 0 54381 277 114 Actual deskew ireclen: 20480 ** 16 2096 0 64976 Writing data negflag .eq. 0 sj>s1: 4377 2975 Zeroing lines in arrays Total # of output lines = 16 53528 4377 6473 0 2096 patch iptc,sj,dgj,dgi,id: 16 6473 206 206 2096 half line dmj dgc: 1 54381 277 114 Actual deskew ireclen: 20480 ** 16 2096 1 67072 Writing data negflag .eq. 0 sj>s1: 6473 4377 Zeroing lines in arrays Total # of output lines = 16 55624 Processing block number 17 6473 7900 31 1396 patch iptc,sj,dgj,dgi,id: 17 7900 237 206 1396 half line dmj dgc: 0 57873 276 114 Actual deskew ireclen: 20480 ** 17 2096 0 69168 Writing data negflag .eq. 0 sj>s1: 7900 6473 Zeroing lines in arrays Total # of output lines = 17 57051 7900 9996 0 2096 patch iptc,sj,dgj,dgi,id: 17 9996 237 237 2096 half line dmj dgc: 1 57873 276 114 Actual deskew ireclen: 20480 ** 17 2096 1 71264 Writing data negflag .eq. 0 sj>s1: 9996 7900 Zeroing lines in arrays Total # of output lines = 17 59147 Processing block number 18 9996 11451 59 1396 patch iptc,sj,dgj,dgi,id: 18 11451 296 237 1396 half line dmj dgc: 0 61365 298 114 Actual deskew ireclen: 20480 ** 18 2096 0 73360 Writing data negflag .eq. 0 sj>s1: 11451 9996 Zeroing lines in arrays Total # of output lines = 18 60602 11451 13547 0 2096 patch iptc,sj,dgj,dgi,id: 18 13547 296 296 2096 half line dmj dgc: 1 61365 298 114 Actual deskew ireclen: 20480 ** 18 2096 1 75456 Writing data negflag .eq. 0 sj>s1: 13547 11451 Zeroing lines in arrays Total # of output lines = 18 62698 Processing block number 19 13547 14936 -7 1396 patch iptc,sj,dgj,dgi,id: 19 14936 289 296 1396 half line dmj dgc: 0 64857 293 114 Actual deskew ireclen: 20480 ** 19 2096 0 77552 Writing data negflag .eq. 0 sj>s1: 14936 13547 Zeroing lines in arrays Total # of output lines = 19 64087 14936 17032 0 2096 patch iptc,sj,dgj,dgi,id: 19 648 289 289 2096 half line dmj dgc: 1 64857 293 114 Actual deskew ireclen: 20480 ** 19 2096 1 79648 Writing data negflag .eq. 0 s1>sj: 14936 648 Zeroing lines in arrays Total # of output lines = 19 66183 Processing block number 20 648 2015 -29 1396 patch iptc,sj,dgj,dgi,id: 20 2015 260 289 1396 half line dmj dgc: 0 68349 279 114 Actual deskew ireclen: 20480 ** 20 2096 0 81744 Writing data negflag .eq. 0 sj>s1: 2015 648 Zeroing lines in arrays Total # of output lines = 20 67550 2015 4111 0 2096 patch iptc,sj,dgj,dgi,id: 20 4111 260 260 2096 half line dmj dgc: 1 68349 279 114 Actual deskew ireclen: 20480 ** 20 2096 1 83840 Writing data negflag .eq. 0 sj>s1: 4111 2015 Zeroing lines in arrays Total # of output lines = 20 69646 Processing block number 21 4111 5541 34 1396 patch iptc,sj,dgj,dgi,id: 21 5541 294 260 1396 half line dmj dgc: 0 71841 300 114 Actual deskew ireclen: 20480 ** 21 2096 0 85936 Writing data negflag .eq. 0 sj>s1: 5541 4111 Zeroing lines in arrays Total # of output lines = 21 71076 5541 7637 0 2096 patch iptc,sj,dgj,dgi,id: 21 7637 294 294 2096 half line dmj dgc: 1 71841 300 114 Actual deskew ireclen: 20480 ** 21 2096 1 88032 Writing data negflag .eq. 0 sj>s1: 7637 5541 Zeroing lines in arrays Total # of output lines = 21 73172 Processing block number 22 7637 9056 23 1396 patch iptc,sj,dgj,dgi,id: 22 9056 317 294 1396 half line dmj dgc: 0 75333 330 114 Actual deskew ireclen: 20480 ** 22 2096 0 90128 Writing data negflag .eq. 0 sj>s1: 9056 7637 Zeroing lines in arrays Total # of output lines = 22 74591 9056 11152 0 2096 patch iptc,sj,dgj,dgi,id: 22 11152 317 317 2096 half line dmj dgc: 1 75333 330 114 Actual deskew ireclen: 20480 ** 22 2096 1 92224 Writing data negflag .eq. 0 sj>s1: 11152 9056 Zeroing lines in arrays Total # of output lines = 22 76687 Processing block number 23 11152 12510 -38 1396 patch iptc,sj,dgj,dgi,id: 23 12510 279 317 1396 half line dmj dgc: 0 78825 308 114 Actual deskew ireclen: 20480 ** 23 2096 0 94320 Writing data negflag .eq. 0 sj>s1: 12510 11152 Zeroing lines in arrays Total # of output lines = 23 78045 12510 14606 0 2096 patch iptc,sj,dgj,dgi,id: 23 14606 279 279 2096 half line dmj dgc: 1 78825 308 114 Actual deskew ireclen: 20480 ** 23 2096 1 96416 Writing data negflag .eq. 0 sj>s1: 14606 12510 Zeroing lines in arrays Total # of output lines = 23 80141 Processing block number 24 14606 15942 -60 1396 patch iptc,sj,dgj,dgi,id: 24 15942 219 279 1396 half line dmj dgc: 0 82317 284 114 Actual deskew ireclen: 20480 ** 24 2096 0 98512 Writing data negflag .eq. 0 sj>s1: 15942 14606 Zeroing lines in arrays Total # of output lines = 24 81477 15942 18038 0 2096 patch iptc,sj,dgj,dgi,id: 24 1654 219 219 2096 half line dmj dgc: 1 82317 284 114 Actual deskew ireclen: 20480 ** 24 2096 1 100608 Writing data negflag .eq. 0 s1>sj: 15942 1654 Zeroing lines in arrays Total # of output lines = 24 83573 Processing block number 25 1654 3047 -3 1396 patch iptc,sj,dgj,dgi,id: 25 3047 216 219 1396 half line dmj dgc: 0 85809 279 114 Actual deskew ireclen: 20480 ** 25 2096 0 102704 Writing data negflag .eq. 0 sj>s1: 3047 1654 Zeroing lines in arrays Total # of output lines = 25 84966 3047 5143 0 2096 patch iptc,sj,dgj,dgi,id: 25 5143 216 216 2096 half line dmj dgc: 1 85809 279 114 Actual deskew ireclen: 20480 ** 25 2096 1 104800 Writing data negflag .eq. 0 sj>s1: 5143 3047 Zeroing lines in arrays Total # of output lines = 25 87062 Processing block number 26 5143 6581 42 1396 patch iptc,sj,dgj,dgi,id: 26 6581 258 216 1396 half line dmj dgc: 0 89301 297 114 Actual deskew ireclen: 20480 ** 26 2096 0 106896 Writing data negflag .eq. 0 sj>s1: 6581 5143 Zeroing lines in arrays Total # of output lines = 26 88500 6581 8677 0 2096 patch iptc,sj,dgj,dgi,id: 26 8677 258 258 2096 half line dmj dgc: 1 89301 297 114 Actual deskew ireclen: 20480 ** 26 2096 1 108992 Writing data negflag .eq. 0 sj>s1: 8677 6581 Zeroing lines in arrays Total # of output lines = 26 90596 Processing block number 27 8677 10067 -6 1396 patch iptc,sj,dgj,dgi,id: 27 10067 252 258 1396 half line dmj dgc: 0 92793 306 114 Actual deskew ireclen: 20480 ** 27 2096 0 111088 Writing data negflag .eq. 0 sj>s1: 10067 8677 Zeroing lines in arrays Total # of output lines = 27 91986 10067 12163 0 2096 patch iptc,sj,dgj,dgi,id: 27 12163 252 252 2096 half line dmj dgc: 1 92793 306 114 Actual deskew ireclen: 20480 ** 27 2096 1 113184 Writing data negflag .eq. 0 sj>s1: 12163 10067 Zeroing lines in arrays Total # of output lines = 27 94082 Processing block number 28 12163 11063 -19 -1081 patch iptc,sj,dgj,dgi,id: 28 11063 233 252 -1081 half line dmj dgc: 0 93808 312 114 Actual deskew ireclen: 20480 ** 28 2096 0 115280 Zeroing lines in arrays Total # of output lines = 28 94082 12163 13159 0 2096 patch iptc,sj,dgj,dgi,id: 28 13159 233 233 2096 half line dmj dgc: 1 93808 312 114 Actual deskew ireclen: 20480 ** 28 2096 1 117376 Writing data negflag .eq. 0 sj>s1: 13159 12163 Zeroing lines in arrays Total # of output lines = 28 95078 ia dmi dgi: 13159 312 233 Writing the last 2175 lines last half sj>s1 15334 13159 95078 Total # of output lines = 97253 Writing new header.. Closing files .. ileni= 39 ilend= 35 /export/air32/airops/1400/ts1400_p.hv_j.0 /export/air32/airops/1400/deskew.ph.0 /export/air32/airops/1400/ts1400_p.hv_j.1 /export/air32/airops/1400/deskew.ph.1 /export/air32/airops/1400/ts1400_p.hv_j.2 /export/air32/airops/1400/deskew.ph.2 /export/air32/airops/1400/ts1400_p.hv_j.3 /export/air32/airops/1400/deskew.ph.3 /export/air32/airops/1400/ts1400_p.hv_j.4 /export/air32/airops/1400/deskew.ph.4 /export/air32/airops/1400/ts1400_p.hv_j.5 /export/air32/airops/1400/deskew.ph.5 /export/air32/airops/1400/ts1400_p.hv_j.6 /export/air32/airops/1400/deskew.ph.6 /export/air32/airops/1400/ts1400_p.hv_j.7 /export/air32/airops/1400/deskew.ph.7 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.35 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 1 AZ patch size: 8192 What is the desired az fract (def=1.0)? fract #: 0.0000000E+00 Please enter the name of the sensor file. /export/air32/airops/1400/sensor.pp Please enter the name of the parameter file /export/air36/airops/1400/ts1400_p.par hddt: 96068 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 100000 lines Keeping 4192 data points per patch Near range (m) = 9040.540 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 3.500000 Radar wavelength (m) = 0.7012700 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = -3.550000 Range weighting coefficient = 0.1000000 Map height (m) = 78.60000 Transmit leverarm x,y,z = 2.030000 0.5300000 -0.2200000 Receive leverarm x,y,z = 2.030000 0.5300000 -0.2200000 Name of raw data file? /export/air32/airops/1400/p_vh Name of the mocomp data file? /export/air36/airops/1400/ts1400_p.mocompv Output file name w/o ext? /export/air36/airops/1400/ts1400_p Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. vh Raw DIR Path:/export/air32/airops/1400/ output filename: /export/air32/airops/1400/ts1400_p.vh_j *** ipol itop: 3 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /export/air32/airops/1400/deskew.pv WAYNE init fft, calc slant range, load unpack, interpo 1.5586004E-02 reading motion compensation data WAYNE read motion compen 2.360676 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 AnalogChirp>96032Br,fs,T,fc 96068 40.00000 22.50000 90.00000 10.00000 deltaphase -ashift: 5.4456317E-03 3.550000 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.7512407 start range comp, time = 3.460 WAYNE PREV 3.145345 NUMBER OF PROCESSOR USED = 8 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 6 ..... WAYNE IS IN Processing 20 to 22 by # 5 Processing block number 20 WAYNE PATCHES: 66349 74540 patch# 20 reference line: 70444 3.686 seconds. before reading done reading WAYNE load raw data , time = 54.64575505256653 ATTN ifrq ipol ln 0 3 74540 8.000000 IPOL, ITOP nblock 3 0 20 WAYNE Motion comp. coeff. calculated, time = 1.2408971786499023E-02 WAYNE Motion comp. added to patch, time = 19.46842503547668 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 2.6409626007080078E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.1384999752045 Writing 4192 lines of data to file WAYNE write output data 1.976921081542969 ==w out 20 0 2001 0 WAYNE PROCESS 424.2462310791016 Processing block number 21 WAYNE PATCHES: 69841 78032 patch# 21 reference line: 73936 427.932 seconds. before reading done reading WAYNE load raw data , time = 98.22808504104614 ATTN ifrq ipol ln 0 3 78032 8.000000 IPOL, ITOP nblock 3 0 21 WAYNE Motion comp. coeff. calculated, time = 1.1810064315795898E-02 WAYNE Motion comp. added to patch, time = 19.91564297676086 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 1.9729971885681152E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.6657030582428 Writing 4192 lines of data to file WAYNE write output data 1.883372068405151 ==w out 21 4192 2001 85852160 WAYNE PROCESS 467.7261250019073 Processing block number 22 WAYNE PATCHES: 73333 81524 patch# 22 reference line: 77428 895.659 seconds. before reading done reading WAYNE load raw data , time = 95.79546701908112 ATTN ifrq ipol ln 0 3 81524 8.000000 IPOL, ITOP nblock 3 0 22 WAYNE Motion comp. coeff. calculated, time = 1.1708974838256836E-02 WAYNE Motion comp. added to patch, time = 18.43394291400909 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.4453997611999512E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.2957329750061 Writing 4192 lines of data to file WAYNE write output data 1.869465947151184 ==w out 22 8384 2001 171704320 WAYNE PROCESS 463.4323890209198 ==w out 23 12579 PROCESSING KID# 5 ..... WAYNE IS IN Processing 17 to 19 by # 4 Processing block number 17 WAYNE PATCHES: 55873 64064 patch# 17 reference line: 59968 3.674 seconds. before reading done reading WAYNE load raw data , time = 54.98764395713806 ATTN ifrq ipol ln 0 3 64064 8.000000 IPOL, ITOP nblock 3 0 17 WAYNE Motion comp. coeff. calculated, time = 1.1993050575256348E-02 WAYNE Motion comp. added to patch, time = 19.77860593795776 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 9.0839862823486328E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.4806240797043 Writing 4192 lines of data to file WAYNE write output data 2.208817958831787 ==w out 17 0 2001 0 WAYNE PROCESS 425.4784349203110 Processing block number 18 WAYNE PATCHES: 59365 67556 patch# 18 reference line: 63460 429.153 seconds. before reading done reading WAYNE load raw data , time = 97.54799294471741 ATTN ifrq ipol ln 0 3 67556 8.000000 IPOL, ITOP nblock 3 0 18 WAYNE Motion comp. coeff. calculated, time = 1.1902093887329102E-02 WAYNE Motion comp. added to patch, time = 19.85182297229767 WAYNE Doppler estimation done, time = 1.3947486877441406E-05 WAYNE write deskew done, time = 0.1039130687713623 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.8737890720367 Writing 4192 lines of data to file WAYNE write output data 1.957387089729309 ==w out 18 4192 2001 85852160 WAYNE PROCESS 467.3486900329590 Processing block number 19 WAYNE PATCHES: 62857 71048 patch# 19 reference line: 66952 896.502 seconds. before reading done reading WAYNE load raw data , time = 95.89570891857147 ATTN ifrq ipol ln 0 3 71048 8.000000 IPOL, ITOP nblock 3 0 19 WAYNE Motion comp. coeff. calculated, time = 1.1829018592834473E-02 WAYNE Motion comp. added to patch, time = 18.38034701347351 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 0.1159409284591675 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.9988410472870 Writing 4192 lines of data to file WAYNE write output data 1.647554993629456 ==w out 19 8384 2001 171704320 WAYNE PROCESS 464.0519949197769 ==w out 20 12579 PROCESSING KID# 8 ..... WAYNE IS IN Processing 26 to 28 by # 7 Processing block number 26 WAYNE PATCHES: 87301 95492 patch# 26 reference line: 91396 3.720 seconds. before reading done reading WAYNE load raw data , time = 54.79438400268555 ATTN ifrq ipol ln 0 3 95492 8.000000 IPOL, ITOP nblock 3 0 26 WAYNE Motion comp. coeff. calculated, time = 1.2060999870300293E-02 WAYNE Motion comp. added to patch, time = 19.88265001773834 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.6630163192749023E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 349.1214730739594 Writing 4192 lines of data to file WAYNE write output data 2.330706000328064 ==w out 26 0 2001 0 WAYNE PROCESS 426.1456691026688 Processing block number 27 WAYNE PATCHES: 90793 98984 patch# 27 reference line: 94888 429.866 seconds. before reading done reading WAYNE load raw data , time = 97.21293294429779 ATTN ifrq ipol ln 0 3 98984 8.000000 IPOL, ITOP nblock 3 0 27 WAYNE Motion comp. coeff. calculated, time = 1.2992024421691895E-02 WAYNE Motion comp. added to patch, time = 18.28400194644928 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 7.6827049255371094E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 349.7702620029449 Writing 4192 lines of data to file WAYNE write output data 1.884580969810486 ==w out 27 4192 2001 85852160 WAYNE PROCESS 467.2436789274216 Processing block number 28 WAYNE PATCHES: 91808 99999 patch# 28 reference line: 95903 897.110 seconds. before reading done reading WAYNE load raw data , time = 97.59051203727722 ATTN ifrq ipol ln 0 3 99999 8.000000 IPOL, ITOP nblock 3 0 28 WAYNE Motion comp. coeff. calculated, time = 1.1802077293395996E-02 WAYNE Motion comp. added to patch, time = 18.29823505878448 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.6190042495727539E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 349.0894409418106 Writing 4192 lines of data to file WAYNE write output data 1.800680994987488 ==w out 28 8384 2001 171704320 WAYNE PROCESS 466.8185080289841 ==w out 29 12579 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 4 by # 