processor job /u/sarairways0/airops/processor/data/ ****************************************************** * * * 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:/u/air40/airops/685 Enter the C-band output disk name (def:/u/air16/airops) : C-band output data disk: /u/air47/airops/685 Enter the L-band output disk name (def:/u/air16/airops) : L-band output data disk: /u/air47/airops/685 Enter the P-band output disk name (def:/u/air16/airops) : P-band output data disk: /u/air47/airops/685 How many bytes offset in range (def=0)? Which year was data taken (def=95)? year: 98 Is this taken in 98 spring (def=95)? Enter the chirp bandwidth (def=40): bandwidth: 20 Enter HDDT number: HDDT #: 98023 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 #:ts0685 What is the desired post spacing (def=10)? post spacing#: 10 What is the # of lines of download tape (def=40960)? # of lines for download: 84000 # of lines for download: 84000 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 #:ts0685 Enter the number of looks (def=18): raw disk:/u/air40/airops/685 Enter the frequency (C, L or P) Enter the radar mode, 0=POLSAR, 1=TOPSAR, 2=PINGPONG 3=POLTOP (def=0): cm/ts #:ts0685 Enter the number of looks (def=18): raw disk:/u/air40/airops/685 Enter the frequency (C, L or P) Enter the radar mode, 0=POLSAR, 1=TOPSAR, 2=PINGPONG 3=POLTOP (def=0): cm/ts #:ts0685 Enter the number of looks (def=18): raw disk:/u/air40/airops/685 ***** Please run "gencom_all" now! /u/sarairways0/airops/processor/data/ ****************************************************** * * * 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: 84000 Do you want to specify the processing altitude? Is there a DEM to use in calibration and projection? (y/n) nbytes: 6144 line1: 1 nlines 236000 lgt_az 2586 nlines 84000 nbytes: 6144 line1: 1 nlines 118000 lgt_az 2586 nlines 42000 nbytes: 6144 line1: 1 nlines 118000 lgt_az 2586 nlines 42000 nbytes: 6144 line1: 1 nlines 118000 lgt_az 2586 nlines 42000 nbytes: 6144 line1: 1 nlines 118000 lgt_az 2586 nlines 42000 nbytes: 6144 line1: 1 nlines 118000 lgt_az 4700 nlines 42000 nbytes: 6144 line1: 1 nlines 118000 lgt_az 4700 nlines 42000 nbytes: 6144 line1: 1 nlines 118000 lgt_az 4700 nlines 42000 nbytes: 6144 line1: 1 nlines 118000 lgt_az 4700 nlines 42000 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 for long 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 DEMFORMAT.COM file. Wrote CVVFORMAT.COM file. ts #: 685685 Wrote C_PIC.COM file Wrote get_hp_cp.COM file. Wrote HD.COM file /u/sarairways0/airops/processor/data/ ****************************************************** * * * 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: 84000 Do you want to specify the processing altitude? Is there a DEM to use in calibration and projection? (y/n) nbytes: 6144 line1: 1 nlines 236000 lgt_az 2586 nlines 84000 nbytes: 6144 line1: 1 nlines 118000 lgt_az 2586 nlines 42000 nbytes: 6144 line1: 1 nlines 118000 lgt_az 2586 nlines 42000 nbytes: 6144 line1: 1 nlines 118000 lgt_az 2586 nlines 42000 nbytes: 6144 line1: 1 nlines 118000 lgt_az 2586 nlines 42000 nbytes: 6144 line1: 1 nlines 118000 lgt_az 4700 nlines 42000 nbytes: 6144 line1: 1 nlines 118000 lgt_az 4700 nlines 42000 nbytes: 6144 line1: 1 nlines 118000 lgt_az 4700 nlines 42000 nbytes: 6144 line1: 1 nlines 118000 lgt_az 4700 nlines 42000 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 for long 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 DEMFORMAT.COM file. Wrote CVVFORMAT.COM file. ts #: 685685 Wrote L_PIC.COM file Wrote get_hp_cp.COM file. /u/sarairways0/airops/processor/data/ ****************************************************** * * * 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, (def=40960): Do you want to specify the processing altitude? Is there a DEM to use in calibration and projection? (y/n) Is DEM in pingpong mode (def=y)? nbytes: 6144 line1: 1 nlines 195590 lgt_az 2586 sensor_out/u/air40/airops/685/sensor.tp nbytes: update sensor 6144 line1: 1 nlines 84000 lgt_az 2586 nbytes: 6144 line1: 1 nlines 97795 lgt_az 4700 sensor_out/u/air40/airops/685/sensor.pp nbytes: update sensor 6144 line1: 1 nlines 42000 lgt_az 4700 nbytes: 6144 line1: 1 nlines 97795 lgt_az 4700 sensor_out/u/air40/airops/685/sensor.lp nbytes: update sensor 6144 line1: 1 nlines 42000 lgt_az 4700 nbytes: 6144 line1: 1 nlines 97795 lgt_az 2586 sensor_out/u/air40/airops/685/sensor.cp nbytes: update sensor 6144 line1: 1 nlines 42000 lgt_az 2586 Wrote the HDR.CMD file. Wrote the HDR_PROC_C.COM file. Wrote SPLIT_MOCOMP_P.COM file. 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:685 Wrote P_PIC.COM file p_flag = 1 Tue Apr 6 21:45:21 PDT 1999 ***************************************************** * * * 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... Reading and decoding header file... Finished reading the header file... Data acquired after 1994. J2000 time = -53195052.36155403 GPS J2000 time = -53195053.79129398 Message 1 Time = -53195052.36155403 INS Time = 1.071680000000000 Roll angle = 0.2197265625000000 Pitch angle = 1.312866210937500 Heading angle = 50.52612304687500 Long. acc = 0.2700000000000000 Lat. acc = -0.1300000000000000 Norm. acc = -9.710000000000001 East vel. = 184.1880000000000 North vel. = 107.8290000000000 Up vel. = 4.7000000000000000E-02 True Grnd Spd = 213.4218750000000 Altitude = 9545.000000000000 Latitude = 44.42715156823397 Longitude = -121.6501781065017 Message 6 Week = 954 GPS Time = -53195053.79129398 GDOP = 2.203125000000000 PDOP = 2.031250000000000 HDOP = 1.265625000000000 VDOP = 1.578125000000000 TDOP = 0.8437500000000000 Spherical Acc = 9.000000000000000 Time Acc = 9.0000000000000012E-09 GPS Lat = 44.42585655603531 GPS Lon = -121.6533135026799 GPS Alt = 9549.000000000000 GPS East Vel = 184.1400000000000 GPS North Vel = 107.8100000000000 GPS Up Vel = 2.0000000000000000E-02 Message 3 Del INU Time = 0.6517120000000000 Del vel east = 2.3437500000000000E-02 Del vel north = 1.5625000000000000E-02 Del vel up = 1.8554687500000000E-02 Del pos east = 0.7500000000000000 Del pos north = 0.3750000000000000 Del pos up = -0.1250000000000000 Message 4 Sigma Pos x = 1.500000000000000 Sigma Pos y = 1.375000000000000 Sigma Pos z = 2.000000000000000 Sigma Vel x = 8.7890625000000000E-03 Sigma Vel y = 7.8125000000000000E-03 Sigma Vel z = 1.0253906250000000E-02 Message 7 Satellites used = 14 24 4 14 30 2 Retrived Honeywell data... 5030 Operator Comments: - - - - - - - - - - - - - - - - - - - - - CPA @ 18:53:42 IDR1: 330258 IDR2: 328416 drft +9.1; another nice shot of the crater; smooth ride for all data lines so far; nav systems look goodc look good, Michael Kobrick, Timothy William Miller - - - - - - - - - - - - - - - - - - - - - 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: 598023 98023 enter HDDT footage number <0> : enter the title of image: enter the CCT ID: cct: 685 prod ID1:685 685 prod ID:685 SONY tapeid: 98023 98023 tapeid:9802398023 tapeid par:98023 prod ID: 685 chrp_delay from subcomm header tapeID: 32.45000 98023 chrp_delay is 32.5 usec 98023 32.45000 Is 9803998001 for P-bnad?: 98023 1998 P-band fc? 22.50000 idelay,chrp_delay,xdelay 96 32.45000 0.4200000 near range delr windela: 9462.949 3.331027 0 f_cal 43.59375 1216.406 Parameter header created .. >> Record # : 128 >> GPS Stuff = 2.40 5 7 16 30 4 24 digdelay startrng(us):96 96.00000000000000 startrng(m) elecdelay: 10312.86200000000 2.7200000000000000E-05 >> start range = 10312.8620 >> ccal_amp = -90.39999 >> ccal_atn = 32 >> ratn_phh = 0 12 0 >> ratn_phv = 0 8 0 >> ratn_pvh = 0 6 0 >> ratn_pvv = 0 14 0 >> ratn_lhh = 0 13 0 >> ratn_lhv = 0 13 0 >> ratn_lvh = 0 13 0 >> ratn_lvv = 0 13 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 = 358.5 >> rcvr_cbw = 1 >> chrp_bnd = 40 >> chrp_len = 5 >> chrp_mod = DN Check for frame count time glitches Warning timing glitch at frame 7903394 Warning timing glitch at frame 7904224 Warning timing glitch at frame 7905054 Warning timing glitch at frame 7905883 Warning timing glitch at frame 7906713 Warning timing glitch at frame 7907543 Warning timing glitch at frame 7908373 Warning timing glitch at frame 7909202 Warning timing glitch at frame 7910032 Warning timing glitch at frame 7911692 Warning timing glitch at frame 7913352 Warning timing glitch at frame 7915013 Warning timing glitch at frame 7916674 Warning timing glitch at frame 7918335 Warning timing glitch at frame 7919997 Warning timing glitch at frame 7921659 Warning timing glitch at frame 7923321 Warning timing glitch at frame 7924984 Warning timing glitch at frame 7926647 Warning timing glitch at frame 7928311 Warning timing glitch at frame 7929976 Warning timing glitch at frame 7931641 Warning timing glitch at frame 7933307 Warning timing glitch at frame 7934974 Warning timing glitch at frame 7936641 Warning timing glitch at frame 7938309 Warning timing glitch at frame 7939977 Warning timing glitch at frame 7941646 Warning timing glitch at frame 7943315 Warning timing glitch at frame 7944150 Warning timing glitch at frame 7944985 Warning timing glitch at frame 7945820 Warning timing glitch at frame 7946655 Warning timing glitch at frame 7947490 Warning timing glitch at frame 7948326 Warning timing glitch at frame 7949161 Warning timing glitch at frame 7949997 Warning timing glitch at frame 7950832 Warning timing glitch at frame 7952503 Warning timing glitch at frame 7954174 Warning timing glitch at frame 7955845 Warning timing glitch at frame 7957517 Warning timing glitch at frame 7959188 Warning timing glitch at frame 7960023 Warning timing glitch at frame 7960858 Warning timing glitch at frame 7961693 Warning timing glitch at frame 7962529 Warning timing glitch at frame 7963364 Warning timing glitch at frame 7964199 Warning timing glitch at frame 7965034 Warning timing glitch at frame 7965869 Warning timing glitch at frame 7966704 Warning timing glitch at frame 7968374 Warning timing glitch at frame 7970044 Warning timing glitch at frame 7971714 Warning timing glitch at frame 7973383 Warning timing glitch at frame 7975053 Warning timing glitch at frame 7976722 Warning timing glitch at frame 7977556 Warning timing glitch at frame 7978391 Warning timing glitch at frame 7979225 Warning timing glitch at frame 7980059 Warning timing glitch at frame 7980893 Warning timing glitch at frame 7981727 Warning timing glitch at frame 7982561 Warning timing glitch at frame 7983395 Warning timing glitch at frame 7984229 Warning timing glitch at frame 7985062 Warning timing glitch at frame 7985896 Warning timing glitch at frame 7986730 There were 70 timing glitches Done decoding data from header array... Data collected on ==> 25-APR-1998 Starting and end GPS times for SAR data -53195053.4990 -53194951.7390 Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00120 0.00120 0.00121 0.0000029 0 hdg 50.63253 50.50964 50.76782 0.0607300 0 trc 59.82874 59.65326 59.95989 0.0925020 0 tgs 214.42273 213.42188 215.01563 0.5221824 0 roll 0.29585 -0.01099 0.64270 0.1385427 0 pitch 1.21902 1.07666 1.34583 0.0791725 0 lati 44.47436 44.42586 44.52270 0.0281455 0 loni -121.53701 -121.65332 -121.42071 0.0676687 0 latd 44.47316 44.42333 44.52167 0.0282153 0 lond -121.54074 -121.65833 -121.42333 0.0677479 0 balt 9463.07449 9461.60160 9464.34480 0.8055076 0 ralt 8391.09754 8198.20560 8639.25120 125.9028573 0 dpth 1.21067 1.10000 1.30000 0.0819476 0 droll 0.31997 0.00000 0.70000 0.1485109 0 thd 50.59954 50.40000 50.80000 0.0821757 0 dad 9.24055 9.10000 9.40000 0.0842959 0 latg 44.47512 44.42649 44.52421 0.0281189 0 long -121.53487 -121.65162 -121.41670 0.0676668 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 9514.98644 9510.08984 9529.18945 5.0686805 0 phh_aten 12.00000 12.00000 12.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 6.00000 6.00000 6.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 13.00000 13.00000 13.00000 0.0000000 0 lhv_aten 13.00000 13.00000 13.00000 0.0000000 0 lvh_aten 13.00000 13.00000 13.00000 0.0000000 0 lvv_aten 13.00000 13.00000 13.00000 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 44.47585 44.42715 44.52455 0.0281190 0 hwlon -121.55758 -243.06583 -121.41624 1.7147572 0 hwalt 9543.70358 9540.89843 9546.96224 1.8286194 0 hwev 185.38109 184.18700 186.13300 0.6214295 0 hwnv 107.76882 107.63600 107.91600 0.0749851 0 hwuv -0.00445 -0.25500 0.20700 0.0988476 0 hwroll 0.29606 -0.01099 0.64270 0.1385734 0 hwpitch 1.21891 1.07666 1.34583 0.0791319 0 hwhdg 50.64266 50.50964 101.20605 0.7155829 0 hwtrc 59.84063 59.65326 119.52061 0.8466218 0 hwtgs 214.42292 213.42188 215.01563 0.5216124 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... -53195051.99913150 i_yearind 19983 GPS time for first pulse = -53195052.49816708 -53195053.49900000 New start and number of records = 115 83817 New start and number of blocks = 1 656 GPS trend coefficients = -3.433484398306914 -11.00937712244649 26.77587870409744 Begin final analysis of data... Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00120 0.00120 0.00121 0.0000029 0 hdg 50.63266 50.50964 50.76782 0.0606513 0 trc 59.82896 59.65326 59.95989 0.0923578 0 tgs 214.42408 213.42188 215.01563 0.5213453 0 roll 0.29591 -0.01099 0.64270 0.1386305 0 pitch 1.21886 1.07666 1.34583 0.0791472 0 delx 0.25730 0.00000 0.25738 0.0008891 0 lati 44.47436 44.42586 44.52270 0.0281455 0 loni -121.53701 -121.65332 -121.42071 0.0676687 0 latd 44.47316 44.42333 44.52167 0.0282153 0 lond -121.54074 -121.65833 -121.42333 0.0677479 0 balt 9463.07449 9461.60160 9464.34480 0.8055076 0 ralt 8391.09754 8198.20560 8639.25120 125.9028573 0 dpth 1.21067 1.10000 1.30000 0.0819476 0 droll 0.31997 0.00000 0.70000 0.1485109 0 thd 50.59954 50.40000 50.80000 0.0821757 0 dad 9.24055 9.10000 9.40000 0.0842959 0 latg 44.47512 44.42649 44.52324 0.0281163 0 long -121.53488 -121.65162 -121.41904 0.0676606 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 9514.98644 9513.16514 9516.68373 0.9285560 0 phh_aten 12.00000 12.00000 12.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 6.00000 6.00000 6.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 13.00000 13.00000 13.00000 0.0000000 0 lhv_aten 13.00000 13.00000 13.00000 0.0000000 0 lvh_aten 13.00000 13.00000 13.00000 0.0000000 0 lvv_aten 13.00000 13.00000 13.00000 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 44.47585 44.42717 44.52453 0.0281190 0 hwlon -121.53340 -121.65014 -121.41633 0.0676176 0 hwalt 9543.70357 9540.89844 9546.96097 1.8286185 0 hwev 185.38100 184.18700 186.13100 0.6215628 0 hwnv 107.76882 107.63800 107.91500 0.0749688 0 hwuv -0.00445 -0.25500 0.20700 0.0988481 0 hwroll 0.29609 -0.01099 0.64270 0.1386368 0 hwpitch 1.21891 1.07666 1.34583 0.0791435 0 hwhdg 50.63257 50.50964 50.76782 0.0606073 0 hwtrc 59.82876 59.65350 59.95933 0.0924044 0 hwtgs 214.42284 213.42188 215.00000 0.5216705 0 Finished final analysis of data... Average Barometric Altitude = 9463.074490243851 Average Radar Altitude = 8391.097536585357 Average GPS Altitude = 9514.986436331252 >>Record # : 128 >>GPS Stuff = 2.40 5 7 16 30 >>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 = 44.4271689 -121.6501413 9546.961 End position = 44.5245296 -121.4163333 9544.793 Loxodromic Heading (deg) = 59.8182635 Loxodromic Distance (km) = 21519.6188210 Geodesic Heading (deg) = 59.7364057 Geodesic Distance (km) = 21519.6114033 Peg latitude and longitude = 44.4759389 -121.5333123 Peg heading = 59.8286349 Rotation matrix First row = -0.373179762 0.921022574 -0.111598757 Second row = -0.608180028 -0.152019229 0.779106673 Third row = 0.700609676 0.358618978 0.616878035 Translation vector Vector = -2064.64021 -3364.79379 -26087.50636 Local Radius of Curvature = 6383109.494379944 Start and end pulse used = 115 83931 Ellipsoidal delta s (m) = 0.2567482509697461 Delta s on reference surface = 0.2567482522388658 Miscellaneous Information Start range = 10312.86200000000 Start ground range = 5995.381953016429 Time orgin = -53195052.49816708 Pulse spacing = 0.2573029206248791 First frame = 7903094 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. /u/air47/airops/685/ts0685_c.mocomp Name of the H-pol motion compensation file? /u/air47/airops/685/ts0685_c.mocomph Name of the V-pol motion compensation file? /u/air47/airops/685/ts0685_c.mocompv How many lines per polarization? 42000 + 1 + 10001 + 20001 + 30001 + 40001 + 50001 + 60001 + 70001 + 80001 ********************************************* * * * 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. /u/air47/airops/685/ts0685_c.par Enter the raw data file name. /u/air40/airops/685/c_hh Enter the motion compensation file name. /u/air47/airops/685/ts0685_c.mocomp Enter a file name for the range spectrum: /u/air47/airops/685/db_c_hh.dat Enter a file name for the sampled caltone power: /u/air47/airops/685/1st_c_hh.dat Enter histogram of the caltone power file name: /u/air47/airops/685/pw_hist_c_hh.dat Enter histogram of the caltone phase file name: /u/air47/airops/685/ph_hist_c_hh.dat How many lines of raw data? 42000 Enter start range line #: 1 Enter polarization (1=HH,2=HV,3=VH,4=VV): 1 Sampling frequency = 90.00000 Raw data samples per line = 5119 Caltone frequency = 43.59380 Prediction cal_bin 1057 start/end pulse: 1 41857 128-Loop Count: 328 cmplx raw(1 2 3): (111.2060,0.0000000E+00) (-198.5821,0.0000000E+00) (-238.2985,0.0000000E+00) attenuation (dB): 18.00000 Pulse#/128: 1 1057 1.3748285E+09 Pulse#/128: 129 1057 1.3908943E+09 Pulse#/128: 257 1057 1.3776308E+09 plot_x: 328 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 91.39492 Power RMS: 9.8821178E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 37132.04 Amp. RMS: 91.21404 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 53.56649 Phase RMS: 0.2674569 Incoherent PH 1st: 53.57179 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 91.40449 CalTone Power Coherently dB : 91.39492 Incoherent PW - Coherent PW : 9.5672607E-03 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 37163.00 CalTone Amplitude Coherently : 37132.04 Incoherent Amp.- Coherent Amp. : 30.95703 ------------ *** ------------ running time (sec): 19.26 ********** 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. /u/air47/airops/685/ts0685_c.par Enter the raw data file name. /u/air40/airops/685/c_hv Enter the motion compensation file name. /u/air47/airops/685/ts0685_c.mocomp Enter a file name for the range spectrum: /u/air47/airops/685/db_c_hv.dat Enter a file name for the sampled caltone power: /u/air47/airops/685/1st_c_hv.dat Enter histogram of the caltone power file name: /u/air47/airops/685/pw_hist_c_hv.dat Enter histogram of the caltone phase file name: /u/air47/airops/685/ph_hist_c_hv.dat How many lines of raw data? 42000 Enter start range line #: 1 Enter polarization (1=HH,2=HV,3=VH,4=VV): 2 Sampling frequency = 90.00000 Raw data samples per line = 5119 Caltone frequency = 43.59380 Prediction cal_bin 1057 start/end pulse: 1 41857 128-Loop Count: 328 cmplx raw(1 2 3): (254.1851,0.0000000E+00) (-63.54626,0.0000000E+00) (-341.5612,0.0000000E+00) attenuation (dB): 18.00000 Pulse#/128: 1 1057 1.7003812E+09 Pulse#/128: 129 1057 1.6913204E+09 Pulse#/128: 257 1057 1.6895805E+09 plot_x: 328 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 92.27326 Power RMS: 6.9877125E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 41083.35 Amp. RMS: 109.6905 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 124.7648 Phase RMS: 0.1926379 Incoherent PH 1st: 124.7030 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 92.27238 CalTone Power Coherently dB : 92.27326 Incoherent PW - Coherent PW : -8.8500977E-04 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 41181.93 CalTone Amplitude Coherently : 41083.35 Incoherent Amp.- Coherent Amp. : 98.58203 ------------ *** ------------ running time (sec): 18.12 ********** 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. /u/air47/airops/685/ts0685_c.par Enter the raw data file name. /u/air40/airops/685/c_vh Enter the motion compensation file name. /u/air47/airops/685/ts0685_c.mocomp Enter a file name for the range spectrum: /u/air47/airops/685/db_c_vh.dat Enter a file name for the sampled caltone power: /u/air47/airops/685/1st_c_vh.dat Enter histogram of the caltone power file name: /u/air47/airops/685/pw_hist_c_vh.dat Enter histogram of the caltone phase file name: /u/air47/airops/685/ph_hist_c_vh.dat How many lines of raw data? 42000 Enter start range line #: 1 Enter polarization (1=HH,2=HV,3=VH,4=VV): 3 Sampling frequency = 90.00000 Raw data samples per line = 5119 Caltone frequency = 43.59380 Prediction cal_bin 1057 start/end pulse: 1 41857 128-Loop Count: 328 cmplx raw(1 2 3): (293.9015,0.0000000E+00) (-373.3343,0.0000000E+00) (-135.0358,0.0000000E+00) attenuation (dB): 18.00000 Pulse#/128: 1 1057 1.3839027E+09 Pulse#/128: 129 1057 1.3762286E+09 Pulse#/128: 257 1057 1.3655483E+09 plot_x: 328 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 91.37215 Power RMS: 3.1250000E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 37034.56 Amp. RMS: 98.63062 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 53.03054 Phase RMS: 0.2430680 Incoherent PH 1st: 53.03521 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 91.37826 CalTone Power Coherently dB : 91.37215 Incoherent PW - Coherent PW : 6.1111450E-03 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 37172.37 CalTone Amplitude Coherently : 37034.56 Incoherent Amp.- Coherent Amp. : 137.8086 ------------ *** ------------ running time (sec): 18.18 ********** 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. /u/air47/airops/685/ts0685_c.par Enter the raw data file name. /u/air40/airops/685/c_vv Enter the motion compensation file name. /u/air47/airops/685/ts0685_c.mocomp Enter a file name for the range spectrum: /u/air47/airops/685/db_c_vv.dat Enter a file name for the sampled caltone power: /u/air47/airops/685/1st_c_vv.dat Enter histogram of the caltone power file name: /u/air47/airops/685/pw_hist_c_vv.dat Enter histogram of the caltone phase file name: /u/air47/airops/685/ph_hist_c_vv.dat How many lines of raw data? 42000 Enter start range line #: 1 Enter polarization (1=HH,2=HV,3=VH,4=VV): 4 Sampling frequency = 90.00000 Raw data samples per line = 5119 Caltone frequency = 43.59380 Prediction cal_bin 1057 start/end pulse: 1 41857 128-Loop Count: 328 cmplx raw(1 2 3): (31.77313,0.0000000E+00) (254.1851,0.0000000E+00) (150.9224,0.0000000E+00) attenuation (dB): 18.00000 Pulse#/128: 1 1057 1.6832170E+09 Pulse#/128: 129 1057 1.6810043E+09 Pulse#/128: 257 1057 1.6755845E+09 plot_x: 328 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 92.24827 Power RMS: 6.2500000E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 40965.07 Amp. RMS: 101.8234 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 124.7144 Phase RMS: 0.2025231 Incoherent PH 1st: 124.6603 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 92.27032 CalTone Power Coherently dB : 92.24827 Incoherent PW - Coherent PW : 2.2048950E-02 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 41168.21 CalTone Amplitude Coherently : 40965.07 Incoherent Amp.- Coherent Amp. : 203.1406 ------------ *** ------------ running time (sec): 17.67 ********** 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. 