0 Processing block number 1 TESTING WHY -6.4741098E-03 1.8001201E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 3.615 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 56.63796401023865 ATTN ifrq ipol ln 0 3 8192 8.000000 IPOL, ITOP nblock 3 0 1 WAYNE Motion comp. coeff. calculated, time = 3.5233020782470703E-02 TESTING 0.0000000E+00 -47.83489 0.2210412 WAYNE Motion comp. added to patch, time = 20.36951601505280 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.8749704360961914E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -47.83489 0.2210412 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -6.4741098E-03 1.8001201E-02 WAYNE Azimuth compression done, time = 348.2976720333099 Writing 4192 lines of data to file WAYNE write output data 18.40728294849396 ==w out 1 0 2001 0 WAYNE PROCESS 443.7522870302200 Processing block number 2 TESTING WHY -6.4040902E-03 1.7581699E-02 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 447.368 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 81.11184108257294 ATTN ifrq ipol ln 0 3 11684 8.000000 IPOL, ITOP nblock 3 0 2 WAYNE Motion comp. coeff. calculated, time = 0.1230069398880005 TESTING 0.0000000E+00 -42.32028 0.4159560 WAYNE Motion comp. added to patch, time = 19.18553292751312 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 1.6614079475402832E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -42.32028 0.4159560 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -6.4040902E-03 1.7581699E-02 WAYNE Azimuth compression done, time = 348.6434639692307 Writing 4192 lines of data to file WAYNE write output data 16.70829796791077 ==w out 2 4192 2001 85852160 WAYNE PROCESS 465.7905160188675 Processing block number 3 TESTING WHY -5.7757902E-03 1.7326901E-02 3492 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 913.159 seconds. TESTING 6985 before reading done reading WAYNE load raw data , time = 84.55458009243011 ATTN ifrq ipol ln 0 3 15176 8.000000 IPOL, ITOP nblock 3 0 3 WAYNE Motion comp. coeff. calculated, time = 1.1811017990112305E-02 TESTING 0.0000000E+00 -37.07550 0.3170763 WAYNE Motion comp. added to patch, time = 19.28672707080841 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 1.9623041152954102E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -37.07550 0.3170763 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -5.7757902E-03 1.7326901E-02 WAYNE Azimuth compression done, time = 347.5036129951477 Writing 4192 lines of data to file WAYNE write ou PROCESSING KID# 7 ..... WAYNE IS IN Processing 23 to 25 by # 6 Processing block number 23 WAYNE PATCHES: 76825 85016 patch# 23 reference line: 80920 3.714 seconds. before reading done reading WAYNE load raw data , time = 56.19293999671936 ATTN ifrq ipol ln 0 3 85016 8.000000 IPOL, ITOP nblock 3 0 23 WAYNE Motion comp. coeff. calculated, time = 1.2204051017761230E-02 WAYNE Motion comp. added to patch, time = 19.72035002708435 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.7300119400024414E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 350.2884719371796 Writing 4192 lines of data to file WAYNE write output data 20.36741006374359 ==w out 23 0 2001 0 WAYNE PROCESS 446.5858269929886 Processing block number 24 WAYNE PATCHES: 80317 88508 patch# 24 reference line: 84412 450.300 seconds. before reading done reading WAYNE load raw data , time = 78.06593406200409 ATTN ifrq ipol ln 0 3 88508 8.000000 IPOL, ITOP nblock 3 0 24 WAYNE Motion comp. coeff. calculated, time = 1.1761069297790527E-02 WAYNE Motion comp. added to patch, time = 18.78634798526764 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 7.0477962493896484E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 349.2864710092545 Writing 4192 lines of data to file WAYNE write output data 16.70736193656921 ==w out 24 4192 2001 85852160 WAYNE PROCESS 462.9302849769592 Processing block number 25 WAYNE PATCHES: 83809 92000 patch# 25 reference line: 87904 913.231 seconds. before reading done reading WAYNE load raw data , time = 80.92763102054596 ATTN ifrq ipol ln 0 3 92000 8.000000 IPOL, ITOP nblock 3 0 25 WAYNE Motion comp. coeff. calculated, time = 1.1837005615234375E-02 WAYNE Motion comp. added to patch, time = 18.24231898784637 WAYNE Doppler estimation done, time = 1.3947486877441406E-05 WAYNE write deskew done, time = 2.8385996818542480E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 349.2761920690536 Writing 4192 lines of data to file WAYNE write output data 13.28065598011017 ==w out 25 8384 2001 171704320 WAYNE PROCESS 461.7686020135880 ==w out 26 12579 PROCESSING KID# 3 ..... WAYNE IS IN Processing 9 to 12 by # 2 Processing block number 9 WAYNE PATCHES: 27937 36128 patch# 9 reference line: 32032 3.645 seconds. before reading done reading WAYNE load raw data , time = 56.09828102588654 ATTN ifrq ipol ln 0 3 36128 8.000000 IPOL, ITOP nblock 3 0 9 WAYNE Motion comp. coeff. calculated, time = 1.2120008468627930E-02 WAYNE Motion comp. added to patch, time = 20.46132707595825 WAYNE Doppler estimation done, time = 1.4066696166992188E-05 WAYNE write deskew done, time = 4.1199922561645508E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 350.1401649713516 Writing 4192 lines of data to file WAYNE write output data 20.95737791061401 ==w out 9 0 2001 0 WAYNE PROCESS 447.6753239631653 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 451.321 seconds. before reading done reading WAYNE load raw data , time = 76.56022894382477 ATTN ifrq ipol ln 0 3 39620 8.000000 IPOL, ITOP nblock 3 0 10 WAYNE Motion comp. coeff. calculated, time = 1.1922001838684082E-02 WAYNE Motion comp. added to patch, time = 19.21963191032410 WAYNE Doppler estimation done, time = 1.4066696166992188E-05 WAYNE write deskew done, time = 2.8902053833007813E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 349.8231830596924 Writing 4192 lines of data to file WAYNE write output data 21.17091894149780 ==w out 10 4192 2001 85852160 WAYNE PROCESS 466.8167279958725 Processing block number 11 WAYNE PATCHES: 34921 43112 patch# 11 reference line: 39016 918.138 seconds. before reading done reading WAYNE load raw data , time = 75.57894194126129 ATTN ifrq ipol ln 0 3 43112 8.000000 IPOL, ITOP nblock 3 0 11 WAYNE Motion comp. coeff. calculated, time = 1.1758923530578613E-02 WAYNE Motion comp. added to patch, time = 18.48021101951599 WAYNE Doppler estimation done, time = 1.1920928955078125E-05 WAYNE write deskew done, time = 3.1937956809997559E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.7076890468597 Writing 4192 lines of data to file WAYNE write output data 13.67558193206787 ==w out 11 8384 2001 171704320 WAYNE PROCESS 456.4876660108566 Processing block number 12 WAYNE PATCHES: 38413 46604 patch# 12 reference line: 42508 1374.626 seconds. before reading done reading WAYNE load raw data , time = 76.49682998657227 ATTN ifrq ipol ln 0 3 46604 8.000000 IPOL, ITOP nblock 3 0 12 WAYNE Motion comp. coeff. calculated, time = 1.1394023895263672E-02 WAYNE Motion comp. added to patch, time = 16.32698094844818 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.5600194931030273E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migrati PROCESSING KID# 2 ..... WAYNE IS IN Processing 5 to 8 by # 1 Processing block number 5 WAYNE PATCHES: 13969 22160 patch# 5 reference line: 18064 3.633 seconds. before reading done reading WAYNE load raw data , time = 54.78860402107239 ATTN ifrq ipol ln 0 3 22160 8.000000 IPOL, ITOP nblock 3 0 5 WAYNE Motion comp. coeff. calculated, time = 4.3632030487060547E-02 WAYNE Motion comp. added to patch, time = 19.74718701839447 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.6270151138305664E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.5069509744644 Writing 4192 lines of data to file WAYNE write output data 2.166728019714355 ==w out 5 0 2001 0 WAYNE PROCESS 425.2572489976883 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 428.891 seconds. before reading done reading WAYNE load raw data , time = 102.0724999904633 ATTN ifrq ipol ln 0 3 25652 8.000000 IPOL, ITOP nblock 3 0 6 WAYNE Motion comp. coeff. calculated, time = 1.2337923049926758E-02 WAYNE Motion comp. added to patch, time = 20.33653199672699 WAYNE Doppler estimation done, time = 1.8000602722167969E-05 WAYNE write deskew done, time = 6.5930962562561035E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.7677021026611 Writing 4192 lines of data to file WAYNE write output data 16.40518999099731 ==w out 6 4192 2001 85852160 WAYNE PROCESS 486.6623669862747 Processing block number 7 WAYNE PATCHES: 20953 29144 patch# 7 reference line: 25048 915.554 seconds. before reading done reading WAYNE load raw data , time = 78.56861305236816 ATTN ifrq ipol ln 0 3 29144 8.000000 IPOL, ITOP nblock 3 0 7 WAYNE Motion comp. coeff. calculated, time = 1.1783957481384277E-02 WAYNE Motion comp. added to patch, time = 18.88102507591248 WAYNE Doppler estimation done, time = 1.5020370483398438E-05 WAYNE write deskew done, time = 3.5287022590637207E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.5711419582367 Writing 4192 lines of data to file WAYNE write output data 13.70466101169586 ==w out 7 8384 2001 171704320 WAYNE PROCESS 458.7743240594864 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 1374.328 seconds. before reading done reading WAYNE load raw data , time = 77.01014006137848 ATTN ifrq ipol ln 0 3 32636 8.000000 IPOL, ITOP nblock 3 0 8 WAYNE Motion comp. coeff. calculated, time = 1.1403918266296387E-02 WAYNE Motion comp. added to patch, time = 16.96081697940826 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.4189949035644531E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migrati PROCESSING KID# 4 ..... WAYNE IS IN Processing 13 to 16 by # 3 Processing block number 13 WAYNE PATCHES: 41905 50096 patch# 13 reference line: 46000 3.661 seconds. before reading done reading WAYNE load raw data , time = 57.31920206546783 ATTN ifrq ipol ln 0 3 50096 8.000000 IPOL, ITOP nblock 3 0 13 WAYNE Motion comp. coeff. calculated, time = 1.2153029441833496E-02 WAYNE Motion comp. added to patch, time = 19.84382104873657 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.7379989624023438E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.6412359476089 Writing 4192 lines of data to file WAYNE write output data 19.67876195907593 ==w out 13 0 2001 0 WAYNE PROCESS 445.4995900392532 Processing block number 14 WAYNE PATCHES: 45397 53588 patch# 14 reference line: 49492 449.161 seconds. before reading done reading WAYNE load raw data , time = 80.85040497779846 ATTN ifrq ipol ln 0 3 53588 8.000000 IPOL, ITOP nblock 3 0 14 WAYNE Motion comp. coeff. calculated, time = 1.1709094047546387E-02 WAYNE Motion comp. added to patch, time = 19.01806402206421 WAYNE Doppler estimation done, time = 2.3007392883300781E-05 WAYNE write deskew done, time = 3.1113982200622559E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.1686309576035 Writing 4192 lines of data to file WAYNE write output data 20.88286697864532 ==w out 14 4192 2001 85852160 WAYNE PROCESS 468.9650069475174 Processing block number 15 WAYNE PATCHES: 48889 57080 patch# 15 reference line: 52984 918.126 seconds. before reading done reading WAYNE load raw data , time = 77.65342700481415 ATTN ifrq ipol ln 0 3 57080 8.000000 IPOL, ITOP nblock 3 0 15 WAYNE Motion comp. coeff. calculated, time = 1.1763930320739746E-02 WAYNE Motion comp. added to patch, time = 18.60213196277618 WAYNE Doppler estimation done, time = 1.4066696166992188E-05 WAYNE write deskew done, time = 9.9406957626342773E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.5984209775925 Writing 4192 lines of data to file WAYNE write output data 13.57851696014404 ==w out 15 8384 2001 171704320 WAYNE PROCESS 457.5452870130539 Processing block number 16 WAYNE PATCHES: 52381 60572 patch# 16 reference line: 56476 1375.672 seconds. before reading done reading WAYNE load raw data , time = 78.29981195926666 ATTN ifrq ipol ln 0 3 60572 8.000000 IPOL, ITOP nblock 3 0 16 WAYNE Motion comp. coeff. calculated, time = 1.1468052864074707E-02 WAYNE Motion comp. added to patch, time = 16.77345800399780 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.4240016937255859E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migratitput data 1.609458923339844 ==w out 3 8384 2001 171704320 WAYNE PROCESS 452.9878389835358 Processing block number 4 TESTING WHY -5.3123902E-03 1.7652800E-02 3492 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 1366.147 seconds. TESTING 10477 before reading done reading WAYNE load raw data , time = 83.26857495307922 ATTN ifrq ipol ln 0 3 18668 8.000000 IPOL, ITOP nblock 3 0 4 WAYNE Motion comp. coeff. calculated, time = 1.1242985725402832E-02 TESTING 0.0000000E+00 -32.53371 -0.3230651 WAYNE Motion comp. added to patch, time = 16.78769803047180 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 2.4100542068481445E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -32.53371 -0.3230651 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -5.3123902E-03 1.7652800E-02 WAYNE Azimuth compression done, time = 268.8031849861145 Writing 4192 lines of data to file WAYNE write output data 1.648011088371277 ==w out 4 12576 2001 257556480 WAYNE PROCESS 370.5224250555038 ==w out 5 16771 on lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 267.8712359666824 Writing 4192 lines of data to file WAYNE write output data 1.771995067596436 ==w out 8 12576 2001 257556480 WAYNE PROCESS 363.6295230388641 ==w out 9 16771 on lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 269.1787139177322 Writing 4192 lines of data to file WAYNE write output data 1.752749919891357 ==w out 12 12576 2001 257556480 WAYNE PROCESS 363.7706369161606 ==w out 13 16771 on lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 266.6140400171280 Writing 4192 lines of data to file WAYNE write output data 1.725713968276978 ==w out 16 12576 2001 257556480 WAYNE PROCESS 363.4281179904938 ==w out 17 16771 1 15758773 0 2 15758907 0 3 15759610 0 4 15753601 0 5 15759458 0 6 15758940 0 7 15757029 0 8 15760398 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 117376kids= 8 Writing variable header... gather image from processor # 0 4 gather image from processor # 1 4 gather image from processor # 2 4 gather image from processor # 3 4 gather image from processor # 4 3 gather image from processor # 5 3 gather image from processor # 6 3 gather image from processor # 7 3 WAYNE gather images takes: 0.2266680002212524 WAYNE LOOP TIME: 1744.229131102562 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air32/airops/1400/ts1400_p.vh_j /export/air36/airops/1400/ts1400_p.mocompv /export/air36/airops/1400/ts1400_p.dop /export/air36/airops/1400/ts1400_p.glb 2560 100000 100000 update intf hdr ha: 8367.900 UPDATE: 2560 100000 3.331000 0.5144000 1 18822709 18822709 mocompfile /export/air36/airops/1400/ts1400_p.mocompv dopfile /export/air36/airops/1400/ts1400_p.dop globalfile /export/air36/airops/1400/ts1400_p.glb /export/air36/airops/1400/ts1400_p.glb 38 deskew line ra ha trc: 128.5260 249 9042.366 8367.900 54.57177 after deskew line ra ha trc: 128.5260 249 9042.366 8367.900 54.57177 lat1 lon1: 249 4.813068 114.7795 100000 last ra n_ns ns: 9042.366 1 1 100248 100000 lati loni: 100248 5.082698 115.1903 100248 1 center ra n_ns ns: 13302.71 1280 1280 50248 100000 lati loni: 50248 4.979404 114.9627 50248 2560 Updated paramater header in /export/air32/airops/1400/ts1400_p.vh_j WAYNE FINAL PROCESS 1747.803866982460 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 8 16768 4 16768 4 16768 4 16768 4 12576 3 12576 3 12576 3 12576 3 Name of data file to be deskewed? /export/air32/airops/1400/ts1400_p.vh_j Name of the doppler parameter file? /export/air36/airops/1400/ts1400_p.dop Name of the deskew file? /export/air32/airops/1400/deskew.pv Line up to another frequency [y/n]? y Name of the deskew file to line up to? /export/air32/airops/1400/deskew.ch Enter N_AZ, NA_VALID and the ratio of the pixel spacing of the file to line up to relative to the current pixel spacing. 4096 2208 1.000000 Name of the output file? /export/air36/airops/1400/ts1400_p.vh Name of the line output file? /export/air36/airops/1400/p_lines.dat NONE-SYMMETRIC PARALLEL JOBS Deskewing 28 patches Processing block number 1 patch iptc,sj,dgj,dgi,id: 1 1041 98 98 0 half line dmj dgc: 0 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1041 1 Zeroing lines in arrays Total # of output lines = 1 1040 1041 3137 0 2096 patch iptc,sj,dgj,dgi,id: 1 3137 98 98 2096 half line dmj dgc: 1 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3137 1041 Zeroing lines in arrays Total # of output lines = 1 3136 Processing block number 2 3137 4528 -5 1396 patch iptc,sj,dgj,dgi,id: 2 4528 93 98 1396 half line dmj dgc: 0 5493 243 114 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 4528 3137 Zeroing lines in arrays Total # of output lines = 2 4527 4528 6624 0 2096 patch iptc,sj,dgj,dgi,id: 2 6624 93 93 2096 half line dmj dgc: 1 5493 243 114 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 6624 4528 Zeroing lines in arrays Total # of output lines = 2 6623 Processing block number 3 6624 8035 15 1396 patch iptc,sj,dgj,dgi,id: 3 8035 108 93 1396 half line dmj dgc: 0 8985 243 114 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 8035 6624 Zeroing lines in arrays Total # of output lines = 3 8034 8035 10131 0 2096 patch iptc,sj,dgj,dgi,id: 3 10131 108 108 2096 half line dmj dgc: 1 8985 243 114 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 10131 8035 Zeroing lines in arrays Total # of output lines = 3 10130 Processing block number 4 10131 11546 19 1396 patch iptc,sj,dgj,dgi,id: 4 11546 127 108 1396 half line dmj dgc: 0 12477 251 114 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 11546 10131 Zeroing lines in arrays Total # of output lines = 4 11545 11546 13642 0 2096 patch iptc,sj,dgj,dgi,id: 4 13642 127 127 2096 half line dmj dgc: 1 12477 251 114 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 sj>s1: 13642 11546 Zeroing lines in arrays Total # of output lines = 4 13641 Processing block number 5 13642 15008 -30 1396 patch iptc,sj,dgj,dgi,id: 5 15008 97 127 1396 half line dmj dgc: 0 15969 251 114 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 15008 13642 Zeroing lines in arrays Total # of output lines = 5 15007 15008 17104 0 2096 patch iptc,sj,dgj,dgi,id: 5 720 97 97 2096 half line dmj dgc: 1 15969 251 114 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 s1>sj: 15008 720 Zeroing lines in arrays Total # of output lines = 5 17103 Processing block number 6 720 2050 -66 1396 patch iptc,sj,dgj,dgi,id: 6 2050 31 97 1396 half line dmj dgc: 0 19461 242 114 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 2050 720 Zeroing lines in arrays Total # of output lines = 6 18433 2050 4146 0 2096 patch iptc,sj,dgj,dgi,id: 6 4146 31 31 2096 half line dmj dgc: 1 19461 242 114 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 4146 2050 Zeroing lines in arrays Total # of output lines = 6 20529 Processing block number 7 4146 5525 -17 1396 patch iptc,sj,dgj,dgi,id: 7 5525 14 31 1396 half line dmj dgc: 0 22953 241 114 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 5525 4146 Zeroing lines in arrays Total # of output lines = 7 21908 5525 7621 0 2096 patch iptc,sj,dgj,dgi,id: 7 7621 14 14 2096 half line dmj dgc: 1 22953 241 114 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 7621 5525 Zeroing lines in arrays Total # of output lines = 7 24004 Processing block number 8 7621 9046 29 1396 patch iptc,sj,dgj,dgi,id: 8 9046 43 14 1396 half line dmj dgc: 0 26445 249 114 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 sj>s1: 9046 7621 Zeroing lines in arrays Total # of output lines = 8 25429 9046 11142 0 2096 patch iptc,sj,dgj,dgi,id: 8 11142 43 43 2096 half line dmj dgc: 1 26445 249 114 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 sj>s1: 11142 9046 Zeroing lines in arrays Total # of output lines = 8 27525 Processing block number 9 11142 12562 24 1396 patch iptc,sj,dgj,dgi,id: 9 12562 67 43 1396 half line dmj dgc: 0 29937 255 114 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 12562 11142 Zeroing lines in arrays Total # of output lines = 9 28945 12562 14658 0 2096 patch iptc,sj,dgj,dgi,id: 9 14658 67 67 2096 half line dmj dgc: 1 29937 255 114 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 14658 12562 Zeroing lines in arrays Total # of output lines = 9 31041 Processing block number 10 14658 16072 18 1396 patch iptc,sj,dgj,dgi,id: 10 16072 85 67 1396 half line dmj dgc: 0 33429 255 114 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 16072 14658 Zeroing lines in arrays Total # of output lines = 10 32455 16072 18168 0 2096 patch iptc,sj,dgj,dgi,id: 10 1784 85 85 2096 half line dmj dgc: 1 33429 255 114 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 s1>sj: 16072 1784 Zeroing lines in arrays Total # of output lines = 10 34551 Processing block number 11 1784 3217 37 1396 patch iptc,sj,dgj,dgi,id: 11 3217 122 85 1396 half line dmj dgc: 0 36921 260 114 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 3217 1784 Zeroing lines in arrays Total # of output lines = 11 35984 3217 5313 0 2096 patch iptc,sj,dgj,dgi,id: 11 5313 122 122 2096 half line dmj dgc: 1 36921 260 114 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 sj>s1: 5313 3217 Zeroing lines in arrays Total # of output lines = 11 38080 Processing block number 12 5313 6728 19 1396 patch iptc,sj,dgj,dgi,id: 12 6728 141 122 1396 half line dmj dgc: 0 40413 269 114 Actual deskew ireclen: 20480 ** 12 2096 0 48208 Writing data negflag .eq. 0 sj>s1: 6728 5313 Zeroing lines in arrays Total # of output lines = 12 39495 6728 8824 0 2096 patch iptc,sj,dgj,dgi,id: 12 8824 141 141 2096 half line dmj dgc: 1 40413 269 114 Actual deskew ireclen: 20480 ** 12 2096 1 50304 Writing data negflag .eq. 0 sj>s1: 8824 6728 Zeroing lines in arrays Total # of output lines = 12 41591 Processing block number 13 8824 10226 6 1396 patch iptc,sj,dgj,dgi,id: 13 10226 147 141 1396 half line dmj dgc: 0 43905 276 114 Actual deskew ireclen: 20480 ** 13 2096 0 52400 Writing data negflag .eq. 0 sj>s1: 10226 8824 Zeroing lines in arrays Total # of output lines = 13 42993 10226 12322 0 2096 patch iptc,sj,dgj,dgi,id: 13 12322 147 147 2096 half line dmj dgc: 1 43905 276 114 Actual deskew ireclen: 20480 ** 13 2096 1 54496 Writing data negflag .eq. 0 sj>s1: 12322 10226 Zeroing lines in arrays Total # of output lines = 13 45089 Processing block number 14 12322 13761 43 1396 patch iptc,sj,dgj,dgi,id: 14 13761 190 147 1396 half line dmj dgc: 0 47397 286 114 Actual deskew ireclen: 20480 ** 14 2096 0 56592 Writing data negflag .eq. 0 sj>s1: 13761 12322 Zeroing lines in arrays Total # of output lines = 14 46528 13761 15857 0 2096 patch iptc,sj,dgj,dgi,id: 14 15857 190 190 2096 half line dmj dgc: 1 47397 286 114 Actual deskew ireclen: 20480 ** 14 2096 1 58688 Writing data negflag .eq. 0 sj>s1: 15857 13761 Zeroing lines in arrays Total # of output lines = 14 48624 Processing block number 15 15857 17263 10 1396 patch iptc,sj,dgj,dgi,id: 15 879 200 190 1396 half line dmj dgc: 0 50889 286 114 Actual deskew ireclen: 20480 ** 15 2096 0 60784 Writing data negflag .eq. 0 s1>sj: 15857 879 Zeroing lines in arrays Total # of output lines = 15 50030 879 2975 0 2096 patch iptc,sj,dgj,dgi,id: 15 2975 200 200 2096 half line dmj dgc: 1 50889 286 114 Actual deskew ireclen: 20480 ** 15 2096 1 62880 Writing data negflag .eq. 0 sj>s1: 2975 879 Zeroing lines in arrays Total # of output lines = 15 52126 Processing block number 16 2975 4377 6 1396 patch iptc,sj,dgj,dgi,id: 16 4377 206 200 1396 half line dmj dgc: 0 54381 277 114 Actual deskew ireclen: 20480 ** 16 2096 0 64976 Writing data negflag .eq. 0 sj>s1: 4377 2975 Zeroing lines in arrays Total # of output lines = 16 53528 4377 6473 0 2096 patch iptc,sj,dgj,dgi,id: 16 6473 206 206 2096 half line dmj dgc: 1 54381 277 114 Actual deskew ireclen: 20480 ** 16 2096 1 67072 Writing data negflag .eq. 0 sj>s1: 6473 4377 Zeroing lines in arrays Total # of output lines = 16 55624 Processing block number 17 6473 7900 31 1396 patch iptc,sj,dgj,dgi,id: 17 7900 237 206 1396 half line dmj dgc: 0 57873 276 114 Actual deskew ireclen: 20480 ** 17 2096 0 69168 Writing data negflag .eq. 0 sj>s1: 7900 6473 Zeroing lines in arrays Total # of output lines = 17 57051 7900 9996 0 2096 patch iptc,sj,dgj,dgi,id: 17 9996 237 237 2096 half line dmj dgc: 1 57873 276 114 Actual deskew ireclen: 20480 ** 17 2096 1 71264 Writing data negflag .eq. 0 sj>s1: 9996 7900 Zeroing lines in arrays Total # of output lines = 17 59147 Processing block number 18 9996 11451 59 1396 patch iptc,sj,dgj,dgi,id: 18 11451 296 237 1396 half line dmj dgc: 0 61365 298 114 Actual deskew ireclen: 20480 ** 18 2096 0 73360 Writing data negflag .eq. 0 sj>s1: 11451 9996 Zeroing lines in arrays Total # of output lines = 18 60602 11451 13547 0 2096 patch iptc,sj,dgj,dgi,id: 18 13547 296 296 2096 half line dmj dgc: 1 61365 298 114 Actual deskew ireclen: 20480 ** 18 2096 1 75456 Writing data negflag .eq. 0 sj>s1: 13547 11451 Zeroing lines in arrays Total # of output lines = 18 62698 Processing block number 19 13547 14936 -7 1396 patch iptc,sj,dgj,dgi,id: 19 14936 289 296 1396 half line dmj dgc: 0 64857 293 114 Actual deskew ireclen: 20480 ** 19 2096 0 77552 Writing data negflag .eq. 0 sj>s1: 14936 13547 Zeroing lines in arrays Total # of output lines = 19 64087 14936 17032 0 2096 patch iptc,sj,dgj,dgi,id: 19 648 289 289 2096 half line dmj dgc: 1 64857 293 114 Actual deskew ireclen: 20480 ** 19 2096 1 79648 Writing data negflag .eq. 0 s1>sj: 14936 648 Zeroing lines in arrays Total # of output lines = 19 66183 Processing block number 20 648 2015 -29 1396 patch iptc,sj,dgj,dgi,id: 20 2015 260 289 1396 half line dmj dgc: 0 68349 279 114 Actual deskew ireclen: 20480 ** 20 2096 0 81744 Writing data negflag .eq. 0 sj>s1: 2015 648 Zeroing lines in arrays Total # of output lines = 20 67550 2015 4111 0 2096 patch iptc,sj,dgj,dgi,id: 20 4111 260 260 2096 half line dmj dgc: 1 68349 279 114 Actual deskew ireclen: 20480 ** 20 2096 1 83840 Writing data negflag .eq. 0 sj>s1: 4111 2015 Zeroing lines in arrays Total # of output lines = 20 69646 Processing block number 21 4111 5541 34 1396 patch iptc,sj,dgj,dgi,id: 21 5541 294 260 1396 half line dmj dgc: 0 71841 300 114 Actual deskew ireclen: 20480 ** 21 2096 0 85936 Writing data negflag .eq. 0 sj>s1: 5541 4111 Zeroing lines in arrays Total # of output lines = 21 71076 5541 7637 0 2096 patch iptc,sj,dgj,dgi,id: 21 7637 294 294 2096 half line dmj dgc: 1 71841 300 114 Actual deskew ireclen: 20480 ** 21 2096 1 88032 Writing data negflag .eq. 0 sj>s1: 7637 5541 Zeroing lines in arrays Total # of output lines = 21 73172 Processing block number 22 7637 9056 23 1396 patch iptc,sj,dgj,dgi,id: 22 9056 317 294 1396 half line dmj dgc: 0 75333 330 114 Actual deskew ireclen: 20480 ** 22 2096 0 90128 Writing data negflag .eq. 0 sj>s1: 9056 7637 Zeroing lines in arrays Total # of output lines = 22 74591 9056 11152 0 2096 patch iptc,sj,dgj,dgi,id: 22 11152 317 317 2096 half line dmj dgc: 1 75333 330 114 Actual deskew ireclen: 20480 ** 22 2096 1 92224 Writing data negflag .eq. 0 sj>s1: 11152 9056 Zeroing lines in arrays Total # of output lines = 22 76687 Processing block number 23 11152 12510 -38 1396 patch iptc,sj,dgj,dgi,id: 23 12510 279 317 1396 half line dmj dgc: 0 78825 308 114 Actual deskew ireclen: 20480 ** 23 2096 0 94320 Writing data negflag .eq. 0 sj>s1: 12510 11152 Zeroing lines in arrays Total # of output lines = 23 78045 12510 14606 0 2096 patch iptc,sj,dgj,dgi,id: 23 14606 279 279 2096 half line dmj dgc: 1 78825 308 114 Actual deskew ireclen: 20480 ** 23 2096 1 96416 Writing data negflag .eq. 0 sj>s1: 14606 12510 Zeroing lines in arrays Total # of output lines = 23 80141 Processing block number 24 14606 15942 -60 1396 patch iptc,sj,dgj,dgi,id: 24 15942 219 279 1396 half line dmj dgc: 0 82317 284 114 Actual deskew ireclen: 20480 ** 24 2096 0 98512 Writing data negflag .eq. 0 sj>s1: 15942 14606 Zeroing lines in arrays Total # of output lines = 24 81477 15942 18038 0 2096 patch iptc,sj,dgj,dgi,id: 24 1654 219 219 2096 half line dmj dgc: 1 82317 284 114 Actual deskew ireclen: 20480 ** 24 2096 1 100608 Writing data negflag .eq. 0 s1>sj: 15942 1654 Zeroing lines in arrays Total # of output lines = 24 83573 Processing block number 25 1654 3047 -3 1396 patch iptc,sj,dgj,dgi,id: 25 3047 216 219 1396 half line dmj dgc: 0 85809 279 114 Actual deskew ireclen: 20480 ** 25 2096 0 102704 Writing data negflag .eq. 0 sj>s1: 3047 1654 Zeroing lines in arrays Total # of output lines = 25 84966 3047 5143 0 2096 patch iptc,sj,dgj,dgi,id: 25 5143 216 216 2096 half line dmj dgc: 1 85809 279 114 Actual deskew ireclen: 20480 ** 25 2096 1 104800 Writing data negflag .eq. 0 sj>s1: 5143 3047 Zeroing lines in arrays Total # of output lines = 25 87062 Processing block number 26 5143 6581 42 1396 patch iptc,sj,dgj,dgi,id: 26 6581 258 216 1396 half line dmj dgc: 0 89301 297 114 Actual deskew ireclen: 20480 ** 26 2096 0 106896 Writing data negflag .eq. 0 sj>s1: 6581 5143 Zeroing lines in arrays Total # of output lines = 26 88500 6581 8677 0 2096 patch iptc,sj,dgj,dgi,id: 26 8677 258 258 2096 half line dmj dgc: 1 89301 297 114 Actual deskew ireclen: 20480 ** 26 2096 1 108992 Writing data negflag .eq. 0 sj>s1: 8677 6581 Zeroing lines in arrays Total # of output lines = 26 90596 Processing block number 27 8677 10067 -6 1396 patch iptc,sj,dgj,dgi,id: 27 10067 252 258 1396 half line dmj dgc: 0 92793 306 114 Actual deskew ireclen: 20480 ** 27 2096 0 111088 Writing data negflag .eq. 0 sj>s1: 10067 8677 Zeroing lines in arrays Total # of output lines = 27 91986 10067 12163 0 2096 patch iptc,sj,dgj,dgi,id: 27 12163 252 252 2096 half line dmj dgc: 1 92793 306 114 Actual deskew ireclen: 20480 ** 27 2096 1 113184 Writing data negflag .eq. 0 sj>s1: 12163 10067 Zeroing lines in arrays Total # of output lines = 27 94082 Processing block number 28 12163 11063 -19 -1081 patch iptc,sj,dgj,dgi,id: 28 11063 233 252 -1081 half line dmj dgc: 0 93808 312 114 Actual deskew ireclen: 20480 ** 28 2096 0 115280 Zeroing lines in arrays Total # of output lines = 28 94082 12163 13159 0 2096 patch iptc,sj,dgj,dgi,id: 28 13159 233 233 2096 half line dmj dgc: 1 93808 312 114 Actual deskew ireclen: 20480 ** 28 2096 1 117376 Writing data negflag .eq. 0 sj>s1: 13159 12163 Zeroing lines in arrays Total # of output lines = 28 95078 ia dmi dgi: 13159 312 233 Writing the last 2175 lines last half sj>s1 15334 13159 95078 Total # of output lines = 97253 Writing new header.. Closing files .. ileni= 39 ilend= 35 /export/air32/airops/1400/ts1400_p.vh_j.0 /export/air32/airops/1400/deskew.pv.0 /export/air32/airops/1400/ts1400_p.vh_j.1 /export/air32/airops/1400/deskew.pv.1 /export/air32/airops/1400/ts1400_p.vh_j.2 /export/air32/airops/1400/deskew.pv.2 /export/air32/airops/1400/ts1400_p.vh_j.3 /export/air32/airops/1400/deskew.pv.3 /export/air32/airops/1400/ts1400_p.vh_j.4 /export/air32/airops/1400/deskew.pv.4 /export/air32/airops/1400/ts1400_p.vh_j.5 /export/air32/airops/1400/deskew.pv.5 /export/air32/airops/1400/ts1400_p.vh_j.6 /export/air32/airops/1400/deskew.pv.6 /export/air32/airops/1400/ts1400_p.vh_j.7 /export/air32/airops/1400/deskew.pv.7 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 6.35 ***** ***** ***** ********************************************* Enter L-band flag (1) otherwise for C-band: 1 AZ patch size: 8192 What is the desired az fract (def=1.0)? fract #: 0.0000000E+00 Please enter the name of the sensor file. /export/air32/airops/1400/sensor.pp Please enter the name of the parameter file /export/air36/airops/1400/ts1400_p.par hddt: 96068 dx 0.5144400 1.000000 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 100000 lines Keeping 4192 data points per patch Near range (m) = 9040.540 Slant range pixel spacing (m) = 3.331027 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 3.500000 Radar wavelength (m) = 0.7012700 ADC sampling frequency (MHz) = 90.