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: 2.269837 -1.0247691E-04 z fit: constant and linear terms: -0.8136452 -5.8166544E-05 y and z standard deviations (meters) 2.754333 1.166147 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 = 21 Step size = 1888 PATCH NUMER 1 First line = 1 Averages = -0.5023644 -0.5092998 -0.5044566 -0.5098783 Differences = 4.1353106E-03 -2.8001070E-03 2.0430684E-03 -3.3785701E-03 PATCH NUMER 2 First line = 1889 Averages = -0.5048909 -0.5091960 -0.5061696 -0.5085865 Differences = 2.3196936E-03 -1.9854307E-03 1.0410547E-03 -1.3758540E-03 PATCH NUMER 3 First line = 3777 Averages = -0.5071851 -0.5072976 -0.5128856 -0.5147007 Differences = 3.3320189E-03 3.2194853E-03 -2.3684502E-03 -4.1835904E-03 PATCH NUMER 4 First line = 5665 Averages = -0.5124718 -0.5142741 -0.5197756 -0.5251577 Differences = 5.4480433E-03 3.6457181E-03 -1.8557310E-03 -7.2378516E-03 PATCH NUMER 5 First line = 7553 Averages = -0.5190943 -0.5243301 -0.5311041 -0.5371687 Differences = 8.8300109E-03 3.5942793E-03 -3.1797886E-03 -9.2443228E-03 PATCH NUMER 6 First line = 9441 Averages = -0.5296339 -0.5369010 -0.5381094 -0.5409148 Differences = 6.7558885E-03 -5.1116943E-04 -1.7195344E-03 -4.5249462E-03 PATCH NUMER 7 First line = 11329 Averages = -0.5379460 -0.5404376 -0.5396824 -0.5398825 Differences = 1.5414357E-03 -9.5015764E-04 -1.9496679E-04 -3.9499998E-04 PATCH NUMER 8 First line = 13217 Averages = -0.5402861 -0.5390502 -0.5427151 -0.5446292 Differences = 1.3842583E-03 2.6201606E-03 -1.0448098E-03 -2.9588342E-03 PATCH NUMER 9 First line = 15105 Averages = -0.5423116 -0.5446513 -0.5440883 -0.5505500 Differences = 3.0893087E-03 7.4958801E-04 1.3126135E-03 -5.1491261E-03 PATCH NUMER 10 First line = 16993 Averages = -0.5439416 -0.5497230 -0.5501357 -0.5464441 Differences = 3.6195517E-03 -2.1619201E-03 -2.5746226E-03 1.1169910E-03 PATCH NUMER 11 First line = 18881 Averages = -0.5505822 -0.5471272 -0.5430403 -0.5350419 Differences = -6.6345334E-03 -3.1794906E-03 9.0742111E-04 8.9057684E-03 PATCH NUMER 12 First line = 20769 Averages = -0.5443679 -0.5356523 -0.5334527 -0.5254399 Differences = -9.6385479E-03 -9.2297792E-04 1.2766123E-03 9.2895031E-03 PATCH NUMER 13 First line = 22657 Averages = -0.5336812 -0.5272100 -0.5196636 -0.5181779 Differences = -8.9965463E-03 -2.5253296E-03 5.0210357E-03 6.5068007E-03 PATCH NUMER 14 First line = 24545 Averages = -0.5197414 -0.5189227 -0.5129275 -0.5105227 Differences = -4.2123795E-03 -3.3936501E-03 2.6015639E-03 5.0063133E-03 PATCH NUMER 15 First line = 26433 Averages = -0.5138434 -0.5102460 -0.5128461 -0.5104524 Differences = -1.9955039E-03 1.6019344E-03 -9.9813938E-04 1.3955235E-03 PATCH NUMER 16 First line = 28321 Averages = -0.5125173 -0.5112950 -0.5124376 -0.5089629 Differences = -1.2142062E-03 8.1062317E-06 -1.1345148E-03 2.3401380E-03 PATCH NUMER 17 First line = 30209 Averages = -0.5113823 -0.5108609 -0.5081415 -0.5088851 Differences = -1.5649199E-03 -1.0434985E-03 1.6758442E-03 9.3227625E-04 PATCH NUMER 18 First line = 32097 Averages = -0.5071248 -0.5102734 -0.4957509 -0.4945727 Differences = -5.1932931E-03 -8.3419085E-03 6.1805546E-03 7.3587596E-03 PATCH NUMER 19 First line = 33985 Averages = -0.4982099 -0.4937608 -0.4896369 -0.4804540 Differences = -7.6938570E-03 -3.2447875E-03 8.7913871E-04 1.0062009E-02 PATCH NUMER 20 First line = 35873 Averages = -0.4913668 -0.4811294 -0.4809015 -0.4741964 Differences = -9.4677508E-03 7.6967478E-04 9.9757314E-04 7.7026784E-03 PATCH NUMER 21 First line = 37761 Averages = -0.4810605 -0.4745546 -0.4795790 -0.4785531 Differences = -2.6232898E-03 3.8826466E-03 -1.1417568E-03 -1.1590123E-04 PATCH NUMER 22 First line = 39649 last black mod_64: 36 42000 39649 4096 Averages = -0.4786627 -0.4784549 -0.4807639 -0.4785531 Differences = 4.4599175E-04 6.5377355E-04 -1.6552210E-03 5.5554509E-04 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 5.02 ***** ***** ***** ********************************************* 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. /u/air40/airops/685/sensor.hh98c Please enter the name of the parameter file /u/air47/airops/685/ts0685_c.par hddt: 98023 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 42000 lines Keeping 2208 data points per patch Near range (m) = 9462.950 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) = 5.000000 Chirp bandwidth (MHz) = 40.00000 Ashift = 0.0000000E+00 Range weighting coefficient = 0.1000000 Map height (m) = 1155.900 Transmit leverarm x,y,z = 2.460000 0.1652000 -0.6663700 Receive leverarm x,y,z = 2.460000 0.1652000 -0.6663700 Name of raw data file? /u/air40/airops/685/c_hh Name of the mocomp data file? /u/air47/airops/685/ts0685_c.mocomph Output file name w/o ext? /u/air47/airops/685/ts0685_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:/u/air40/airops/685/ output filename:/u/air40/airops/685/ts0685_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? /u/air40/airops/685/deskew.ch WAYNE init fft, calc slant range, load unpack, interpo 1.2800999E-02 reading motion compensation data WAYNE read motion compen 0.8919001 write parameters ... analog chirp >/ 96032 98023 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.2838749 start range comp, time = 1.276 WAYNE PREV 1.201791 NUMBER OF PROCESSOR USED = 8 POINTER 288239859439501312 288521334416211968 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 7 ..... WAYNE IS IN Processing 19 to 20 by # 6 Processing block number 19 WAYNE PATCHES: 33985 38080 patch# 19 reference line: 36032 1.464 seconds. before reading done reading WAYNE load raw data , time = 22.69760501384735 ATTN ifrq ipol ln 8 1 38080 18.00000 IPOL, ITOP nblock 1 0 19 ****shift in azimuth (fractional pixel)= -0.4927859 shift in azimuth *fractional pixel= -0.4927859 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.7870149612426758E-03 WAYNE Motion comp. added to patch, time = 7.280637979507446 WAYNE Doppler estimation done, time = 6.9141387939453125E-06 WAYNE write deskew done, time = 2.2649765014648438E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 85.23483002185822 Writing 2208 lines of data to file WAYNE write output data 0.5194009542465210 ==w out 19 0 945 0 WAYNE PROCESS 115.7415599822998 Processing block number 20 WAYNE PATCHES: 35873 39968 patch# 20 reference line: 37920 117.205 seconds. before reading done reading WAYNE load raw data , time = 22.26308500766754 ATTN ifrq ipol ln 8 1 39968 18.00000 IPOL, ITOP nblock 1 0 20 ****shift in azimuth (fractional pixel)= -0.4928745 shift in azimuth *fractional pixel= -0.4928745 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.1219463348388672E-03 WAYNE Motion comp. added to patch, time = 7.033091068267822 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.0871162414550781E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 84.35557591915131 Writing 2208 lines of data to file WAYNE write output data 0.4882349967956543 ==w out 20 2208 945 45219840 WAYNE PROCESS 114.1479200124741 ==w out 21 4419 PROCESSING KID# 8 ..... WAYNE IS IN Processing 21 to 22 by # 7 Processing block number 21 WAYNE PATCHES: 37761 41856 patch# 21 reference line: 39808 1.471 seconds. before reading done reading WAYNE load raw data , time = 22.57062995433807 ATTN ifrq ipol ln 8 1 41856 18.00000 IPOL, ITOP nblock 1 0 21 ****shift in azimuth (fractional pixel)= -0.4929543 shift in azimuth *fractional pixel= -0.4929543 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.5519342422485352E-03 WAYNE Motion comp. added to patch, time = 7.688973069190979 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.2500753402709961E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 86.90960693359375 Writing 2208 lines of data to file WAYNE write output data 0.4679380655288696 ==w out 21 0 945 0 WAYNE PROCESS 117.6460590362549 Processing block number 22 WAYNE PATCHES: 37904 41999 patch# 22 reference line: 39951 119.117 seconds. before reading done reading WAYNE load raw data , time = 22.58887708187103 ATTN ifrq ipol ln 8 1 41999 18.00000 IPOL, ITOP nblock 1 0 22 ****shift in azimuth (fractional pixel)= -0.4929483 shift in azimuth *fractional pixel= -0.4929483 1.000000 WAYNE Motion comp. coeff. calculated, time = 4.8310756683349609E-03 WAYNE Motion comp. added to patch, time = 7.325828909873962 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.0669698715209961E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 85.19548296928406 Writing 2208 lines of data to file WAYNE write output data 0.4774169921875000 ==w out 22 2208 945 45219840 WAYNE PROCESS 115.5953049659729 ==w out 23 4419 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 3 by # 0 Processing block number 1 TESTING WHY -0.1695500 2.2537701E-02 1 1 WAYNE PATCHES: 1 4096 patch# 1 reference line: 2048 1.403 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 23.51743102073669 ATTN ifrq ipol ln 8 1 4096 18.00000 IPOL, ITOP nblock 1 0 1 ****shift in azimuth (fractional pixel)= -0.4927378 shift in azimuth *fractional pixel= -0.4927378 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.4060220718383789E-03 TESTING 0.0000000E+00 -1.879370 -0.9289803 WAYNE Motion comp. added to patch, time = 7.234628915786743 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.4100542068481445E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 -1.879370 -0.9289803 HEY,dt,fract,ye,pe -0.4927378 1.000000 -0.1695500 2.2537701E-02 WAYNE Azimuth compression done, time = 83.42866003513336 Writing 2208 lines of data to file WAYNE write output data 0.5375639200210571 ==w out 1 0 945 0 WAYNE PROCESS 114.7270969152451 Processing block number 2 TESTING WHY -0.1689160 2.2298099E-02 1888 2 WAYNE PATCHES: 1889 5984 patch# 2 reference line: 3936 116.130 seconds. TESTING 1889 before reading done reading WAYNE load raw data , time = 22.17012202739716 ATTN ifrq ipol ln 8 1 5984 18.00000 IPOL, ITOP nblock 1 0 2 ****shift in azimuth (fractional pixel)= -0.4927831 shift in azimuth *fractional pixel= -0.4927831 1.000000 WAYNE Motion comp. coeff. calculated, time = 4.7190189361572266E-03 TESTING 0.0000000E+00 -0.5998830 -1.347767 WAYNE Motion comp. added to patch, time = 6.731178998947144 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.0250082015991211E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 -0.5998830 -1.347767 HEY,dt,fract,ye,pe -0.4927831 1.000000 -0.1689160 2.2298099E-02 WAYNE Azimuth compression done, time = 83.09177100658417 Writing 2208 lines of data to file WAYNE write output data 0.4927139282226563 ==w out 2 2208 945 45219840 WAYNE PROCESS 112.4932919740677 Processing block number 3 TESTING WHY -0.1685720 2.1993499E-02 1888 3 WAYNE PATCHES: 3777 7872 patch# 3 reference line: 5824 228.623 seconds. TESTING 3777 before reading done reading WAYNE load raw data , time = 22.31749701499939 ATTN ifrq ipol ln 8 1 7872 18.00000 IPOL, ITOP nblock 1 0 3 ****shift in azimuth (fractional pixel)= -0.4928254 shift in azimuth *fractional pixel= -0.4928254 1.000000 WAYNE Motion comp. coeff. calculated, time = 4.9489736557006836E-03 TESTING 0.0000000E+00 0.5041396 -1.776471 WAYNE Motion comp. added to patch, time = 6.801633000373840 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 1.9739866256713867E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 0.5041396 -1.776471 HEY,dt,fract,ye,pe -0.4928254 1.000000 -0.1685720 2.1993499E-02 WAYNE Azimuth compression done, time = 76.79145002365112 Writing 2208 lines of data to file WAYNE write output data 0.5254960060119629 ==w out 3 4416 945 90439680 WAYNE PROCESS 106.4441210031509 ==w out 4 6627 PROCESSING KID# 6 ..... WAYNE IS IN Processing 16 to 18 by # 5 Processing block number 16 WAYNE PATCHES: 28321 32416 patch# 16 reference line: 30368 1.445 seconds. before reading done reading WAYNE load raw data , time = 22.55660891532898 ATTN ifrq ipol ln 8 1 32416 18.00000 IPOL, ITOP nblock 1 0 16 ****shift in azimuth (fractional pixel)= -0.4928675 shift in azimuth *fractional pixel= -0.4928675 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.5899620056152344E-03 WAYNE Motion comp. added to patch, time = 7.216699957847595 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.1830797195434570E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 84.42390596866608 Writing 2208 lines of data to file WAYNE write output data 0.5507990121841431 ==w out 16 0 945 0 WAYNE PROCESS 114.7566920518875 Processing block number 17 WAYNE PATCHES: 30209 34304 patch# 17 reference line: 32256 116.202 seconds. before reading done reading WAYNE load raw data , time = 22.42176496982574 ATTN ifrq ipol ln 8 1 34304 18.00000 IPOL, ITOP nblock 1 0 17 ****shift in azimuth (fractional pixel)= -0.4928072 shift in azimuth *fractional pixel= -0.4928072 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.0519704818725586E-03 WAYNE Motion comp. added to patch, time = 7.033576011657715 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.0389556884765625E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 84.51903104782104 Writing 2208 lines of data to file WAYNE write output data 0.5130259990692139 ==w out 17 2208 945 45219840 WAYNE PROCESS 114.4951950311661 Processing block number 18 WAYNE PATCHES: 32097 36192 patch# 18 reference line: 34144 230.697 seconds. before reading done reading WAYNE load raw data , time = 22.23687100410461 ATTN ifrq ipol ln 8 1 36192 18.00000 IPOL, ITOP nblock 1 0 18 ****shift in azimuth (fractional pixel)= -0.4927817 shift in azimuth *fractional pixel= -0.4927817 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.1679611206054688E-03 WAYNE Motion comp. added to patch, time = 6.926252961158752 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 1.9460916519165039E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 77.32173299789429 Writing 2208 lines of data to file WAYNE write output data 0.5206899642944336 ==w out 18 4416 945 90439680 WAYNE PROCESS 107.0133780241013 ==w out 19 6627 PROCESSING KID# 3 ..... WAYNE IS IN Processing 7 to 9 by # 2 Processing block number 7 WAYNE PATCHES: 11329 15424 patch# 7 reference line: 13376 1.417 seconds. before reading done reading WAYNE load raw data , time = 22.56621599197388 ATTN ifrq ipol ln 8 1 15424 18.00000 IPOL, ITOP nblock 1 0 7 ****shift in azimuth (fractional pixel)= -0.4929360 shift in azimuth *fractional pixel= -0.4929360 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.6099891662597656E-03 WAYNE Motion comp. added to patch, time = 7.250881075859070 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.2289752960205078E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 84.70520794391632 Writing 2208 lines of data to file WAYNE write output data 0.5300259590148926 ==w out 7 0 945 0 WAYNE PROCESS 115.0613570213318 Processing block number 8 WAYNE PATCHES: 13217 17312 patch# 8 reference line: 15264 116.478 seconds. before reading done reading WAYNE load raw data , time = 22.60133600234985 ATTN ifrq ipol ln 8 1 17312 18.00000 IPOL, ITOP nblock 1 0 8 ****shift in azimuth (fractional pixel)= -0.4929529 shift in azimuth *fractional pixel= -0.4929529 1.000000 WAYNE Motion comp. coeff. calculated, time = 4.9339532852172852E-03 WAYNE Motion comp. added to patch, time = 6.855836987495422 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.0589828491210938E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 84.49026894569397 Writing 2208 lines of data to file WAYNE write output data 0.5188670158386230 ==w out 8 2208 945 45219840 WAYNE PROCESS 114.4740899801254 Processing block number 9 WAYNE PATCHES: 15105 19200 patch# 9 reference line: 17152 230.953 seconds. before reading done reading WAYNE load raw data , time = 22.12333309650421 ATTN ifrq ipol ln 8 1 19200 18.00000 IPOL, ITOP nblock 1 0 9 ****shift in azimuth (fractional pixel)= -0.4930034 shift in azimuth *fractional pixel= -0.4930034 1.000000 WAYNE Motion comp. coeff. calculated, time = 4.9690008163452148E-03 WAYNE Motion comp. added to patch, time = 6.767031908035278 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 1.9379854202270508E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 85.42928802967072 Writing 2208 lines of data to file WAYNE write output data 0.4798519611358643 ==w out 9 4416 945 90439680 WAYNE PROCESS 114.8072069883347 ==w out 10 6627 PROCESSING KID# 2 ..... WAYNE IS IN Processing 4 to 6 by # 1 Processing block number 4 WAYNE PATCHES: 5665 9760 patch# 4 reference line: 7712 1.410 seconds. before reading done reading WAYNE load raw data , time = 22.55623710155487 ATTN ifrq ipol ln 8 1 9760 18.00000 IPOL, ITOP nblock 1 0 4 ****shift in azimuth (fractional pixel)= -0.4928536 shift in azimuth *fractional pixel= -0.4928536 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.7059526443481445E-03 WAYNE Motion comp. added to patch, time = 7.225072026252747 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.1430253982543945E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 85.87848591804504 Writing 2208 lines of data to file WAYNE write output data 0.5552819967269897 ==w out 4 0 945 0 WAYNE PROCESS 116.2240359783173 Processing block number 5 WAYNE PATCHES: 7553 11648 patch# 5 reference line: 9600 117.634 seconds. before reading done reading WAYNE load raw data , time = 22.67998003959656 ATTN ifrq ipol ln 8 1 11648 18.00000 IPOL, ITOP nblock 1 0 5 ****shift in azimuth (fractional pixel)= -0.4928516 shift in azimuth *fractional pixel= -0.4928516 1.000000 WAYNE Motion comp. coeff. calculated, time = 4.9669742584228516E-03 WAYNE Motion comp. added to patch, time = 6.770856022834778 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.1350383758544922E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 84.46361994743347 Writing 2208 lines of data to file WAYNE write output data 0.5107299089431763 ==w out 5 2208 945 45219840 WAYNE PROCESS 114.4332098960876 Processing block number 6 WAYNE PATCHES: 9441 13536 patch# 6 reference line: 11488 232.067 seconds. before reading done reading WAYNE load raw data , time = 22.14534306526184 ATTN ifrq ipol ln 8 1 13536 18.00000 IPOL, ITOP nblock 1 0 6 ****shift in azimuth (fractional pixel)= -0.4928664 shift in azimuth *fractional pixel= -0.4928664 1.000000 WAYNE Motion comp. coeff. calculated, time = 4.9300193786621094E-03 WAYNE Motion comp. added to patch, time = 6.763299107551575 WAYNE Doppler estimation done, time = 1.1920928955078125E-05 WAYNE write deskew done, time = 1.9840002059936523E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 85.42524802684784 Writing 2208 lines of data to file WAYNE write output data 0.4916599988937378 ==w out 6 4416 945 90439680 WAYNE PROCESS 114.8333050012589 ==w out 7 6627 PROCESSING KID# 4 ..... WAYNE IS IN Processing 10 to 12 by # 3 Processing block number 10 WAYNE PATCHES: 16993 21088 patch# 10 reference line: 19040 1.423 seconds. before reading done reading WAYNE load raw data , time = 22.62791001796722 ATTN ifrq ipol ln 8 1 21088 18.00000 IPOL, ITOP nblock 1 0 10 ****shift in azimuth (fractional pixel)= -0.4930246 shift in azimuth *fractional pixel= -0.4930246 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.7880878448486328E-03 WAYNE Motion comp. added to patch, time = 7.351385951042175 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 2.2979974746704102E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 84.91569006443024 Writing 2208 lines of data to file WAYNE write output data 0.5125159025192261 ==w out 10 0 945 0 WAYNE PROCESS 115.4166429042816 Processing block number 11 WAYNE PATCHES: 18881 22976 patch# 11 reference line: 20928 116.840 seconds. before reading done reading WAYNE load raw data , time = 22.78490805625916 ATTN ifrq ipol ln 8 1 22976 18.00000 IPOL, ITOP nblock 1 0 11 ****shift in azimuth (fractional pixel)= -0.4930220 shift in azimuth *fractional pixel= -0.4930220 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.0950050354003906E-03 WAYNE Motion comp. added to patch, time = 7.146697044372559 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.0599365234375000E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 84.97465896606445 Writing 2208 lines of data to file WAYNE write output data 0.5497189760208130 ==w out 11 2208 945 45219840 WAYNE PROCESS 115.4639250040054 Processing block number 12 WAYNE PATCHES: 20769 24864 patch# 12 reference line: 22816 232.304 seconds. before reading done reading WAYNE load raw data , time = 22.18360495567322 ATTN ifrq ipol ln 8 1 24864 18.00000 IPOL, ITOP nblock 1 0 12 ****shift in azimuth (fractional pixel)= -0.4930965 shift in azimuth *fractional pixel= -0.4930965 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.1490068435668945E-03 WAYNE Motion comp. added to patch, time = 7.072365999221802 WAYNE Doppler estimation done, time = 6.9141387939453125E-06 WAYNE write deskew done, time = 1.9979476928710938E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 85.59048295021057 Writing 2208 lines of data to file WAYNE write output data 0.5997439622879028 ==w out 12 4416 945 90439680 WAYNE PROCESS 115.4541239738464 ==w out 13 6627 PROCESSING KID# 5 ..... WAYNE IS IN Processing 13 to 15 by # 4 Processing block number 13 WAYNE PATCHES: 22657 26752 patch# 13 reference line: 24704 1.439 seconds. before reading done reading WAYNE load raw data , time = 22.52340400218964 ATTN ifrq ipol ln 8 1 26752 18.00000 IPOL, ITOP nblock 1 0 13 ****shift in azimuth (fractional pixel)= -0.4930070 shift in azimuth *fractional pixel= -0.4930070 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.8380365371704102E-03 WAYNE Motion comp. added to patch, time = 7.380452036857605 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.2850036621093750E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 85.58528196811676 Writing 2208 lines of data to file WAYNE write output data 0.5362039804458618 ==w out 13 0 945 0 WAYNE PROCESS 116.0344190597534 Processing block number 14 WAYNE PATCHES: 24545 28640 patch# 14 reference line: 26592 117.473 seconds. before reading done reading WAYNE load raw data , time = 22.38798403739929 ATTN ifrq ipol ln 8 1 28640 18.00000 IPOL, ITOP nblock 1 0 14 ****shift in azimuth (fractional pixel)= -0.4929215 shift in azimuth *fractional pixel= -0.4929215 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.1069259643554688E-03 WAYNE Motion comp. added to patch, time = 7.017173051834106 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.1059513092041016E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 85.28241407871246 Writing 2208 lines of data to file WAYNE write output data 0.5188580751419067 ==w out 14 2208 945 45219840 WAYNE PROCESS 115.2145620584488 Processing block number 15 WAYNE PATCHES: 26433 30528 patch# 15 reference line: 28480 232.688 seconds. before reading done reading WAYNE load raw data , time = 22.18020606040955 ATTN ifrq ipol ln 8 1 30528 18.00000 IPOL, ITOP nblock 1 0 15 ****shift in azimuth (fractional pixel)= -0.4928274 shift in azimuth *fractional pixel= -0.4928274 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.1209926605224609E-03 WAYNE Motion comp. added to patch, time = 6.944973945617676 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.0499229431152344E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 85.49796903133392 Writing 2208 lines of data to file WAYNE write output data 0.6054139137268066 ==w out 15 4416 945 90439680 WAYNE PROCESS 115.2365609407425 ==w out 16 6627 1 4872613 0 2 4872095 0 3 4872348 0 4 4872881 0 5 4872272 0 6 4873117 0 7 4872557 0 8 4869114 0 PROCESSING COMPLETED POINTER 288239859439501312 288521334416211968 icnt = 48576kids= 8 Writing variable header... gather image from processor # 0 3 gather image from processor # 1 3 gather image from processor # 2 3 gather image from processor # 3 3 gather image from processor # 4 3 gather image from processor # 5 3 gather image from processor # 6 2 gather image from processor # 7 2 WAYNE gather images takes: 1.0037064552307129E-02 WAYNE LOOP TIME: 354.9094359874725 update