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 40.00000 Ashift = -3.550000 Range weighting coefficient = 0.1000000 Map height (m) = 78.60000 Transmit leverarm x,y,z = 2.030000 0.5300000 -0.2200000 Receive leverarm x,y,z = 2.030000 0.5300000 -0.2200000 Name of raw data file? /export/air32/airops/1400/p_vv Name of the mocomp data file? /export/air36/airops/1400/ts1400_p.mocompv Output file name w/o ext? /export/air36/airops/1400/ts1400_p Choose an extension for the output file: (1) HH (2) HV (3) VH (4) VV (5) TP (6) BT Enter the 2 letter extension. vv Raw DIR Path:/export/air32/airops/1400/ output filename: /export/air32/airops/1400/ts1400_p.vv_j *** ipol itop: 4 0 Read Doppler parameters & global line from a file? 0 = No, 1 = Yes 1 Use Doppler tracker (0) or INU (1)? 1 Name of the deskew file? /export/air32/airops/1400/deskew.pv WAYNE init fft, calc slant range, load unpack, interpo 1.5494000E-02 reading motion compensation data WAYNE read motion compen 2.356503 write parameters ... bw f0 fc fslp dt npts pul: 40.00000 2.500000 22.50000 4.000000 1.1111111E-02 900 10.00000 AnalogChirp>96032Br,fs,T,fc 96068 40.00000 22.50000 90.00000 10.00000 deltaphase -ashift: 5.4456317E-03 3.550000 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.7509880 start range comp, time = 3.427 WAYNE PREV 3.140059 NUMBER OF PROCESSOR USED = 8 POINTER 274877909344 274877974880 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 8 ..... WAYNE IS IN Processing 26 to 28 by # 7 Processing block number 26 WAYNE PATCHES: 87301 95492 patch# 26 reference line: 91396 3.752 seconds. before reading done reading WAYNE load raw data , time = 56.84041297435760 ATTN ifrq ipol ln 0 4 95492 14.00000 IPOL, ITOP nblock 4 0 26 WAYNE Motion comp. coeff. calculated, time = 1.2113928794860840E-02 WAYNE Motion comp. added to patch, time = 19.14396107196808 WAYNE Doppler estimation done, time = 1.4066696166992188E-05 WAYNE write deskew done, time = 2.6090145111083984E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.0333540439606 Writing 4192 lines of data to file WAYNE write output data 21.14751994609833 ==w out 26 0 2001 0 WAYNE PROCESS 444.1816359758377 Processing block number 27 WAYNE PATCHES: 90793 98984 patch# 27 reference line: 94888 447.934 seconds. before reading done reading WAYNE load raw data , time = 80.79677200317383 ATTN ifrq ipol ln 0 4 98984 14.00000 IPOL, ITOP nblock 4 0 27 WAYNE Motion comp. coeff. calculated, time = 1.1846899986267090E-02 WAYNE Motion comp. added to patch, time = 18.25024795532227 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 5.9692025184631348E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.7713320255280 Writing 4192 lines of data to file WAYNE write output data 2.096099019050598 ==w out 27 4192 2001 85852160 WAYNE PROCESS 448.9879939556122 Processing block number 28 WAYNE PATCHES: 91808 99999 patch# 28 reference line: 95903 896.922 seconds. before reading done reading WAYNE load raw data , time = 100.8299529552460 ATTN ifrq ipol ln 0 4 99999 14.00000 IPOL, ITOP nblock 4 0 28 WAYNE Motion comp. coeff. calculated, time = 1.1881947517395020E-02 WAYNE Motion comp. added to patch, time = 18.59246397018433 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 4.2039990425109863E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.6616410017014 Writing 4192 lines of data to file WAYNE write output data 2.088231086730957 ==w out 28 8384 2001 171704320 WAYNE PROCESS 468.2277140617371 ==w out 29 12579 PROCESSING KID# 6 ..... WAYNE IS IN Processing 20 to 22 by # 5 Processing block number 20 WAYNE PATCHES: 66349 74540 patch# 20 reference line: 70444 3.716 seconds. before reading done reading WAYNE load raw data , time = 56.83801901340485 ATTN ifrq ipol ln 0 4 74540 14.00000 IPOL, ITOP nblock 4 0 20 WAYNE Motion comp. coeff. calculated, time = 1.2002944946289063E-02 WAYNE Motion comp. added to patch, time = 19.37575995922089 WAYNE Doppler estimation done, time = 1.3113021850585938E-05 WAYNE write deskew done, time = 2.7239322662353516E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.5169090032578 Writing 4192 lines of data to file WAYNE write output data 2.291136980056763 ==w out 20 0 2001 0 WAYNE PROCESS 424.0383229255676 Processing block number 21 WAYNE PATCHES: 69841 78032 patch# 21 reference line: 73936 427.754 seconds. before reading done reading WAYNE load raw data , time = 98.85815799236298 ATTN ifrq ipol ln 0 4 78032 14.00000 IPOL, ITOP nblock 4 0 21 WAYNE Motion comp. coeff. calculated, time = 1.2029886245727539E-02 WAYNE Motion comp. added to patch, time = 19.67420196533203 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 8.0500960350036621E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.7245180606842 Writing 4192 lines of data to file WAYNE write output data 17.83620393276215 ==w out 21 4192 2001 85852160 WAYNE PROCESS 485.1876339912415 Processing block number 22 WAYNE PATCHES: 73333 81524 patch# 22 reference line: 77428 912.942 seconds. before reading done reading WAYNE load raw data , time = 85.35108292102814 ATTN ifrq ipol ln 0 4 81524 14.00000 IPOL, ITOP nblock 4 0 22 WAYNE Motion comp. coeff. calculated, time = 1.1735916137695313E-02 WAYNE Motion comp. added to patch, time = 18.88269400596619 WAYNE Doppler estimation done, time = 1.1920928955078125E-05 WAYNE write deskew done, time = 7.0149898529052734E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.0658609867096 Writing 4192 lines of data to file WAYNE write output data 2.066375970840454 ==w out 22 8384 2001 171704320 WAYNE PROCESS 452.3865430355072 ==w out 23 12579 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 4 by # 0 Processing block number 1 TESTING WHY -6.4741098E-03 1.8001201E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 3.641 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 57.24168300628662 ATTN ifrq ipol ln 0 4 8192 14.00000 IPOL, ITOP nblock 4 0 1 WAYNE Motion comp. coeff. calculated, time = 1.1980056762695313E-02 TESTING 0.0000000E+00 -47.83489 0.2210412 WAYNE Motion comp. added to patch, time = 20.07022690773010 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.7879476547241211E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -47.83489 0.2210412 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -6.4741098E-03 1.8001201E-02 WAYNE Azimuth compression done, time = 345.9580210447311 Writing 4192 lines of data to file WAYNE write output data 22.79944503307343 ==w out 1 0 2001 0 WAYNE PROCESS 446.0859129428864 Processing block number 2 TESTING WHY -6.4040902E-03 1.7581699E-02 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 449.728 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 78.22581303119659 ATTN ifrq ipol ln 0 4 11684 14.00000 IPOL, ITOP nblock 4 0 2 WAYNE Motion comp. coeff. calculated, time = 1.1739969253540039E-02 TESTING 0.0000000E+00 -42.32028 0.4159560 WAYNE Motion comp. added to patch, time = 19.22986996173859 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 1.7907977104187012E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -42.32028 0.4159560 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -6.4040902E-03 1.7581699E-02 WAYNE Azimuth compression done, time = 347.8974680900574 Writing 4192 lines of data to file WAYNE write output data 17.90945601463318 ==w out 2 4192 2001 85852160 WAYNE PROCESS 463.2935820817947 Processing block number 3 TESTING WHY -5.7757902E-03 1.7326901E-02 3492 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 913.021 seconds. TESTING 6985 before reading done reading WAYNE load raw data , time = 86.99104607105255 ATTN ifrq ipol ln 0 4 15176 14.00000 IPOL, ITOP nblock 4 0 3 WAYNE Motion comp. coeff. calculated, time = 1.2572050094604492E-02 TESTING 0.0000000E+00 -37.07550 0.3170763 WAYNE Motion comp. added to patch, time = 19.19048297405243 WAYNE Doppler estimation done, time = 1.3947486877441406E-05 WAYNE write deskew done, time = 0.1018589735031128 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -37.07550 0.3170763 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -5.7757902E-03 1.7326901E-02 WAYNE Azimuth compression done, time = 345.8894029855728 Writing 4192 lines of data to file WAYNE write ou PROCESSING KID# 7 ..... WAYNE IS IN Processing 23 to 25 by # 6 Processing block number 23 WAYNE PATCHES: 76825 85016 patch# 23 reference line: 80920 3.730 seconds. before reading done reading WAYNE load raw data , time = 57.55511295795441 ATTN ifrq ipol ln 0 4 85016 14.00000 IPOL, ITOP nblock 4 0 23 WAYNE Motion comp. coeff. calculated, time = 1.2094020843505859E-02 WAYNE Motion comp. added to patch, time = 19.67050302028656 WAYNE Doppler estimation done, time = 1.3947486877441406E-05 WAYNE write deskew done, time = 2.8710365295410156E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.4646929502487 Writing 4192 lines of data to file WAYNE write output data 19.35559499263763 ==w out 23 0 2001 0 WAYNE PROCESS 442.0627239942551 Processing block number 24 WAYNE PATCHES: 80317 88508 patch# 24 reference line: 84412 445.793 seconds. before reading done reading WAYNE load raw data , time = 84.37695097923279 ATTN ifrq ipol ln 0 4 88508 14.00000 IPOL, ITOP nblock 4 0 24 WAYNE Motion comp. coeff. calculated, time = 1.1955022811889648E-02 WAYNE Motion comp. added to patch, time = 18.83389604091644 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 3.0807018280029297E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.7688729763031 Writing 4192 lines of data to file WAYNE write output data 21.42281401157379 ==w out 24 4192 2001 85852160 WAYNE PROCESS 471.4477030038834 Processing block number 25 WAYNE PATCHES: 83809 92000 patch# 25 reference line: 87904 917.241 seconds. before reading done reading WAYNE load raw data , time = 82.65605700016022 ATTN ifrq ipol ln 0 4 92000 14.00000 IPOL, ITOP nblock 4 0 25 WAYNE Motion comp. coeff. calculated, time = 1.2501955032348633E-02 WAYNE Motion comp. added to patch, time = 18.49019503593445 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 1.2319087982177734E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.0140349864960 Writing 4192 lines of data to file WAYNE write output data 16.66398394107819 ==w out 25 8384 2001 171704320 WAYNE PROCESS 463.8506429195404 ==w out 26 12579 PROCESSING KID# 5 ..... WAYNE IS IN Processing 17 to 19 by # 4 Processing block number 17 WAYNE PATCHES: 55873 64064 patch# 17 reference line: 59968 3.703 seconds. before reading done reading WAYNE load raw data , time = 55.81001400947571 ATTN ifrq ipol ln 0 4 64064 14.00000 IPOL, ITOP nblock 4 0 17 WAYNE Motion comp. coeff. calculated, time = 1.2617111206054688E-02 WAYNE Motion comp. added to patch, time = 19.43076503276825 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.7379989624023438E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.8765149116516 Writing 4192 lines of data to file WAYNE write output data 2.289672017097473 ==w out 17 0 2001 0 WAYNE PROCESS 423.4238079786301 Processing block number 18 WAYNE PATCHES: 59365 67556 patch# 18 reference line: 63460 427.127 seconds. before reading done reading WAYNE load raw data , time = 101.9128580093384 ATTN ifrq ipol ln 0 4 67556 14.00000 IPOL, ITOP nblock 4 0 18 WAYNE Motion comp. coeff. calculated, time = 1.3915061950683594E-02 WAYNE Motion comp. added to patch, time = 19.90867698192596 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.1700024604797363E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.2695668935776 Writing 4192 lines of data to file WAYNE write output data 19.27401900291443 ==w out 18 4192 2001 85852160 WAYNE PROCESS 488.4026030302048 Processing block number 19 WAYNE PATCHES: 62857 71048 patch# 19 reference line: 66952 915.530 seconds. before reading done reading WAYNE load raw data , time = 82.88485491275787 ATTN ifrq ipol ln 0 4 71048 14.00000 IPOL, ITOP nblock 4 0 19 WAYNE Motion comp. coeff. calculated, time = 1.2367010116577148E-02 WAYNE Motion comp. added to patch, time = 18.59905099868774 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.6376008987426758E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.4515739679337 Writing 4192 lines of data to file WAYNE write output data 16.84761893749237 ==w out 19 8384 2001 171704320 WAYNE PROCESS 464.8232250213623 ==w out 20 12579 PROCESSING KID# 2 ..... WAYNE IS IN Processing 5 to 8 by # 1 Processing block number 5 WAYNE PATCHES: 13969 22160 patch# 5 reference line: 18064 3.659 seconds. before reading done reading WAYNE load raw data , time = 55.52511608600616 ATTN ifrq ipol ln 0 4 22160 14.00000 IPOL, ITOP nblock 4 0 5 WAYNE Motion comp. coeff. calculated, time = 1.1774063110351563E-02 WAYNE Motion comp. added to patch, time = 19.47399091720581 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.6830434799194336E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 345.4979500770569 Writing 4192 lines of data to file WAYNE write output data 1.958046078681946 ==w out 5 0 2001 0 WAYNE PROCESS 422.4711509943008 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 426.130 seconds. before reading done reading WAYNE load raw data , time = 101.0711010694504 ATTN ifrq ipol ln 0 4 25652 14.00000 IPOL, ITOP nblock 4 0 6 WAYNE Motion comp. coeff. calculated, time = 1.1726975440979004E-02 WAYNE Motion comp. added to patch, time = 19.21621799468994 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 1.4257073402404785E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.3076959848404 Writing 4192 lines of data to file WAYNE write output data 1.979107022285461 ==w out 6 4192 2001 85852160 WAYNE PROCESS 469.6020070314407 Processing block number 7 WAYNE PATCHES: 20953 29144 patch# 7 reference line: 25048 895.733 seconds. before reading done reading WAYNE load raw data , time = 101.8512270450592 ATTN ifrq ipol ln 0 4 29144 14.00000 IPOL, ITOP nblock 4 0 7 WAYNE Motion comp. coeff. calculated, time = 1.5599966049194336E-02 WAYNE Motion comp. added to patch, time = 19.16922605037689 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 5.4659008979797363E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.0376819372177 Writing 4192 lines of data to file WAYNE write output data 2.142627000808716 ==w out 7 8384 2001 171704320 WAYNE PROCESS 469.2727448940277 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 1365.006 seconds. before reading done reading WAYNE load raw data , time = 87.26140499114990 ATTN ifrq ipol ln 0 4 32636 14.00000 IPOL, ITOP nblock 4 0 8 WAYNE Motion comp. coeff. calculated, time = 1.1299967765808105E-02 WAYNE Motion comp. added to patch, time = 16.95183694362640 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.2746920585632324E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migrati PROCESSING KID# 3 ..... WAYNE IS IN Processing 9 to 12 by # 2 Processing block number 9 WAYNE PATCHES: 27937 36128 patch# 9 reference line: 32032 3.671 seconds. before reading done reading WAYNE load raw data , time = 56.22170102596283 ATTN ifrq ipol ln 0 4 36128 14.00000 IPOL, ITOP nblock 4 0 9 WAYNE Motion comp. coeff. calculated, time = 1.1893033981323242E-02 WAYNE Motion comp. added to patch, time = 20.17305994033813 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.7370452880859375E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.3040139675140 Writing 4192 lines of data to file WAYNE write output data 21.75212502479553 ==w out 9 0 2001 0 WAYNE PROCESS 445.4674259424210 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 449.140 seconds. before reading done reading WAYNE load raw data , time = 79.10651302337646 ATTN ifrq ipol ln 0 4 39620 14.00000 IPOL, ITOP nblock 4 0 10 WAYNE Motion comp. coeff. calculated, time = 1.2194037437438965E-02 WAYNE Motion comp. added to patch, time = 19.10346996784210 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 6.9350004196166992E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 348.9398549795151 Writing 4192 lines of data to file WAYNE write output data 21.50991201400757 ==w out 10 4192 2001 85852160 WAYNE PROCESS 468.6807940006256 Processing block number 11 WAYNE PATCHES: 34921 43112 patch# 11 reference line: 39016 917.821 seconds. before reading done reading WAYNE load raw data , time = 81.44356703758240 ATTN ifrq ipol ln 0 4 43112 14.00000 IPOL, ITOP nblock 4 0 11 WAYNE Motion comp. coeff. calculated, time = 1.1752009391784668E-02 WAYNE Motion comp. added to patch, time = 18.70058202743530 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 7.3109865188598633E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.9416589736938 Writing 4192 lines of data to file WAYNE write output data 19.84781897068024 ==w out 11 8384 2001 171704320 WAYNE PROCESS 466.9541099071503 Processing block number 12 WAYNE PATCHES: 38413 46604 patch# 12 reference line: 42508 1384.775 seconds. before reading done reading WAYNE load raw data , time = 69.04598498344421 ATTN ifrq ipol ln 0 4 46604 14.00000 IPOL, ITOP nblock 4 0 12 WAYNE Motion comp. coeff. calculated, time = 1.1355042457580566E-02 WAYNE Motion comp. added to patch, time = 16.31389498710632 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 6.6970586776733398E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migrati PROCESSING KID# 4 ..... WAYNE IS IN Processing 13 to 16 by # 3 Processing block number 13 WAYNE PATCHES: 41905 50096 patch# 13 reference line: 46000 3.687 seconds. before reading done reading WAYNE load raw data , time = 54.85711789131165 ATTN ifrq ipol ln 0 4 50096 14.00000 IPOL, ITOP nblock 4 0 13 WAYNE Motion comp. coeff. calculated, time = 1.3346076011657715E-02 WAYNE Motion comp. added to patch, time = 19.33249700069427 WAYNE Doppler estimation done, time = 1.4066696166992188E-05 WAYNE write deskew done, time = 2.6500225067138672E-03 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 347.1886039972305 Writing 4192 lines of data to file WAYNE write output data 2.212969064712524 ==w out 13 0 2001 0 WAYNE PROCESS 423.6087670326233 Processing block number 14 WAYNE PATCHES: 45397 53588 patch# 14 reference line: 49492 427.296 seconds. before reading done reading WAYNE load raw data , time = 98.10775494575500 ATTN ifrq ipol ln 0 4 53588 14.00000 IPOL, ITOP nblock 4 0 14 WAYNE Motion comp. coeff. calculated, time = 1.1722922325134277E-02 WAYNE Motion comp. added to patch, time = 19.11900603771210 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 0.1085650920867920 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 350.0607209205627 Writing 4192 lines of data to file WAYNE write output data 2.049353957176208 ==w out 14 4192 2001 85852160 WAYNE PROCESS 469.4591259956360 Processing block number 15 WAYNE PATCHES: 48889 57080 patch# 15 reference line: 52984 896.755 seconds. before reading done reading WAYNE load raw data , time = 102.1210730075836 ATTN ifrq ipol ln 0 4 57080 14.00000 IPOL, ITOP nblock 4 0 15 WAYNE Motion comp. coeff. calculated, time = 3.0383944511413574E-02 WAYNE Motion comp. added to patch, time = 19.32203602790833 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 7.0536017417907715E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 346.9095070362091 Writing 4192 lines of data to file WAYNE write output data 15.74573600292206 ==w out 15 8384 2001 171704320 WAYNE PROCESS 484.2012150287628 Processing block number 16 WAYNE PATCHES: 52381 60572 patch# 16 reference line: 56476 1380.957 seconds. before reading done reading WAYNE load raw data , time = 73.19426500797272 ATTN ifrq ipol ln 0 4 60572 14.00000 IPOL, ITOP nblock 4 0 16 WAYNE Motion comp. coeff. calculated, time = 1.1322021484375000E-02 WAYNE Motion comp. added to patch, time = 16.95038104057312 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 2.1901965141296387E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 268.6575620174408 Writing 4192 lines of data to file WAYNE write output data 1.615985989570618 ==w out 8 12576 2001 257556480 WAYNE PROCESS 374.5224930047989 ==w out 9 16771 tput data 13.69479608535767 ==w out 3 8384 2001 171704320 WAYNE PROCESS 465.8819570541382 Processing block number 4 TESTING WHY -5.3123902E-03 1.7652800E-02 3492 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 1378.905 seconds. TESTING 10477 before reading done reading WAYNE load raw data , time = 74.37994408607483 ATTN ifrq ipol ln 0 4 18668 14.00000 IPOL, ITOP nblock 4 0 4 WAYNE Motion comp. coeff. calculated, time = 1.1288046836853027E-02 TESTING 0.0000000E+00 -32.53371 -0.3230651 WAYNE Motion comp. added to patch, time = 16.87863099575043 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.6291012763977051E-02 AZ Wavl Br: 0.7012700 40.00000 9.7369403E-02 880.2720 1710.258 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -32.53371 -0.3230651 HEY,dt,fract,ye,pe 0.0000000E+00 0.0000000E+00 -5.3123902E-03 1.7652800E-02 WAYNE Azimuth compression done, time = 269.4219129085541 Writing 4192 lines of data to file WAYNE write output data 1.742563962936401 ==w out 4 12576 2001 257556480 WAYNE PROCESS 362.4621219635010 ==w out 5 16771 on lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 269.7959949970245 Writing 4192 lines of data to file WAYNE write output data 1.772713065147400 ==w out 12 12576 2001 257556480 WAYNE PROCESS 356.9478570222855 ==w out 13 16771 on lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 269.8543488979340 Writing 4192 lines of data to file WAYNE write output data 1.723679065704346 ==w out 16 12576 2001 257556480 WAYNE PROCESS 361.7573080062866 ==w out 17 16771 1 15794635 0 2 15793813 0 3 15794343 0 4 15793630 0 5 15790156 0 6 15791910 0 7 15786833 0 8 15793273 0 PROCESSING COMPLETED POINTER 274877909344 274877974880 icnt = 117376kids= 8 Writing variable header... gather image from processor # 0 4 gather image from processor # 1 4 gather image from processor # 2 4 gather image from processor # 3 4 gather image from processor # 4 3 gather image from processor # 5 3 gather image from processor # 6 3 gather image from processor # 7 3 WAYNE gather images takes: 16.25584304332733 WAYNE LOOP TIME: 1767.862190961838 update sarfile,mocompfile,dopfile,glbfile,N_RA: /export/air32/airops/1400/ts1400_p.vv_j /export/air36/airops/1400/ts1400_p.mocompv /export/air36/airops/1400/ts1400_p.dop /export/air36/airops/1400/ts1400_p.glb 2560 100000 100000 update intf hdr ha: 8367.900 UPDATE: 2560 100000 3.331000 0.5144000 1 18822709 18822709 mocompfile /export/air36/airops/1400/ts1400_p.mocompv dopfile /export/air36/airops/1400/ts1400_p.dop globalfile /export/air36/airops/1400/ts1400_p.glb /export/air36/airops/1400/ts1400_p.glb 38 deskew line ra ha trc: 128.5260 249 9042.366 8367.900 54.57177 after deskew line ra ha trc: 128.5260 249 9042.366 8367.900 54.57177 lat1 lon1: 249 4.813068 114.7795 100000 last ra n_ns ns: 9042.366 1 1 100248 100000 lati loni: 100248 5.082698 115.1903 100248 1 center ra n_ns ns: 13302.71 1280 1280 50248 100000 lati loni: 50248 4.979404 114.9627 50248 2560 Updated paramater header in /export/air32/airops/1400/ts1400_p.vv_j WAYNE FINAL PROCESS 1771.398886919022 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Deskew Program ***** ***** ***** ***** Version 1.00 ***** ***** ***** ***** This program is used to deskew ***** ***** single-look data before multi- ***** ***** looking is performed. ***** ***** ***** ********************************************* NUMBER OF PROCESSOR USED = 8 16768 4 16768 4 16768 4 16768 4 12576 3 12576 3 12576 3 12576 3 Name of data file to be deskewed? /export/air32/airops/1400/ts1400_p.vv_j Name of the doppler parameter file? /export/air36/airops/1400/ts1400_p.dop Name of the deskew file? /export/air32/airops/1400/deskew.pv Line up to another frequency [y/n]? y Name of the deskew file to line up to? /export/air32/airops/1400/deskew.ch Enter N_AZ, NA_VALID and the ratio of the pixel spacing of the file to line up to relative to the current pixel spacing. 4096 2208 1.000000 Name of the output file? /export/air36/airops/1400/ts1400_p.vv Name of the line output file? /export/air36/airops/1400/p_lines.dat NONE-SYMMETRIC PARALLEL JOBS Deskewing 28 patches Processing block number 1 patch iptc,sj,dgj,dgi,id: 1 1041 98 98 0 half line dmj dgc: 0 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1041 1 Zeroing lines in arrays Total # of output lines = 1 1040 1041 3137 0 2096 patch iptc,sj,dgj,dgi,id: 1 3137 98 98 2096 half line dmj dgc: 1 2001 249 114 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3137 1041 Zeroing lines in arrays Total # of output lines = 1 3136 Processing block number 2 3137 4528 -5 1396 patch iptc,sj,dgj,dgi,id: 2 4528 93 98 1396 half line dmj dgc: 0 5493 243 114 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 4528 3137 Zeroing lines in arrays Total # of output lines = 2 4527 4528 6624 0 2096 patch iptc,sj,dgj,dgi,id: 2 6624 93 93 2096 half line dmj dgc: 1 5493 243 114 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 6624 4528 Zeroing lines in arrays Total # of output lines = 2 6623 Processing block number 3 6624 8035 15 1396 patch iptc,sj,dgj,dgi,id: 3 8035 108 93 1396 half line dmj dgc: 0 8985 243 114 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 8035 6624 Zeroing lines in arrays Total # of output lines = 3 8034 8035 10131 0 2096 patch iptc,sj,dgj,dgi,id: 3 10131 108 108 2096 half line dmj dgc: 1 8985 243 114 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 10131 8035 Zeroing lines in arrays Total # of output lines = 3 10130 Processing block number 4 10131 11546 19 1396 patch iptc,sj,dgj,dgi,id: 4 11546 127 108 1396 half line dmj dgc: 0 12477 251 114 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 11546 10131 Zeroing lines in arrays Total # of output lines = 4 11545 11546 13642 0 2096 patch iptc,sj,dgj,dgi,id: 4 13642 127 127 2096 half line dmj dgc: 1 12477 251 114 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 sj>s1: 13642 11546 Zeroing lines in arrays Total # of output lines = 4 13641 Processing block number 5 13642 15008 -30 1396 patch iptc,sj,dgj,dgi,id: 5 15008 97 127 1396 half line dmj dgc: 0 15969 251 114 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 15008 13642 Zeroing lines in arrays Total # of output lines = 5 15007 15008 17104 0 2096 patch iptc,sj,dgj,dgi,id: 5 720 97 97 2096 half line dmj dgc: 1 15969 251 114 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 s1>sj: 15008 720 Zeroing lines in arrays Total # of output lines = 5 17103 Processing block number 6 720 2050 -66 1396 patch iptc,sj,dgj,dgi,id: 6 2050 31 97 1396 half line dmj dgc: 0 19461 242 114 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 2050 720 Zeroing lines in arrays Total # of output lines = 6 18433 2050 4146 0 2096 patch iptc,sj,dgj,dgi,id: 6 4146 31 31 2096 half line dmj dgc: 1 19461 242 114 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 4146 2050 Zeroing lines in arrays Total # of output lines = 6 20529 Processing block number 7 4146 5525 -17 1396 patch iptc,sj,dgj,dgi,id: 7 5525 14 31 1396 half line dmj dgc: 0 22953 241 114 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 5525 4146 Zeroing lines in arrays Total # of output lines = 7 21908 5525 7621 0 2096 patch iptc,sj,dgj,dgi,id: 7 7621 14 14 2096 half line dmj dgc: 1 22953 241 114 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 7621 5525 Zeroing lines in arrays Total # of output lines = 7 24004 Processing block number 8 7621 9046 29 1396 patch iptc,sj,dgj,dgi,id: 8 9046 43 14 1396 half line dmj dgc: 0 26445 249 114 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 sj>s1: 9046 7621 Zeroing lines in arrays Total # of output lines = 8 25429 9046 11142 0 2096 patch iptc,sj,dgj,dgi,id: 8 11142 43 43 2096 half line dmj dgc: 1 26445 249 114 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 sj>s1: 11142 9046 Zeroing lines in arrays Total # of output lines = 8 27525 Processing block number 9 11142 12562 24 1396 patch iptc,sj,dgj,dgi,id: 9 12562 67 43 1396 half line dmj dgc: 0 29937 255 114 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 12562 11142 Zeroing lines in arrays Total # of output lines = 9 28945 12562 14658 0 2096 patch iptc,sj,dgj,dgi,id: 9 14658 67 67 2096 half line dmj dgc: 1 29937 255 114 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 14658 12562 Zeroing lines in arrays Total # of output lines = 9 31041 Processing block number 10 14658 16072 18 1396 patch iptc,sj,dgj,dgi,id: 10 16072 85 67 1396 half line dmj dgc: 0 33429 255 114 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 16072 14658 Zeroing lines in arrays Total # of output lines = 10 32455 16072 18168 0 2096 patch iptc,sj,dgj,dgi,id: 10 1784 85 85 2096 half line dmj dgc: 1 33429 255 114 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 s1>sj: 16072 1784 Zeroing lines in arrays Total # of output lines = 10 34551 Processing block number 11 1784 3217 37 1396 patch iptc,sj,dgj,dgi,id: 11 3217 122 85 1396 half line dmj dgc: 0 36921 260 114 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 3217 1784 Zeroing lines in arrays Total # of output lines = 11 35984 3217 5313 0 2096 patch iptc,sj,dgj,dgi,id: 11 5313 122 122 2096 half line dmj dgc: 1 36921 260 114 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 sj>s1: 5313 3217 Zeroing lines in arrays Total # of output lines = 11 38080 Processing block number 12 5313 6728 19 1396 patch iptc,sj,dgj,dgi,id: 12 6728 141 122 1396 half line dmj dgc: 0 40413 269 114 Actual deskew ireclen: 20480 ** 12 2096 0 48208 Writing data negflag .eq. 0 sj>s1: 6728 5313 Zeroing lines in arrays Total # of output lines = 12 39495 6728 8824 0 2096 patch iptc,sj,dgj,dgi,id: 12 8824 141 141 2096 half line dmj dgc: 1 40413 269 114 Actual deskew ireclen: 20480 ** 12 2096 1 50304 Writing data negflag .eq. 0 sj>s1: 8824 6728 Zeroing lines in arrays Total # of output lines = 12 41591 Processing block number 13 8824 10226 6 1396 patch iptc,sj,dgj,dgi,id: 13 10226 147 141 1396 half line dmj dgc: 0 43905 276 114 Actual deskew ireclen: 20480 ** 13 2096 0 52400 Writing data negflag .eq. 0 sj>s1: 10226 8824 Zeroing lines in arrays Total # of output lines = 13 42993 10226 12322 0 2096 patch iptc,sj,dgj,dgi,id: 13 12322 147 147 2096 half line dmj dgc: 1 43905 276 114 Actual deskew ireclen: 20480 ** 13 2096 1 54496 Writing data negflag .eq. 0 sj>s1: 12322 10226 Zeroing lines in arrays Total # of output lines = 13 45089 Processing block number 14 12322 13761 43 1396 patch