sarfile,mocompfile,dopfile,glbfile,N_RA: /u/air40/airops/685/ts0685_c.hh_j /u/air47/airops/685/ts0685_c.mocomph /u/air47/airops/685/ts0685_c.dop /u/air47/airops/685/ts0685_c.glb 2560 48576 update intf hdr ha: 8391.100 UPDATE: 2560 48576 3.331000 0.5144000 mocompfile /u/air47/airops/685/ts0685_c.mocomph dopfile /u/air47/airops/685/ts0685_c.dop globalfile /u/air47/airops/685/ts0685_c.glb /u/air47/airops/685/ts0685_c.glb 32 deskew line ra ha trc: -551.9705 -1074 9465.095 8391.100 59.86913 lat1 lon1: -1074 44.45876 -121.6837 48576 lati loni: 47502 44.63876 -121.4766 47502 2560 lati loni: 23214 44.54748 -121.5831 23214 1280 Updated paramater header in /u/air40/airops/685/ts0685_c.hh_j WAYNE FINAL PROCESS 361.4054460525513 ********************************************* ***** ***** ***** 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 6624 3 6624 3 6624 3 6624 3 6624 3 6624 3 4416 2 4416 2 Name of data file to be deskewed? /u/air40/airops/685/ts0685_c.hh_j Name of the doppler parameter file? /u/air47/airops/685/ts0685_c.dop Name of the deskew file? /u/air40/airops/685/deskew.ch Line up to another frequency [y/n]? n Name of the output file? /u/air47/airops/685/ts0685_c.hh Name of the line output file? /u/air47/airops/685/c_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 3.069242954254150 Deskewing 22 patches Processing block number 1 DEBUG -4904 -1073.690 -4903.822 -0.4927378 -0.4927378 patch iptc,sj,dgj,dgi,id: 1 1 -4904 -4904 0 half line dmj dgc: 0 945 -1074 -4904 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 -4904 -4904 1104 half line dmj dgc: 1 945 -1074 -4904 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 DEBUG -4888 -1072.497 -4887.952 -0.4927831 -0.4927831 1105 1905 16 784 patch iptc,sj,dgj,dgi,id: 2 1905 -4888 -4904 784 half line dmj dgc: 0 2833 -1073 -4904 Actual deskew ireclen: 20480 ** 2 1104 0 3312 Writing data negflag .eq. 0 sj>s1: 1905 1105 Zeroing lines in arrays Total # of output lines = 2 1904 1905 3009 0 1104 patch iptc,sj,dgj,dgi,id: 2 3009 -4888 -4888 1104 half line dmj dgc: 1 2833 -1073 -4904 Actual deskew ireclen: 20480 ** 2 1104 1 4416 Writing data negflag .eq. 0 sj>s1: 3009 1905 Zeroing lines in arrays Total # of output lines = 2 3008 Processing block number 3 DEBUG -4882 -1074.827 -4882.283 -0.4928254 -0.4928254 3009 3799 6 784 patch iptc,sj,dgj,dgi,id: 3 3799 -4882 -4888 784 half line dmj dgc: 0 4721 -1075 -4904 Actual deskew ireclen: 20480 ** 3 1104 0 5520 Writing data negflag .eq. 0 sj>s1: 3799 3009 Zeroing lines in arrays Total # of output lines = 3 3798 3799 4903 0 1104 patch iptc,sj,dgj,dgi,id: 3 4903 -4882 -4882 1104 half line dmj dgc: 1 4721 -1075 -4904 Actual deskew ireclen: 20480 ** 3 1104 1 6624 Writing data negflag .eq. 0 sj>s1: 4903 3799 Zeroing lines in arrays Total # of output lines = 3 4902 Processing block number 4 DEBUG -4891 -1082.400 -4891.108 -0.4928536 -0.4928536 4903 5678 -9 784 patch iptc,sj,dgj,dgi,id: 4 5678 -4891 -4882 784 half line dmj dgc: 0 6609 -1083 -4904 Actual deskew ireclen: 20480 ** 4 1104 0 7728 Writing data negflag .eq. 0 sj>s1: 5678 4903 Zeroing lines in arrays Total # of output lines = 4 5677 5678 6782 0 1104 patch iptc,sj,dgj,dgi,id: 4 6782 -4891 -4891 1104 half line dmj dgc: 1 6609 -1083 -4904 Actual deskew ireclen: 20480 ** 4 1104 1 8832 Writing data negflag .eq. 0 sj>s1: 6782 5678 Zeroing lines in arrays Total # of output lines = 4 6781 Processing block number 5 DEBUG -4901 -1092.139 -4900.535 -0.4928516 -0.4928516 6782 7556 -10 784 patch iptc,sj,dgj,dgi,id: 5 7556 -4901 -4891 784 half line dmj dgc: 0 8497 -1092 -4904 Actual deskew ireclen: 20480 ** 5 1104 0 9936 Writing data negflag .eq. 0 sj>s1: 7556 6782 Zeroing lines in arrays Total # of output lines = 5 7555 7556 8660 0 1104 patch iptc,sj,dgj,dgi,id: 5 8660 -4901 -4901 1104 half line dmj dgc: 1 8497 -1092 -4904 Actual deskew ireclen: 20480 ** 5 1104 1 11040 Writing data negflag .eq. 0 sj>s1: 8660 7556 Zeroing lines in arrays Total # of output lines = 5 8659 Processing block number 6 DEBUG -4896 -1098.782 -4895.856 -0.4928664 -0.4928664 8660 9449 5 784 patch iptc,sj,dgj,dgi,id: 6 9449 -4896 -4901 784 half line dmj dgc: 0 10385 -1099 -4904 Actual deskew ireclen: 20480 ** 6 1104 0 12144 Writing data negflag .eq. 0 sj>s1: 9449 8660 Zeroing lines in arrays Total # of output lines = 6 9448 9449 10553 0 1104 patch iptc,sj,dgj,dgi,id: 6 10553 -4896 -4896 1104 half line dmj dgc: 1 10385 -1099 -4904 Actual deskew ireclen: 20480 ** 6 1104 1 13248 Writing data negflag .eq. 0 sj>s1: 10553 9449 Zeroing lines in arrays Total # of output lines = 6 10552 Processing block number 7 DEBUG -4881 -1099.690 -4881.025 -0.4929360 -0.4929360 10553 11352 15 784 patch iptc,sj,dgj,dgi,id: 7 11352 -4881 -4896 784 half line dmj dgc: 0 12273 -1100 -4904 Actual deskew ireclen: 20480 ** 7 1104 0 14352 Writing data negflag .eq. 0 sj>s1: 11352 10553 Zeroing lines in arrays Total # of output lines = 7 11351 11352 12456 0 1104 patch iptc,sj,dgj,dgi,id: 7 168 -4881 -4881 1104 half line dmj dgc: 1 12273 -1100 -4904 Actual deskew ireclen: 20480 ** 7 1104 1 15456 Writing data negflag .eq. 0 s1>sj: 11352 168 Zeroing lines in arrays Total # of output lines = 7 12455 Processing block number 8 DEBUG -4873 -1100.655 -4872.495 -0.4929529 -0.4929529 168 960 8 784 patch iptc,sj,dgj,dgi,id: 8 960 -4873 -4881 784 half line dmj dgc: 0 14161 -1101 -4904 Actual deskew ireclen: 20480 ** 8 1104 0 16560 Writing data negflag .eq. 0 sj>s1: 960 168 Zeroing lines in arrays Total # of output lines = 8 13247 960 2064 0 1104 patch iptc,sj,dgj,dgi,id: 8 2064 -4873 -4873 1104 half line dmj dgc: 1 14161 -1101 -4904 Actual deskew ireclen: 20480 ** 8 1104 1 17664 Writing data negflag .eq. 0 sj>s1: 2064 960 Zeroing lines in arrays Total # of output lines = 8 14351 Processing block number 9 DEBUG -4866 -1103.082 -4865.588 -0.4930034 -0.4930034 2064 2855 7 784 patch iptc,sj,dgj,dgi,id: 9 2855 -4866 -4873 784 half line dmj dgc: 0 16049 -1103 -4904 Actual deskew ireclen: 20480 ** 9 1104 0 18768 Writing data negflag .eq. 0 sj>s1: 2855 2064 Zeroing lines in arrays Total # of output lines = 9 15142 2855 3959 0 1104 patch iptc,sj,dgj,dgi,id: 9 3959 -4866 -4866 1104 half line dmj dgc: 1 16049 -1103 -4904 Actual deskew ireclen: 20480 ** 9 1104 1 19872 Writing data negflag .eq. 0 sj>s1: 3959 2855 Zeroing lines in arrays Total # of output lines = 9 16246 Processing block number 10 DEBUG -4856 -1103.852 -4855.439 -0.4930246 -0.4930246 3959 4753 10 784 patch iptc,sj,dgj,dgi,id: 10 4753 -4856 -4866 784 half line dmj dgc: 0 17937 -1104 -4904 Actual deskew ireclen: 20480 ** 10 1104 0 20976 Writing data negflag .eq. 0 sj>s1: 4753 3959 Zeroing lines in arrays Total # of output lines = 10 17040 4753 5857 0 1104 patch iptc,sj,dgj,dgi,id: 10 5857 -4856 -4856 1104 half line dmj dgc: 1 17937 -1104 -4904 Actual deskew ireclen: 20480 ** 10 1104 1 22080 Writing data negflag .eq. 0 sj>s1: 5857 4753 Zeroing lines in arrays Total # of output lines = 10 18144 Processing block number 11 DEBUG -4845 -1099.964 -4845.012 -0.4930220 -0.4930220 5857 6652 11 784 patch iptc,sj,dgj,dgi,id: 11 6652 -4845 -4856 784 half line dmj dgc: 0 19825 -1100 -4904 Actual deskew ireclen: 20480 ** 11 1104 0 23184 Writing data negflag .eq. 0 sj>s1: 6652 5857 Zeroing lines in arrays Total # of output lines = 11 18939 6652 7756 0 1104 patch iptc,sj,dgj,dgi,id: 11 7756 -4845 -4845 1104 half line dmj dgc: 1 19825 -1100 -4904 Actual deskew ireclen: 20480 ** 11 1104 1 24288 Writing data negflag .eq. 0 sj>s1: 7756 6652 Zeroing lines in arrays Total # of output lines = 11 20043 Processing block number 12 DEBUG -4834 -1091.409 -4834.162 -0.4930965 -0.4930965 7756 8551 11 784 patch iptc,sj,dgj,dgi,id: 12 8551 -4834 -4845 784 half line dmj dgc: 0 21713 -1092 -4904 Actual deskew ireclen: 20480 ** 12 1104 0 25392 Writing data negflag .eq. 0 sj>s1: 8551 7756 Zeroing lines in arrays Total # of output lines = 12 20838 8551 9655 0 1104 patch iptc,sj,dgj,dgi,id: 12 9655 -4834 -4834 1104 half line dmj dgc: 1 21713 -1092 -4904 Actual deskew ireclen: 20480 ** 12 1104 1 26496 Writing data negflag .eq. 0 sj>s1: 9655 8551 Zeroing lines in arrays Total # of output lines = 12 21942 Processing block number 13 DEBUG -4835 -1083.486 -4834.816 -0.4930070 -0.4930070 9655 10438 -1 784 patch iptc,sj,dgj,dgi,id: 13 10438 -4835 -4834 784 half line dmj dgc: 0 23601 -1084 -4904 Actual deskew ireclen: 20480 ** 13 1104 0 27600 Writing data negflag .eq. 0 sj>s1: 10438 9655 Zeroing lines in arrays Total # of output lines = 13 22725 10438 11542 0 1104 patch iptc,sj,dgj,dgi,id: 13 11542 -4835 -4835 1104 half line dmj dgc: 1 23601 -1084 -4904 Actual deskew ireclen: 20480 ** 13 1104 1 28704 Writing data negflag .eq. 0 sj>s1: 11542 10438 Zeroing lines in arrays Total # of output lines = 13 23829 Processing block number 14 DEBUG -4845 -1077.201 -4844.589 -0.4929215 -0.4929215 11542 12316 -10 784 patch iptc,sj,dgj,dgi,id: 14 28 -4845 -4835 784 half line dmj dgc: 0 25489 -1077 -4904 Actual deskew ireclen: 20480 ** 14 1104 0 29808 Writing data negflag .eq. 0 s1>sj: 11542 28 Zeroing lines in arrays Total # of output lines = 14 24603 28 1132 0 1104 patch iptc,sj,dgj,dgi,id: 14 1132 -4845 -4845 1104 half line dmj dgc: 1 25489 -1077 -4904 Actual deskew ireclen: 20480 ** 14 1104 1 30912 Writing data negflag .eq. 0 sj>s1: 1132 28 Zeroing lines in arrays Total # of output lines = 14 25707 Processing block number 15 DEBUG -4859 -1075.883 -4859.191 -0.4928274 -0.4928274 1132 1902 -14 784 patch iptc,sj,dgj,dgi,id: 15 1902 -4859 -4845 784 half line dmj dgc: 0 27377 -1076 -4904 Actual deskew ireclen: 20480 ** 15 1104 0 32016 Writing data negflag .eq. 0 sj>s1: 1902 1132 Zeroing lines in arrays Total # of output lines = 15 26477 1902 3006 0 1104 patch iptc,sj,dgj,dgi,id: 15 3006 -4859 -4859 1104 half line dmj dgc: 1 27377 -1076 -4904 Actual deskew ireclen: 20480 ** 15 1104 1 33120 Writing data negflag .eq. 0 sj>s1: 3006 1902 Zeroing lines in arrays Total # of output lines = 15 27581 Processing block number 16 DEBUG -4870 -1076.556 -4869.965 -0.4928675 -0.4928675 3006 3779 -11 784 patch iptc,sj,dgj,dgi,id: 16 3779 -4870 -4859 784 half line dmj dgc: 0 29265 -1077 -4904 Actual deskew ireclen: 20480 ** 16 1104 0 34224 Writing data negflag .eq. 0 sj>s1: 3779 3006 Zeroing lines in arrays Total # of output lines = 16 28354 3779 4883 0 1104 patch iptc,sj,dgj,dgi,id: 16 4883 -4870 -4870 1104 half line dmj dgc: 1 29265 -1077 -4904 Actual deskew ireclen: 20480 ** 16 1104 1 35328 Writing data negflag .eq. 0 sj>s1: 4883 3779 Zeroing lines in arrays Total # of output lines = 16 29458 Processing block number 17 DEBUG -4874 -1075.604 -4874.192 -0.4928072 -0.4928072 4883 5663 -4 784 patch iptc,sj,dgj,dgi,id: 17 5663 -4874 -4870 784 half line dmj dgc: 0 31153 -1076 -4904 Actual deskew ireclen: 20480 ** 17 1104 0 36432 Writing data negflag .eq. 0 sj>s1: 5663 4883 Zeroing lines in arrays Total # of output lines = 17 30238 5663 6767 0 1104 patch iptc,sj,dgj,dgi,id: 17 6767 -4874 -4874 1104 half line dmj dgc: 1 31153 -1076 -4904 Actual deskew ireclen: 20480 ** 17 1104 1 37536 Writing data negflag .eq. 0 sj>s1: 6767 5663 Zeroing lines in arrays Total # of output lines = 17 31342 Processing block number 18 DEBUG -4859 -1066.803 -4858.602 -0.4927817 -0.4927817 6767 7566 15 784 patch iptc,sj,dgj,dgi,id: 18 7566 -4859 -4874 784 half line dmj dgc: 0 33041 -1067 -4904 Actual deskew ireclen: 20480 ** 18 1104 0 38640 Writing data negflag .eq. 0 sj>s1: 7566 6767 Zeroing lines in arrays Total # of output lines = 18 32141 7566 8670 0 1104 patch iptc,sj,dgj,dgi,id: 18 8670 -4859 -4859 1104 half line dmj dgc: 1 33041 -1067 -4904 Actual deskew ireclen: 20480 ** 18 1104 1 39744 Writing data negflag .eq. 0 sj>s1: 8670 7566 Zeroing lines in arrays Total # of output lines = 18 33245 Processing block number 19 DEBUG -4833 -1053.692 -4832.617 -0.4927859 -0.4927859 8670 9480 26 784 patch iptc,sj,dgj,dgi,id: 19 9480 -4833 -4859 784 half line dmj dgc: 0 34929 -1054 -4904 Actual deskew ireclen: 20480 ** 19 1104 0 40848 Writing data negflag .eq. 0 sj>s1: 9480 8670 Zeroing lines in arrays Total # of output lines = 19 34055 9480 10584 0 1104 patch iptc,sj,dgj,dgi,id: 19 10584 -4833 -4833 1104 half line dmj dgc: 1 34929 -1054 -4904 Actual deskew ireclen: 20480 ** 19 1104 1 41952 Writing data negflag .eq. 0 sj>s1: 10584 9480 Zeroing lines in arrays Total # of output lines = 19 35159 Processing block number 20 DEBUG -4813 -1043.495 -4812.464 -0.4928745 -0.4928745 10584 11388 20 784 patch iptc,sj,dgj,dgi,id: 20 11388 -4813 -4833 784 half line dmj dgc: 0 36817 -1044 -4904 Actual deskew ireclen: 20480 ** 20 1104 0 43056 Writing data negflag .eq. 0 sj>s1: 11388 10584 Zeroing lines in arrays Total # of output lines = 20 35963 11388 12492 0 1104 patch iptc,sj,dgj,dgi,id: 20 204 -4813 -4813 1104 half line dmj dgc: 1 36817 -1044 -4904 Actual deskew ireclen: 20480 ** 20 1104 1 44160 Writing data negflag .eq. 0 s1>sj: 11388 204 Zeroing lines in arrays Total # of output lines = 20 37067 Processing block number 21 DEBUG -4790 -1037.028 -4789.480 -0.4929543 -0.4929543 204 1011 23 784 patch iptc,sj,dgj,dgi,id: 21 1011 -4790 -4813 784 half line dmj dgc: 0 38705 -1037 -4904 Actual deskew ireclen: 20480 ** 21 1104 0 45264 Writing data negflag .eq. 0 sj>s1: 1011 204 Zeroing lines in arrays Total # of output lines = 21 37874 1011 2115 0 1104 patch iptc,sj,dgj,dgi,id: 21 2115 -4790 -4790 1104 half line dmj dgc: 1 38705 -1037 -4904 Actual deskew ireclen: 20480 ** 21 1104 1 46368 Writing data negflag .eq. 0 sj>s1: 2115 1011 Zeroing lines in arrays Total # of output lines = 21 38978 Processing block number 22 DEBUG -4781 -1036.395 -4780.668 -0.4929483 -0.4929483 2115 1163 9 -961 patch iptc,sj,dgj,dgi,id: 22 1163 -4781 -4790 -961 half line dmj dgc: 0 38848 -1037 -4904 Actual deskew ireclen: 20480 ** 22 1104 0 47472 Zeroing lines in arrays Total # of output lines = 22 38978 2115 2267 0 1104 patch iptc,sj,dgj,dgi,id: 22 2267 -4781 -4781 1104 half line dmj dgc: 1 38848 -1037 -4904 Actual deskew ireclen: 20480 ** 22 1104 1 48576 Writing data negflag .eq. 0 sj>s1: 2267 2115 Zeroing lines in arrays Total # of output lines = 22 39130 ia dmi dgi: 2267 -1037 -4781 Writing the last 4848 lines last half sj>s1 7115 2267 39130 WAYNE done patche 80.49376797676086 Total # of output lines = 43978 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 43978 NUMBER OF BYTES PER SAMPLE = 8 JPL AIRCRAFT SAR PROCESSOR VERSION 6.10 DATA TYPE = COMPLEX RANGE PROJECTION = SLANT RANGE PIXEL SPACING (METERS) = 3.3310 AZIMUTH PIXEL SPACING (METERS) = 0.5144 BYTE OFFSET OF OLD HEADER = 0 BYTE OFFSET OF USER HEADER = 0 BYTE OFFSET OF FIRST DATA RECORD = 40960 BYTE OFFSET OF PARAMETER HEADER = 20480 LINE FORMAT OF DATA = RANGE BYTE OFFSET OF CALIBRATION HEADER = 0 BYTE OFFSET OF DEM HEADER = 0 Closing files .. WAYNE done total 81.08103799819946 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 5.02 ***** ***** ***** ********************************************* 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. /u/air40/airops/685/sensor.hv98c Please enter the name of the parameter file /u/air47/airops/685/ts0685_c.par hddt: 98023 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 42000 lines Keeping 2208 data points per patch Near range (m) = 9462.950 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) = 5.000000 Chirp bandwidth (MHz) = 40.00000 Ashift = 0.7367000 Range weighting coefficient = 0.1000000 Map height (m) = 1155.900 Transmit leverarm x,y,z = 2.463511 0.1527200 -0.6316985 Receive leverarm x,y,z = 2.486489 1.237825 1.571699 Name of raw data file? /u/air40/airops/685/c_hv Name of the mocomp data file? /u/air47/airops/685/ts0685_c.mocomph Output file name w/o ext? /u/air47/airops/685/ts0685_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. hv Raw DIR Path:/u/air40/airops/685/ output filename:/u/air40/airops/685/ts0685_c.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? /u/air40/airops/685/deskew.ch WAYNE init fft, calc slant range, load unpack, interpo 1.2404002E-02 reading motion compensation data WAYNE read motion compen 0.8959740 write parameters ... analog chirp >/ 96032 98023 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.2825339 start range comp, time = 1.215 WAYNE PREV 1.204377 NUMBER OF PROCESSOR USED = 8 POINTER 288239859439501312 288521334416211968 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 7 ..... WAYNE IS IN Processing 19 to 20 by # 6 Processing block number 19 WAYNE PATCHES: 33985 38080 patch# 19 reference line: 36032 1.511 seconds. before reading done reading WAYNE load raw data , time = 23.30674695968628 ATTN ifrq ipol ln 8 2 38080 18.00000 IPOL, ITOP nblock 2 0 19 ****shift in azimuth (fractional pixel)= -0.4927859 shift in azimuth *fractional pixel= -0.4927859 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.9230327606201172E-03 WAYNE Motion comp. added to patch, time = 7.350448012351990 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.3128986358642578E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 84.34622204303741 Writing 2208 lines of data to file WAYNE write output data 0.7538110017776489 ==w out 19 0 945 0 WAYNE PROCESS 115.7665799856186 Processing block number 20 WAYNE PATCHES: 35873 39968 patch# 20 reference line: 37920 117.277 seconds. before reading done reading WAYNE load raw data , time = 22.29465389251709 ATTN ifrq ipol ln 8 2 39968 18.00000 IPOL, ITOP nblock 2 0 20 ****shift in azimuth (fractional pixel)= -0.4928745 shift in azimuth *fractional pixel= -0.4928745 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.1870346069335938E-03 WAYNE Motion comp. added to patch, time = 6.993108034133911 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 0.3398399353027344 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 80.34688603878021 Writing 2208 lines of data to file WAYNE write output data 0.6185709238052368 ==w out 20 2208 945 45219840 WAYNE PROCESS 110.5989489555359 ==w out 21 4419 PROCESSING KID# 8 ..... WAYNE IS IN Processing 21 to 22 by # 7 Processing block number 21 WAYNE PATCHES: 37761 41856 patch# 21 reference line: 39808 1.519 seconds. before reading done reading WAYNE load raw data , time = 23.32461202144623 ATTN ifrq ipol ln 8 2 41856 18.00000 IPOL, ITOP nblock 2 0 21 ****shift in azimuth (fractional pixel)= -0.4929543 shift in azimuth *fractional pixel= -0.4929543 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.6080818176269531E-03 WAYNE Motion comp. added to patch, time = 7.559828042984009 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.2809505462646484E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 84.09113395214081 Writing 2208 lines of data to file WAYNE write output data 0.6791681051254272 ==w out 21 0 945 0 WAYNE PROCESS 115.6637721061707 Processing block number 22 WAYNE PATCHES: 37904 41999 patch# 22 reference line: 39951 117.183 seconds. before reading done reading WAYNE load raw data , time = 26.79173791408539 ATTN ifrq ipol ln 8 2 41999 18.00000 IPOL, ITOP nblock 2 0 22 ****shift in azimuth (fractional pixel)= -0.4929483 shift in azimuth *fractional pixel= -0.4929483 1.000000 WAYNE Motion comp. coeff. calculated, time = 4.7359466552734375E-03 WAYNE Motion comp. added to patch, time = 6.817069053649902 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 0.1858900785446167 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 81.38527095317841 Writing 2208 lines of data to file WAYNE write output data 0.6395379304885864 ==w out 22 2208 945 45219840 WAYNE PROCESS 115.8250529766083 ==w out 23 4419 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 3 by # 0 Processing block number 1 TESTING WHY -0.1695500 2.2537701E-02 1 1 WAYNE PATCHES: 1 4096 patch# 1 reference line: 2048 1.464 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 23.08761394023895 ATTN ifrq ipol ln 8 2 4096 18.00000 IPOL, ITOP nblock 2 0 1 ****shift in azimuth (fractional pixel)= -0.4927378 shift in azimuth *fractional pixel= -0.4927378 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.4709911346435547E-03 TESTING 1.1489034E-02 -1.349126 0.2072805 WAYNE Motion comp. added to patch, time = 7.609030961990356 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.3109912872314453E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 1.1489034E-02 -1.349126 0.2072805 HEY,dt,fract,ye,pe -0.4927378 1.000000 -0.1695500 2.2537701E-02 WAYNE Azimuth compression done, time = 83.78647601604462 Writing 2208 lines of data to file WAYNE write output data 0.4877309799194336 ==w out 1 0 945 0 WAYNE PROCESS 114.9795830249786 Processing block number 2 TESTING WHY -0.1689160 2.2298099E-02 1888 2 WAYNE PATCHES: 1889 5984 patch# 2 reference line: 3936 116.444 seconds. TESTING 1889 before reading done reading WAYNE load raw data , time = 40.53420400619507 ATTN ifrq ipol ln 8 2 5984 18.00000 IPOL, ITOP nblock 2 0 2 ****shift in azimuth (fractional pixel)= -0.4927831 shift in azimuth *fractional pixel= -0.4927831 1.000000 WAYNE Motion comp. coeff. calculated, time = 4.9790143966674805E-03 TESTING 1.1489034E-02 -6.9688320E-02 -0.2115271 WAYNE Motion comp. added to patch, time = 7.185940980911255 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 5.0029754638671875E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 1.1489034E-02 -6.9688320E-02 -0.2115271 HEY,dt,fract,ye,pe -0.4927831 1.000000 -0.1689160 2.2298099E-02 WAYNE Azimuth compression done, time = 81.02810895442963 Writing 2208 lines of data to file WAYNE write output data 0.4938770532608032 ==w out 2 2208 945 45219840 WAYNE PROCESS 129.2528849840164 Processing block number 3 TESTING WHY -0.1685720 2.1993499E-02 1888 3 WAYNE PATCHES: 3777 7872 patch# 3 reference line: 5824 245.697 seconds. TESTING 3777 before reading done reading WAYNE load raw data , time = 22.21235203742981 ATTN ifrq ipol ln 8 2 7872 18.00000 IPOL, ITOP nblock 2 0 3 ****shift in azimuth (fractional pixel)= -0.4928254 shift in azimuth *fractional pixel= -0.4928254 1.000000 WAYNE Motion comp. coeff. calculated, time = 4.9510002136230469E-03 TESTING 1.1489034E-02 1.034356 -0.6402071 WAYNE Motion comp. added to patch, time = 6.804749965667725 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 1.9840002059936523E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 1.1489034E-02 1.034356 -0.6402071 HEY,dt,fract,ye,pe -0.4928254 1.000000 -0.1685720 2.1993499E-02 WAYNE Azimuth compression done, time = 76.46197402477264 Writing 2208 lines of data to file WAYNE write output data 0.5390479564666748 ==w out 3 4416 945 90439680 WAYNE PROCESS 106.0261069536209 ==w out 4 6627 PROCESSING KID# 6 ..... WAYNE IS IN Processing 16 to 18 by # 5 Processing block number 16 WAYNE PATCHES: 28321 32416 patch# 16 reference line: 30368 1.509 seconds. before reading done reading WAYNE load raw data , time = 23.34382998943329 ATTN ifrq ipol ln 8 2 32416 18.00000 IPOL, ITOP nblock 2 0 16 ****shift in azimuth (fractional pixel)= -0.4928675 shift in azimuth *fractional pixel= -0.4928675 1.000000 WAYNE Motion comp. coeff. calculated, time = 6.0199499130249023E-03 WAYNE Motion comp. added to patch, time = 7.337703943252563 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.3360252380371094E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 84.14915096759796 Writing 2208 lines of data to file WAYNE write output data 0.7038680315017700 ==w out 16 0 945 0 WAYNE PROCESS 115.5440599918365 Processing block number 17 WAYNE PATCHES: 30209 34304 patch# 17 reference line: 32256 117.053 seconds. before reading done reading WAYNE load raw data , time = 40.56479501724243 ATTN ifrq ipol ln 8 2 34304 18.00000 IPOL, ITOP