iptc,sj,dgj,dgi,id: 14 13761 190 147 1396 half line dmj dgc: 0 47397 286 114 Actual deskew ireclen: 20480 ** 14 2096 0 56592 Writing data negflag .eq. 0 sj>s1: 13761 12322 Zeroing lines in arrays Total # of output lines = 14 46528 13761 15857 0 2096 patch iptc,sj,dgj,dgi,id: 14 15857 190 190 2096 half line dmj dgc: 1 47397 286 114 Actual deskew ireclen: 20480 ** 14 2096 1 58688 Writing data negflag .eq. 0 sj>s1: 15857 13761 Zeroing lines in arrays Total # of output lines = 14 48624 Processing block number 15 15857 17263 10 1396 patch iptc,sj,dgj,dgi,id: 15 879 200 190 1396 half line dmj dgc: 0 50889 286 114 Actual deskew ireclen: 20480 ** 15 2096 0 60784 Writing data negflag .eq. 0 s1>sj: 15857 879 Zeroing lines in arrays Total # of output lines = 15 50030 879 2975 0 2096 patch iptc,sj,dgj,dgi,id: 15 2975 200 200 2096 half line dmj dgc: 1 50889 286 114 Actual deskew ireclen: 20480 ** 15 2096 1 62880 Writing data negflag .eq. 0 sj>s1: 2975 879 Zeroing lines in arrays Total # of output lines = 15 52126 Processing block number 16 2975 4377 6 1396 patch iptc,sj,dgj,dgi,id: 16 4377 206 200 1396 half line dmj dgc: 0 54381 277 114 Actual deskew ireclen: 20480 ** 16 2096 0 64976 Writing data negflag .eq. 0 sj>s1: 4377 2975 Zeroing lines in arrays Total # of output lines = 16 53528 4377 6473 0 2096 patch iptc,sj,dgj,dgi,id: 16 6473 206 206 2096 half line dmj dgc: 1 54381 277 114 Actual deskew ireclen: 20480 ** 16 2096 1 67072 Writing data negflag .eq. 0 sj>s1: 6473 4377 Zeroing lines in arrays Total # of output lines = 16 55624 Processing block number 17 6473 7900 31 1396 patch iptc,sj,dgj,dgi,id: 17 7900 237 206 1396 half line dmj dgc: 0 57873 276 114 Actual deskew ireclen: 20480 ** 17 2096 0 69168 Writing data negflag .eq. 0 sj>s1: 7900 6473 Zeroing lines in arrays Total # of output lines = 17 57051 7900 9996 0 2096 patch iptc,sj,dgj,dgi,id: 17 9996 237 237 2096 half line dmj dgc: 1 57873 276 114 Actual deskew ireclen: 20480 ** 17 2096 1 71264 Writing data negflag .eq. 0 sj>s1: 9996 7900 Zeroing lines in arrays Total # of output lines = 17 59147 Processing block number 18 9996 11451 59 1396 patch iptc,sj,dgj,dgi,id: 18 11451 296 237 1396 half line dmj dgc: 0 61365 298 114 Actual deskew ireclen: 20480 ** 18 2096 0 73360 Writing data negflag .eq. 0 sj>s1: 11451 9996 Zeroing lines in arrays Total # of output lines = 18 60602 11451 13547 0 2096 patch iptc,sj,dgj,dgi,id: 18 13547 296 296 2096 half line dmj dgc: 1 61365 298 114 Actual deskew ireclen: 20480 ** 18 2096 1 75456 Writing data negflag .eq. 0 sj>s1: 13547 11451 Zeroing lines in arrays Total # of output lines = 18 62698 Processing block number 19 13547 14936 -7 1396 patch iptc,sj,dgj,dgi,id: 19 14936 289 296 1396 half line dmj dgc: 0 64857 293 114 Actual deskew ireclen: 20480 ** 19 2096 0 77552 Writing data negflag .eq. 0 sj>s1: 14936 13547 Zeroing lines in arrays Total # of output lines = 19 64087 14936 17032 0 2096 patch iptc,sj,dgj,dgi,id: 19 648 289 289 2096 half line dmj dgc: 1 64857 293 114 Actual deskew ireclen: 20480 ** 19 2096 1 79648 Writing data negflag .eq. 0 s1>sj: 14936 648 Zeroing lines in arrays Total # of output lines = 19 66183 Processing block number 20 648 2015 -29 1396 patch iptc,sj,dgj,dgi,id: 20 2015 260 289 1396 half line dmj dgc: 0 68349 279 114 Actual deskew ireclen: 20480 ** 20 2096 0 81744 Writing data negflag .eq. 0 sj>s1: 2015 648 Zeroing lines in arrays Total # of output lines = 20 67550 2015 4111 0 2096 patch iptc,sj,dgj,dgi,id: 20 4111 260 260 2096 half line dmj dgc: 1 68349 279 114 Actual deskew ireclen: 20480 ** 20 2096 1 83840 Writing data negflag .eq. 0 sj>s1: 4111 2015 Zeroing lines in arrays Total # of output lines = 20 69646 Processing block number 21 4111 5541 34 1396 patch iptc,sj,dgj,dgi,id: 21 5541 294 260 1396 half line dmj dgc: 0 71841 300 114 Actual deskew ireclen: 20480 ** 21 2096 0 85936 Writing data negflag .eq. 0 sj>s1: 5541 4111 Zeroing lines in arrays Total # of output lines = 21 71076 5541 7637 0 2096 patch iptc,sj,dgj,dgi,id: 21 7637 294 294 2096 half line dmj dgc: 1 71841 300 114 Actual deskew ireclen: 20480 ** 21 2096 1 88032 Writing data negflag .eq. 0 sj>s1: 7637 5541 Zeroing lines in arrays Total # of output lines = 21 73172 Processing block number 22 7637 9056 23 1396 patch iptc,sj,dgj,dgi,id: 22 9056 317 294 1396 half line dmj dgc: 0 75333 330 114 Actual deskew ireclen: 20480 ** 22 2096 0 90128 Writing data negflag .eq. 0 sj>s1: 9056 7637 Zeroing lines in arrays Total # of output lines = 22 74591 9056 11152 0 2096 patch iptc,sj,dgj,dgi,id: 22 11152 317 317 2096 half line dmj dgc: 1 75333 330 114 Actual deskew ireclen: 20480 ** 22 2096 1 92224 Writing data negflag .eq. 0 sj>s1: 11152 9056 Zeroing lines in arrays Total # of output lines = 22 76687 Processing block number 23 11152 12510 -38 1396 patch iptc,sj,dgj,dgi,id: 23 12510 279 317 1396 half line dmj dgc: 0 78825 308 114 Actual deskew ireclen: 20480 ** 23 2096 0 94320 Writing data negflag .eq. 0 sj>s1: 12510 11152 Zeroing lines in arrays Total # of output lines = 23 78045 12510 14606 0 2096 patch iptc,sj,dgj,dgi,id: 23 14606 279 279 2096 half line dmj dgc: 1 78825 308 114 Actual deskew ireclen: 20480 ** 23 2096 1 96416 Writing data negflag .eq. 0 sj>s1: 14606 12510 Zeroing lines in arrays Total # of output lines = 23 80141 Processing block number 24 14606 15942 -60 1396 patch iptc,sj,dgj,dgi,id: 24 15942 219 279 1396 half line dmj dgc: 0 82317 284 114 Actual deskew ireclen: 20480 ** 24 2096 0 98512 Writing data negflag .eq. 0 sj>s1: 15942 14606 Zeroing lines in arrays Total # of output lines = 24 81477 15942 18038 0 2096 patch iptc,sj,dgj,dgi,id: 24 1654 219 219 2096 half line dmj dgc: 1 82317 284 114 Actual deskew ireclen: 20480 ** 24 2096 1 100608 Writing data negflag .eq. 0 s1>sj: 15942 1654 Zeroing lines in arrays Total # of output lines = 24 83573 Processing block number 25 1654 3047 -3 1396 patch iptc,sj,dgj,dgi,id: 25 3047 216 219 1396 half line dmj dgc: 0 85809 279 114 Actual deskew ireclen: 20480 ** 25 2096 0 102704 Writing data negflag .eq. 0 sj>s1: 3047 1654 Zeroing lines in arrays Total # of output lines = 25 84966 3047 5143 0 2096 patch iptc,sj,dgj,dgi,id: 25 5143 216 216 2096 half line dmj dgc: 1 85809 279 114 Actual deskew ireclen: 20480 ** 25 2096 1 104800 Writing data negflag .eq. 0 sj>s1: 5143 3047 Zeroing lines in arrays Total # of output lines = 25 87062 Processing block number 26 5143 6581 42 1396 patch iptc,sj,dgj,dgi,id: 26 6581 258 216 1396 half line dmj dgc: 0 89301 297 114 Actual deskew ireclen: 20480 ** 26 2096 0 106896 Writing data negflag .eq. 0 sj>s1: 6581 5143 Zeroing lines in arrays Total # of output lines = 26 88500 6581 8677 0 2096 patch iptc,sj,dgj,dgi,id: 26 8677 258 258 2096 half line dmj dgc: 1 89301 297 114 Actual deskew ireclen: 20480 ** 26 2096 1 108992 Writing data negflag .eq. 0 sj>s1: 8677 6581 Zeroing lines in arrays Total # of output lines = 26 90596 Processing block number 27 8677 10067 -6 1396 patch iptc,sj,dgj,dgi,id: 27 10067 252 258 1396 half line dmj dgc: 0 92793 306 114 Actual deskew ireclen: 20480 ** 27 2096 0 111088 Writing data negflag .eq. 0 sj>s1: 10067 8677 Zeroing lines in arrays Total # of output lines = 27 91986 10067 12163 0 2096 patch iptc,sj,dgj,dgi,id: 27 12163 252 252 2096 half line dmj dgc: 1 92793 306 114 Actual deskew ireclen: 20480 ** 27 2096 1 113184 Writing data negflag .eq. 0 sj>s1: 12163 10067 Zeroing lines in arrays Total # of output lines = 27 94082 Processing block number 28 12163 11063 -19 -1081 patch iptc,sj,dgj,dgi,id: 28 11063 233 252 -1081 half line dmj dgc: 0 93808 312 114 Actual deskew ireclen: 20480 ** 28 2096 0 115280 Zeroing lines in arrays Total # of output lines = 28 94082 12163 13159 0 2096 patch iptc,sj,dgj,dgi,id: 28 13159 233 233 2096 half line dmj dgc: 1 93808 312 114 Actual deskew ireclen: 20480 ** 28 2096 1 117376 Writing data negflag .eq. 0 sj>s1: 13159 12163 Zeroing lines in arrays Total # of output lines = 28 95078 ia dmi dgi: 13159 312 233 Writing the last 2175 lines last half sj>s1 15334 13159 95078 Total # of output lines = 97253 Writing new header.. Closing files .. ileni= 39 ilend= 35 /export/air32/airops/1400/ts1400_p.vv_j.0 /export/air32/airops/1400/deskew.pv.0 /export/air32/airops/1400/ts1400_p.vv_j.1 /export/air32/airops/1400/deskew.pv.1 /export/air32/airops/1400/ts1400_p.vv_j.2 /export/air32/airops/1400/deskew.pv.2 /export/air32/airops/1400/ts1400_p.vv_j.3 /export/air32/airops/1400/deskew.pv.3 /export/air32/airops/1400/ts1400_p.vv_j.4 /export/air32/airops/1400/deskew.pv.4 /export/air32/airops/1400/ts1400_p.vv_j.5 /export/air32/airops/1400/deskew.pv.5 /export/air32/airops/1400/ts1400_p.vv_j.6 /export/air32/airops/1400/deskew.pv.6 /export/air32/airops/1400/ts1400_p.vv_j.7 /export/air32/airops/1400/deskew.pv.7 Enter single look lines filename: Enter single look image filename: Enter output lines filename: Enter number of looks: ns np nlloks: 2560 97253 18 Multi-looking lines.dat file... Total number of lines written to output file: 5402 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.2695476 8.632304 146 0.188 3046 -2.281 8.63230 0.006363 1.091931 0.023454 r_peak,r_snr = 0.2976881 7.301726 246 0.188 3046 2.813 7.30173 0.005011 18.579372 -0.138232 r_peak,r_snr = 0.3327648 15.46194 346 0.188 3046 0.906 15.46194 0.003295 0.143293 0.007527 r_peak,r_snr = 0.2750190 7.980897 446 0.156 3046 -8.750 7.98090 0.006074 0.783337 0.010958 r_peak,r_snr = 0.3137991 9.675401 546 0.250 3046 -14.188 9.67540 0.005676 0.313182 -0.016361 r_peak,r_snr = 0.2268377 5.807332 646 1.438 3046 -4.188 5.80733 0.016563 1.017954 0.062776 r_peak,r_snr = 0.2574179 4.305878 746 0.469 3046 -2.250 4.30588 0.300978 105.671783 5.582047 r_peak,r_snr = 0.1976732 5.681651 846 0.438 3046 -9.188 5.68165 0.024794 1.062689 0.017215 r_peak,r_snr = 0.1999944 7.276794 946 0.500 3046 -3.250 7.27679 0.024173 0.731369 -0.056991 r_peak,r_snr = 0.2316750 6.187683 1046 -1.219 3046 8.688 6.18768 0.035270 0.867181 0.114456 r_peak,r_snr = 0.1829011 6.737554 1146 0.656 3046 8.438 6.73755 0.023015 1.065648 0.035283 r_peak,r_snr = 0.1865367 7.169175 1246 0.563 3046 -3.781 7.16918 0.082168 79.986420 2.199853 r_peak,r_snr = 0.1963137 4.918022 1346 1.406 3046 7.219 4.91802 0.039235 2.773594 0.057146 r_peak,r_snr = 0.2360159 9.922387 1446 0.781 3046 -3.969 9.92239 0.006480 3.960193 -0.049757 r_peak,r_snr = 0.1513000 5.827067 1546 0.656 3046 13.969 5.82707 0.015169 0.940257 0.022004 r_peak,r_snr = 0.2031865 4.632140 1646 -0.313 3046 -10.156 4.63214 0.051718 2.537224 0.114646 r_peak,r_snr = 0.3420243 3.302652 1746 2.250 3046 -11.750 3.30265 0.461692 4.564156 1.387048 r_peak,r_snr = 9.4898097E-02 4.526393 1846 -6.813 3046 -14.813 4.52639 0.128392 0.287364 0.000733 r_peak,r_snr = 0.1261563 7.462173 1946 1.500 3046 11.875 7.46217 0.123933 0.205715 0.014717 r_peak,r_snr = 0.1375211 6.316768 2046 3.625 3046 0.438 6.31677 0.017486 0.179645 -0.007274 At line = 3400 Reading in data.... r_peak,r_snr = 0.1537789 13.03147 146 0.250 3446 -5.344 13.03147 0.012959 0.661641 -0.016828 r_peak,r_snr = 0.1585485 6.425022 246 2.719 3446 -1.781 6.42502 0.014410 1.641511 -0.029337 r_peak,r_snr = 0.1522856 5.343332 346 12.406 3446 1.063 5.34333 0.031836 0.650432 -0.040278 r_peak,r_snr = 0.2077533 7.506909 446 0.531 3446 -0.813 7.50691 0.008482 0.589715 -0.010943 r_peak,r_snr = 0.2423687 6.337814 546 12.219 3446 12.719 6.33781 0.051719 0.974080 -0.168000 r_peak,r_snr = 0.2019046 5.156193 646 -5.438 3446 8.063 5.15619 0.011485 0.773734 0.022002 r_peak,r_snr = 0.3840379 4.251143 746 0.500 3446 1.719 4.25114 0.016450 3.407378 -0.156025 r_peak,r_snr = 0.3103161 4.034512 846 -0.031 3446 -0.656 4.03451 0.010561 1.861292 -0.039509 r_peak,r_snr = 0.2820382 6.898505 946 0.000 3446 -3.750 6.89851 0.347290 129.868912 -6.651793 r_peak,r_snr = 0.3795611 4.970269 1046 0.875 3446 -7.188 4.97027 0.461854 1.669177 -0.838640 r_peak,r_snr = 0.2924605 5.182612 1146 1.656 3446 -10.156 5.18261 0.016122 0.360636 0.032762 r_peak,r_snr = 0.3608627 8.183318 1246 0.125 3446 1.781 8.18332 0.011026 0.278131 -0.017629 r_peak,r_snr = 0.2658000 3.939107 1346 8.438 3446 -2.188 3.93911 0.007873 0.510590 0.007941 r_peak,r_snr = 0.3894429 2.517470 1446 3.813 3446 -10.813 2.51747 0.023500 0.551958 0.054564 r_peak,r_snr = 0.2151578 4.324946 1546 -0.031 3446 5.188 4.32495 0.042560 9.710461 0.430822 r_peak,r_snr = 0.3070034 8.039174 1646 -0.031 3446 -0.813 8.03917 0.010176 0.510957 0.034675 r_peak,r_snr = 0.2582974 8.278111 1746 -0.875 3446 -8.813 8.27811 0.017055 3.068214 -0.159686 r_peak,r_snr = 0.1361699 5.835925 1846 2.906 3446 1.219 5.83593 0.147438 0.390301 -0.060880 r_peak,r_snr = 0.1843623 6.102240 1946 -8.063 3446 -11.219 6.10224 0.024239 0.195116 -0.017787 r_peak,r_snr = 0.1251492 3.987076 2046 2.875 3446 0.656 3.98708 0.105653 0.396575 0.010637 At line = 3800 Reading in data.... r_peak,r_snr = 0.2335598 9.372615 146 0.656 3846 -10.813 9.37261 0.009917 1.450228 0.060805 r_peak,r_snr = 0.2480294 7.710104 246 1.313 3846 -10.031 7.71010 0.018314 0.554694 -0.043787 r_peak,r_snr = 0.1598617 7.630393 346 0.313 3846 11.219 7.63039 0.016357 3.722431 -0.119964 r_peak,r_snr = 0.3510196 7.263685 446 0.219 3846 5.188 7.26369 0.007325 1.248967 0.033850 r_peak,r_snr = 0.3493574 7.646029 546 -0.250 3846 -6.813 7.64603 0.004285 0.190890 -0.004706 r_peak,r_snr = 0.1901963 8.084298 646 -0.344 3846 3.844 8.08430 0.229268 46.586815 3.134576 r_peak,r_snr = 0.3490844 6.945300 746 -0.281 3846 -3.250 6.94530 0.011133 3.765085 0.123867 r_peak,r_snr = 0.2262575 6.356972 846 -0.938 3846 -4.250 6.35697 0.063600 0.668625 0.065330 r_peak,r_snr = 0.1886528 6.358130 946 -0.250 3846 1.688 6.35813 0.040822 1.061242 0.009870 r_peak,r_snr = 0.3562499 3.319123 1046 -0.156 3846 5.813 3.31912 0.034976 0.765620 -0.012229 r_peak,r_snr = 0.3163809 3.481278 1246 -0.063 3846 7.719 3.48128 0.072954 3.740288 -0.377195 r_peak,r_snr = 0.2808743 3.140301 1346 1.219 3846 -1.219 3.14030 0.034348 3.694423 0.215233 r_peak,r_snr = 0.2103801 4.259970 1446 1.844 3846 1.813 4.25997 1.456374 72.363945 -10.157845 r_peak,r_snr = 0.2962225 5.030653 1546 0.594 3846 3.375 5.03065 0.027163 0.878536 0.076486 r_peak,r_snr = 0.2464647 9.685340 1646 0.313 3846 -5.344 9.68534 0.008332 0.523967 -0.009400 r_peak,r_snr = 0.4314725 2.118760 1746 0.063 3846 -6.750 2.11876 0.065786 3.080160 -0.409067 r_peak,r_snr = 0.1056701 5.699412 1846 -2.563 3846 1.094 5.69941 0.044612 0.322674 -0.002791 r_peak,r_snr = 0.1815702 6.000323 1946 -1.094 3846 1.063 6.00032 0.126467 0.177337 0.065514 r_peak,r_snr = 0.1020577 4.047409 2046 11.688 3846 -13.406 4.04741 0.097638 0.792437 -0.149009 At line = 4200 Reading in data.... r_peak,r_snr = 0.1980242 5.329156 246 2.156 4246 -5.781 5.32916 0.052942 3.520391 0.325582 r_peak,r_snr = 0.5087027 10.48138 346 -0.031 4246 7.781 10.48138 0.001315 0.552784 0.006175 r_peak,r_snr = 0.4549253 7.764756 446 0.063 4246 2.375 7.76476 0.002180 0.965600 -0.022276 r_peak,r_snr = 0.2482141 13.48988 546 0.063 4246 1.250 13.48988 0.008905 0.505889 0.013122 r_peak,r_snr = 0.2396698 8.836241 646 -0.063 4246 6.719 8.83624 0.012056 0.771842 0.057905 r_peak,r_snr = 0.1588352 8.614864 746 1.125 4246 12.938 8.61486 0.023587 0.931137 0.027286 r_peak,r_snr = 0.4089653 4.730299 946 0.125 4246 2.094 4.73030 0.009561 0.356858 -0.016808 r_peak,r_snr = 0.3144082 6.018971 1046 0.219 4246 2.188 6.01897 0.037058 1.514540 0.206741 r_peak,r_snr = 0.1962903 8.192062 1146 1.281 4246 3.813 8.19206 0.041690 1.081701 0.160396 r_peak,r_snr = 0.4219797 4.432037 1246 -1.844 4246 -10.188 4.43204 0.027953 1.403997 0.022488 r_peak,r_snr = 0.1992858 11.88840 1346 0.125 4246 -0.625 11.88840 0.042609 1.126566 -0.175022 r_peak,r_snr = 0.2142632 4.908187 1646 0.000 4246 -8.000 4.90819 0.017562 0.586922 -0.032355 r_peak,r_snr = 0.3032164 1.808498 1746 9.156 4246 -11.719 1.80850 0.023125 0.254705 0.012591 r_peak,r_snr = 0.1428495 6.679031 1846 -8.781 4246 0.719 6.67903 0.074287 0.170324 0.014117 r_peak,r_snr = 0.1645768 4.789109 2046 6.375 4246 11.188 4.78911 0.106900 0.846351 0.170589 At line = 4600 Reading in data.... r_peak,r_snr = 0.2385862 6.756615 146 0.688 4646 -1.094 6.75661 0.017062 0.836314 0.016514 r_peak,r_snr = 0.3285275 7.667943 246 0.406 4646 -6.594 7.66794 0.011810 0.355818 -0.031191 r_peak,r_snr = 0.2318933 7.692983 346 0.750 4646 1.781 7.69298 0.012983 2.220934 -0.112912 r_peak,r_snr = 0.5392470 12.53941 546 0.250 4646 0.344 12.53941 0.001125 0.119182 0.001736 r_peak,r_snr = 0.1819934 5.358566 646 -0.781 4646 -5.594 5.35857 0.110372 1.574807 -0.375117 r_peak,r_snr = 0.2256922 7.702176 746 -0.063 4646 2.250 7.70218 0.015516 1.133280 -0.070797 r_peak,r_snr = 0.3521085 5.778624 846 -0.563 4646 -2.750 5.77862 0.039737 2.691180 -0.294145 r_peak,r_snr = 0.1880210 6.967129 946 0.531 4646 1.813 6.96713 0.020095 1.470416 0.010026 r_peak,r_snr = 0.3853765 8.032071 1046 0.313 4646 2.781 8.03207 0.007378 0.348477 -0.029970 r_peak,r_snr = 0.1511580 5.416784 1146 1.000 4646 -12.313 5.41678 0.077426 1.920419 0.269486 r_peak,r_snr = 0.2553259 8.438085 1246 0.438 4646 3.156 8.43808 0.026359 1.163393 -0.111073 r_peak,r_snr = 0.1986730 5.681614 1346 -7.406 4646 1.750 5.68161 0.015578 0.843122 0.076297 r_peak,r_snr = 0.3664746 2.879728 1446 -0.750 4646 16.719 2.87973 0.009640 0.470972 0.021939 r_peak,r_snr = 0.1951718 3.428528 1546 -2.219 4646 1.688 3.42853 0.032043 0.586486 -0.081686 r_peak,r_snr = 0.1693060 12.32648 1646 -4.313 4646 9.719 12.32648 0.025910 0.414911 -0.027580 r_peak,r_snr = 0.4053514 3.886579 1746 -0.719 4646 14.438 3.88658 0.006714 0.294487 -0.000484 r_peak,r_snr = 0.1269313 4.989426 1846 -6.844 4646 -1.688 4.98943 0.017036 0.378922 -0.003600 r_peak,r_snr = 0.1208494 4.427287 1946 8.594 4646 -2.281 4.42729 0.114270 1.121840 0.091800 At line = 5000 Reading in data.... r_peak,r_snr = 0.4128462 8.636972 146 0.438 5046 2.781 8.63697 0.003892 0.725385 0.016458 r_peak,r_snr = 0.1722453 6.120355 246 -0.125 5046 1.531 6.12036 0.008741 2.081270 0.005165 r_peak,r_snr = 0.3566177 3.791437 346 0.625 5046 9.219 3.79144 0.646653 9.311218 -2.430594 r_peak,r_snr = 0.2679120 5.909934 446 0.656 5046 -1.250 5.90993 0.512279 12.327671 -2.381951 r_peak,r_snr = 0.3212290 8.102953 546 0.563 5046 0.813 8.10295 0.008641 0.507329 -0.027828 r_peak,r_snr = 0.2599499 6.674212 646 0.250 5046 9.250 6.67421 0.015090 0.468166 0.015740 r_peak,r_snr = 0.3650106 5.742992 746 -1.156 5046 12.813 5.74299 0.019617 0.897847 0.107772 r_peak,r_snr = 0.2915609 4.236422 846 -3.938 5046 8.719 4.23642 0.011620 1.384471 0.075626 r_peak,r_snr = 0.2987986 5.591514 946 0.719 5046 -3.781 5.59151 0.006817 1.463382 0.005681 r_peak,r_snr = 0.2946184 4.806454 1046 0.656 5046 0.344 4.80645 0.009032 1.157588 -0.051540 r_peak,r_snr = 0.2482330 4.757499 1146 0.938 5046 -3.188 4.75750 0.147788 0.346755 -0.092007 r_peak,r_snr = 0.2517338 5.481400 1246 0.563 5046 -6.156 5.48140 0.052305 2.914722 -0.253002 r_peak,r_snr = 0.1748562 7.273607 1346 0.063 5046 2.906 7.27361 0.208154 13.849385 1.629413 r_peak,r_snr = 0.3432739 2.697739 1446 0.406 5046 -3.781 2.69774 0.056674 1.972687 0.234207 r_peak,r_snr = 0.1819741 6.667583 1546 1.406 5046 5.313 6.66758 0.023359 0.442898 0.025628 r_peak,r_snr = 0.3451774 3.930479 1746 2.031 5046 -4.188 3.93048 0.012802 0.385294 -0.027073 r_peak,r_snr = 0.1301513 5.250683 1846 -14.125 5046 11.656 5.25068 0.047495 0.234404 0.041859 r_peak,r_snr = 0.1528985 5.212276 1946 -13.438 5046 12.250 5.21228 0.062716 0.241310 0.048709 r_peak,r_snr = 0.1456532 6.122200 2046 13.656 5046 12.719 6.12220 0.027319 0.477850 0.027607 At line = 5400 Reading in data.... r_peak,r_snr = 0.2471039 9.576721 146 0.281 5446 -0.938 9.57672 0.005181 1.015992 0.022537 r_peak,r_snr = 0.2701406 9.052586 246 0.469 5446 2.125 9.05259 0.012599 0.525553 0.011149 r_peak,r_snr = 0.3946606 8.145443 346 0.313 5446 -0.219 8.14544 0.006229 9.946728 -0.156460 r_peak,r_snr = 0.1731913 3.733643 446 4.719 5446 -0.188 3.73364 0.886040 54.630146 6.870210 r_peak,r_snr = 0.4115140 7.841053 646 0.344 5446 2.688 7.84105 0.004615 0.595219 -0.001918 r_peak,r_snr = 0.2558099 6.361712 746 -0.156 5446 6.219 6.36171 0.421657 15.059608 2.419763 r_peak,r_snr = 0.2921746 6.701555 846 0.344 5446 9.250 6.70155 0.007215 0.535714 0.017750 r_peak,r_snr = 0.3166660 8.625298 1046 0.219 5446 -2.219 8.62530 0.006570 0.478935 0.008715 r_peak,r_snr = 0.3023637 7.427345 1146 0.031 5446 0.031 7.42734 0.008575 0.443404 -0.004276 r_peak,r_snr = 0.1390073 4.372622 1246 1.406 5446 -3.469 4.37262 0.089308 0.471777 0.073564 r_peak,r_snr = 0.1943433 7.915445 1346 0.313 5446 2.313 7.91544 0.015981 2.042927 0.077723 r_peak,r_snr = 0.1213866 5.133337 1446 2.563 5446 12.063 5.13334 0.116550 0.755122 -0.219444 r_peak,r_snr = 0.1710586 7.956712 1546 9.063 5446 -0.188 7.95671 0.027779 0.233875 0.042273 r_peak,r_snr = 0.1302315 5.335602 1646 12.906 5446 10.000 5.33560 0.057836 0.587544 0.033215 r_peak,r_snr = 0.1460383 8.575994 1946 -7.156 5446 2.219 8.57599 0.030274 0.560796 -0.010372 At line = 5800 Reading in data.... r_peak,r_snr = 0.4171939 8.223318 146 1.125 5846 -13.281 8.22332 0.003482 1.607002 0.044888 r_peak,r_snr = 0.2922104 5.920573 246 -1.219 5846 11.750 5.92057 0.008781 0.935455 0.033951 r_peak,r_snr = 0.2873749 8.614034 346 0.875 5846 6.625 8.61403 0.005085 2.676716 0.020086 r_peak,r_snr = 0.2576982 8.215912 446 0.281 5846 2.906 8.21591 0.013653 2.939976 0.084305 r_peak,r_snr = 0.2604738 5.158700 546 0.719 5846 -6.750 5.15870 0.014798 6.406125 -0.150782 r_peak,r_snr = 0.4450555 7.900323 646 0.188 5846 -5.063 7.90032 0.002466 0.268209 -0.009802 r_peak,r_snr = 0.2169730 6.778065 746 -0.406 5846 2.219 6.77807 0.050913 1.372371 0.120718 r_peak,r_snr = 0.2797098 8.928707 846 0.281 5846 2.250 8.92871 0.012782 8.855886 -0.136077 r_peak,r_snr = 0.2530480 4.966703 946 -0.156 5846 -4.813 4.96670 0.019435 1.735740 -0.087113 r_peak,r_snr = 0.2458757 3.647935 1046 5.094 5846 -13.625 3.64794 0.018408 0.454667 -0.033211 r_peak,r_snr = 0.2461420 5.121906 1146 0.063 5846 10.813 5.12191 0.073856 2.299931 -0.083280 r_peak,r_snr = 0.2984054 5.354507 1246 0.344 5846 -0.781 5.35451 0.010831 5.521011 -0.071509 r_peak,r_snr = 0.3641441 3.836573 1346 0.438 5846 0.813 3.83657 0.042075 4.382451 0.009044 r_peak,r_snr = 0.2211279 4.845384 1446 0.188 5846 -9.750 4.84538 0.029428 1.512518 -0.076258 r_peak,r_snr = 0.1989818 5.220333 1546 1.375 5846 -7.688 5.22033 0.029463 1.704076 0.029217 r_peak,r_snr = 0.1845796 9.419661 1746 1.594 5846 3.813 9.41966 0.053920 1.734125 -0.163691 r_peak,r_snr = 0.1232496 9.210156 1846 5.656 5846 -0.813 9.21016 0.128266 0.408739 0.103621 r_peak,r_snr = 0.1356021 6.176989 1946 -3.219 5846 -11.594 6.17699 0.059837 0.316101 0.058029 r_peak,r_snr = 0.1842902 9.214102 2046 3.219 5846 6.844 9.21410 0.074868 0.206623 0.093424 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.7491026 15.05744 146 0.406 3046 0.375 15.05744 0.000325 0.012611 0.000052 r_peak,r_snr = 0.7244315 14.68628 246 0.250 3046 -0.188 14.68628 0.000365 0.024714 -0.000384 r_peak,r_snr = 0.3114331 12.17455 346 0.156 3046 0.125 12.17455 0.003052 0.104518 0.004688 r_peak,r_snr = 0.4450689 12.53014 446 0.125 3046 0.469 12.53014 0.001799 0.152052 -0.003918 r_peak,r_snr = 0.4270569 11.55488 546 0.188 3046 -1.250 11.55488 0.002378 0.173339 -0.003711 r_peak,r_snr = 0.2032616 4.238261 646 0.813 3046 5.813 4.23826 0.062021 1.373609 -0.194589 r_peak,r_snr = 0.3758500 7.584687 746 0.406 3046 -0.156 7.58469 0.003460 0.135981 0.009212 r_peak,r_snr = 0.3049556 9.245221 846 -0.250 3046 -0.875 9.24522 0.005088 0.328144 -0.004204 r_peak,r_snr = 0.2481077 12.16792 946 0.219 3046 -0.188 12.16792 0.009708 0.504286 0.040512 r_peak,r_snr = 0.2097028 4.816674 1046 -1.094 3046 10.250 4.81667 0.022255 0.795206 -0.004980 r_peak,r_snr = 0.2462528 7.107222 1146 0.531 3046 3.781 7.10722 0.020378 1.922453 -0.052783 r_peak,r_snr = 0.3515645 11.52578 1246 -0.063 3046 0.219 11.52578 0.003008 0.363400 0.009735 r_peak,r_snr = 0.2109790 6.892087 1346 0.438 3046 0.813 6.89209 0.016861 0.931287 0.028116 r_peak,r_snr = 0.2238273 8.448567 1446 0.188 3046 -1.781 8.44857 0.009306 0.646855 -0.019221 r_peak,r_snr = 0.1938310 9.777650 1546 0.406 3046 0.375 9.77765 0.021306 0.382602 -0.023465 r_peak,r_snr = 0.3680386 3.122893 1746 -1.719 3046 6.469 3.12289 0.009772 1.296014 0.017180 r_peak,r_snr = 0.1018970 6.705874 1846 -10.031 3046 5.938 6.70587 0.174194 0.758233 -0.293722 r_peak,r_snr = 0.1057918 5.347192 1946 8.719 3046 -10.594 5.34719 0.063658 1.303261 0.091976 At line = 3400 Reading in data.... r_peak,r_snr = 0.6940523 16.58248 146 0.344 3446 -0.125 16.58248 0.000469 0.020055 -0.000125 r_peak,r_snr = 0.3892268 14.36541 246 0.406 3446 0.188 14.36541 0.003052 0.118865 -0.009230 r_peak,r_snr = 0.3454940 9.226008 346 0.000 3446 2.813 9.22601 0.002222 0.253783 -0.001237 r_peak,r_snr = 0.4256119 15.01892 446 0.313 3446 -0.688 15.01892 0.002317 0.066353 0.001370 r_peak,r_snr = 0.5568335 19.79255 546 0.250 3446 -0.313 19.79255 0.000900 0.036443 -0.000687 r_peak,r_snr = 0.1317426 3.604841 646 -3.938 3446 11.844 3.60484 0.059596 1.291547 0.149035 r_peak,r_snr = 0.5293477 6.887913 746 0.344 3446 0.781 6.88791 0.002306 0.069553 0.000995 r_peak,r_snr = 0.3510426 5.123553 846 0.375 3446 -4.219 5.12355 0.007059 0.823182 -0.001413 r_peak,r_snr = 0.3066114 8.827359 946 0.219 3446 -0.344 8.82736 0.005203 0.207276 -0.014208 r_peak,r_snr = 0.4262640 6.449366 1046 0.188 3446 -0.125 6.44937 0.002924 0.508714 0.003061 r_peak,r_snr = 0.3209035 6.003379 1146 -1.219 3446 -2.813 6.00338 0.010653 1.645422 0.015509 r_peak,r_snr = 0.3409761 8.953376 1246 0.094 3446 -0.719 8.95338 0.004673 0.158541 -0.008699 r_peak,r_snr = 0.3110117 5.163003 1346 -0.438 3446 5.781 5.16300 0.017064 0.407687 -0.024610 r_peak,r_snr = 0.2552497 7.784554 1546 -0.125 3446 -0.469 7.78455 0.008759 0.581573 0.002102 r_peak,r_snr = 0.1696888 5.223291 1646 0.750 3446 -1.000 5.22329 0.024304 1.437835 0.125140 r_peak,r_snr = 0.2144159 3.410761 1746 -0.469 3446 1.563 3.41076 0.014342 1.503306 -0.072814 r_peak,r_snr = 9.6973322E-02 4.691349 1846 4.281 3446 -9.500 4.69135 0.119710 0.374098 -0.021992 r_peak,r_snr = 9.7896270E-02 7.630931 1946 11.969 3446 -10.938 7.63093 0.055243 1.257812 -0.005949 r_peak,r_snr = 0.1194051 9.178576 2046 1.688 3446 5.938 9.17858 0.027594 0.291281 0.034787 At line = 3800 Reading in data.... r_peak,r_snr = 0.6328331 17.05169 146 0.406 3846 -0.781 17.05169 0.000547 0.066225 0.001119 r_peak,r_snr = 0.5019403 13.60417 246 0.281 3846 -1.000 13.60417 0.001142 0.068570 -0.001511 r_peak,r_snr = 0.6587831 14.15683 346 0.250 3846 0.250 14.15683 0.000459 0.021743 0.000225 r_peak,r_snr = 0.7706504 11.95793 446 0.281 3846 -0.031 11.95793 0.000332 0.048537 0.000118 r_peak,r_snr = 0.5298903 9.142777 546 0.406 3846 0.813 9.14278 0.001675 0.031900 -0.000488 r_peak,r_snr = 0.2158737 11.63231 646 0.594 3846 0.719 11.63231 0.023393 0.522836 0.030380 r_peak,r_snr = 0.2804837 7.264860 846 0.469 3846 -0.219 7.26486 0.020357 0.601280 -0.039753 r_peak,r_snr = 0.2091054 8.091730 946 0.094 3846 -1.000 8.09173 0.010200 0.565046 0.017993 r_peak,r_snr = 0.4948561 3.905844 1046 0.500 3846 -1.750 3.90584 0.005412 0.121039 0.000796 r_peak,r_snr = 0.3544425 8.231989 1146 0.219 3846 0.250 8.23199 0.010361 1.678546 0.005093 r_peak,r_snr = 0.3198771 4.819029 1246 -0.719 3846 0.250 4.81903 0.192357 3.297743 0.636852 r_peak,r_snr = 0.3685274 5.921309 1346 -0.063 3846 0.781 5.92131 0.006798 0.290506 0.025387 r_peak,r_snr = 0.5283701 12.51595 1446 0.375 3846 -0.219 12.51595 0.001291 0.029174 0.001694 r_peak,r_snr = 0.2928403 6.208418 1546 0.156 3846 0.094 6.20842 0.015137 3.218713 -0.156128 r_peak,r_snr = 0.3294019 13.64198 1646 -0.156 3846 0.781 13.64198 0.005418 0.166514 0.009729 r_peak,r_snr = 0.4286103 2.421804 1746 0.063 3846 -6.813 2.42180 0.008322 0.580726 0.014178 At line = 4200 Reading in data.... r_peak,r_snr = 0.7631469 13.46178 146 0.344 4246 -0.125 13.46178 0.000332 0.006804 -0.000373 r_peak,r_snr = 0.2630916 8.398393 246 0.156 4246 -2.188 8.39839 0.004866 1.489852 -0.021856 r_peak,r_snr = 0.9107930 10.86316 346 0.188 4246 0.156 10.86316 0.000098 0.006819 0.000012 r_peak,r_snr = 0.6188940 8.992234 446 0.219 4246 0.813 8.99223 0.000794 0.090888 -0.002462 r_peak,r_snr = 0.7142261 19.07962 546 0.000 4246 -0.094 19.07962 0.000404 0.011967 0.000131 r_peak,r_snr = 0.1972120 5.196621 646 0.438 4246 1.375 5.19662 0.009472 0.990717 -0.037299 r_peak,r_snr = 0.2198832 9.656034 746 -0.563 4246 -2.906 9.65603 0.009393 0.173553 -0.001438 r_peak,r_snr = 0.4106782 6.047082 846 0.219 4246 -0.750 6.04708 0.003068 0.201513 -0.005660 r_peak,r_snr = 0.4667674 5.709897 946 0.125 4246 -0.250 5.70990 0.002263 0.209603 0.000273 r_peak,r_snr = 0.3875548 9.063059 1046 0.063 4246 -2.250 9.06306 0.003954 0.616938 0.017963 r_peak,r_snr = 0.2279224 9.007597 1146 0.313 4246 4.031 9.00760 0.012199 0.722634 0.038742 r_peak,r_snr = 0.5355913 8.859420 1246 0.250 4246 0.750 8.85942 0.001422 0.105165 0.002116 r_peak,r_snr = 0.1736972 7.621499 1346 0.219 4246 -0.750 7.62150 0.068997 2.055859 0.087905 r_peak,r_snr = 0.1658560 8.241606 1446 6.500 4246 5.000 8.24161 0.010487 0.434226 -0.012445 r_peak,r_snr = 0.3233710 3.599495 1546 0.219 4246 -0.750 3.59950 0.005564 0.499694 -0.017875 r_peak,r_snr = 0.2073555 2.923129 1646 -10.750 4246 -2.125 2.92313 0.032969 0.517922 0.067908 r_peak,r_snr = 0.3825287 2.931466 1746 0.781 4246 -1.875 2.93147 0.033672 1.482207 -0.190364 r_peak,r_snr = 0.1136704 5.686791 1946 -12.938 4246 3.000 5.68679 0.100265 0.339635 0.077832 r_peak,r_snr = 0.1070108 7.142271 2046 1.750 4246 -11.625 7.14227 0.406927 0.595903 0.050390 At line = 4600 Reading in data.... r_peak,r_snr = 0.2950232 6.996304 146 0.188 4646 -4.188 6.99630 0.008945 6.161738 0.112205 r_peak,r_snr = 0.6100553 16.25526 246 0.406 4646 -0.063 16.25526 0.000800 0.020955 -0.000336 r_peak,r_snr = 0.5091943 13.44140 346 0.438 4646 0.125 13.44140 0.001019 0.074938 -0.000355 r_peak,r_snr = 0.8352442 13.33427 446 0.375 4646 -0.156 13.33427 0.000229 0.003246 -0.000042 r_peak,r_snr = 0.8022676 15.91582 546 0.250 4646 0.281 15.91582 0.000250 0.007914 -0.000061 r_peak,r_snr = 0.2265779 7.921887 646 -0.781 4646 3.031 7.92189 0.014738 0.686848 0.024228 r_peak,r_snr = 0.2911651 12.95255 746 0.188 4646 0.656 12.95255 0.007454 0.340715 -0.025686 r_peak,r_snr = 0.3370943 5.569084 846 0.063 4646 -0.750 5.56908 0.008535 1.146226 -0.032413 r_peak,r_snr = 0.1607688 5.274835 946 0.219 4646 -4.656 5.27483 0.049038 1.679823 -0.164407 r_peak,r_snr = 0.4449318 9.150268 1046 0.375 4646 -1.781 9.15027 0.002276 0.339260 0.008252 r_peak,r_snr = 0.2476998 7.276878 1146 0.406 4646 -0.250 7.27688 0.027249 1.791721 0.174674 r_peak,r_snr = 0.2148794 8.349210 1346 -0.063 4646 -4.781 8.34921 0.009206 1.980395 -0.044920 r_peak,r_snr = 0.5280384 5.525222 1446 0.125 4646 -0.156 5.52522 0.002239 0.062191 -0.000467 r_peak,r_snr = 0.2177053 4.713308 1546 0.938 4646 -2.688 4.71331 0.016641 0.333889 0.024106 r_peak,r_snr = 9.1635406E-02 5.966731 1646 0.469 4646 -0.188 5.96673 0.239056 25.737734 -2.223414 r_peak,r_snr = 0.3848652 2.692729 1746 -0.063 4646 2.594 2.69273 0.041603 0.242436 -0.036962 r_peak,r_snr = 0.1015890 4.871141 1846 -8.750 4646 8.906 4.87114 0.049547 0.235061 -0.024182 r_peak,r_snr = 0.1121650 7.759967 1946 -0.063 