nblock 2 0 17 ****shift in azimuth (fractional pixel)= -0.4928072 shift in azimuth *fractional pixel= -0.4928072 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.4489374160766602E-03 WAYNE Motion comp. added to patch, time = 7.452628970146179 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 4.9099922180175781E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 80.70152509212494 Writing 2208 lines of data to file WAYNE write output data 0.4725729227066040 ==w out 17 2208 945 45219840 WAYNE PROCESS 129.2026909589767 Processing block number 18 WAYNE PATCHES: 32097 36192 patch# 18 reference line: 34144 246.256 seconds. before reading done reading WAYNE load raw data , time = 22.14473104476929 ATTN ifrq ipol ln 8 2 36192 18.00000 IPOL, ITOP nblock 2 0 18 ****shift in azimuth (fractional pixel)= -0.4927817 shift in azimuth *fractional pixel= -0.4927817 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.1389932632446289E-03 WAYNE Motion comp. added to patch, time = 6.907165050506592 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.0319223403930664E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 76.89294004440308 Writing 2208 lines of data to file WAYNE write output data 0.5064350366592407 ==w out 18 4416 945 90439680 WAYNE PROCESS 106.4591740369797 ==w out 19 6627 PROCESSING KID# 2 ..... WAYNE IS IN Processing 4 to 6 by # 1 Processing block number 4 WAYNE PATCHES: 5665 9760 patch# 4 reference line: 7712 1.471 seconds. before reading done reading WAYNE load raw data , time = 23.00320208072662 ATTN ifrq ipol ln 8 2 9760 18.00000 IPOL, ITOP nblock 2 0 4 ****shift in azimuth (fractional pixel)= -0.4928536 shift in azimuth *fractional pixel= -0.4928536 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.6029558181762695E-03 WAYNE Motion comp. added to patch, time = 7.492851018905640 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.3509263992309570E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 84.88019800186157 Writing 2208 lines of data to file WAYNE write output data 0.7430180311203003 ==w out 4 0 945 0 WAYNE PROCESS 116.1282809972763 Processing block number 5 WAYNE PATCHES: 7553 11648 patch# 5 reference line: 9600 117.600 seconds. before reading done reading WAYNE load raw data , time = 39.52586495876312 ATTN ifrq ipol ln 8 2 11648 18.00000 IPOL, ITOP nblock 2 0 5 ****shift in azimuth (fractional pixel)= -0.4928516 shift in azimuth *fractional pixel= -0.4928516 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.1109790802001953E-03 WAYNE Motion comp. added to patch, time = 6.785902976989746 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 1.2684941291809082E-02 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 84.54005193710327 Writing 2208 lines of data to file WAYNE write output data 0.5816199779510498 ==w out 5 2208 945 45219840 WAYNE PROCESS 131.4520699977875 Processing block number 6 WAYNE PATCHES: 9441 13536 patch# 6 reference line: 11488 249.052 seconds. before reading done reading WAYNE load raw data , time = 22.10680592060089 ATTN ifrq ipol ln 8 2 13536 18.00000 IPOL, ITOP nblock 2 0 6 ****shift in azimuth (fractional pixel)= -0.4928664 shift in azimuth *fractional pixel= -0.4928664 1.000000 WAYNE Motion comp. coeff. calculated, time = 4.9219131469726563E-03 WAYNE Motion comp. added to patch, time = 6.733433008193970 WAYNE Doppler estimation done, time = 1.4066696166992188E-05 WAYNE write deskew done, time = 1.9489526748657227E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 84.73214089870453 Writing 2208 lines of data to file WAYNE write output data 0.4675279855728149 ==w out 6 4416 945 90439680 WAYNE PROCESS 114.0476260185242 ==w out 7 6627 PROCESSING KID# 3 ..... WAYNE IS IN Processing 7 to 9 by # 2 Processing block number 7 WAYNE PATCHES: 11329 15424 patch# 7 reference line: 13376 1.478 seconds. before reading done reading WAYNE load raw data , time = 23.08741199970245 ATTN ifrq ipol ln 8 2 15424 18.00000 IPOL, ITOP nblock 2 0 7 ****shift in azimuth (fractional pixel)= -0.4929360 shift in azimuth *fractional pixel= -0.4929360 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.7950019836425781E-03 WAYNE Motion comp. added to patch, time = 7.323486924171448 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.2410154342651367E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 84.81708109378815 Writing 2208 lines of data to file WAYNE write output data 0.7841930389404297 ==w out 7 0 945 0 WAYNE PROCESS 116.0211809873581 Processing block number 8 WAYNE PATCHES: 13217 17312 patch# 8 reference line: 15264 117.499 seconds. before reading done reading WAYNE load raw data , time = 39.82069301605225 ATTN ifrq ipol ln 8 2 17312 18.00000 IPOL, ITOP nblock 2 0 8 ****shift in azimuth (fractional pixel)= -0.4929529 shift in azimuth *fractional pixel= -0.4929529 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.0989389419555664E-03 WAYNE Motion comp. added to patch, time = 6.770334959030151 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 1.7561912536621094E-02 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 84.67021989822388 Writing 2208 lines of data to file WAYNE write output data 0.5845490694046021 ==w out 8 2208 945 45219840 WAYNE PROCESS 131.8693640232086 Processing block number 9 WAYNE PATCHES: 15105 19200 patch# 9 reference line: 17152 249.369 seconds. before reading done reading WAYNE load raw data , time = 22.25750505924225 ATTN ifrq ipol ln 8 2 19200 18.00000 IPOL, ITOP nblock 2 0 9 ****shift in azimuth (fractional pixel)= -0.4930034 shift in azimuth *fractional pixel= -0.4930034 1.000000 WAYNE Motion comp. coeff. calculated, time = 4.9499273300170898E-03 WAYNE Motion comp. added to patch, time = 6.793012976646423 WAYNE Doppler estimation done, time = 6.9141387939453125E-06 WAYNE write deskew done, time = 2.0910501480102539E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 85.18331694602966 Writing 2208 lines of data to file WAYNE write output data 0.5362979173660278 ==w out 9 4416 945 90439680 WAYNE PROCESS 114.7779309749603 ==w out 10 6627 PROCESSING KID# 4 ..... WAYNE IS IN Processing 10 to 12 by # 3 Processing block number 10 WAYNE PATCHES: 16993 21088 patch# 10 reference line: 19040 1.484 seconds. before reading done reading WAYNE load raw data , time = 23.07095503807068 ATTN ifrq ipol ln 8 2 21088 18.00000 IPOL, ITOP nblock 2 0 10 ****shift in azimuth (fractional pixel)= -0.4930246 shift in azimuth *fractional pixel= -0.4930246 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.7890415191650391E-03 WAYNE Motion comp. added to patch, time = 7.586335897445679 WAYNE Doppler estimation done, time = 6.9141387939453125E-06 WAYNE write deskew done, time = 2.3620128631591797E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 84.61632692813873 Writing 2208 lines of data to file WAYNE write output data 0.7319420576095581 ==w out 10 0 945 0 WAYNE PROCESS 116.0146700143814 Processing block number 11 WAYNE PATCHES: 18881 22976 patch# 11 reference line: 20928 117.499 seconds. before reading done reading WAYNE load raw data , time = 39.37975800037384 ATTN ifrq ipol ln 8 2 22976 18.00000 IPOL, ITOP nblock 2 0 11 ****shift in azimuth (fractional pixel)= -0.4930220 shift in azimuth *fractional pixel= -0.4930220 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.1870346069335938E-03 WAYNE Motion comp. added to patch, time = 6.910912990570068 WAYNE Doppler estimation done, time = 6.9141387939453125E-06 WAYNE write deskew done, time = 2.3011922836303711E-02 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 84.72238099575043 Writing 2208 lines of data to file WAYNE write output data 0.5570240020751953 ==w out 11 2208 945 45219840 WAYNE PROCESS 131.5990680456161 Processing block number 12 WAYNE PATCHES: 20769 24864 patch# 12 reference line: 22816 249.098 seconds. before reading done reading WAYNE load raw data , time = 22.20024299621582 ATTN ifrq ipol ln 8 2 24864 18.00000 IPOL, ITOP nblock 2 0 12 ****shift in azimuth (fractional pixel)= -0.4930965 shift in azimuth *fractional pixel= -0.4930965 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.0809383392333984E-03 WAYNE Motion comp. added to patch, time = 7.052266001701355 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 1.9710063934326172E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 85.23281204700470 Writing 2208 lines of data to file WAYNE write output data 0.5637339353561401 ==w out 12 4416 945 90439680 WAYNE PROCESS 115.0568739175797 ==w out 13 6627 PROCESSING KID# 5 ..... WAYNE IS IN Processing 13 to 15 by # 4 Processing block number 13 WAYNE PATCHES: 22657 26752 patch# 13 reference line: 24704 1.491 seconds. before reading done reading WAYNE load raw data , time = 22.95910298824310 ATTN ifrq ipol ln 8 2 26752 18.00000 IPOL, ITOP nblock 2 0 13 ****shift in azimuth (fractional pixel)= -0.4930070 shift in azimuth *fractional pixel= -0.4930070 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.7699680328369141E-03 WAYNE Motion comp. added to patch, time = 7.496838927268982 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.0469427108764648E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 86.96143794059753 Writing 2208 lines of data to file WAYNE write output data 0.5035449266433716 ==w out 13 0 945 0 WAYNE PROCESS 117.9295970201492 Processing block number 14 WAYNE PATCHES: 24545 28640 patch# 14 reference line: 26592 119.420 seconds. before reading done reading WAYNE load raw data , time = 37.70565390586853 ATTN ifrq ipol ln 8 2 28640 18.00000 IPOL, ITOP nblock 2 0 14 ****shift in azimuth (fractional pixel)= -0.4929215 shift in azimuth *fractional pixel= -0.4929215 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.2759647369384766E-03 WAYNE Motion comp. added to patch, time = 6.870665907859802 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.1357059478759766E-02 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 85.60294890403748 Writing 2208 lines of data to file WAYNE write output data 0.4649499654769897 ==w out 14 2208 945 45219840 WAYNE PROCESS 130.6716970205307 Processing block number 15 WAYNE PATCHES: 26433 30528 patch# 15 reference line: 28480 250.092 seconds. before reading done reading WAYNE load raw data , time = 22.12846505641937 ATTN ifrq ipol ln 8 2 30528 18.00000 IPOL, ITOP nblock 2 0 15 ****shift in azimuth (fractional pixel)= -0.4928274 shift in azimuth *fractional pixel= -0.4928274 1.000000 WAYNE Motion comp. coeff. calculated, time = 5.1479339599609375E-03 WAYNE Motion comp. added to patch, time = 6.951271057128906 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.0340681076049805E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 84.79676997661591 Writing 2208 lines of data to file WAYNE write output data 0.5402929782867432 ==w out 15 4416 945 90439680 WAYNE PROCESS 114.4248570203781 ==w out 16 6627 1 4872797 0 2 4872639 0 3 4872179 0 4 4873290 0 5 4872443 0 6 4872900 0 7 4872886 0 8 4867784 0 PROCESSING COMPLETED POINTER 288239859439501312 288521334416211968 icnt = 48576kids= 8 Writing variable header... gather image from processor # 0 3 gather image from processor # 1 3 gather image from processor # 2 3 gather image from processor # 3 3 gather image from processor # 4 3 gather image from processor # 5 3 gather image from processor # 6 2 gather image from processor # 7 2 WAYNE gather images takes: 8.904198050498962 WAYNE LOOP TIME: 381.5313069820404 update sarfile,mocompfile,dopfile,glbfile,N_RA: /u/air40/airops/685/ts0685_c.hv_j /u/air47/airops/685/ts0685_c.mocomph /u/air47/airops/685/ts0685_c.dop /u/air47/airops/685/ts0685_c.glb 2560 48576 update intf hdr ha: 8391.100 UPDATE: 2560 48576 3.331000 0.5144000 mocompfile /u/air47/airops/685/ts0685_c.mocomph dopfile /u/air47/airops/685/ts0685_c.dop globalfile /u/air47/airops/685/ts0685_c.glb /u/air47/airops/685/ts0685_c.glb 32 deskew line ra ha trc: -551.9705 -1074 9465.095 8391.100 59.86913 lat1 lon1: -1074 44.45876 -121.6837 48576 lati loni: 47502 44.63876 -121.4766 47502 2560 lati loni: 23214 44.54748 -121.5831 23214 1280 Updated paramater header in /u/air40/airops/685/ts0685_c.hv_j WAYNE FINAL PROCESS 383.4755470752716 ********************************************* ***** ***** ***** 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 6624 3 6624 3 6624 3 6624 3 6624 3 6624 3 4416 2 4416 2 Name of data file to be deskewed? /u/air40/airops/685/ts0685_c.hv_j Name of the doppler parameter file? /u/air47/airops/685/ts0685_c.dop Name of the deskew file? /u/air40/airops/685/deskew.ch Line up to another frequency [y/n]? n Name of the output file? /u/air47/airops/685/ts0685_c.hv Name of the line output file? /u/air47/airops/685/c_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 3.167706012725830 Deskewing 22 patches Processing block number 1 DEBUG -4904 -1073.712 -4903.844 -0.4927378 -0.4927378 patch iptc,sj,dgj,dgi,id: 1 1 -4904 -4904 0 half line dmj dgc: 0 945 -1074 -4904 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 -4904 -4904 1104 half line dmj dgc: 1 945 -1074 -4904 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 DEBUG -4888 -1072.519 -4887.975 -0.4927831 -0.4927831 1105 1905 16 784 patch iptc,sj,dgj,dgi,id: 2 1905 -4888 -4904 784 half line dmj dgc: 0 2833 -1073 -4904 Actual deskew ireclen: 20480 ** 2 1104 0 3312 Writing data negflag .eq. 0 sj>s1: 1905 1105 Zeroing lines in arrays Total # of output lines = 2 1904 1905 3009 0 1104 patch iptc,sj,dgj,dgi,id: 2 3009 -4888 -4888 1104 half line dmj dgc: 1 2833 -1073 -4904 Actual deskew ireclen: 20480 ** 2 1104 1 4416 Writing data negflag .eq. 0 sj>s1: 3009 1905 Zeroing lines in arrays Total # of output lines = 2 3008 Processing block number 3 DEBUG -4882 -1074.849 -4882.305 -0.4928254 -0.4928254 3009 3799 6 784 patch iptc,sj,dgj,dgi,id: 3 3799 -4882 -4888 784 half line dmj dgc: 0 4721 -1075 -4904 Actual deskew ireclen: 20480 ** 3 1104 0 5520 Writing data negflag .eq. 0 sj>s1: 3799 3009 Zeroing lines in arrays Total # of output lines = 3 3798 3799 4903 0 1104 patch iptc,sj,dgj,dgi,id: 3 4903 -4882 -4882 1104 half line dmj dgc: 1 4721 -1075 -4904 Actual deskew ireclen: 20480 ** 3 1104 1 6624 Writing data negflag .eq. 0 sj>s1: 4903 3799 Zeroing lines in arrays Total # of output lines = 3 4902 Processing block number 4 DEBUG -4891 -1082.422 -4891.131 -0.4928536 -0.4928536 4903 5678 -9 784 patch iptc,sj,dgj,dgi,id: 4 5678 -4891 -4882 784 half line dmj dgc: 0 6609 -1083 -4904 Actual deskew ireclen: 20480 ** 4 1104 0 7728 Writing data negflag .eq. 0 sj>s1: 5678 4903 Zeroing lines in arrays Total # of output lines = 4 5677 5678 6782 0 1104 patch iptc,sj,dgj,dgi,id: 4 6782 -4891 -4891 1104 half line dmj dgc: 1 6609 -1083 -4904 Actual deskew ireclen: 20480 ** 4 1104 1 8832 Writing data negflag .eq. 0 sj>s1: 6782 5678 Zeroing lines in arrays Total # of output lines = 4 6781 Processing block number 5 DEBUG -4901 -1092.161 -4900.558 -0.4928516 -0.4928516 6782 7556 -10 784 patch iptc,sj,dgj,dgi,id: 5 7556 -4901 -4891 784 half line dmj dgc: 0 8497 -1092 -4904 Actual deskew ireclen: 20480 ** 5 1104 0 9936 Writing data negflag .eq. 0 sj>s1: 7556 6782 Zeroing lines in arrays Total # of output lines = 5 7555 7556 8660 0 1104 patch iptc,sj,dgj,dgi,id: 5 8660 -4901 -4901 1104 half line dmj dgc: 1 8497 -1092 -4904 Actual deskew ireclen: 20480 ** 5 1104 1 11040 Writing data negflag .eq. 0 sj>s1: 8660 7556 Zeroing lines in arrays Total # of output lines = 5 8659 Processing block number 6 DEBUG -4896 -1098.805 -4895.878 -0.4928664 -0.4928664 8660 9449 5 784 patch iptc,sj,dgj,dgi,id: 6 9449 -4896 -4901 784 half line dmj dgc: 0 10385 -1099 -4904 Actual deskew ireclen: 20480 ** 6 1104 0 12144 Writing data negflag .eq. 0 sj>s1: 9449 8660 Zeroing lines in arrays Total # of output lines = 6 9448 9449 10553 0 1104 patch iptc,sj,dgj,dgi,id: 6 10553 -4896 -4896 1104 half line dmj dgc: 1 10385 -1099 -4904 Actual deskew ireclen: 20480 ** 6 1104 1 13248 Writing data negflag .eq. 0 sj>s1: 10553 9449 Zeroing lines in arrays Total # of output lines = 6 10552 Processing block number 7 DEBUG -4881 -1099.713 -4881.048 -0.4929360 -0.4929360 10553 11352 15 784 patch iptc,sj,dgj,dgi,id: 7 11352 -4881 -4896 784 half line dmj dgc: 0 12273 -1100 -4904 Actual deskew ireclen: 20480 ** 7 1104 0 14352 Writing data negflag .eq. 0 sj>s1: 11352 10553 Zeroing lines in arrays Total # of output lines = 7 11351 11352 12456 0 1104 patch iptc,sj,dgj,dgi,id: 7 168 -4881 -4881 1104 half line dmj dgc: 1 12273 -1100 -4904 Actual deskew ireclen: 20480 ** 7 1104 1 15456 Writing data negflag .eq. 0 s1>sj: 11352 168 Zeroing lines in arrays Total # of output lines = 7 12455 Processing block number 8 DEBUG -4873 -1100.677 -4872.517 -0.4929529 -0.4929529 168 960 8 784 patch iptc,sj,dgj,dgi,id: 8 960 -4873 -4881 784 half line dmj dgc: 0 14161 -1101 -4904 Actual deskew ireclen: 20480 ** 8 1104 0 16560 Writing data negflag .eq. 0 sj>s1: 960 168 Zeroing lines in arrays Total # of output lines = 8 13247 960 2064 0 1104 patch iptc,sj,dgj,dgi,id: 8 2064 -4873 -4873 1104 half line dmj dgc: 1 14161 -1101 -4904 Actual deskew ireclen: 20480 ** 8 1104 1 17664 Writing data negflag .eq. 0 sj>s1: 2064 960 Zeroing lines in arrays Total # of output lines = 8 14351 Processing block number 9 DEBUG -4866 -1103.104 -4865.610 -0.4930034 -0.4930034 2064 2855 7 784 patch iptc,sj,dgj,dgi,id: 9 2855 -4866 -4873 784 half line dmj dgc: 0 16049 -1103 -4904 Actual deskew ireclen: 20480 ** 9 1104 0 18768 Writing data negflag .eq. 0 sj>s1: 2855 2064 Zeroing lines in arrays Total # of output lines = 9 15142 2855 3959 0 1104 patch iptc,sj,dgj,dgi,id: 9 3959 -4866 -4866 1104 half line dmj dgc: 1 16049 -1103 -4904 Actual deskew ireclen: 20480 ** 9 1104 1 19872 Writing data negflag .eq. 0 sj>s1: 3959 2855 Zeroing lines in arrays Total # of output lines = 9 16246 Processing block number 10 DEBUG -4856 -1103.874 -4855.462 -0.4930246 -0.4930246 3959 4753 10 784 patch iptc,sj,dgj,dgi,id: 10 4753 -4856 -4866 784 half line dmj dgc: 0 17937 -1104 -4904 Actual deskew ireclen: 20480 ** 10 1104 0 20976 Writing data negflag .eq. 0 sj>s1: 4753 3959 Zeroing lines in arrays Total # of output lines = 10 17040 4753 5857 0 1104 patch iptc,sj,dgj,dgi,id: 10 5857 -4856 -4856 1104 half line dmj dgc: 1 17937 -1104 -4904 Actual deskew ireclen: 20480 ** 10 1104 1 22080 Writing data negflag .eq. 0 sj>s1: 5857 4753 Zeroing lines in arrays Total # of output lines = 10 18144 Processing block number 11 DEBUG -4845 -1099.986 -4845.035 -0.4930220 -0.4930220 5857 6652 11 784 patch iptc,sj,dgj,dgi,id: 11 6652 -4845 -4856 784 half line dmj dgc: 0 19825 -1100 -4904 Actual deskew ireclen: 20480 ** 11 1104 0 23184 Writing data negflag .eq. 0 sj>s1: 6652 5857 Zeroing lines in arrays Total # of output lines = 11 18939 6652 7756 0 1104 patch iptc,sj,dgj,dgi,id: 11 7756 -4845 -4845 1104 half line dmj dgc: 1 19825 -1100 -4904 Actual deskew ireclen: 20480 ** 11 1104 1 24288 Writing data negflag .eq. 0 sj>s1: 7756 6652 Zeroing lines in arrays Total # of output lines = 11 20043 Processing block number 12 DEBUG -4834 -1091.431 -4834.184 -0.4930965 -0.4930965 7756 8551 11 784 patch iptc,sj,dgj,dgi,id: 12 8551 -4834 -4845 784 half line dmj dgc: 0 21713 -1092 -4904 Actual deskew ireclen: 20480 ** 12 1104 0 25392 Writing data negflag .eq. 0 sj>s1: 8551 7756 Zeroing lines in arrays Total # of output lines = 12 20838 8551 9655 0 1104 patch iptc,sj,dgj,dgi,id: 12 9655 -4834 -4834 1104 half line dmj dgc: 1 21713 -1092 -4904 Actual deskew ireclen: 20480 ** 12 1104 1 26496 Writing data negflag .eq. 0 sj>s1: 9655 8551 Zeroing lines in arrays Total # of output lines = 12 21942 Processing block number 13 DEBUG -4835 -1083.509 -4834.839 -0.4930070 -0.4930070 9655 10438 -1 784 patch iptc,sj,dgj,dgi,id: 13 10438 -4835 -4834 784 half line dmj dgc: 0 23601 -1084 -4904 Actual deskew ireclen: 20480 ** 13 1104 0 27600 Writing data negflag .eq. 0 sj>s1: 10438 9655 Zeroing lines in arrays Total # of output lines = 13 22725 10438 11542 0 1104 patch iptc,sj,dgj,dgi,id: 13 11542 -4835 -4835 1104 half line dmj dgc: 1 23601 -1084 -4904 Actual deskew ireclen: 20480 ** 13 1104 1 28704 Writing data negflag .eq. 0 sj>s1: 11542 10438 Zeroing lines in arrays Total # of output lines = 13 23829 Processing block number 14 DEBUG -4845 -1077.223 -4844.611 -0.4929215 -0.4929215 11542 12316 -10 784 patch iptc,sj,dgj,dgi,id: 14 28 -4845 -4835 784 half line dmj dgc: 0 25489 -1077 -4904 Actual deskew ireclen: 20480 ** 14 1104 0 29808 Writing data negflag .eq. 0 s1>sj: 11542 28 Zeroing lines in arrays Total # of output lines = 14 24603 28 1132 0 1104 patch iptc,sj,dgj,dgi,id: 14 1132 -4845 -4845 1104 half line dmj dgc: 1 25489 -1077 -4904 Actual deskew ireclen: 20480 ** 14 1104 1 30912 Writing data negflag .eq. 0 sj>s1: 1132 28 Zeroing lines in arrays Total # of output lines = 14 25707 Processing block number 15 DEBUG -4859 -1075.905 -4859.213 -0.4928274 -0.4928274 1132 1902 -14 784 patch iptc,sj,dgj,dgi,id: 15 1902 -4859 -4845 784 half line dmj dgc: 0 27377 -1076 -4904 Actual deskew ireclen: 20480 ** 15 1104 0 32016 Writing data negflag .eq. 0 sj>s1: 1902 1132 Zeroing lines in arrays Total # of output lines = 15 26477 1902 3006 0 1104 patch iptc,sj,dgj,dgi,id: 15 3006 -4859 -4859 1104 half line dmj dgc: 1 27377 -1076 -4904 Actual deskew ireclen: 20480 ** 15 1104 1 33120 Writing data negflag .eq. 0 sj>s1: 3006 1902 Zeroing lines in arrays Total # of output lines = 15 27581 Processing block number 16 DEBUG -4870 -1076.578 -4869.988 -0.4928675 -0.4928675 3006 3779 -11 784 patch iptc,sj,dgj,dgi,id: 16 3779 -4870 -4859 784 half line dmj dgc: 0 29265 -1077 -4904 Actual deskew ireclen: 20480 ** 16 1104 0 34224 Writing data negflag .eq. 0 sj>s1: 3779 3006 Zeroing lines in arrays Total # of output lines = 16 28354 3779 4883 0 1104 patch iptc,sj,dgj,dgi,id: 16 4883 -4870 -4870 1104 half line dmj dgc: 1 29265 -1077 -4904 Actual deskew ireclen: 20480 ** 16 1104 1 35328 Writing data negflag .eq. 0 sj>s1: 4883 3779 Zeroing lines in arrays Total # of output lines = 16 29458 Processing block number 17 DEBUG -4874 -1075.626 -4874.214 -0.4928072 -0.4928072 4883 5663 -4 784 patch iptc,sj,dgj,dgi,id: 17 5663 -4874 -4870 784 half line dmj dgc: 0 31153 -1076 -4904 Actual deskew ireclen: 20480 ** 17 1104 0 36432 Writing data negflag .eq. 0 sj>s1: 5663 4883 Zeroing lines in arrays Total # of output lines = 17 30238 5663 6767 0 1104 patch iptc,sj,dgj,dgi,id: 17 6767 -4874 -4874 1104 half line dmj dgc: 1 31153 -1076 -4904 Actual deskew ireclen: 20480 ** 17 1104 1 37536 Writing data negflag .eq. 0 sj>s1: 6767 5663 Zeroing lines in arrays Total # of output lines = 17 31342 Processing block number 18 DEBUG -4859 -1066.826 -4858.624 -0.4927817 -0.4927817 6767 7566 15 784 patch iptc,sj,dgj,dgi,id: 18 7566 -4859 -4874 784 half line dmj dgc: 0 33041 -1067 -4904 Actual deskew ireclen: 20480 ** 18 1104 0 38640 Writing data negflag .eq. 0 sj>s1: 7566 6767 Zeroing lines in arrays Total # of output lines = 18 32141 7566 8670 0 1104 patch iptc,sj,dgj,dgi,id: 18 8670 -4859 -4859 1104 half line dmj dgc: 1 33041 -1067 -4904 Actual deskew ireclen: 20480 ** 18 1104 1 39744 Writing data negflag .eq. 0 sj>s1: 8670 7566 Zeroing lines in arrays Total # of output lines = 18 33245 Processing block number 19 DEBUG -4833 -1053.714 -4832.640 -0.4927859 -0.4927859 8670 9480 26 784 patch iptc,sj,dgj,dgi,id: 19 9480 -4833 -4859 784 half line dmj dgc: 0 34929 -1054 -4904 Actual deskew ireclen: 20480 ** 19 1104 0 40848 Writing data negflag .eq. 0 sj>s1: 9480 8670 Zeroing lines in arrays Total # of output lines = 19 34055 9480 10584 0 1104 patch iptc,sj,dgj,dgi,id: 19 10584 -4833 -4833 1104 half line dmj dgc: 1 34929 -1054 -4904 Actual deskew ireclen: 20480 ** 19 1104 1 41952 Writing data negflag .eq. 0 sj>s1: 10584 9480 Zeroing lines in arrays Total # of output lines = 19 35159 Processing block number 20 DEBUG -4813 -1043.518 -4812.487 -0.4928745 -0.4928745 10584 11388 20 784 patch iptc,sj,dgj,dgi,id: 20 11388 -4813 -4833 784 half line dmj dgc: 0 36817 -1044 -4904 Actual deskew ireclen: 20480 ** 20 1104 0 43056 Writing data negflag .eq. 0 sj>s1: 11388 10584 Zeroing lines in arrays Total # of output lines = 20 35963 11388 12492 0 1104 patch iptc,sj,dgj,dgi,id: 20 204 -4813 -4813 1104 half line dmj dgc: 1 36817 -1044 -4904 Actual deskew ireclen: 20480 ** 20 1104 1 44160 Writing data negflag .eq. 0 s1>sj: 11388 204 Zeroing lines in arrays Total # of output lines = 20 37067 Processing block number 21 DEBUG -4790 -1037.051 -4789.502 -0.4929543 -0.4929543 204 1011 23 784 patch iptc,sj,dgj,dgi,id: 21 1011 -4790 -4813 784 half line dmj dgc: 0 38705 -1037 -4904 Actual deskew ireclen: 20480 ** 21 1104 0 45264 Writing data negflag .eq. 0 sj>s1: 1011 204 Zeroing lines in arrays Total # of output lines = 21 37874 1011 2115 0 1104 patch iptc,sj,dgj,dgi,id: 21 2115 -4790 -4790 1104 half line dmj dgc: 1 38705 -1037 -4904 Actual deskew ireclen: 20480 ** 21 1104 1 46368 Writing data negflag .eq. 0 sj>s1: 2115 1011 Zeroing lines in arrays Total # of output lines = 21 38978 Processing block number 22 DEBUG -4781 -1036.418 -4780.690 -0.4929483 -0.4929483 2115 1163 9 -961 patch iptc,sj,dgj,dgi,id: 22 1163 -4781 -4790 -961 half line dmj dgc: 0 38848 -1037 -4904 Actual deskew ireclen: 20480 ** 22 1104 0 47472 Zeroing lines in arrays Total # of output lines = 22 38978 2115 2267 0 1104 patch iptc,sj,dgj,dgi,id: 22 2267 -4781 -4781 1104 half line dmj dgc: 1 38848 -1037 -4904 Actual deskew ireclen: 20480 ** 22 1104 1 48576 Writing data negflag .eq. 0 sj>s1: 2267 2115 Zeroing lines in arrays Total # of output lines = 22 39130 ia dmi dgi: 2267 -1037 -4781 Writing the last 4848 lines last half sj>s1 7115 2267 39130 WAYNE done patche 84.82963597774506 Total # of output lines = 43978 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 43978 NUMBER OF BYTES PER SAMPLE = 8 JPL AIRCRAFT SAR PROCESSOR VERSION 6.10 DATA TYPE = COMPLEX RANGE PROJECTION = SLANT RANGE PIXEL SPACING (METERS) = 3.3310 AZIMUTH PIXEL SPACING (METERS) = 0.5144 BYTE OFFSET OF OLD HEADER = 0 BYTE OFFSET OF USER HEADER = 0 BYTE OFFSET OF FIRST DATA RECORD = 40960 BYTE OFFSET OF PARAMETER HEADER = 20480 LINE FORMAT OF DATA = RANGE BYTE OFFSET OF CALIBRATION HEADER = 0 BYTE OFFSET OF DEM HEADER = 0 Closing files .. WAYNE done total 85.40889394283295 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 5.02 ***** ***** ***** ********************************************* 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. /u/air40/airops/685/sensor.vh98c Please enter the name of the parameter file /u/air47/airops/685/ts0685_c.par hddt: 98023 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 42000 lines Keeping 2208 data points per patch Near range (m) = 9462.950 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) = 5.000000 Chirp bandwidth (MHz) = 40.00000 Ashift = 0.7367000 Range weighting coefficient = 0.1000000 Map height (m) = 1155.900 Transmit leverarm x,y,z = 2.486489 1.237825 1.571699 Receive leverarm x,y,z = 2.463511 0.1527200 -0.6316985 Name of raw data file? /u/air40/airops/685/c_vh Name of the mocomp data file? /u/air47/airops/685/ts0685_c.mocompv Output file name w/o ext? /u/air47/airops/685/ts0685_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. vh Raw DIR Path:/u/air40/airops/685/ output filename:/u/air40/airops/685/ts0685_c.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? /u/air40/airops/685/deskew.cv WAYNE init fft, calc slant range, load unpack, interpo 1.2833998E-02 reading motion compensation data WAYNE read motion compen 0.9093120 write parameters ... analog chirp >/ 96032 98023 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.2841589 start range comp, time = 13.930 WAYNE PREV 1.219972 NUMBER OF PROCESSOR USED = 8 POINTER 288239859439501312 288521334416211968 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 7 ..... WAYNE IS IN Processing 19 to 20 by # 6 Processing block number 19 WAYNE PATCHES: 33985 38080 patch# 19 reference line: 36032 14.262 seconds. before reading done reading WAYNE load raw data , time = 22.99629700183868 ATTN ifrq ipol ln 8 3 38080 18.00000 IPOL, ITOP nblock 3 0 19 WAYNE Motion comp. coeff. calculated, time = 5.5750608444213867E-03 WAYNE Motion comp. added to patch, time = 7.316812038421631 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.3130178451538086E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 84.84383499622345 Writing 2208 lines of data to file WAYNE write output data 0.7078679800033569 ==w out 19 0 945 0 WAYNE PROCESS 115.8738449811935 Processing block number 20 WAYNE PATCHES: 35873 39968 patch# 20 reference line: 37920 130.136 seconds. before reading done reading WAYNE load raw data , time = 22.16543996334076 ATTN ifrq ipol ln 8 3 39968 18.00000 IPOL, ITOP nblock 3 0 20 WAYNE Motion comp. coeff. calculated, time = 5.0380229949951172E-03 WAYNE Motion comp. added to patch, time = 6.940356969833374 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.3826956748962402E-02 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 80.99942004680634 Writing 2208 lines of data to file WAYNE write output data 0.6232299804687500 ==w out 20 2208 945 45219840 WAYNE PROCESS 110.7581210136414 ==w out 21 4419 PROCESSING KID# 8 ..... WAYNE IS IN Processing 21 to 22 by # 7 Processing block number 21 WAYNE PATCHES: 37761 41856 patch# 21 reference line: 39808 14.269 seconds. before reading done reading WAYNE load raw data , time = 22.77720499038696 ATTN ifrq ipol ln 8 3 41856 18.00000 IPOL, ITOP nblock 3 0 21 WAYNE Motion comp. coeff. calculated, time = 5.3629875183105469E-03 WAYNE Motion comp. added to patch, time = 7.361994028091431 WAYNE Doppler estimation done, time = 1.1920928955078125E-05 WAYNE write deskew done, time = 2.2490024566650391E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 84.40856897830963 Writing 2208 lines of data to file WAYNE write output data 0.6426290273666382 ==w out 21 0 945 0 WAYNE PROCESS 115.1990799903870 Processing block number 22 WAYNE PATCHES: 37904 41999 patch# 22 reference line: 39951 129.469 seconds. before reading done reading WAYNE load raw data , time = 29.71072804927826 ATTN ifrq ipol ln 8 3 41999 18.00000 IPOL, ITOP nblock 3 0 22 WAYNE Motion comp. coeff. calculated, time = 4.7140121459960938E-03 WAYNE Motion comp. added to patch, time = 6.814441919326782 WAYNE Doppler estimation done, time = 8.1062316894531250E-06 WAYNE write deskew done, time = 7.8792929649353027E-02 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 82.31657695770264 Writing 2208 lines of data to file WAYNE write output data 0.5299520492553711 ==w out 22 2208 945 45219840 WAYNE PROCESS 119.4561700820923 ==w out 23 4419 PROCESSING KID# 6 ..... WAYNE IS IN Processing 16 to 18 by # 5 Processing block number 16 WAYNE PATCHES: 28321 32416 patch# 16 reference line: 30368 14.254 seconds. before reading done reading WAYNE load raw data , time = 23.15280008316040 ATTN ifrq ipol ln 8 3 32416 18.00000 IPOL, ITOP nblock 3 0 16 WAYNE Motion comp. coeff. calculated, time = 5.6220293045043945E-03 WAYNE Motion comp. added to patch, time = 7.254540920257568 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 2.3790597915649414E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 84.68005502223969 Writing 2208 lines of data to file WAYNE write output data 0.7081871032714844 ==w out 16 0 945 0 WAYNE PROCESS 115.8047029972076 Processing block number 17 WAYNE PATCHES: 30209 34304 patch# 17 reference line: 32256 130.059 seconds. before reading done reading WAYNE load raw data , time = 40.18957698345184 ATTN ifrq ipol ln 8 3 34304 18.00000 IPOL, ITOP nblock 3 0 17 WAYNE Motion comp. coeff. calculated, time = 5.4030418395996094E-03 WAYNE Motion comp. added to patch, time = 7.150659918785095 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 1.5140056610107422E-02 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 81.17500197887421 Writing 2208 lines of data to file WAYNE write output data 0.4845830202102661 ==w out 17 2208 945 45219840 WAYNE PROCESS 129.0212689638138 Processing block number 18 WAYNE PATCHES: 32097 36192 patch# 18 reference line: 34144 259.080 seconds. before reading done reading WAYNE load raw data , time = 22.24963307380676 ATTN ifrq ipol ln 8 3 36192 18.00000 IPOL, ITOP nblock 3 0 18 WAYNE Motion comp. coeff. calculated, time = 5.1339864730834961E-03 WAYNE Motion comp. added to patch, time = 6.981793999671936 WAYNE Doppler estimation done, time = 8.1062316894531250E-06 WAYNE write deskew done, time = 1.9350051879882813E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 76.67902398109436 Writing 2208 lines of data to file WAYNE write output data 0.4880200624465942 ==w out 18 4416 945 90439680 WAYNE PROCESS 106.4063431024551 ==w out 19 6627 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 3 by # 0 Processing block number 1 TESTING WHY -0.1695500 2.2537701E-02 1 1 WAYNE PATCHES: 1 4096 patch# 1 reference line: 2048 14.209 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 22.75118100643158 ATTN ifrq ipol ln 8 3 4096 18.00000 IPOL, ITOP nblock 3 0 1 WAYNE Motion comp. coeff. calculated, time = 5.2469968795776367E-03 TESTING -1.1489034E-02 -1.399595 0.2222648 WAYNE Motion comp. added to patch, time = 7.283923983573914 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.2120475769042969E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 -1.1489034E-02 -1.399595 0.2222648 HEY,dt,fract,ye,pe 0.0000000E+00 1.000000 -0.1695500 2.2537701E-02 WAYNE Azimuth compression done, time = 84.62593090534210 Writing 2208 lines of data to file WAYNE write output data 0.6620180606842041 ==w out 1 0 945 0 WAYNE PROCESS 115.3314790725708 Processing block number 2 TESTING WHY -0.1689160 2.2298099E-02 1888 2 WAYNE PATCHES: 1889 5984 patch# 2 reference line: 3936 129.541 seconds. TESTING 1889 before reading done reading WAYNE load raw data , time = 40.56108295917511 ATTN ifrq ipol ln 8 3 5984 18.00000 IPOL, ITOP nblock 3 0 2 WAYNE Motion comp. coeff. calculated, time = 4.9400329589843750E-03 TESTING -1.1489034E-02 -0.1207647 -0.1961603 WAYNE Motion comp. added to patch, time = 7.161552071571350 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 1.6080975532531738E-02 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 -1.1489034E-02 -0.1207647 -0.1961603 HEY,dt,fract,ye,pe 0.0000000E+00 1.000000 -0.1689160 2.2298099E-02 WAYNE Azimuth compression done, time = 81.66719901561737 Writing 2208 lines of data to file WAYNE write output data 0.5147949457168579 ==w out 2 2208 945 45219840 WAYNE PROCESS 129.9265029430389 Processing block number 3 TESTING WHY -0.1685720 2.1993499E-02 1888 3 WAYNE PATCHES: 3777 7872 patch# 3 reference line: 5824 259.468 seconds. TESTING 3777 before reading done reading WAYNE load raw data , time = 22.18213498592377 ATTN ifrq ipol ln 8 3 7872 18.00000 IPOL, ITOP nblock 3 0 3 WAYNE Motion comp. coeff. calculated, time = 4.8429965972900391E-03 TESTING -1.1489034E-02 0.9835046 -0.6248767 WAYNE Motion comp. added to patch, time = 6.748921036720276 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.0059347152709961E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 -1.1489034E-02 0.9835046 -0.6248767 HEY,dt,fract,ye,pe 0.0000000E+00 1.000000 -0.1685720 2.1993499E-02 WAYNE Azimuth compression done, time = 77.13571000099182 Writing 2208 lines of data to file WAYNE write output data 0.4900649785995483 ==w out 3 4416 945 90439680 WAYNE PROCESS 106.5644960403442 ==w out 4 6627 PROCESSING KID# 4 ..... WAYNE IS IN Processing 10 to 12 by # 3 Processing block number 10 WAYNE PATCHES: 16993 21088 patch# 10 reference line: 19040 14.230 seconds. before reading done reading WAYNE load raw data , time = 22.73660492897034 ATTN ifrq ipol ln 8 3 21088 18.00000 IPOL, ITOP nblock 3 0 10 WAYNE Motion comp. coeff. calculated, time = 5.7649612426757813E-03 WAYNE Motion comp. added to patch, time = 7.403385996818542 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.2319555282592773E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 83.93987095355988 Writing 2208 lines of data to file WAYNE write output data 0.4767849445343018 ==w out 10 0 945 0 WAYNE PROCESS 114.5655879974365 Processing block number 11 WAYNE PATCHES: 18881 22976 patch# 11 reference line: 20928 128.796 seconds. before reading done reading WAYNE load raw data , time = 41.18093097209930 ATTN ifrq ipol ln 8 3 22976 18.00000 IPOL, ITOP nblock 3 0 11 WAYNE Motion comp. coeff. calculated, time = 4.9930810928344727E-03 WAYNE Motion comp. added to patch, time = 7.150244951248169 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 4.9510002136230469E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 84.05639195442200 Writing 2208 lines of data to file WAYNE write output data 0.5920270681381226 ==w out 11 2208 945 45219840 WAYNE PROCESS 132.9904509782791 Processing block number 12 WAYNE PATCHES: 20769 24864 patch# 12 reference line: 22816 261.786 seconds. before reading done reading WAYNE load raw data , time = 22.18534290790558 ATTN ifrq ipol ln 8 3 24864 18.00000 IPOL, ITOP nblock 3 0 12 WAYNE Motion comp. coeff. calculated, time = 5.0140619277954102E-03 WAYNE Motion comp. added to patch, time = 7.054885983467102 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 1.9750595092773438E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 84.70286595821381 Writing 2208 lines of data to file WAYNE write output data 0.6185679435729980 ==w out 12 4416 945 90439680 WAYNE PROCESS 114.5694599151611 ==w out 13 6627 PROCESSING KID# 5 ..... WAYNE IS IN Processing 13 to 15 by # 4 Processing block number 13 WAYNE PATCHES: 22657 26752 patch# 13 reference line: 24704 14.241 seconds. before reading done reading WAYNE load raw data , time = 23.30055999755859 ATTN ifrq ipol ln 8 3 26752 18.00000 IPOL, ITOP nblock 3 0 13 WAYNE Motion comp. coeff. calculated, time = 5.7680606842041016E-03 WAYNE Motion comp. added to patch, time = 7.753242969512939 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.3679733276367188E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 83.99911201000214 Writing 2208 lines of data to file WAYNE write output data 0.6272920370101929 ==w out 13 0 945 0 WAYNE PROCESS 115.6894760131836 Processing block number 14 WAYNE PATCHES: 24545 28640 patch# 14 reference line: 26592 129.931 seconds. before reading done reading WAYNE load raw data , time = 40.17712604999542 ATTN ifrq ipol ln 8 3 28640 18.00000 IPOL, ITOP nblock 3 0 14 WAYNE Motion comp. coeff. calculated, time = 5.0370693206787109E-03 WAYNE Motion comp. added to patch, time = 6.817623019218445 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.5809049606323242E-02 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 84.35782206058502 Writing 2208 lines of data to file WAYNE write output data 0.5910249948501587 ==w out 14 2208 945 45219840 WAYNE PROCESS 131.9752769470215 Processing block number 15 WAYNE PATCHES: 26433 30528 patch# 15 reference line: 28480 261.906 seconds. before reading done reading WAYNE load raw data , time = 22.23190200328827 ATTN ifrq ipol ln 8 3 30528 18.00000 IPOL, ITOP nblock 3 0 15 WAYNE Motion comp. coeff. calculated, time = 5.1380395889282227E-03 WAYNE Motion comp. added to patch, time = 6.931120991706848 WAYNE Doppler estimation done, time = 1.1920928955078125E-05 WAYNE write deskew done, time = 1.9489526748657227E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 84.66889405250549 Writing 2208 lines of data to file WAYNE write output data 0.6239929199218750 ==w out 15 4416 945 90439680 WAYNE PROCESS 114.4638680219650 ==w out 16 6627 PROCESSING KID# 2 ..... WAYNE IS IN Processing 4 to 6 by # 1 Processing block number 4 WAYNE PATCHES: 5665 9760 patch# 4 reference line: 7712 14.217 seconds. before reading done reading WAYNE load raw data , time = 23.21218299865723 ATTN ifrq ipol ln 8 3 9760 18.00000 IPOL, ITOP nblock 3 0 4 WAYNE Motion comp. coeff. calculated, time = 5.6560039520263672E-03 WAYNE Motion comp. added to patch, time = 7.297331929206848 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.5030374526977539E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 84.96652102470398 Writing 2208 lines of data to file WAYNE write output data 0.6214740276336670 ==w out 4 0 945 0 WAYNE PROCESS 116.1066689491272 Processing block number 5 WAYNE PATCHES: 7553 11648 patch# 5 reference line: 9600 130.324 seconds. before reading done reading WAYNE load raw data , time = 39.67988896369934 ATTN ifrq ipol ln 8 3 11648 18.00000 IPOL, ITOP nblock 3 0 5 WAYNE Motion comp. coeff. calculated, time = 5.0590038299560547E-03 WAYNE Motion comp. added to patch, time = 6.955744028091431 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 3.1708002090454102E-02 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 85.64874291419983 Writing 2208 lines of data to file WAYNE write output data 0.5334470272064209 ==w out 5 2208 945 45219840 WAYNE PROCESS 132.8553389310837 Processing block number 6 WAYNE PATCHES: 9441 13536 patch# 6 reference line: 11488 263.179 seconds. before reading done reading WAYNE load raw data , time = 22.34269595146179 ATTN ifrq ipol ln 8 3 13536 18.00000 IPOL, ITOP nblock 3 0 6 WAYNE Motion comp. coeff. calculated, time = 5.2050352096557617E-03 WAYNE Motion comp. added to patch, time = 6.772330045700073 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.0380020141601563E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 85.60452198982239 Writing 2208 lines of data to file WAYNE write output data 0.5581920146942139 ==w out 6 4416 945 90439680 WAYNE PROCESS 115.2857379913330 ==w out 7 6627 PROCESSING KID# 3 ..... WAYNE IS IN Processing 7 to 9 by # 2 Processing block number 7 WAYNE PATCHES: 11329 15424 patch# 7 reference line: 13376 14.223 seconds. before reading done reading WAYNE load raw data , time = 22.96124696731567 ATTN ifrq ipol ln 8 3 15424 18.00000 IPOL, ITOP nblock 3 0 7 WAYNE Motion comp. coeff. calculated, time = 5.6970119476318359E-03 WAYNE Motion comp. added to patch, time = 7.285959959030151 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.2989511489868164E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 86.13652002811432 Writing 2208 lines of data to file WAYNE write output data 0.5192790031433105 ==w out 7 0 945 0 WAYNE PROCESS 116.9119459390640 Processing block number 8 WAYNE PATCHES: 13217 17312 patch# 8 reference line: 15264 131.135 seconds. before reading done reading WAYNE load raw data , time = 39.21518790721893 ATTN ifrq ipol ln 8 3 17312 18.00000 IPOL, ITOP nblock 3 0 8 WAYNE Motion comp. coeff. calculated, time = 5.2069425582885742E-03 WAYNE Motion comp. added to patch, time = 6.947798967361450 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 6.2589645385742188E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 85.62111604213715 Writing 2208 lines of data to file WAYNE write output data 0.5319730043411255 ==w out 8 2208 945 45219840 WAYNE PROCESS 132.3283480405807 Processing block number 9 WAYNE PATCHES: 15105 19200 patch# 9 reference line: 17152 263.464 seconds. before reading done reading WAYNE load raw data , time = 22.27025794982910 ATTN ifrq ipol ln 8 3 19200 18.00000 IPOL, ITOP nblock 3 0 9 WAYNE Motion comp. coeff. calculated, time = 5.1079988479614258E-03 WAYNE Motion comp. added to patch, time = 6.804242014884949 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 2.0509958267211914E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 85.58763408660889 Writing 2208 lines of data to file WAYNE write output data 0.5608960390090942 ==w out 9 4416 945 90439680 WAYNE PROCESS 115.2310431003571 ==w out 10 6627 1 4872679 0 2 4872873 0 3 4872953 0 4 4854701 0 5 4872471 0 6 4873049 0 7 4872744 0 8 4872513 0 PROCESSING COMPLETED POINTER 288239859439501312 288521334416211968 icnt = 48576kids= 8 Writing variable header... gather image from processor # 0 3 gather image from processor # 1 3 gather image from processor # 2 3 gather image from processor # 3 3 gather image from processor # 4 3 gather image from processor # 5 3 gather image from processor # 6 2 gather image from processor # 7 2 WAYNE gather images takes: 0.3752419948577881 WAYNE LOOP TIME: 373.7362790107727 update sarfile,mocompfile,dopfile,glbfile,N_RA: /u/air40/airops/685/ts0685_c.vh_j /u/air47/airops/685/ts0685_c.mocompv /u/air47/airops/685/ts0685_c.dop /u/air47/airops/685/ts0685_c.glb 2560 48576 update intf hdr ha: 8391.100 UPDATE: 2560 48576 3.331000 0.5144000 mocompfile /u/air47/airops/685/ts0685_c.mocompv dopfile /u/air47/airops/685/ts0685_c.dop globalfile /u/air47/airops/685/ts0685_c.glb /u/air47/airops/685/ts0685_c.glb 32 deskew line ra ha trc: -551.9705 -1074 9465.095 8391.100 59.86913 lat1 lon1: -1074 44.45876 -121.6837 48576 lati loni: 47502 44.63876 -121.4766 47502 2560 lati loni: 23214 44.54748 -121.5831 23214 1280 Updated paramater header in /u/air40/airops/685/ts0685_c.vh_j WAYNE FINAL PROCESS 388.0604400634766 ********************************************* ***** ***** ***** 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 6624 3 6624 3 6624 3 6624 3 6624 3 6624 3 4416 2 4416 2 Name of data file to be deskewed? /u/air40/airops/685/ts0685_c.vh_j Name of the doppler parameter file? /u/air47/airops/685/ts0685_c.dop Name of the deskew file? /u/air40/airops/685/deskew.cv Line up to another frequency [y/n]? n Name of the output file? /u/air47/airops/685/ts0685_c.vh Name of the line output file? /u/air47/airops/685/c_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 2.975991010665894 Deskewing 22 patches Processing block number 1 DEBUG -4904 -1073.175 -4903.307 0.0000000E+00 0.0000000E+00 patch iptc,sj,dgj,dgi,id: 1 1 -4904 -4904 0 half line dmj dgc: 0 945 -1074 -4904 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 -4904 -4904 1104 half line dmj dgc: 1 945 -1074 -4904 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 DEBUG -4888 -1071.982 -4887.437 0.0000000E+00 0.0000000E+00 1105 1905 16 784 patch iptc,sj,dgj,dgi,id: 2 1905 -4888 -4904 784 half line dmj dgc: 0 2833 -1073 -4904 Actual deskew ireclen: 20480 ** 2 1104 0 3312 Writing data negflag .eq. 0 sj>s1: 1905 1105 Zeroing lines in arrays Total # of output lines = 2 1904 1905 3009 0 1104 patch iptc,sj,dgj,dgi,id: 2 3009 -4888 -4888 1104 half line dmj dgc: 1 2833 -1073 -4904 Actual deskew ireclen: 20480 ** 2 1104 1 4416 Writing data negflag .eq. 0 sj>s1: 3009 1905 Zeroing lines in arrays Total # of output lines = 2 3008 Processing block number 3 DEBUG -4882 -1074.312 -4881.768 0.0000000E+00 0.0000000E+00 3009 3799 6 784 patch iptc,sj,dgj,dgi,id: 3 3799 -4882 -4888 784 half line dmj dgc: 0 4721 -1075 -4904 Actual deskew ireclen: 20480 ** 3 1104 0 5520 Writing data negflag .eq. 0 sj>s1: 3799 3009 Zeroing lines in arrays Total # of output lines = 3 3798 3799 4903 0 1104 patch iptc,sj,dgj,dgi,id: 3 4903 -4882 -4882 1104 half line dmj dgc: 1 4721 -1075 -4904 Actual deskew ireclen: 20480 ** 3 1104 1 6624 Writing data negflag .eq. 0 sj>s1: 4903 3799 Zeroing lines in arrays Total # of output lines = 3 4902 Processing block number 4 DEBUG -4891 -1081.885 -4890.594 0.0000000E+00 0.0000000E+00 4903 5678 -9 784 patch iptc,sj,dgj,dgi,id: 4 5678 -4891 -4882 784 half line dmj dgc: 0 6609 -1082 -4904 Actual deskew ireclen: 20480 ** 4 1104 0 7728 Writing data