4646 -0.875 7.75997 0.020994 0.774607 -0.008269 r_peak,r_snr = 0.1274779 7.374637 2046 -1.156 4646 13.688 7.37464 0.038372 1.085689 -0.122393 At line = 5000 Reading in data.... r_peak,r_snr = 0.6432710 10.82348 146 0.313 5046 -0.219 10.82348 0.000850 0.031251 -0.000726 r_peak,r_snr = 0.3442530 13.50801 246 0.250 5046 0.844 13.50801 0.003327 0.181185 0.000384 r_peak,r_snr = 0.4302859 7.301498 346 0.469 5046 0.531 7.30150 0.002932 1.039585 -0.003465 r_peak,r_snr = 0.6533421 11.66579 446 0.281 5046 -0.781 11.66579 0.000653 0.110402 0.000396 r_peak,r_snr = 0.5354956 13.09421 546 0.250 5046 0.344 13.09421 0.001263 0.062902 -0.002080 r_peak,r_snr = 0.3373108 7.743123 646 0.469 5046 0.875 7.74312 0.006606 0.297212 -0.016459 r_peak,r_snr = 0.3968302 6.355138 746 0.469 5046 0.344 6.35514 0.008140 0.715553 -0.044716 r_peak,r_snr = 0.3699744 6.594680 846 0.250 5046 0.094 6.59468 0.004137 0.398298 0.015418 r_peak,r_snr = 0.3184422 6.183915 946 0.344 5046 -1.750 6.18391 0.014993 0.593444 0.059860 r_peak,r_snr = 0.2623243 8.016525 1046 0.375 5046 0.813 8.01653 0.011226 1.724589 -0.111157 r_peak,r_snr = 0.4625966 8.081009 1146 0.219 5046 0.719 8.08101 0.003435 0.119764 0.005550 r_peak,r_snr = 0.1757689 5.906901 1246 0.313 5046 1.594 5.90690 0.021954 1.040175 -0.064029 r_peak,r_snr = 0.2442377 11.73912 1346 -0.219 5046 1.188 11.73912 0.015625 0.239195 0.022243 r_peak,r_snr = 0.3566672 3.518619 1446 0.375 5046 -0.844 3.51862 0.013235 1.094072 -0.076936 r_peak,r_snr = 0.1870482 6.926761 1646 1.063 5046 -2.094 6.92676 0.018229 0.678224 -0.015803 r_peak,r_snr = 0.2674776 7.372552 1746 0.875 5046 -0.563 7.37255 0.021298 0.219539 0.015460 r_peak,r_snr = 0.1255925 7.483303 1846 -9.750 5046 -10.125 7.48330 0.122748 1.261549 0.341450 r_peak,r_snr = 0.1260116 6.946642 1946 -4.781 5046 -8.219 6.94664 0.036809 0.462253 -0.003496 r_peak,r_snr = 0.1238148 6.016201 2046 9.188 5046 12.156 6.01620 0.039154 1.602787 0.159149 At line = 5400 Reading in data.... r_peak,r_snr = 0.7554875 13.73646 146 0.344 5446 -0.094 13.73646 0.000307 0.022505 -0.000036 r_peak,r_snr = 0.3164314 11.34898 246 0.438 5446 -0.250 11.34898 0.004233 0.257992 0.009915 r_peak,r_snr = 0.6794545 11.23414 346 0.156 5446 -0.156 11.23414 0.000515 0.025433 -0.000668 r_peak,r_snr = 0.3377761 6.517359 446 1.031 5446 1.281 6.51736 0.004767 0.456711 -0.015582 r_peak,r_snr = 0.3314350 5.856956 546 0.375 5446 -2.250 5.85696 0.014849 10.391757 0.314675 r_peak,r_snr = 0.4863407 9.038791 646 0.469 5446 1.781 9.03879 0.002859 1.534411 0.034295 r_peak,r_snr = 0.3476208 8.738010 746 -0.125 5446 1.781 8.73801 0.004963 1.478577 -0.008358 r_peak,r_snr = 0.3690226 6.001891 846 1.000 5446 -3.781 6.00189 0.039265 1.172519 0.189814 r_peak,r_snr = 0.1497222 7.171834 946 0.375 5446 -0.563 7.17183 0.033092 0.404893 -0.063030 r_peak,r_snr = 0.4010944 8.733129 1046 0.031 5446 -1.125 8.73313 0.004237 0.143048 0.001252 r_peak,r_snr = 0.3146874 6.689383 1146 0.281 5446 2.781 6.68938 0.024052 1.929820 -0.167063 r_peak,r_snr = 0.3139177 9.331130 1246 0.188 5446 2.281 9.33113 0.005904 0.425897 -0.007358 r_peak,r_snr = 0.2112051 8.109920 1346 1.531 5446 -7.906 8.10992 0.016111 1.096395 0.074482 r_peak,r_snr = 0.1875661 7.136899 1446 -0.281 5446 11.750 7.13690 0.226153 7.632592 -1.007595 r_peak,r_snr = 0.1973472 5.120255 1546 -1.219 5446 1.781 5.12026 0.069091 0.487306 0.079380 r_peak,r_snr = 0.3534740 3.690775 1746 1.500 5446 -3.188 3.69077 0.041779 0.936304 0.171832 r_peak,r_snr = 0.1370701 7.882187 1846 -2.813 5446 -7.281 7.88219 0.032373 0.331251 0.025696 r_peak,r_snr = 9.0949006E-02 4.940067 1946 -7.219 5446 16.844 4.94007 0.034353 4.923011 0.231077 r_peak,r_snr = 9.7320117E-02 5.165988 2046 6.438 5446 -5.469 5.16599 0.812702 1.819850 -1.091618 At line = 5800 Reading in data.... r_peak,r_snr = 0.7274204 12.92969 146 0.344 5846 0.781 12.92969 0.000343 0.017833 0.000428 r_peak,r_snr = 0.3195238 6.452390 246 0.031 5846 0.781 6.45239 0.043159 2.551008 0.294995 r_peak,r_snr = 0.5140647 13.45521 346 0.219 5846 -0.188 13.45521 0.001021 0.147373 0.001892 r_peak,r_snr = 0.3790731 12.77543 446 0.125 5846 0.000 12.77543 0.002518 0.089904 0.003919 r_peak,r_snr = 0.3320820 8.346563 546 0.125 5846 -0.781 8.34656 0.006194 0.485161 0.006936 r_peak,r_snr = 0.5895204 9.101272 646 0.219 5846 -0.719 9.10127 0.001229 0.592151 -0.013760 r_peak,r_snr = 0.2379137 6.398459 746 0.406 5846 2.375 6.39846 0.043954 1.616510 -0.215412 r_peak,r_snr = 0.2765853 8.233384 946 0.813 5846 1.125 8.23338 0.049736 1.555262 -0.233652 r_peak,r_snr = 0.4035977 6.071193 1046 0.250 5846 -1.031 6.07119 0.003198 0.324904 0.014184 r_peak,r_snr = 0.4079261 9.053733 1146 0.469 5846 1.219 9.05373 0.007503 0.542634 -0.047481 r_peak,r_snr = 0.2639160 5.186445 1246 0.438 5846 -1.344 5.18644 0.015493 0.351679 0.031092 r_peak,r_snr = 0.6673937 6.704959 1346 0.469 5846 -0.219 6.70496 0.000750 0.032769 0.000748 r_peak,r_snr = 9.8553762E-02 4.776328 1546 -0.938 5846 1.313 4.77633 0.039260 0.792138 -0.001100 r_peak,r_snr = 0.1304166 7.991828 1646 -0.219 5846 -0.219 7.99183 0.008783 0.524261 0.025756 r_peak,r_snr = 0.2757383 14.26372 1746 0.281 5846 1.094 14.26372 0.006067 0.901845 -0.033745 r_peak,r_snr = 0.1741548 6.350611 1846 -9.031 5846 -14.750 6.35061 0.042563 0.896700 0.114285 r_peak,r_snr = 0.1124404 4.833121 2046 -4.250 5846 12.563 4.83312 0.166198 0.440104 0.146836 *************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Multi-look Program ***** ***** ***** *************************************** Enter the name of the Shh input file. fd for hh: 3 Enter the name of the complex HV file. fd for hv: 4 Enter the name of the complex VH file. fd for vh: 5 Enter the name of the complex VV file. fd for vv: 6 Procmode 0=polsar,1=xti1,2=xti2,3=xti1p,4=xti2p,5=poltop Proc mode: 4 min. window size : 5932 MIN window samp: 2517 90.00000 10.00000 900 2560 MIN window samp: 2517 90.00000 10.00000 900 2560 Calculating the ratio of HV and VH.... amvh,amhv 287.2448 579.0577 Enter the name of the file. Enter the name of the file. Enter the name of the file. Enter the name of the file. Enter the name of the file. Enter the name of the file. Enter the number of looks in azimuth. amplitude ratio and phase = 1.419825 31.78648 40/20 MHz: 2560 10240 40/20 MHz MHz complex: 2560 20480 97236 5402 18 /u/sardine0/airops/OPS/data_proc/ ************************************************* ***** Integrated AIRSAR Processor ***** ***** ***** ***** Radiometric Calibration Program ***** ***** ***** ************************************************* ***** ***** ***** This program performs the following ***** ***** calibrations: ***** ***** ***** ***** (1) Phase calibration ***** ***** (2) Cross-talk removal ***** ***** (3) Antenna pattern removal ***** ***** (4) Scattering area removal ***** ***** ***** ***** If available, the topography is used ***** ***** when removing antenna patterns and ***** ***** scattering areas. In all cases, the ***** ***** aircraft roll is taken into account ***** ***** when the antenna pattern is removed. ***** ***** ***** ************************************************* Enter the name of input file. iline: 5402 2560 hhhh i/p ch : 3 Enter the name of input file. hhhv i/p ch : 4 Enter the name of input file. hhvv i/p ch : 5 Enter the name of input file. hvhv i/p ch : 6 Enter the name of input file. hvvv i/p ch : 7 Enter the name of input file. vvvv i/p ch : 8 Enter the name of output file. hhhh o/p ch : 9 Enter the name of output file. hhhv o/p ch : 10 Enter the name of output file. hhvv o/p ch : 11 Enter the name of output file. hvhv o/p ch : 12 Enter the name of output file. hvvv o/p ch : 13 Enter the name of output file. vvvv o/p ch : 14 Enter the name of the calibration file. calib file bw: /u/sardine0/airops/OPS/data_proc/recal0.dat 40.00000 hddt1 , hddt2: 92001 92999 hddt1 , hddt2: 93001 93999 hddt1 , hddt2: 94001 94999 hddt1 , hddt2: 95001 95999 hddt1 , hddt2: 96001 96022 hddt1 , hddt2: 96023 96031 hddt1 , hddt2: 96032 96099 abs gain: 137.5500 136.3300 137.5500 136.3300 caltone: 83.20000 85.60000 83.10000 86.00000 ifreq 0-p 1-L 2-c: 0 3 cable phase P/L/C: 12.89200 186.9660 56.51500 sigma zero: 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 hddt bw ha T : 96068 40.00000 8367.900 10.00000 $tphase,phasedat: -205.6000 31.80000 $rphase,phasevh,phasehv: -237.4000 -175.7000 61.70000 Reading data size. 5402 5402 2560 2560 Enter H Ant pattern file: POLSAR H-ANT: /u/sardine0/airops/OPS/data_proc/AIRSAR.PH Enter V Ant pattern file: POLSAR V-ANT: /u/sardine0/airops/OPS/data_proc/AIRSAR.PV Enter the name of the motion compensation file. motion lun: 15 How many lines of raw data? How many lines of raw data: 100000 Cross pol phase difference is: 31.80 deg Receiver phase difference is -237.40 deg Transmitter phase difference is -205.60 deg Cable phase difference is 12.89 deg $ghv,phasedat,phi: (0.8498927,0.5269558) 31.80000 31.80000 $phico aphase: -417.2160 12.89200 $fhh,fhv,fvh: (0.5414734,0.8407179) (-0.9755039,-0.2199826) (-0.7131527,-0.7010087) Input ground spacing ? cross-track ground spacing: 10.00000 Input file of Radiometric Correction Vectors: Radiometric Correction Vectors file: /export/air36/airops/1400/ts1400_p.rad_vec Procmode 0=polsar,1=xti1,2=xti2,3=xti1p,4=xti2p,5=poltop Proc mode: 4 Vec_lenRnHaY0outDyout: 9616 1202 17564.57 8367.900 3421.930 10.00000 3.331000 NSAMP vec_len rg_len nbytes: 2560 1202 9616 Reading data to estimate cross-talk. 5402 2560 256 512 768 1024 in cross-talk estimation Estimating the cross-talk parameters. 256 512 768 1024 1280 1536 1792 2048 2304 2560 cross(1,100) 0=-100 dB: (1.1750227E-02,-1.1189437E-02) (-2.5841726E-03,-1.6981706E-02) Finished estimating cross-talk. Enter the file with the lines per pixel. lines lun: 19 Is there a DEM available? Enter the name of the DEM file. DEM lun : 20 Byte offset to DEM data: 0 Enter the name of the global reference file. Enter the scattering area file name. ha maphgt 8446.500 78.60000 scattering area lun: 21 Now doing the actual calibration DEM. 2560 2560 1 5402 257 5402 513 5402 769 5402 1025 5402 1281 5402 1537 5402 1793 5402 2049 5402 2305 5402 2561 5402 2817 5402 3073 5402 3329 5402 3585 5402 3841 5402 4097 5402 4353 5402 4609 5402 4865 5402 5121 5402 5377 5402 peg file: /export/air36/airops/1400/ts1400_p.peg filter file: /export/air36/airops/1400/ts1400.pfilter ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Compression Program ***** ***** ***** ********************************************* ***** ***** ***** This prgram reads six input ***** ***** cross-product files and then ***** ***** compresses them into either the ***** ***** current AIRSAR compressed Stokes ***** ***** matric format, or the SIR-C com- ***** ***** pressed cross-product format. ***** ***** ***** ********************************************* Enter the name of input file. Enter the name of input file. Enter the name of input file. Enter the name of input file. Enter the name of input file. Enter the name of input file. Enter the name of output file. Please choose the type of compression: (1) Stokes matrix (AIRSAR standard) (2) Cross-products (SIR-C standard) hddt: 96068 Finished writing headers. 256 512 768 1024 1280 1536 1792 2048 2304 2560 2816 3072 3328 3584 3840 4096 4352 4608 4864 5120 5376 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Projection Program ***** ***** ***** ***** This program projects from slant ***** ***** range to ground range. ***** ***** ***** ***** It uses an array of values produced ***** ***** by the GENLOC program to perform a ***** ***** nearest neighbor interpolation. ***** ***** ***** ************************************************** Enter the name of the input file. Projecting COMPRESSED STOKES MATRIX data. Projecting dem? Enter the name of the s,c file. Enter the range and azimuth pixel spacing. Enter the output file name. prf bw len: 842.6000 40.00000 10.00000 nsampr O/p: 1202 13041.07 8367.900 3421.930 10.00000 Number of header no123: 6 1 1 4 Byte offset to calibration header: 24040 Byte offset to dem header: 0 Byte offset to first data line: 72120 NewHead nsamp nline: 1202 5001 POLSAR vec length: 9616 1 nbytes calvec: 9616 76800 headers_sgi: 3 9616 76800 36060 2 nbytes calvec: 9616 102400 headers_sgi: 3 9616 102400 48080 3 nbytes calvec: 9616 128000 headers_sgi: 3 9616 128000 60100 Reading data. 25600 1202 1202 5402 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Initializing output array. Near Range = 3421.930 Resampling the data: first pass. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Resampling the data: second pass. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Near Range = 3421.930 Resampling the data. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 + 5120 + 5376 Filling in 1 and 2 pixel holes. Number of pixels without data = 2120834 Number of holes filled by WAYNE (c10) = 0 Neighborhood Pixel Distance Used = 0 Writing map out. + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 + 2560 + 2816 + 3072 + 3328 + 3584 + 3840 + 4096 + 4352 + 4608 + 4864 Enter number of set to convert: Enter the cband filename: Enter the output filename: Reading new header..STARTING at 0 72120 9616 12020 12020 dumping the rest 1 dumping the rest 2 dumping the rest 3 dumping the rest 4 dumping the rest 5 dumping the rest 6 dumping the rest 7 dumping the rest 8 dumping the rest 9 dumping the rest 10 dumping the rest 11 dumping the rest 12 dumping the rest 13 dumping the rest 14 dumping the rest 15 dumping the rest 16 dumping the rest 17 dumping the rest 18 dumping the rest 19 dumping the rest 20 dumping the rest 21 dumping the rest 22 dumping the rest 23 dumping the rest 24 dumping the rest 25 dumping the rest 26 dumping the rest 27 dumping the rest 28 dumping the rest 29 dumping the rest 30 dumping the rest 31 dumping the rest 32 dumping the rest 33 dumping the rest 34 dumping the rest 35 dumping the rest 36 dumping the rest 37 dumping the rest 38 dumping the rest 39 dumping the rest 40 dumping the rest 41 dumping the rest 42 dumping the rest 43 dumping the rest 44 dumping the rest 45 dumping the rest 46 dumping the rest 47 dumping the rest 48 dumping the rest 49 dumping the rest 50 dumping the rest 51 dumping the rest 52 dumping the rest 53 dumping the rest 54 dumping the rest 55 *** Synthesize 2.5 - 11/30/90 *** Enter the name of input file. Stokes matrix data... Enter the name of the output byte file. Enter the relative scale factor. ibytesdata= 72120 100 200 300 400 500 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 2100 2200 2300 2400 2500 2600 2700 2800 2900 3000 3100 3200 3300 3400 3500 3600 3700 3800 3900 4000 4100 4200 4300 4400 4500 4600 4700 4800 4900 5000 Tue Dec 3 02:22:42 PST 2002 Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin ts1400_p.vvvvr Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin Reading from stdin cd /export/air36/airops/1400;am_misregNEW L-C *_c.vvvr *_l.vvvr 2>&1 | cd /export/air36/airops/1400;am_misregNEW P-C *_c.vvvr *_p.vvvvr 2>&1 | cd /export/air36/airops/1400;am_misregNEW P-L *_l.vvvr *_p.vvvvr 2>&1 | Mis-registration QA: No updates to the L-band sensor file;No updates to the P-band sensor file; The Mis-registration check is completed Mis-registration QA: JOB ID: ts1400 L-C: 0.0886 1.37 0.122 1.29 P-C: 0.251 0.864 -0.071 1.39 P-L: -0.309 0.493 -0.301 0.871 [1] 15869862 15866107 IDL. Version 4.0.1b (IRIX mipseb). Copyright 1989-1996, Research Systems, Inc. All rights reserved. Unauthorized reproduction prohibited. Installation number: 2972-1. Licensed for use by: JPL Radar Science & Engr % Compiled module: SPAWN_JOB_INFO.