negflag .eq. 0 sj>s1: 5678 4903 Zeroing lines in arrays Total # of output lines = 4 5677 5678 6782 0 1104 patch iptc,sj,dgj,dgi,id: 4 6782 -4891 -4891 1104 half line dmj dgc: 1 6609 -1082 -4904 Actual deskew ireclen: 20480 ** 4 1104 1 8832 Writing data negflag .eq. 0 sj>s1: 6782 5678 Zeroing lines in arrays Total # of output lines = 4 6781 Processing block number 5 DEBUG -4901 -1091.623 -4900.020 0.0000000E+00 0.0000000E+00 6782 7556 -10 784 patch iptc,sj,dgj,dgi,id: 5 7556 -4901 -4891 784 half line dmj dgc: 0 8497 -1092 -4904 Actual deskew ireclen: 20480 ** 5 1104 0 9936 Writing data negflag .eq. 0 sj>s1: 7556 6782 Zeroing lines in arrays Total # of output lines = 5 7555 7556 8660 0 1104 patch iptc,sj,dgj,dgi,id: 5 8660 -4901 -4901 1104 half line dmj dgc: 1 8497 -1092 -4904 Actual deskew ireclen: 20480 ** 5 1104 1 11040 Writing data negflag .eq. 0 sj>s1: 8660 7556 Zeroing lines in arrays Total # of output lines = 5 8659 Processing block number 6 DEBUG -4896 -1098.267 -4895.341 0.0000000E+00 0.0000000E+00 8660 9449 5 784 patch iptc,sj,dgj,dgi,id: 6 9449 -4896 -4901 784 half line dmj dgc: 0 10385 -1099 -4904 Actual deskew ireclen: 20480 ** 6 1104 0 12144 Writing data negflag .eq. 0 sj>s1: 9449 8660 Zeroing lines in arrays Total # of output lines = 6 9448 9449 10553 0 1104 patch iptc,sj,dgj,dgi,id: 6 10553 -4896 -4896 1104 half line dmj dgc: 1 10385 -1099 -4904 Actual deskew ireclen: 20480 ** 6 1104 1 13248 Writing data negflag .eq. 0 sj>s1: 10553 9449 Zeroing lines in arrays Total # of output lines = 6 10552 Processing block number 7 DEBUG -4881 -1099.175 -4880.510 0.0000000E+00 0.0000000E+00 10553 11352 15 784 patch iptc,sj,dgj,dgi,id: 7 11352 -4881 -4896 784 half line dmj dgc: 0 12273 -1100 -4904 Actual deskew ireclen: 20480 ** 7 1104 0 14352 Writing data negflag .eq. 0 sj>s1: 11352 10553 Zeroing lines in arrays Total # of output lines = 7 11351 11352 12456 0 1104 patch iptc,sj,dgj,dgi,id: 7 168 -4881 -4881 1104 half line dmj dgc: 1 12273 -1100 -4904 Actual deskew ireclen: 20480 ** 7 1104 1 15456 Writing data negflag .eq. 0 s1>sj: 11352 168 Zeroing lines in arrays Total # of output lines = 7 12455 Processing block number 8 DEBUG -4873 -1100.140 -4871.979 0.0000000E+00 0.0000000E+00 168 960 8 784 patch iptc,sj,dgj,dgi,id: 8 960 -4873 -4881 784 half line dmj dgc: 0 14161 -1101 -4904 Actual deskew ireclen: 20480 ** 8 1104 0 16560 Writing data negflag .eq. 0 sj>s1: 960 168 Zeroing lines in arrays Total # of output lines = 8 13247 960 2064 0 1104 patch iptc,sj,dgj,dgi,id: 8 2064 -4873 -4873 1104 half line dmj dgc: 1 14161 -1101 -4904 Actual deskew ireclen: 20480 ** 8 1104 1 17664 Writing data negflag .eq. 0 sj>s1: 2064 960 Zeroing lines in arrays Total # of output lines = 8 14351 Processing block number 9 DEBUG -4866 -1102.567 -4865.072 0.0000000E+00 0.0000000E+00 2064 2855 7 784 patch iptc,sj,dgj,dgi,id: 9 2855 -4866 -4873 784 half line dmj dgc: 0 16049 -1103 -4904 Actual deskew ireclen: 20480 ** 9 1104 0 18768 Writing data negflag .eq. 0 sj>s1: 2855 2064 Zeroing lines in arrays Total # of output lines = 9 15142 2855 3959 0 1104 patch iptc,sj,dgj,dgi,id: 9 3959 -4866 -4866 1104 half line dmj dgc: 1 16049 -1103 -4904 Actual deskew ireclen: 20480 ** 9 1104 1 19872 Writing data negflag .eq. 0 sj>s1: 3959 2855 Zeroing lines in arrays Total # of output lines = 9 16246 Processing block number 10 DEBUG -4856 -1103.337 -4854.924 0.0000000E+00 0.0000000E+00 3959 4753 10 784 patch iptc,sj,dgj,dgi,id: 10 4753 -4856 -4866 784 half line dmj dgc: 0 17937 -1104 -4904 Actual deskew ireclen: 20480 ** 10 1104 0 20976 Writing data negflag .eq. 0 sj>s1: 4753 3959 Zeroing lines in arrays Total # of output lines = 10 17040 4753 5857 0 1104 patch iptc,sj,dgj,dgi,id: 10 5857 -4856 -4856 1104 half line dmj dgc: 1 17937 -1104 -4904 Actual deskew ireclen: 20480 ** 10 1104 1 22080 Writing data negflag .eq. 0 sj>s1: 5857 4753 Zeroing lines in arrays Total # of output lines = 10 18144 Processing block number 11 DEBUG -4845 -1099.448 -4844.497 0.0000000E+00 0.0000000E+00 5857 6652 11 784 patch iptc,sj,dgj,dgi,id: 11 6652 -4845 -4856 784 half line dmj dgc: 0 19825 -1100 -4904 Actual deskew ireclen: 20480 ** 11 1104 0 23184 Writing data negflag .eq. 0 sj>s1: 6652 5857 Zeroing lines in arrays Total # of output lines = 11 18939 6652 7756 0 1104 patch iptc,sj,dgj,dgi,id: 11 7756 -4845 -4845 1104 half line dmj dgc: 1 19825 -1100 -4904 Actual deskew ireclen: 20480 ** 11 1104 1 24288 Writing data negflag .eq. 0 sj>s1: 7756 6652 Zeroing lines in arrays Total # of output lines = 11 20043 Processing block number 12 DEBUG -4834 -1090.894 -4833.646 0.0000000E+00 0.0000000E+00 7756 8551 11 784 patch iptc,sj,dgj,dgi,id: 12 8551 -4834 -4845 784 half line dmj dgc: 0 21713 -1091 -4904 Actual deskew ireclen: 20480 ** 12 1104 0 25392 Writing data negflag .eq. 0 sj>s1: 8551 7756 Zeroing lines in arrays Total # of output lines = 12 20838 8551 9655 0 1104 patch iptc,sj,dgj,dgi,id: 12 9655 -4834 -4834 1104 half line dmj dgc: 1 21713 -1091 -4904 Actual deskew ireclen: 20480 ** 12 1104 1 26496 Writing data negflag .eq. 0 sj>s1: 9655 8551 Zeroing lines in arrays Total # of output lines = 12 21942 Processing block number 13 DEBUG -4835 -1082.971 -4834.301 0.0000000E+00 0.0000000E+00 9655 10438 -1 784 patch iptc,sj,dgj,dgi,id: 13 10438 -4835 -4834 784 half line dmj dgc: 0 23601 -1084 -4904 Actual deskew ireclen: 20480 ** 13 1104 0 27600 Writing data negflag .eq. 0 sj>s1: 10438 9655 Zeroing lines in arrays Total # of output lines = 13 22725 10438 11542 0 1104 patch iptc,sj,dgj,dgi,id: 13 11542 -4835 -4835 1104 half line dmj dgc: 1 23601 -1084 -4904 Actual deskew ireclen: 20480 ** 13 1104 1 28704 Writing data negflag .eq. 0 sj>s1: 11542 10438 Zeroing lines in arrays Total # of output lines = 13 23829 Processing block number 14 DEBUG -4845 -1076.685 -4844.073 0.0000000E+00 0.0000000E+00 11542 12316 -10 784 patch iptc,sj,dgj,dgi,id: 14 28 -4845 -4835 784 half line dmj dgc: 0 25489 -1077 -4904 Actual deskew ireclen: 20480 ** 14 1104 0 29808 Writing data negflag .eq. 0 s1>sj: 11542 28 Zeroing lines in arrays Total # of output lines = 14 24603 28 1132 0 1104 patch iptc,sj,dgj,dgi,id: 14 1132 -4845 -4845 1104 half line dmj dgc: 1 25489 -1077 -4904 Actual deskew ireclen: 20480 ** 14 1104 1 30912 Writing data negflag .eq. 0 sj>s1: 1132 28 Zeroing lines in arrays Total # of output lines = 14 25707 Processing block number 15 DEBUG -4859 -1075.367 -4858.676 0.0000000E+00 0.0000000E+00 1132 1902 -14 784 patch iptc,sj,dgj,dgi,id: 15 1902 -4859 -4845 784 half line dmj dgc: 0 27377 -1076 -4904 Actual deskew ireclen: 20480 ** 15 1104 0 32016 Writing data negflag .eq. 0 sj>s1: 1902 1132 Zeroing lines in arrays Total # of output lines = 15 26477 1902 3006 0 1104 patch iptc,sj,dgj,dgi,id: 15 3006 -4859 -4859 1104 half line dmj dgc: 1 27377 -1076 -4904 Actual deskew ireclen: 20480 ** 15 1104 1 33120 Writing data negflag .eq. 0 sj>s1: 3006 1902 Zeroing lines in arrays Total # of output lines = 15 27581 Processing block number 16 DEBUG -4870 -1076.040 -4869.450 0.0000000E+00 0.0000000E+00 3006 3779 -11 784 patch iptc,sj,dgj,dgi,id: 16 3779 -4870 -4859 784 half line dmj dgc: 0 29265 -1077 -4904 Actual deskew ireclen: 20480 ** 16 1104 0 34224 Writing data negflag .eq. 0 sj>s1: 3779 3006 Zeroing lines in arrays Total # of output lines = 16 28354 3779 4883 0 1104 patch iptc,sj,dgj,dgi,id: 16 4883 -4870 -4870 1104 half line dmj dgc: 1 29265 -1077 -4904 Actual deskew ireclen: 20480 ** 16 1104 1 35328 Writing data negflag .eq. 0 sj>s1: 4883 3779 Zeroing lines in arrays Total # of output lines = 16 29458 Processing block number 17 DEBUG -4874 -1075.089 -4873.677 0.0000000E+00 0.0000000E+00 4883 5663 -4 784 patch iptc,sj,dgj,dgi,id: 17 5663 -4874 -4870 784 half line dmj dgc: 0 31153 -1076 -4904 Actual deskew ireclen: 20480 ** 17 1104 0 36432 Writing data negflag .eq. 0 sj>s1: 5663 4883 Zeroing lines in arrays Total # of output lines = 17 30238 5663 6767 0 1104 patch iptc,sj,dgj,dgi,id: 17 6767 -4874 -4874 1104 half line dmj dgc: 1 31153 -1076 -4904 Actual deskew ireclen: 20480 ** 17 1104 1 37536 Writing data negflag .eq. 0 sj>s1: 6767 5663 Zeroing lines in arrays Total # of output lines = 17 31342 Processing block number 18 DEBUG -4859 -1066.288 -4858.086 0.0000000E+00 0.0000000E+00 6767 7566 15 784 patch iptc,sj,dgj,dgi,id: 18 7566 -4859 -4874 784 half line dmj dgc: 0 33041 -1067 -4904 Actual deskew ireclen: 20480 ** 18 1104 0 38640 Writing data negflag .eq. 0 sj>s1: 7566 6767 Zeroing lines in arrays Total # of output lines = 18 32141 7566 8670 0 1104 patch iptc,sj,dgj,dgi,id: 18 8670 -4859 -4859 1104 half line dmj dgc: 1 33041 -1067 -4904 Actual deskew ireclen: 20480 ** 18 1104 1 39744 Writing data negflag .eq. 0 sj>s1: 8670 7566 Zeroing lines in arrays Total # of output lines = 18 33245 Processing block number 19 DEBUG -4833 -1053.177 -4832.102 0.0000000E+00 0.0000000E+00 8670 9480 26 784 patch iptc,sj,dgj,dgi,id: 19 9480 -4833 -4859 784 half line dmj dgc: 0 34929 -1054 -4904 Actual deskew ireclen: 20480 ** 19 1104 0 40848 Writing data negflag .eq. 0 sj>s1: 9480 8670 Zeroing lines in arrays Total # of output lines = 19 34055 9480 10584 0 1104 patch iptc,sj,dgj,dgi,id: 19 10584 -4833 -4833 1104 half line dmj dgc: 1 34929 -1054 -4904 Actual deskew ireclen: 20480 ** 19 1104 1 41952 Writing data negflag .eq. 0 sj>s1: 10584 9480 Zeroing lines in arrays Total # of output lines = 19 35159 Processing block number 20 DEBUG -4813 -1042.980 -4811.949 0.0000000E+00 0.0000000E+00 10584 11388 20 784 patch iptc,sj,dgj,dgi,id: 20 11388 -4813 -4833 784 half line dmj dgc: 0 36817 -1044 -4904 Actual deskew ireclen: 20480 ** 20 1104 0 43056 Writing data negflag .eq. 0 sj>s1: 11388 10584 Zeroing lines in arrays Total # of output lines = 20 35963 11388 12492 0 1104 patch iptc,sj,dgj,dgi,id: 20 204 -4813 -4813 1104 half line dmj dgc: 1 36817 -1044 -4904 Actual deskew ireclen: 20480 ** 20 1104 1 44160 Writing data negflag .eq. 0 s1>sj: 11388 204 Zeroing lines in arrays Total # of output lines = 20 37067 Processing block number 21 DEBUG -4790 -1036.513 -4788.965 0.0000000E+00 0.0000000E+00 204 1011 23 784 patch iptc,sj,dgj,dgi,id: 21 1011 -4790 -4813 784 half line dmj dgc: 0 38705 -1037 -4904 Actual deskew ireclen: 20480 ** 21 1104 0 45264 Writing data negflag .eq. 0 sj>s1: 1011 204 Zeroing lines in arrays Total # of output lines = 21 37874 1011 2115 0 1104 patch iptc,sj,dgj,dgi,id: 21 2115 -4790 -4790 1104 half line dmj dgc: 1 38705 -1037 -4904 Actual deskew ireclen: 20480 ** 21 1104 1 46368 Writing data negflag .eq. 0 sj>s1: 2115 1011 Zeroing lines in arrays Total # of output lines = 21 38978 Processing block number 22 DEBUG -4781 -1035.880 -4780.153 0.0000000E+00 0.0000000E+00 2115 1163 9 -961 patch iptc,sj,dgj,dgi,id: 22 1163 -4781 -4790 -961 half line dmj dgc: 0 38848 -1036 -4904 Actual deskew ireclen: 20480 ** 22 1104 0 47472 Zeroing lines in arrays Total # of output lines = 22 38978 2115 2267 0 1104 patch iptc,sj,dgj,dgi,id: 22 2267 -4781 -4781 1104 half line dmj dgc: 1 38848 -1036 -4904 Actual deskew ireclen: 20480 ** 22 1104 1 48576 Writing data negflag .eq. 0 sj>s1: 2267 2115 Zeroing lines in arrays Total # of output lines = 22 39130 ia dmi dgi: 2267 -1036 -4781 Writing the last 4849 lines last half sj>s1 7116 2267 39130 WAYNE done patche 72.79124903678894 Total # of output lines = 43979 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 43979 NUMBER OF BYTES PER SAMPLE = 8 JPL AIRCRAFT SAR PROCESSOR VERSION 6.10 DATA TYPE = COMPLEX RANGE PROJECTION = SLANT RANGE PIXEL SPACING (METERS) = 3.3310 AZIMUTH PIXEL SPACING (METERS) = 0.5144 BYTE OFFSET OF OLD HEADER = 0 BYTE OFFSET OF USER HEADER = 0 BYTE OFFSET OF FIRST DATA RECORD = 40960 BYTE OFFSET OF PARAMETER HEADER = 20480 LINE FORMAT OF DATA = RANGE BYTE OFFSET OF CALIBRATION HEADER = 0 BYTE OFFSET OF DEM HEADER = 0 Closing files .. WAYNE done total 73.37124502658844 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 5.02 ***** ***** ***** ********************************************* 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. /u/air40/airops/685/sensor.vv98c Please enter the name of the parameter file /u/air47/airops/685/ts0685_c.par hddt: 98023 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 42000 lines Keeping 2208 data points per patch Near range (m) = 9462.950 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) = 5.000000 Chirp bandwidth (MHz) = 40.00000 Ashift = 1.473400 Range weighting coefficient = 0.1000000 Map height (m) = 1155.900 Transmit leverarm x,y,z = 2.486489 1.237825 1.571699 Receive leverarm x,y,z = 2.486489 1.237825 1.571699 Name of raw data file? /u/air40/airops/685/c_vv Name of the mocomp data file? /u/air47/airops/685/ts0685_c.mocompv Output file name w/o ext? /u/air47/airops/685/ts0685_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:/u/air40/airops/685/ output filename:/u/air40/airops/685/ts0685_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? /u/air40/airops/685/deskew.cv WAYNE init fft, calc slant range, load unpack, interpo 1.2860000E-02 reading motion compensation data WAYNE read motion compen 0.9015000 write parameters ... analog chirp >/ 96032 98023 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.2836390 start range comp, time = 6.884 WAYNE PREV 1.211816 NUMBER OF PROCESSOR USED = 8 POINTER 288239859439501312 288521334416211968 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 7 ..... WAYNE IS IN Processing 19 to 20 by # 6 Processing block number 19 WAYNE PATCHES: 33985 38080 patch# 19 reference line: 36032 7.064 seconds. before reading done reading WAYNE load raw data , time = 23.09228897094727 ATTN ifrq ipol ln 8 4 38080 18.00000 IPOL, ITOP nblock 4 0 19 WAYNE Motion comp. coeff. calculated, time = 5.7430267333984375E-03 WAYNE Motion comp. added to patch, time = 7.300171971321106 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.2820234298706055E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 84.92750906944275 Writing 2208 lines of data to file WAYNE write output data 0.6954900026321411 ==w out 19 0 945 0 WAYNE PROCESS 116.0245989561081 Processing block number 20 WAYNE PATCHES: 35873 39968 patch# 20 reference line: 37920 123.089 seconds. before reading done reading WAYNE load raw data , time = 22.15090501308441 ATTN ifrq ipol ln 8 4 39968 18.00000 IPOL, ITOP nblock 4 0 20 WAYNE Motion comp. coeff. calculated, time = 4.9740076065063477E-03 WAYNE Motion comp. added to patch, time = 6.771890997886658 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 0.3156690597534180 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 81.27931606769562 Writing 2208 lines of data to file WAYNE write output data 0.6166518926620483 ==w out 20 2208 945 45219840 WAYNE PROCESS 111.1401718854904 ==w out 21 4419 PROCESSING KID# 8 ..... WAYNE IS IN Processing 21 to 22 by # 7 Processing block number 21 WAYNE PATCHES: 37761 41856 patch# 21 reference line: 39808 7.071 seconds. before reading done reading WAYNE load raw data , time = 23.61865603923798 ATTN ifrq ipol ln 8 4 41856 18.00000 IPOL, ITOP nblock 4 0 21 WAYNE Motion comp. coeff. calculated, time = 5.5350065231323242E-03 WAYNE Motion comp. added to patch, time = 7.759455919265747 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.4600028991699219E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 87.37963998317719 Writing 2208 lines of data to file WAYNE write output data 0.5349669456481934 ==w out 21 0 945 0 WAYNE PROCESS 119.3017400503159 Processing block number 22 WAYNE PATCHES: 37904 41999 patch# 22 reference line: 39951 126.373 seconds. before reading done reading WAYNE load raw data , time = 25.57063198089600 ATTN ifrq ipol ln 8 4 41999 18.00000 IPOL, ITOP nblock 4 0 22 WAYNE Motion comp. coeff. calculated, time = 4.8389434814453125E-03 WAYNE Motion comp. added to patch, time = 7.018278002738953 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 3.0421018600463867E-02 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 84.61597502231598 Writing 2208 lines of data to file WAYNE write output data 0.4803500175476074 ==w out 22 2208 945 45219840 WAYNE PROCESS 117.7212719917297 ==w out 23 4419 PROCESSING KID# 6 ..... WAYNE IS IN Processing 16 to 18 by # 5 Processing block number 16 WAYNE PATCHES: 28321 32416 patch# 16 reference line: 30368 7.056 seconds. before reading done reading WAYNE load raw data , time = 23.01841497421265 ATTN ifrq ipol ln 8 4 32416 18.00000 IPOL, ITOP nblock 4 0 16 WAYNE Motion comp. coeff. calculated, time = 5.6639909744262695E-03 WAYNE Motion comp. added to patch, time = 7.258584976196289 WAYNE Doppler estimation done, time = 6.9141387939453125E-06 WAYNE write deskew done, time = 2.2898912429809570E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 85.09640896320343 Writing 2208 lines of data to file WAYNE write output data 0.7093160152435303 ==w out 16 0 945 0 WAYNE PROCESS 116.0917370319366 Processing block number 17 WAYNE PATCHES: 30209 34304 patch# 17 reference line: 32256 123.147 seconds. before reading done reading WAYNE load raw data , time = 39.64577102661133 ATTN ifrq ipol ln 8 4 34304 18.00000 IPOL, ITOP nblock 4 0 17 WAYNE Motion comp. coeff. calculated, time = 5.1809549331665039E-03 WAYNE Motion comp. added to patch, time = 6.917425990104675 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 4.9480199813842773E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 81.45244801044464 Writing 2208 lines of data to file WAYNE write output data 0.4877619743347168 ==w out 17 2208 945 45219840 WAYNE PROCESS 128.5143330097198 Processing block number 18 WAYNE PATCHES: 32097 36192 patch# 18 reference line: 34144 251.662 seconds. before reading done reading WAYNE load raw data , time = 22.21567702293396 ATTN ifrq ipol ln 8 4 36192 18.00000 IPOL, ITOP nblock 4 0 18 WAYNE Motion comp. coeff. calculated, time = 4.9909353256225586E-03 WAYNE Motion comp. added to patch, time = 6.958171010017395 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 1.9509792327880859E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 77.38222599029541 Writing 2208 lines of data to file WAYNE write output data 0.4729939699172974 ==w out 18 4416 945 90439680 WAYNE PROCESS 107.0366740226746 ==w out 19 6627 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 3 by # 0 Processing block number 1 TESTING WHY -0.1695500 2.2537701E-02 1 1 WAYNE PATCHES: 1 4096 patch# 1 reference line: 2048 7.014 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 22.70819008350372 ATTN ifrq ipol ln 8 4 4096 18.00000 IPOL, ITOP nblock 4 0 1 WAYNE Motion comp. coeff. calculated, time = 5.2760839462280273E-03 TESTING 0.0000000E+00 -0.8570422 1.323964 WAYNE Motion comp. added to patch, time = 7.282196998596191 WAYNE Doppler estimation done, time = 9.8943710327148438E-06 WAYNE write deskew done, time = 2.2050142288208008E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 -0.8570422 1.323964 HEY,dt,fract,ye,pe 0.0000000E+00 1.000000 -0.1695500 2.2537701E-02 WAYNE Azimuth compression done, time = 83.51193606853485 Writing 2208 lines of data to file WAYNE write output data 0.4870669841766357 ==w out 1 0 945 0 WAYNE PROCESS 113.9978699684143 Processing block number 2 TESTING WHY -0.1689160 2.2298099E-02 1888 2 WAYNE PATCHES: 1889 5984 patch# 2 reference line: 3936 121.012 seconds. TESTING 1889 before reading done reading WAYNE load raw data , time = 41.83694303035736 ATTN ifrq ipol ln 8 4 5984 18.00000 IPOL, ITOP nblock 4 0 2 WAYNE Motion comp. coeff. calculated, time = 5.2120685577392578E-03 TESTING 0.0000000E+00 0.4217878 0.9055384 WAYNE Motion comp. added to patch, time = 7.308584928512573 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 1.7035007476806641E-02 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 0.4217878 0.9055384 HEY,dt,fract,ye,pe 0.0000000E+00 1.000000 -0.1689160 2.2298099E-02 WAYNE Azimuth compression done, time = 82.01082098484039 Writing 2208 lines of data to file WAYNE write output data 0.4946219921112061 ==w out 2 2208 945 45219840 WAYNE PROCESS 131.6741449832916 Processing block number 3 TESTING WHY -0.1685720 2.1993499E-02 1888 3 WAYNE PATCHES: 3777 7872 patch# 3 reference line: 5824 252.687 seconds. TESTING 3777 before reading done reading WAYNE load raw data , time = 22.21093201637268 ATTN ifrq ipol ln 8 4 7872 18.00000 IPOL, ITOP nblock 4 0 3 WAYNE Motion comp. coeff. calculated, time = 4.8110485076904297E-03 TESTING 0.0000000E+00 1.526057 0.4768221 WAYNE Motion comp. added to patch, time = 6.774149894714355 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 1.9310712814331055E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection HEY,x10,y10,z10 0.0000000E+00 1.526057 0.4768221 HEY,dt,fract,ye,pe 0.0000000E+00 1.000000 -0.1685720 2.1993499E-02 WAYNE Azimuth compression done, time = 77.17700695991516 Writing 2208 lines of data to file WAYNE write output data 0.4722040891647339 ==w out 3 4416 945 90439680 WAYNE PROCESS 106.6418039798737 ==w out 4 6627 PROCESSING KID# 3 ..... WAYNE IS IN Processing 7 to 9 by # 2 Processing block number 7 WAYNE PATCHES: 11329 15424 patch# 7 reference line: 13376 7.031 seconds. before reading done reading WAYNE load raw data , time = 22.86458909511566 ATTN ifrq ipol ln 8 4 15424 18.00000 IPOL, ITOP nblock 4 0 7 WAYNE Motion comp. coeff. calculated, time = 5.6649446487426758E-03 WAYNE Motion comp. added to patch, time = 7.309502005577087 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.3800134658813477E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 84.31532394886017 Writing 2208 lines of data to file WAYNE write output data 0.4738709926605225 ==w out 7 0 945 0 WAYNE PROCESS 114.9724590778351 Processing block number 8 WAYNE PATCHES: 13217 17312 patch# 8 reference line: 15264 122.003 seconds. before reading done reading WAYNE load raw data , time = 40.14271104335785 ATTN ifrq ipol ln 8 4 17312 18.00000 IPOL, ITOP nblock 4 0 8 WAYNE Motion comp. coeff. calculated, time = 4.9679279327392578E-03 WAYNE Motion comp. added to patch, time = 6.835319995880127 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.5209069252014160E-02 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 84.29720199108124 Writing 2208 lines of data to file WAYNE write output data 0.4745860099792480 ==w out 8 2208 945 45219840 WAYNE PROCESS 131.7807739973068 Processing block number 9 WAYNE PATCHES: 15105 19200 patch# 9 reference line: 17152 253.784 seconds. before reading done reading WAYNE load raw data , time = 22.15772593021393 ATTN ifrq ipol ln 8 4 19200 18.00000 IPOL, ITOP nblock 4 0 9 WAYNE Motion comp. coeff. calculated, time = 4.9309730529785156E-03 WAYNE Motion comp. added to patch, time = 6.775041937828064 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 1.9350051879882813E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 84.89659798145294 Writing 2208 lines of data to file WAYNE write output data 0.4677300453186035 ==w out 9 4416 945 90439680 WAYNE PROCESS 114.3047620058060 ==w out 10 6627 PROCESSING KID# 2 ..... WAYNE IS IN Processing 4 to 6 by # 1 Processing block number 4 WAYNE PATCHES: 5665 9760 patch# 4 reference line: 7712 7.022 seconds. before reading done reading WAYNE load raw data , time = 22.77916800975800 ATTN ifrq ipol ln 8 4 9760 18.00000 IPOL, ITOP nblock 4 0 4 WAYNE Motion comp. coeff. calculated, time = 5.6549310684204102E-03 WAYNE Motion comp. added to patch, time = 7.382887959480286 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.2219419479370117E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 85.46566104888916 Writing 2208 lines of data to file WAYNE write output data 0.6433689594268799 ==w out 4 0 945 0 WAYNE PROCESS 116.2799780368805 Processing block number 5 WAYNE PATCHES: 7553 11648 patch# 5 reference line: 9600 123.302 seconds. before reading done reading WAYNE load raw data , time = 39.51674497127533 ATTN ifrq ipol ln 8 4 11648 18.00000 IPOL, ITOP nblock 4 0 5 WAYNE Motion comp. coeff. calculated, time = 4.9370527267456055E-03 WAYNE Motion comp. added to patch, time = 6.964107036590576 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 1.0527014732360840E-02 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 84.49100494384766 Writing 2208 lines of data to file WAYNE write output data 0.5123349428176880 ==w out 5 2208 945 45219840 WAYNE PROCESS 131.5004810094833 Processing block number 6 WAYNE PATCHES: 9441 13536 patch# 6 reference line: 11488 254.803 seconds. before reading done reading WAYNE load raw data , time = 22.13801705837250 ATTN ifrq ipol ln 8 4 13536 18.00000 IPOL, ITOP nblock 4 0 6 WAYNE Motion comp. coeff. calculated, time = 4.9489736557006836E-03 WAYNE Motion comp. added to patch, time = 6.758715987205505 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 1.9350051879882813E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 84.90162193775177 Writing 2208 lines of data to file WAYNE write output data 0.4893609285354614 ==w out 6 4416 945 90439680 WAYNE PROCESS 114.2954360246658 ==w out 7 6627 PROCESSING KID# 5 ..... WAYNE IS IN Processing 13 to 15 by # 4 Processing block number 13 WAYNE PATCHES: 22657 26752 patch# 13 reference line: 24704 7.047 seconds. before reading done reading WAYNE load raw data , time = 22.88943910598755 ATTN ifrq ipol ln 8 4 26752 18.00000 IPOL, ITOP nblock 4 0 13 WAYNE Motion comp. coeff. calculated, time = 5.6349039077758789E-03 WAYNE Motion comp. added to patch, time = 7.421238064765930 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.3339986801147461E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 85.38669192790985 Writing 2208 lines of data to file WAYNE write output data 0.7182329893112183 ==w out 13 0 945 0 WAYNE PROCESS 116.4246710538864 Processing block number 14 WAYNE PATCHES: 24545 28640 patch# 14 reference line: 26592 123.472 seconds. before reading done reading WAYNE load raw data , time = 38.95633900165558 ATTN ifrq ipol ln 8 4 28640 18.00000 IPOL, ITOP nblock 4 0 14 WAYNE Motion comp. coeff. calculated, time = 5.1209926605224609E-03 WAYNE Motion comp. added to patch, time = 6.865835070610046 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 1.5256047248840332E-02 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 85.15272104740143 Writing 2208 lines of data to file WAYNE write output data 0.5538809299468994 ==w out 14 2208 945 45219840 WAYNE PROCESS 131.5499349832535 Processing block number 15 WAYNE PATCHES: 26433 30528 patch# 15 reference line: 28480 255.022 seconds. before reading done reading WAYNE load raw data , time = 22.16078102588654 ATTN ifrq ipol ln 8 4 30528 18.00000 IPOL, ITOP nblock 4 0 15 WAYNE Motion comp. coeff. calculated, time = 5.0189495086669922E-03 WAYNE Motion comp. added to patch, time = 6.743294000625610 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 1.9799470901489258E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 84.98809409141541 Writing 2208 lines of data to file WAYNE write output data 0.4963920116424561 ==w out 15 4416 945 90439680 WAYNE PROCESS 114.3964040279388 ==w out 16 6627 PROCESSING KID# 4 ..... WAYNE IS IN Processing 10 to 12 by # 3 Processing block number 10 WAYNE PATCHES: 16993 21088 patch# 10 reference line: 19040 7.039 seconds. before reading done reading WAYNE load raw data , time = 23.11957800388336 ATTN ifrq ipol ln 8 4 21088 18.00000 IPOL, ITOP nblock 4 0 10 WAYNE Motion comp. coeff. calculated, time = 5.6960582733154297E-03 WAYNE Motion comp. added to patch, time = 7.437080979347229 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.2869110107421875E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 85.12833797931671 Writing 2208 lines of data to file WAYNE write output data 0.7161649465560913 ==w out 10 0 945 0 WAYNE PROCESS 116.4102569818497 Processing block number 11 WAYNE PATCHES: 18881 22976 patch# 11 reference line: 20928 123.450 seconds. before reading done reading WAYNE load raw data , time = 38.93022000789642 ATTN ifrq ipol ln 8 4 22976 18.00000 IPOL, ITOP nblock 4 0 11 WAYNE Motion comp. coeff. calculated, time = 5.0449371337890625E-03 WAYNE Motion comp. added to patch, time = 7.151311993598938 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 1.0744929313659668E-02 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 85.30104696750641 Writing 2208 lines of data to file WAYNE write output data 0.5180970430374146 ==w out 11 2208 945 45219840 WAYNE PROCESS 131.9174009561539 Processing block number 12 WAYNE PATCHES: 20769 24864 patch# 12 reference line: 22816 255.367 seconds. before reading done reading WAYNE load raw data , time = 22.20963394641876 ATTN ifrq ipol ln 8 4 24864 18.00000 IPOL, ITOP nblock 4 0 12 WAYNE Motion comp. coeff. calculated, time = 5.0569772720336914E-03 WAYNE Motion comp. added to patch, time = 6.893545031547546 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.0809173583984375E-03 range migration lines: 1 2586 range migration lines: 2587 4096 Back projection WAYNE Azimuth compression done, time = 85.22258496284485 Writing 2208 lines of data to file WAYNE write output data 0.4673349857330322 ==w out 12 4416 945 90439680 WAYNE PROCESS 114.8010540008545 ==w out 13 6627 1 4873162 0 2 4871644 0 3 4872633 0 4 4868745 0 5 4872374 0 6 4872453 0 7 4626055 0 8 4873012 0 PROCESSING COMPLETED POINTER 288239859439501312 288521334416211968 icnt = 48576kids= 8 Writing variable header... gather image from processor # 0 3 gather image from processor # 1 3 gather image from processor # 2 3 gather image from processor # 3 3 gather image from processor # 4 3 gather image from processor # 5 3 gather image from processor # 6 2 gather image from processor # 7 2 WAYNE gather images takes: 6.579007029533386 WAYNE LOOP TIME: 380.2316830158234 update sarfile,mocompfile,dopfile,glbfile,N_RA: /u/air40/airops/685/ts0685_c.vv_j /u/air47/airops/685/ts0685_c.mocompv /u/air47/airops/685/ts0685_c.dop /u/air47/airops/685/ts0685_c.glb 2560 48576 update intf hdr ha: 8391.100 UPDATE: 2560 48576 3.331000 0.5144000 mocompfile /u/air47/airops/685/ts0685_c.mocompv dopfile /u/air47/airops/685/ts0685_c.dop globalfile /u/air47/airops/685/ts0685_c.glb /u/air47/airops/685/ts0685_c.glb 32 deskew line ra ha trc: -551.9705 -1074 9465.095 8391.100 59.86913 lat1 lon1: -1074 44.45876 -121.6837 48576 lati loni: 47502 44.63876 -121.4766 47502 2560 lati loni: 23214 44.54748 -121.5831 23214 1280 Updated paramater header in /u/air40/airops/685/ts0685_c.vv_j WAYNE FINAL PROCESS 387.5634930133820 ********************************************* ***** ***** ***** 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 6624 3 6624 3 6624 3 6624 3 6624 3 6624 3 4416 2 4416 2 Name of data file to be deskewed? /u/air40/airops/685/ts0685_c.vv_j Name of the doppler parameter file? /u/air47/airops/685/ts0685_c.dop Name of the deskew file? /u/air40/airops/685/deskew.cv Line up to another frequency [y/n]? n Name of the output file? /u/air47/airops/685/ts0685_c.vv Name of the line output file? /u/air47/airops/685/c_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 3.331117987632751 Deskewing 22 patches Processing block number 1 DEBUG -4904 -1073.197 -4903.329 0.0000000E+00 0.0000000E+00 patch iptc,sj,dgj,dgi,id: 1 1 -4904 -4904 0 half line dmj dgc: 0 945 -1074 -4904 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 -4904 -4904 1104 half line dmj dgc: 1 945 -1074 -4904 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 DEBUG -4888 -1072.004 -4887.459 0.0000000E+00 0.0000000E+00 1105 1905 16 784 patch iptc,sj,dgj,dgi,id: 2 1905 -4888 -4904 784 half line dmj dgc: 0 2833 -1073 -4904 Actual deskew ireclen: 20480 ** 2 1104 0 3312 Writing data negflag .eq. 0 sj>s1: 1905 1105 Zeroing lines in arrays Total # of output lines = 2 1904 1905 3009 0 1104 patch iptc,sj,dgj,dgi,id: 2 3009 -4888 -4888 1104 half line dmj dgc: 1 2833 -1073 -4904 Actual deskew ireclen: 20480 ** 2 1104 1 4416 Writing data negflag .eq. 0 sj>s1: 3009 1905 Zeroing lines in arrays Total # of output lines = 2 3008 Processing block number 3 DEBUG -4882 -1074.334 -4881.790 0.0000000E+00 0.0000000E+00 3009 3799 6 784 patch iptc,sj,dgj,dgi,id: 3 3799 -4882 -4888 784 half line dmj dgc: 0 4721 -1075 -4904 Actual deskew ireclen: 20480 ** 3 1104 0 5520 Writing data negflag .eq. 0 sj>s1: 3799 3009 Zeroing lines in arrays Total # of output lines = 3 3798 3799 4903 0 1104 patch iptc,sj,dgj,dgi,id: 3 4903 -4882 -4882 1104 half line dmj dgc: 1 4721 -1075 -4904 Actual deskew ireclen: 20480 ** 3 1104 1 6624 Writing data negflag .eq. 0 sj>s1: 4903 3799 Zeroing lines in arrays Total # of output lines = 3 4902 Processing block number 4 DEBUG -4891 -1081.907 -4890.616 0.0000000E+00 0.0000000E+00 4903 5678 -9 784 patch iptc,sj,dgj,dgi,id: 4 5678 -4891 -4882 784 half line dmj dgc: 0 6609 -1083 -4904 Actual deskew ireclen: 20480 ** 4 1104 0 7728 Writing data negflag .eq. 0 sj>s1: 5678 4903 Zeroing lines in arrays Total # of output lines = 4 5677 5678 6782 0 1104 patch iptc,sj,dgj,dgi,id: 4 6782 -4891 -4891 1104 half line dmj dgc: 1 6609 -1083 -4904 Actual deskew ireclen: 20480 ** 4 1104 1 8832 Writing data negflag .eq. 0 sj>s1: 6782 5678 Zeroing lines in arrays Total # of output lines = 4 6781 Processing block number 5 DEBUG -4901 -1091.646 -4900.042 0.0000000E+00 0.0000000E+00 6782 7556 -10 784 patch iptc,sj,dgj,dgi,id: 5 7556 -4901 -4891 784 half line dmj dgc: 0 8497 -1092 -4904 Actual deskew ireclen: 20480 ** 5 1104 0 9936 Writing data negflag .eq. 0 sj>s1: 7556 6782 Zeroing lines in arrays Total # of output lines = 5 7555 7556 8660 0 1104 patch iptc,sj,dgj,dgi,id: 5 8660 -4901 -4901 1104 half line dmj dgc: 1 8497 -1092 -4904 Actual deskew ireclen: 20480 ** 5 1104 1 11040 Writing data negflag .eq. 0 sj>s1: 8660 7556 Zeroing lines in arrays Total # of output lines = 5 8659 Processing block number 6 DEBUG -4896 -1098.289 -4895.363 0.0000000E+00 0.0000000E+00 8660 9449 5 784 patch iptc,sj,dgj,dgi,id: 6 9449 -4896 -4901 784 half line dmj dgc: 0 10385 -1099 -4904 Actual deskew ireclen: 20480 ** 6 1104 0 12144 Writing data negflag .eq. 0 sj>s1: 9449 8660 Zeroing lines in arrays Total # of output lines = 6 9448 9449 10553 0 1104 patch iptc,sj,dgj,dgi,id: 6 10553 -4896 -4896 1104 half line dmj dgc: 1 10385 -1099 -4904 Actual deskew ireclen: 20480 ** 6 1104 1 13248 Writing data negflag .eq. 0 sj>s1: 10553 9449 Zeroing lines in arrays Total # of output lines = 6 10552 Processing block number 7 DEBUG -4881 -1099.197 -4880.532 0.0000000E+00 0.0000000E+00 10553 11352 15 784 patch iptc,sj,dgj,dgi,id: 7 11352 -4881 -4896 784 half line dmj dgc: 0 12273 -1100 -4904 Actual deskew ireclen: 20480 ** 7 1104 0 14352 Writing data negflag .eq. 0 sj>s1: 11352 10553 Zeroing lines in arrays Total # of output lines = 7 11351 11352 12456 0 1104 patch iptc,sj,dgj,dgi,id: 7 168 -4881 -4881 1104 half line dmj dgc: 1 12273 -1100 -4904 Actual deskew ireclen: 20480 ** 7 1104 1 15456 Writing data negflag .eq. 0 s1>sj: 11352 168 Zeroing lines in arrays Total # of output lines = 7 12455 Processing block number 8 DEBUG -4873 -1100.162 -4872.001 0.0000000E+00 0.0000000E+00 168 960 8 784 patch iptc,sj,dgj,dgi,id: 8 960 -4873 -4881 784 half line dmj dgc: 0 14161 -1101 -4904 Actual deskew ireclen: 20480 ** 8 1104 0 16560 Writing data negflag .eq. 0 sj>s1: 960 168 Zeroing lines in arrays Total # of output lines = 8 13247 960 2064 0 1104 patch iptc,sj,dgj,dgi,id: 8 2064 -4873 -4873 1104 half line dmj dgc: 1 14161 -1101 -4904 Actual deskew ireclen: 20480 ** 8 1104 1 17664 Writing data negflag .eq. 0 sj>s1: 2064 960 Zeroing lines in arrays Total # of output lines = 8 14351 Processing block number 9 DEBUG -4866 -1102.589 -4865.095 0.0000000E+00 0.0000000E+00 2064 2855 7 784 patch iptc,sj,dgj,dgi,id: 9 2855 -4866 -4873 784 half line dmj dgc: 0 16049 -1103 -4904 Actual deskew ireclen: 20480 ** 9 1104 0 18768 Writing data negflag .eq. 0 sj>s1: 2855 2064 Zeroing lines in arrays Total # of output lines = 9 15142 2855 3959 0 1104 patch iptc,sj,dgj,dgi,id: 9 3959 -4866 -4866 1104 half line dmj dgc: 1 16049 -1103 -4904 Actual deskew ireclen: 20480 ** 9 1104 1 19872 Writing data negflag .eq. 0 sj>s1: 3959 2855 Zeroing lines in arrays Total # of output lines = 9 16246 Processing block number 10 DEBUG -4856 -1103.359 -4854.946 0.0000000E+00 0.0000000E+00 3959 4753 10 784 patch iptc,sj,dgj,dgi,id: 10 4753 -4856 -4866 784 half line dmj dgc: 0 17937 -1104 -4904 Actual deskew ireclen: 20480 ** 10 1104 0 20976 Writing data negflag .eq. 0 sj>s1: 4753 3959 Zeroing lines in arrays Total # of output lines = 10 17040 4753 5857 0 1104 patch iptc,sj,dgj,dgi,id: 10 5857 -4856 -4856 1104 half line dmj dgc: 1 17937 -1104 -4904 Actual deskew ireclen: 20480 ** 10 1104 1 22080 Writing data negflag .eq. 0 sj>s1: 5857 4753 Zeroing lines in arrays Total # of output lines = 10 18144 Processing block number 11 DEBUG -4845 -1099.471 -4844.519 0.0000000E+00 0.0000000E+00 5857 6652 11 784 patch iptc,sj,dgj,dgi,id: 11 6652 -4845 -4856 784 half line dmj dgc: 0 19825 -1100 -4904 Actual deskew ireclen: 20480 ** 11 1104 0 23184 Writing data negflag .eq. 0 sj>s1: 6652 5857 Zeroing lines in arrays Total # of output lines = 11 18939 6652 7756 0 1104 patch iptc,sj,dgj,dgi,id: 11 7756 -4845 -4845 1104 half line dmj dgc: 1 19825 -1100 -4904 Actual deskew ireclen: 20480 ** 11 1104 1 24288 Writing data negflag .eq. 0 sj>s1: 7756 6652 Zeroing lines in arrays Total # of output lines = 11 20043 Processing block number 12 DEBUG -4834 -1090.916 -4833.669 0.0000000E+00 0.0000000E+00 7756 8551 11 784 patch iptc,sj,dgj,dgi,id: 12 8551 -4834 -4845 784 half line dmj dgc: 0 21713 -1092 -4904 Actual deskew ireclen: 20480 ** 12 1104 0 25392 Writing data negflag .eq. 0 sj>s1: 8551 7756 Zeroing lines in arrays Total # of output lines = 12 20838 8551 9655 0 1104 patch iptc,sj,dgj,dgi,id: 12 9655 -4834 -4834 1104 half line dmj dgc: 1 21713 -1092 -4904 Actual deskew ireclen: 20480 ** 12 1104 1 26496 Writing data negflag .eq. 0 sj>s1: 9655 8551 Zeroing lines in arrays Total # of output lines = 12 21942 Processing block number 13 DEBUG -4835 -1082.993 -4834.323 0.0000000E+00 0.0000000E+00 9655 10438 -1 784 patch iptc,sj,dgj,dgi,id: 13 10438 -4835 -4834 784 half line dmj dgc: 0 23601 -1084 -4904 Actual deskew ireclen: 20480 ** 13 1104 0 27600 Writing data negflag .eq. 0 sj>s1: 10438 9655 Zeroing lines in arrays Total # of output lines = 13 22725 10438 11542 0 1104 patch iptc,sj,dgj,dgi,id: 13 11542 -4835 -4835 1104 half line dmj dgc: 1 23601 -1084 -4904 Actual deskew ireclen: 20480 ** 13 1104 1 28704 Writing data negflag .eq. 0 sj>s1: 11542 10438 Zeroing lines in arrays Total # of output lines = 13 23829 Processing block number 14 DEBUG -4845 -1076.708 -4844.096 0.0000000E+00 0.0000000E+00 11542 12316 -10 784 patch iptc,sj,dgj,dgi,id: 14 28 -4845 -4835 784 half line dmj dgc: 0 25489 -1077 -4904 Actual deskew ireclen: 20480 ** 14 1104 0 29808 Writing data negflag .eq. 0 s1>sj: 11542 28 Zeroing lines in arrays Total # of output lines = 14 24603 28 1132 0 1104 patch iptc,sj,dgj,dgi,id: 14 1132 -4845 -4845 1104 half line dmj dgc: 1 25489 -1077 -4904 Actual deskew ireclen: 20480 ** 14 1104 1 30912 Writing data negflag .eq. 0 sj>s1: 1132 28 Zeroing lines in arrays Total # of output lines = 14 25707 Processing block number 15 DEBUG -4859 -1075.390 -4858.698 0.0000000E+00 0.0000000E+00 1132 1902 -14 784 patch iptc,sj,dgj,dgi,id: 15 1902 -4859 -4845 784 half line dmj dgc: 0 27377 -1076 -4904 Actual deskew ireclen: 20480 ** 15 1104 0 32016 Writing data negflag .eq. 0 sj>s1: 1902 1132 Zeroing lines in arrays Total # of output lines = 15 26477 1902 3006 0 1104 patch iptc,sj,dgj,dgi,id: 15 3006 -4859 -4859 1104 half line dmj dgc: 1 27377 -1076 -4904 Actual deskew ireclen: 20480 ** 15 1104 1 33120 Writing data negflag .eq. 0 sj>s1: 3006 1902 Zeroing lines in arrays Total # of output lines = 15 27581 Processing block number 16 DEBUG -4870 -1076.063 -4869.473 0.0000000E+00 0.0000000E+00 3006 3779 -11 784 patch iptc,sj,dgj,dgi,id: 16 3779 -4870 -4859 784 half line dmj dgc: 0 29265 -1077 -4904 Actual deskew ireclen: 20480 ** 16 1104 0 34224 Writing data negflag .eq. 0 sj>s1: 3779 3006 Zeroing lines in arrays Total # of output lines = 16 28354 3779 4883 0 1104 patch iptc,sj,dgj,dgi,id: 16 4883 -4870 -4870 1104 half line dmj dgc: 1 29265 -1077 -4904 Actual deskew ireclen: 20480 ** 16 1104 1 35328 Writing data negflag .eq. 0 sj>s1: 4883 3779 Zeroing lines in arrays Total # of output lines = 16 29458 Processing block number 17 DEBUG -4874 -1075.111 -4873.699 0.0000000E+00 0.0000000E+00 4883 5663 -4 784 patch iptc,sj,dgj,dgi,id: 17 5663 -4874 -4870 784 half line dmj dgc: 0 31153 -1076 -4904 Actual deskew ireclen: 20480 ** 17 1104 0 36432 Writing data negflag .eq. 0 sj>s1: 5663 4883 Zeroing lines in arrays Total # of output lines = 17 30238 5663 6767 0 1104 patch iptc,sj,dgj,dgi,id: 17 6767 -4874 -4874 1104 half line dmj dgc: 1 31153 -1076 -4904 Actual deskew ireclen: 20480 ** 17 1104 1 37536 Writing data negflag .eq. 0 sj>s1: 6767 5663 Zeroing lines in arrays Total # of output lines = 17 31342 Processing block number 18 DEBUG -4859 -1066.310 -4858.109 0.0000000E+00 0.0000000E+00 6767 7566 15 784 patch iptc,sj,dgj,dgi,id: 18 7566 -4859 -4874 784 half line dmj dgc: 0 33041 -1067 -4904 Actual deskew ireclen: 20480 ** 18 1104 0 38640 Writing data negflag .eq. 0 sj>s1: 7566 6767 Zeroing lines in arrays Total # of output lines = 18 32141 7566 8670 0 1104 patch iptc,sj,dgj,dgi,id: 18 8670 -4859 -4859 1104 half line dmj dgc: 1 33041 -1067 -4904 Actual deskew ireclen: 20480 ** 18 1104 1 39744 Writing data negflag .eq. 0 sj>s1: 8670 7566 Zeroing lines in arrays Total # of output lines = 18 33245 Processing block number 19 DEBUG -4833 -1053.199 -4832.125 0.0000000E+00 0.0000000E+00 8670 9480 26 784 patch iptc,sj,dgj,dgi,id: 19 9480 -4833 -4859 784 half line dmj dgc: 0 34929 -1054 -4904 Actual deskew ireclen: 20480 ** 19 1104 0 40848 Writing data negflag .eq. 0 sj>s1: 9480 8670 Zeroing lines in arrays Total # of output lines = 19 34055 9480 10584 0 1104 patch iptc,sj,dgj,dgi,id: 19 10584 -4833 -4833 1104 half line dmj dgc: 1 34929 -1054 -4904 Actual deskew ireclen: 20480 ** 19 1104 1 41952 Writing data negflag .eq. 0 sj>s1: 10584 9480 Zeroing lines in arrays Total # of output lines = 19 35159 Processing block number 20 DEBUG -4813 -1043.002 -4811.971 0.0000000E+00 0.0000000E+00 10584 11388 20 784 patch iptc,sj,dgj,dgi,id: 20 11388 -4813 -4833 784 half line dmj dgc: 0 36817 -1044 -4904 Actual deskew ireclen: 20480 ** 20 1104 0 43056 Writing data negflag .eq. 0 sj>s1: 11388 10584 Zeroing lines in arrays Total # of output lines = 20 35963 11388 12492 0 1104 patch iptc,sj,dgj,dgi,id: 20 204 -4813 -4813 1104 half line dmj dgc: 1 36817 -1044 -4904 Actual deskew ireclen: 20480 ** 20 1104 1 44160 Writing data negflag .eq. 0 s1>sj: 11388 204 Zeroing lines in arrays Total # of output lines = 20 37067 Processing block number 21 DEBUG -4790 -1036.535 -4788.987 0.0000000E+00 0.0000000E+00 204 1011 23 784 patch iptc,sj,dgj,dgi,id: 21 1011 -4790 -4813 784 half line dmj dgc: 0 38705 -1037 -4904 Actual deskew ireclen: 20480 ** 21 1104 0 45264 Writing data negflag .eq. 0 sj>s1: 1011 204 Zeroing lines in arrays Total # of output lines = 21 37874 1011 2115 0 1104 patch iptc,sj,dgj,dgi,id: 21 2115 -4790 -4790 1104 half line dmj dgc: 1 38705 -1037 -4904 Actual deskew ireclen: 20480 ** 21 1104 1 46368 Writing data negflag .eq. 0 sj>s1: 2115 1011 Zeroing lines in arrays Total # of output lines = 21 38978 Processing block number 22 DEBUG -4781 -1035.902 -4780.175 0.0000000E+00 0.0000000E+00 2115 1163 9 -961 patch iptc,sj,dgj,dgi,id: 22 1163 -4781 -4790 -961 half line dmj dgc: 0 38848 -1037 -4904 Actual deskew ireclen: 20480 ** 22 1104 0 47472 Zeroing lines in arrays Total # of output lines = 22 38978 2115 2267 0 1104 patch iptc,sj,dgj,dgi,id: 22 2267 -4781 -4781 1104 half line dmj dgc: 1 38848 -1037 -4904 Actual deskew ireclen: 20480 ** 22 1104 1 48576 Writing data negflag .eq. 0 sj>s1: 2267 2115 Zeroing lines in arrays Total # of output lines = 22 39130 ia dmi dgi: 2267 -1037 -4781 Writing the last 4848 lines last half sj>s1 7115 2267 39130 WAYNE done patche 68.10050296783447 Total # of output lines = 43978 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 43978 NUMBER OF BYTES PER SAMPLE = 8 JPL AIRCRAFT SAR PROCESSOR VERSION 6.10 DATA TYPE = COMPLEX RANGE PROJECTION = SLANT RANGE PIXEL SPACING (METERS) = 3.3310 AZIMUTH PIXEL SPACING (METERS) = 0.5144 BYTE OFFSET OF OLD HEADER = 0 BYTE OFFSET OF USER HEADER = 0 BYTE OFFSET OF FIRST DATA RECORD = 40960 BYTE OFFSET OF PARAMETER HEADER = 20480 LINE FORMAT OF DATA = RANGE BYTE OFFSET OF CALIBRATION HEADER = 0 BYTE OFFSET OF DEM HEADER = 0 Closing files .. WAYNE done total 68.69394791126251 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.8413015 53.15156 446 0.000 3046 0.500 53.15156 0.000108 0.000240 0.000019 r_peak,r_snr = 0.8228073 43.04054 546 0.000 3046 0.469 43.04054 0.000130 0.000276 0.000026 r_peak,r_snr = 0.8213399 96.60434 646 0.000 3046 0.469 96.60434 0.000109 0.000227 0.000028 r_peak,r_snr = 0.8668644 57.22777 746 0.000 3046 0.406 57.22777 0.000087 0.000198 0.000019 r_peak,r_snr = 0.8119953 86.50195 846 0.000 3046 0.406 86.50195 0.000119 0.000242 0.000024 r_peak,r_snr = 0.8512340 81.33308 946 -0.031 3046 0.406 81.33308 0.000091 0.000198 0.000020 r_peak,r_snr = 0.8539555 73.68755 1046 0.000 3046 0.375 73.68755 0.000095 0.000181 0.000022 r_peak,r_snr = 0.8708878 97.18838 1146 0.000 3046 0.375 97.18838 0.000074 0.000154 0.000019 r_peak,r_snr = 0.8509609 55.37675 1246 -0.031 3046 0.344 55.37675 0.000092 0.000204 0.000022 r_peak,r_snr = 0.8526195 90.03843 1346 0.000 3046 0.375 90.03843 0.000082 0.000189 0.000020 r_peak,r_snr = 0.8573578 79.51559 1446 0.000 3046 0.344 79.51559 0.000089 0.000198 0.000023 r_peak,r_snr = 0.8258355 103.5529 1546 0.000 3046 0.313 103.55293 0.000101 0.000214 0.000024 r_peak,r_snr = 0.8091002 159.1136 1646 0.000 3046 0.281 159.11365 0.000094 0.000201 0.000022 r_peak,r_snr = 0.8408045 105.2878 1746 -0.031 3046 0.313 105.28780 0.000084 0.000166 0.000022 r_peak,r_snr = 0.8188303 98.63600 1846 0.000 3046 0.281 98.63600 0.000101 0.000235 0.000024 r_peak,r_snr = 0.7838225 100.0810 1946 0.000 3046 0.250 100.08098 0.000136 0.000267 0.000044 r_peak,r_snr = 0.8320374 35.61260 2046 0.000 3046 0.219 35.61260 0.000111 0.000224 0.000025 At line = 3400 Reading in data.... r_peak,r_snr = 0.8372191 99.89948 246 0.000 3446 0.594 99.89948 0.000104 0.000186 0.000017 r_peak,r_snr = 0.8065898 99.03447 346 0.000 3446 0.500 99.03447 0.000123 0.000278 0.000028 r_peak,r_snr = 0.7841959 95.35755 446 0.000 3446 0.469 95.35755 0.000148 0.000304 0.000027 r_peak,r_snr = 0.8744591 33.23191 546 0.000 3446 0.469 33.23191 0.000097 0.000208 0.000023 r_peak,r_snr = 0.8207959 93.37272 646 0.000 3446 0.406 93.37272 0.000111 0.000236 0.000021 r_peak,r_snr = 0.8487295 54.59927 746 0.000 3446 0.406 54.59927 0.000101 0.000216 0.000023 r_peak,r_snr = 0.8321576 65.68892 846 0.031 3446 0.406 65.68892 0.000112 0.000251 0.000030 r_peak,r_snr = 0.8584580 50.89008 946 -0.031 3446 0.406 50.89008 0.000095 0.000194 0.000028 r_peak,r_snr = 0.8761265 65.45472 1046 0.000 3446 0.375 65.45472 0.000078 0.000184 0.000021 r_peak,r_snr = 0.8593181 90.28313 1146 0.000 3446 0.375 90.28313 0.000083 0.000193 0.000021 r_peak,r_snr = 0.8703851 52.33866 1246 0.000 3446 0.313 52.33866 0.000080 0.000176 0.000018 r_peak,r_snr = 0.8551657 76.33232 1346 0.000 3446 0.313 76.33232 0.000093 0.000188 0.000022 r_peak,r_snr = 0.8503498 101.2352 1446 0.031 3446 0.313 101.23522 0.000083 0.000197 0.000021 r_peak,r_snr = 0.8576105 54.27278 1546 0.000 3446 0.375 54.27278 0.000094 0.000227 0.000024 r_peak,r_snr = 0.8209881 139.3333 1646 0.000 3446 0.281 139.33331 0.000095 0.000199 0.000022 r_peak,r_snr = 0.8573421 81.41893 1746 0.031 3446 0.250 81.41893 0.000084 0.000180 0.000023 r_peak,r_snr = 0.8092881 75.75555 1846 -0.031 3446 0.281 75.75555 0.000114 0.000253 0.000028 r_peak,r_snr = 0.6926245 148.9809 1946 0.000 3446 0.250 148.98087 0.000200 0.000375 0.000058 r_peak,r_snr = 0.7765972 156.6279 2046 0.000 3446 0.188 156.62785 0.000120 0.000233 0.000031 At line = 3800 Reading in data.... r_peak,r_snr = 0.8115284 68.21148 146 0.000 3846 0.688 68.21148 0.000140 0.000252 0.000026 r_peak,r_snr = 0.8256353 126.8901 246 0.000 3846 0.594 126.89008 0.000102 0.000205 0.000019 r_peak,r_snr = 0.8232635 105.7776 346 0.000 3846 0.563 105.77760 0.000108 0.000216 0.000018 r_peak,r_snr = 0.8087193 79.51291 446 0.000 3846 0.500 79.51291 0.000128 0.000270 0.000026 r_peak,r_snr = 0.8353658 61.92315 546 0.000 3846 0.500 61.92315 0.000113 0.000246 0.000020 r_peak,r_snr = 0.8192689 106.7257 646 0.000 3846 0.469 106.72569 0.000116 0.000238 0.000027 r_peak,r_snr = 0.8520424 41.89632 746 0.000 3846 0.438 41.89632 0.000098 0.000233 0.000026 r_peak,r_snr = 0.7919943 73.64034 846 0.000 3846 0.438 73.64034 0.000140 0.000280 0.000039 r_peak,r_snr = 0.8147581 137.3008 946 0.000 3846 0.375 137.30081 0.000100 0.000202 0.000027 r_peak,r_snr = 0.8512249 98.31972 1046 0.000 3846 0.375 98.31972 0.000088 0.000195 0.000022 r_peak,r_snr = 0.8537487 118.4246 1146 0.000 3846 0.344 118.42462 0.000079 0.000178 0.000023 r_peak,r_snr = 0.8687000 53.66237 1246 0.031 3846 0.344 53.66237 0.000084 0.000185 0.000022 r_peak,r_snr = 0.8643582 72.14506 1346 0.000 3846 0.344 72.14506 0.000082 0.000169 0.000020 r_peak,r_snr = 0.8380520 81.40697 1446 0.000 3846 0.313 81.40697 0.000102 0.000197 0.000026 r_peak,r_snr = 0.8766615 82.87435 1546 0.000 3846 0.281 82.87435 0.000071 0.000165 0.000021 r_peak,r_snr = 0.8166792 93.64938 1646 0.000 3846 0.313 93.64938 0.000107 0.000218 0.000027 r_peak,r_snr = 0.8319579 134.9734 1746 0.000 3846 0.250 134.97339 0.000092 0.000191 0.000025 r_peak,r_snr = 0.8043652 46.89054 1846 0.000 3846 0.281 46.89054 0.000133 0.000279 0.000035 r_peak,r_snr = 0.6855422 66.51151 1946 -0.031 3846 0.313 66.51151 0.000212 0.000468 0.000067 r_peak,r_snr = 0.7576221 151.0863 2046 0.000 3846 0.281 151.08633 0.000137 0.000296 0.000033 At line = 4200 Reading in data.... r_peak,r_snr = 0.8171492 38.23668 146 0.000 4246 0.625 38.23668 0.000135 0.000262 0.000026 r_peak,r_snr = 0.8250455 114.9668 246 0.000 4246 0.563 114.96677 0.000098 0.000219 0.000020 r_peak,r_snr = 0.8259285 66.71056 346 0.000 4246 0.531 66.71056 0.000117 0.000243 0.000023 r_peak,r_snr = 0.8011712 47.98136 446 0.000 4246 0.531 47.98136 0.000156 0.000329 0.000026 r_peak,r_snr = 0.8189765 82.94929 546 0.000 4246 0.469 82.94929 0.000114 0.000241 0.000029 r_peak,r_snr = 0.8295139 48.39165 646 0.000 4246 0.469 48.39165 0.000120 0.000245 0.000032 r_peak,r_snr = 0.8184726 88.90842 746 -0.031 4246 0.469 88.90842 0.000116 0.000240 0.000032 r_peak,r_snr = 0.8186089 72.87096 846 0.000 4246 0.406 72.87096 0.000116 0.000244 0.000024 r_peak,r_snr = 0.8547672 40.78704 946 0.000 4246 0.344 40.78704 0.000100 0.000205 0.000025 r_peak,r_snr = 0.8235886 97.68098 1046 0.000 4246 0.344 97.68098 0.000108 0.000202 0.000031 r_peak,r_snr = 0.8575417 65.21576 1146 0.000 4246 0.344 65.21576 0.000095 0.000192 0.000026 r_peak,r_snr = 0.8627740 32.76617 1246 0.000 4246 0.406 32.76617 0.000099 0.000223 0.000024 r_peak,r_snr = 0.8363008 39.75166 1346 0.000 4246 0.344 39.75166 0.000106 0.000253 0.000026 r_peak,r_snr = 0.8455210 82.22211 1446 0.000 4246 0.344 82.22211 0.000096 0.000202 0.000024 r_peak,r_snr = 0.8224707 125.0234 1546 0.031 4246 0.281 125.02344 0.000095 0.000201 0.000025 r_peak,r_snr = 0.8403164 158.2046 1646 0.000 4246 0.281 158.20464 0.000081 0.000166 0.000024 r_peak,r_snr = 0.8424115 91.31219 1746 0.000 4246 0.313 91.31219 0.000091 0.000190 0.000025 r_peak,r_snr = 0.8050522 45.73947 1846 0.031 4246 0.250 45.73947 0.000145 0.000301 0.000036 r_peak,r_snr = 0.7915672 61.34417 1946 0.031 4246 0.281 61.34417 0.000141 0.000319 0.000040 r_peak,r_snr = 0.7556663 153.6557 2046 -0.031 4246 0.250 153.65570 0.000126 0.000292 0.000038 At line = 4600 Reading in data.... r_peak,r_snr = 0.7901611 63.25736 146 0.000 4646 0.625 63.25736 0.000150 0.000305 0.000029 r_peak,r_snr = 0.8440335 113.2754 246 0.000 4646 0.594 113.27537 0.000095 0.000192 0.000020 r_peak,r_snr = 0.8185758 108.3906 346 0.000 4646 0.563 108.39063 0.000101 0.000207 0.000022 r_peak,r_snr = 0.7944215 102.0694 446 0.000 4646 0.500 102.06942 0.000139 0.000274 0.000035 r_peak,r_snr = 0.7740213 87.27563 546 0.000 4646 0.469 87.27563 0.000154 0.000352 0.000033 r_peak,r_snr = 0.8325365 36.22886 646 0.000 4646 0.438 36.22886 0.000115 0.000244 0.000030 r_peak,r_snr = 0.8384173 81.63113 746 -0.031 4646 0.406 81.63113 0.000096 0.000217 0.000019 r_peak,r_snr = 0.8457336 70.37391 846 0.000 4646 0.406 70.37391 0.000100 0.000208 0.000025 r_peak,r_snr = 0.8171323 96.49586 946 0.000 4646 0.375 96.49586 0.000107 0.000228 0.000025 r_peak,r_snr = 0.8502808 99.23179 1046 0.000 4646 0.344 99.23179 0.000082 0.000173 0.000017 r_peak,r_snr = 0.8261325 54.49771 1146 0.000 4646 0.375 54.49771 0.000123 0.000250 0.000028 r_peak,r_snr = 0.8450869 43.88747 1246 0.031 4646 0.344 43.88747 0.000109 0.000237 0.000024 r_peak,r_snr = 0.8594065 22.58963 1346 0.000 4646 0.375 22.58963 0.000106 0.000222 0.000027 r_peak,r_snr = 0.8124142 102.1154 1446 0.000 4646 0.344 102.11544 0.000110 0.000229 0.000026 r_peak,r_snr = 0.8405509 93.58080 1546 0.000 4646 0.313 93.58080 0.000085 0.000193 0.000023 r_peak,r_snr = 0.7822318 136.0693 1646 0.000 4646 0.313 136.06931 0.000122 0.000256 0.000032 r_peak,r_snr = 0.8047845 109.7443 1746 0.000 4646 0.313 109.74432 0.000105 0.000221 0.000027 r_peak,r_snr = 0.8411579 49.11395 1846 0.000 4646 0.344 49.11395 0.000102 0.000248 0.000027 r_peak,r_snr = 0.7992775 103.3661 1946 0.000 4646 0.250 103.36607 0.000121 0.000261 0.000030 r_peak,r_snr = 0.8106377 86.38349 2046 0.000 4646 0.250 86.38349 0.000118 0.000247 0.000032 At line = 5000 Reading in data.... r_peak,r_snr = 0.7777214 58.14012 146 0.000 5046 0.625 58.14012 0.000166 0.000337 0.000027 r_peak,r_snr = 0.8149284 139.4140 246 0.000 5046 0.594 139.41396 0.000107 0.000216 0.000020 r_peak,r_snr = 0.7986343 129.5571 346 0.000 5046 0.500 129.55713 0.000120 0.000243 0.000023 r_peak,r_snr = 0.7886687 89.59161 446 0.000 5046 0.500 89.59161 0.000132 0.000299 0.000026 r_peak,r_snr = 0.8022614 89.82204 546 -0.031 5046 0.500 89.82204 0.000123 0.000276 0.000033 r_peak,r_snr = 0.8500015 76.04888 646 -0.031 5046 0.438 76.04888 0.000093 0.000198 0.000022 r_peak,r_snr = 0.8512815 85.60337 746 0.000 5046 0.406 85.60337 0.000088 0.000180 0.000017 r_peak,r_snr = 0.8497487 72.34851 846 -0.031 5046 0.438 72.34851 0.000096 0.000204 0.000021 r_peak,r_snr = 0.8308050 45.55241 946 0.000 5046 0.375 45.55241 0.000110 0.000252 0.000028 r_peak,r_snr = 0.8257226 58.29358 1046 -0.031 5046 0.406 58.29358 0.000115 0.000239 0.000024 r_peak,r_snr = 0.8391708 51.91587 1146 0.000 5046 0.344 51.91587 0.000115 0.000262 0.000035 r_peak,r_snr = 0.8397220 36.55901 1246 0.031 5046 0.344 36.55901 0.000113 0.000237 0.000028 r_peak,r_snr = 0.7934411 60.82416 1346 0.000 5046 0.344 60.82416 0.000135 0.000309 0.000038 r_peak,r_snr = 0.8565193 61.88362 1446 0.000 5046 0.281 61.88362 0.000086 0.000190 0.000022 r_peak,r_snr = 0.8437647 60.11855 1546 0.000 5046 0.281 60.11855 0.000101 0.000214 0.000029 r_peak,r_snr = 0.8000112 133.3133 1646 0.000 5046 0.313 133.31326 0.000109 0.000245 0.000030 r_peak,r_snr = 0.8031282 89.63871 1746 0.000 5046 0.281 89.63871 0.000120 0.000253 0.000024 r_peak,r_snr = 0.8276386 56.76281 1846 -0.031 5046 0.313 56.76281 0.000119 0.000259 0.000032 r_peak,r_snr = 0.7786627 90.16594 1946 0.000 5046 0.313 90.16594 0.000145 0.000295 0.000040 r_peak,r_snr = 0.7845322 154.0969 2046 -0.031 5046 0.250 154.09688 0.000114 0.000239 0.000030 At line = 5400 Reading in data.... r_peak,r_snr = 0.7222123 80.61819 146 0.000 5446 0.625 80.61819 0.000204 0.000424 0.000030 r_peak,r_snr = 0.8302010 82.39745 246 -0.031 5446 0.563 82.39745 0.000106 0.000207 0.000019 r_peak,r_snr = 0.8043814 143.3707 346 -0.031 5446 0.563 143.37068 0.000112 0.000231 0.000020 r_peak,r_snr = 0.7815562 107.6424 446 -0.031 5446 0.500 107.64237 0.000133 0.000294 0.000031 r_peak,r_snr = 0.8138704 69.58641 546 0.000 5446 0.469 69.58641 0.000124 0.000256 0.000025 r_peak,r_snr = 0.8471816 77.81047 646 0.000 5446 0.438 77.81047 0.000100 0.000203 0.000020 r_peak,r_snr = 0.8404162 96.74333 746 0.000 5446 0.406 96.74333 0.000094 0.000200 0.000023 r_peak,r_snr = 0.8493598 87.43623 846 0.000 5446 0.406 87.43623 0.000093 0.000183 0.000025 r_peak,r_snr = 0.8311827 64.31221 946 -0.031 5446 0.406 64.31221 0.000104 0.000227 0.000024 r_peak,r_snr = 0.8573875 55.95484 1046 0.031 5446 0.375 55.95484 0.000092 0.000188 0.000022 r_peak,r_snr = 0.8330909 73.48350 1146 -0.031 5446 0.375 73.48350 0.000103 0.000232 0.000027 r_peak,r_snr = 0.8207168 57.42506 1246 -0.031 5446 0.344 57.42506 0.000126 0.000279 0.000040 r_peak,r_snr = 0.8056132 63.60298 1346 0.000 5446 0.344 63.60298 0.000116 0.000235 0.000030 r_peak,r_snr = 0.7941798 43.54419 1446 -0.031 5446 0.344 43.54419 0.000143 0.000271 0.000034 r_peak,r_snr = 0.8372836 107.4547 1546 0.000 5446 0.313 107.45473 0.000093 0.000200 0.000022 r_peak,r_snr = 0.8311761 107.1756 1646 0.000 5446 0.281 107.17561 0.000093 0.000202 0.000028 r_peak,r_snr = 0.8452914 47.48737 1746 0.000 5446 0.281 47.48737 0.000098 0.000197 0.000023 r_peak,r_snr = 0.7718363 69.38306 1846 0.000 5446 0.313 69.38306 0.000155 0.000333 0.000041 r_peak,r_snr = 0.7586113 106.1469 1946 0.000 5446 0.219 106.14691 0.000147 0.000290 0.000035 r_peak,r_snr = 0.7866302 152.8207 2046 0.000 5446 0.313 152.82068 0.000111 0.000226 0.000029 At line = 5800 Reading in data.... r_peak,r_snr = 0.7675323 80.16914 146 0.000 5846 0.688 80.16914 0.000170 0.000341 0.000030 r_peak,r_snr = 0.8119007 107.6705 246 0.000 5846 0.563 107.67049 0.000113 0.000217 0.000022 r_peak,r_snr = 0.8305203 96.16163 346 0.000 5846 0.531 96.16163 0.000095 0.000228 0.000020 r_peak,r_snr = 0.7934675 105.9032 446 0.000 5846 0.500 105.90322 0.000137 0.000270 0.000033 r_peak,r_snr = 0.8232080 93.77772 546 0.000 5846 0.469 93.77772 0.000104 0.000228 0.000029 r_peak,r_snr = 0.8361705 77.61012 646 0.000 5846 0.469 77.61012 0.000103 0.000220 0.000019 r_peak,r_snr = 0.8474212 96.35319 746 0.000 5846 0.438 96.35319 0.000092 0.000191 0.000021 r_peak,r_snr = 0.8457986 103.5874 846 -0.031 5846 0.438 103.58739 0.000087 0.000189 0.000024 r_peak,r_snr = 0.8313881 55.79862 946 -0.031 5846 0.406 55.79862 0.000113 0.000235 0.000021 r_peak,r_snr = 0.8344359 42.45133 1046 0.031 5846 0.344 42.45133 0.000112 0.000250 0.000025 r_peak,r_snr = 0.8604376 45.83454 1146 0.031 5846 0.313 45.83454 0.000093 0.000192 0.000023 r_peak,r_snr = 0.8591523 78.55421 1246 0.000 5846 0.344 78.55421 0.000082 0.000173 0.000018 r_peak,r_snr = 0.8572791 67.37543 1346 0.031 5846 0.344 67.37543 0.000086 0.000194 0.000024 r_peak,r_snr = 0.8737671 50.42381 1446 0.000 5846 0.313 50.42381 0.000082 0.000167 0.000018 r_peak,r_snr = 0.8456501 68.45894 1546 -0.031 5846 0.344 68.45894 0.000093 0.000202 0.000024 r_peak,r_snr = 0.8279158 99.68365 1646 0.000 5846 0.313 99.68365 0.000096 0.000220 0.000026 r_peak,r_snr = 0.7968369 68.73653 1746 0.000 5846 0.281 68.73653 0.000136 0.000300 0.000035 r_peak,r_snr = 0.8027089 91.06346 1846 0.031 5846 0.281 91.06346 0.000120 0.000265 0.000035 r_peak,r_snr = 0.8387939 75.25967 1946 0.000 5846 0.250 75.25967 0.000092 0.000206 0.000024 r_peak,r_snr = 0.7843059 146.9233 2046 0.000 5846 0.281 146.92329 0.000122 0.000241 0.000033 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.8117228 55.65374 446 0.063 3046 1.000 55.65374 0.000136 0.000252 0.000023 r_peak,r_snr = 0.7668266 43.68327 546 0.031 3046 1.000 43.68327 0.000189 0.000351 0.000037 r_peak,r_snr = 0.8183956 99.83673 646 0.063 3046 0.906 99.83673 0.000112 0.000206 0.000027 r_peak,r_snr = 0.8232508 55.49925 746 0.094 3046 0.813 55.49925 0.000128 0.000273 0.000030 r_peak,r_snr = 0.7117462 76.65012 846 0.063 3046 0.781 76.65012 0.000229 0.000439 0.000049 r_peak,r_snr = 0.8035832 79.10722 946 0.031 3046 0.781 79.10722 0.000128 0.000273 0.000029 r_peak,r_snr = 0.8396473 72.84812 1046 0.094 3046 0.781 72.84812 0.000106 0.000187 0.000025 r_peak,r_snr = 0.8652835 101.5459 1146 0.063 3046 0.719 101.54594 0.000077 0.000149 0.000019 r_peak,r_snr = 0.8311146 52.30260 1246 0.031 3046 0.719 52.30260 0.000110 0.000236 0.000026 r_peak,r_snr = 0.8285679 87.33186 1346 0.063 3046 0.719 87.33186 0.000097 0.000230 0.000023 r_peak,r_snr = 0.8201252 79.03696 1446 0.063 3046 0.688 79.03696 0.000117 0.000263 0.000032 r_peak,r_snr = 0.8166026 96.49948 1546 0.063 3046 0.625 96.49948 0.000106 0.000228 0.000025 r_peak,r_snr = 0.7891934 152.7540 1646 0.031 3046 0.625 152.75400 0.000106 0.000228 0.000028 r_peak,r_snr = 0.7792956 88.31591 1746 0.031 3046 0.563 88.31591 0.000133 0.000290 0.000040 r_peak,r_snr = 0.7953150 93.54062 1846 0.031 3046 0.594 93.54062 0.000118 0.000292 0.000031 r_peak,r_snr = 0.7141340 85.94196 1946 0.063 3046 0.531 85.94196 0.000206 0.000436 0.000071 r_peak,r_snr = 0.7541441 29.34054 2046 0.031 3046 0.531 29.34054 0.000200 0.000486 0.000056 At line = 3400 Reading in data.... r_peak,r_snr = 0.7699068 93.85803 246 0.063 3446 1.156 93.85803 0.000167 0.000290 0.000028 r_peak,r_snr = 0.7429208 97.85445 346 0.063 3446 1.031 97.85445 0.000193 0.000353 0.000042 r_peak,r_snr = 0.6887096 90.64549 446 0.063 3446 0.969 90.64549 0.000263 0.000474 0.000049 r_peak,r_snr = 0.8360153 32.15388 546 0.094 3446 0.906 32.15388 0.000136 0.000257 0.000033 r_peak,r_snr = 0.7934577 96.64111 646 0.063 3446 0.875 96.64111 0.000133 0.000250 0.000024 r_peak,r_snr = 0.7888489 51.70097 746 0.031 3446 0.813 51.70097 0.000157 0.000315 0.000037 r_peak,r_snr = 0.7565681 57.49160 846 0.063 3446 0.875 57.49160 0.000191 0.000403 0.000054 r_peak,r_snr = 0.8110610 45.82159 946 0.031 3446 0.781 45.82159 0.000139 0.000269 0.000039 r_peak,r_snr = 0.8656140 68.60329 1046 0.063 3446 0.781 68.60329 0.000084 0.000183 0.000022 r_peak,r_snr = 0.8313492 87.62317 1146 0.063 3446 0.719 87.62317 0.000105 0.000235 0.000027 r_peak,r_snr = 0.8323040 49.57961 1246 0.063 3446 0.656 49.57961 0.000112 0.000253 0.000028 r_peak,r_snr = 0.7971537 68.03382 1346 0.031 3446 0.688 68.03382 0.000144 0.000304 0.000036 r_peak,r_snr = 0.8080102 92.61887 1446 0.094 3446 0.625 92.61887 0.000111 0.000264 0.000030 r_peak,r_snr = 0.8178823 50.82164 1546 0.063 3446 0.688 50.82164 0.000132 0.000319 0.000034 r_peak,r_snr = 0.7857391 128.1647 1646 0.063 3446 0.594 128.16467 0.000121 0.000272 0.000031 r_peak,r_snr = 0.7915864 71.40472 1746 0.094 3446 0.531 71.40472 0.000140 0.000335 0.000043 r_peak,r_snr = 0.7719989 68.17712 1846 0.031 3446 0.563 68.17712 0.000151 0.000370 0.000042 r_peak,r_snr = 0.6558006 118.8475 1946 0.063 3446 0.500 118.84750 0.000245 0.000511 0.000077 r_peak,r_snr = 0.7028190 133.0779 2046 0.031 3446 0.469 133.07785 0.000189 0.000454 0.000051 At line = 3800 Reading in data.... r_peak,r_snr = 0.5786614 43.28397 146 0.094 3846 1.313 43.28397 0.000566 0.001080 0.000104 r_peak,r_snr = 0.7228225 116.3122 246 0.063 3846 1.219 116.31216 0.000204 0.000391 0.000039 r_peak,r_snr = 0.7622600 100.7279 346 0.063 3846 1.094 100.72788 0.000164 0.000285 0.000027 r_peak,r_snr = 0.7224714 78.07034 446 0.063 3846 0.969 78.07034 0.000211 0.000388 0.000042 r_peak,r_snr = 0.8036739 61.06299 546 0.063 3846 0.969 61.06299 0.000144 0.000259 0.000025 r_peak,r_snr = 0.7801961 113.0830 646 0.094 3846 0.906 113.08302 0.000152 0.000267 0.000035 r_peak,r_snr = 0.7843866 37.87381 746 0.063 3846 0.875 37.87381 0.000166 0.000372 0.000047 r_peak,r_snr = 0.6521345 67.13379 846 0.063 3846 0.844 67.13379 0.000320 0.000613 0.000089 r_peak,r_snr = 0.7674683 143.7853 946 0.031 3846 0.781 143.78534 0.000134 0.000257 0.000034 r_peak,r_snr = 0.8151947 100.9738 1046 0.094 3846 0.750 100.97384 0.000114 0.000239 0.000029 r_peak,r_snr = 0.8226789 113.8010 1146 0.063 3846 0.688 113.80096 0.000099 0.000223 0.000030 r_peak,r_snr = 0.8459571 52.90190 1246 0.094 3846 0.656 52.90190 0.000098 0.000211 0.000026 r_peak,r_snr = 0.7868350 64.89439 1346 0.063 3846 0.625 64.89439 0.000149 0.000328 0.000041 r_peak,r_snr = 0.7705294 71.36488 1446 0.031 3846 0.656 71.36488 0.000172 0.000335 0.000047 r_peak,r_snr = 0.8396220 78.75681 1546 0.063 3846 0.625 78.75681 0.000100 0.000246 0.000033 r_peak,r_snr = 0.7975528 87.86758 1646 0.031 3846 0.625 87.86758 0.000122 0.000263 0.000034 r_peak,r_snr = 0.7815065 120.5147 1746 0.063 3846 0.531 120.51469 0.000130 0.000299 0.000039 r_peak,r_snr = 0.7438926 39.61525 1846 0.063 3846 0.594 39.61525 0.000200 0.000462 0.000057 r_peak,r_snr = 0.6874585 64.53124 1946 0.031 3846 0.563 64.53124 0.000211 0.000468 0.000072 r_peak,r_snr = 0.7254341 126.5522 2046 0.063 3846 0.563 126.55222 0.000163 0.000406 0.000041 At line = 4200 Reading in data.... r_peak,r_snr = 0.6310990 24.05779 146 0.063 4246 1.313 24.05779 0.000447 0.001009 0.000106 r_peak,r_snr = 0.7528706 108.0426 246 0.094 4246 1.125 108.04256 0.000159 0.000332 0.000031 r_peak,r_snr = 0.7492642 58.79993 346 0.063 4246 1.063 58.79993 0.000193 0.000358 0.000037 r_peak,r_snr = 0.6855137 43.05038 446 0.094 4246 1.094 43.05038 0.000328 0.000591 0.000061 r_peak,r_snr = 0.7832482 87.74996 546 0.063 4246 0.938 87.74996 0.000142 0.000271 0.000034 r_peak,r_snr = 0.7608126 45.97702 646 0.063 4246 0.938 45.97702 0.000190 0.000361 0.000048 r_peak,r_snr = 0.7490433 86.38194 746 0.031 4246 0.938 86.38194 0.000182 0.000347 0.000048 r_peak,r_snr = 0.7549787 66.53257 846 0.063 4246 0.844 66.53257 0.000181 0.000350 0.000039 r_peak,r_snr = 0.7501229 33.08237 946 0.063 4246 0.719 33.08237 0.000221 0.000465 0.000064 r_peak,r_snr = 0.7832257 94.78755 1046 0.063 4246 0.688 94.78755 0.000139 0.000256 0.000037 r_peak,r_snr = 0.7661332 55.97809 1146 0.094 4246 0.688 55.97809 0.000187 0.000409 0.000056 r_peak,r_snr = 0.8309235 31.20551 1246 0.063 4246 0.719 31.20551 0.000129 0.000286 0.000034 r_peak,r_snr = 0.7576082 34.49672 1346 0.031 4246 0.750 34.49672 0.000183 0.000464 0.000049 r_peak,r_snr = 0.7884267 82.53009 1446 0.094 4246 0.625 82.53009 0.000144 0.000298 0.000037 r_peak,r_snr = 0.8110619 120.5057 1546 0.094 4246 0.594 120.50571 0.000103 0.000223 0.000030 r_peak,r_snr = 0.8102855 152.3017 1646 0.063 4246 0.594 152.30170 0.000097 0.000212 0.000030 r_peak,r_snr = 0.8062935 79.19834 1746 0.063 4246 0.594 79.19834 0.000121 0.000276 0.000036 r_peak,r_snr = 0.7281896 35.76342 1846 0.063 4246 0.563 35.76342 0.000241 0.000576 0.000066 r_peak,r_snr = 0.7491532 51.86339 1946 0.063 4246 0.531 51.86339 0.000190 0.000471 0.000059 r_peak,r_snr = 0.7289056 134.2061 2046 0.031 4246 0.531 134.20605 0.000149 0.000385 0.000047 At line = 4600 Reading in data.... r_peak,r_snr = 0.5279483 37.17921 146 0.094 4646 1.250 37.17921 0.000671 0.001804 0.000163 r_peak,r_snr = 0.7398683 113.0891 246 0.063 4646 1.188 113.08908 0.000191 0.000372 0.000040 r_peak,r_snr = 0.7606502 107.4425 346 0.094 4646 1.094 107.44253 0.000149 0.000272 0.000031 r_peak,r_snr = 0.7537256 104.1112 446 0.063 4646 1.000 104.11121 0.000185 0.000298 0.000042 r_peak,r_snr = 0.6391983 73.31242 546 0.063 4646 1.031 73.31242 0.000335 0.000678 0.000074 r_peak,r_snr = 0.7760898 31.36449 646 0.094 4646 0.875 31.36449 0.000170 0.000352 0.000046 r_peak,r_snr = 0.7736775 70.48920 746 0.031 4646 0.813 70.48920 0.000152 0.000313 0.000029 r_peak,r_snr = 0.7803006 69.30194 846 0.063 4646 0.813 69.30194 0.000155 0.000302 0.000040 r_peak,r_snr = 0.6768352 81.17816 946 0.094 4646 0.750 81.17816 0.000259 0.000542 0.000060 r_peak,r_snr = 0.7992444 92.39043 1046 0.031 4646 0.750 92.39043 0.000119 0.000241 0.000024 r_peak,r_snr = 0.7246727 45.21229 1146 0.063 4646 0.719 45.21229 0.000242 0.000497 0.000061 r_peak,r_snr = 0.7629087 35.95015 1246 0.094 4646 0.656 35.95015 0.000197 0.000438 0.000051 r_peak,r_snr = 0.8214664 21.00670 1346 0.031 4646 0.750 21.00670 0.000148 0.000305 0.000040 r_peak,r_snr = 0.7696699 90.56276 1446 0.063 4646 0.625 90.56276 0.000143 0.000325 0.000037 r_peak,r_snr = 0.8108990 89.15227 1546 0.063 4646 0.656 89.15227 0.000105 0.000250 0.000030 r_peak,r_snr = 0.7736847 129.5835 1646 0.063 4646 0.594 129.58354 0.000129 0.000275 0.000034 r_peak,r_snr = 0.7821435 98.43249 1746 0.063 4646 0.563 98.43249 0.000123 0.000292 0.000033 r_peak,r_snr = 0.7888476 45.23548 1846 0.063 4646 0.656 45.23548 0.000151 0.000406 0.000044 r_peak,r_snr = 0.7496918 83.52534 1946 0.063 4646 0.500 83.52534 0.000170 0.000438 0.000049 r_peak,r_snr = 0.7900793 76.16204 2046 0.031 4646 0.531 76.16204 0.000137 0.000330 0.000042 At line = 5000 Reading in data.... r_peak,r_snr = 0.5278791 33.34407 146 0.094 5046 1.188 33.34407 0.000745 0.001935 0.000155 r_peak,r_snr = 0.7299266 142.8777 246 0.063 5046 1.219 142.87772 0.000184 0.000336 0.000033 r_peak,r_snr = 0.7665761 155.1658 346 0.031 5046 1.063 155.16579 0.000143 0.000253 0.000026 r_peak,r_snr = 0.7260814 95.65711 446 0.063 5046 1.000 95.65711 0.000187 0.000363 0.000036 r_peak,r_snr = 0.7289153 91.88183 546 0.000 5046 1.031 91.88183 0.000190 0.000386 0.000049 r_peak,r_snr = 0.8285128 75.93452 646 0.031 5046 0.875 75.93452 0.000111 0.000207 0.000025 r_peak,r_snr = 0.8114420 81.68093 746 0.031 5046 0.844 81.68093 0.000123 0.000233 0.000024 r_peak,r_snr = 0.8253512 73.72857 846 0.031 5046 0.813 73.72857 0.000117 0.000225 0.000025 r_peak,r_snr = 0.7675450 40.19690 946 0.031 5046 0.781 40.19690 0.000175 0.000376 0.000043 r_peak,r_snr = 0.7359487 47.93546 1046 0.031 5046 0.813 47.93546 0.000216 0.000466 0.000044 r_peak,r_snr = 0.7565733 43.19165 1146 0.063 5046 0.719 43.19165 0.000210 0.000524 0.000070 r_peak,r_snr = 0.7675723 32.13332 1246 0.094 5046 0.656 32.13332 0.000193 0.000421 0.000052 r_peak,r_snr = 0.7902812 56.16367 1346 0.094 5046 0.625 56.16367 0.000141 0.000304 0.000037 r_peak,r_snr = 0.8170630 58.98980 1446 0.063 5046 0.625 58.98980 0.000119 0.000275 0.000032 r_peak,r_snr = 0.7963994 54.87928 1546 0.063 5046 0.563 54.87928 0.000141 0.000329 0.000044 r_peak,r_snr = 0.7720846 127.8179 1646 0.063 5046 0.594 127.81795 0.000128 0.000300 0.000035 r_peak,r_snr = 0.7793718 82.25481 1746 0.063 5046 0.563 82.25481 0.000139 0.000316 0.000031 r_peak,r_snr = 0.7588331 50.16921 1846 0.031 5046 0.594 50.16921 0.000194 0.000466 0.000058 r_peak,r_snr = 0.7564608 80.89633 1946 0.063 5046 0.531 80.89633 0.000160 0.000381 0.000052 r_peak,r_snr = 0.7416160 132.6101 2046 0.031 5046 0.531 132.61011 0.000148 0.000373 0.000045 At line = 5400 Reading in data.... r_peak,r_snr = 0.4666211 41.14250 146 0.000 5446 1.188 41.14250 0.000943 0.002025 0.000139 r_peak,r_snr = 0.7447177 79.87993 246 0.031 5446 1.156 79.87993 0.000190 0.000328 0.000030 r_peak,r_snr = 0.7509444 158.9729 346 0.063 5446 1.094 158.97289 0.000156 0.000276 0.000029 r_peak,r_snr = 0.7054136 115.7136 446 0.031 5446 1.000 115.71364 0.000205 0.000388 0.000046 r_peak,r_snr = 0.7213703 74.40527 546 0.031 5446 0.938 74.40527 0.000215 0.000391 0.000043 r_peak,r_snr = 0.8397122 82.74124 646 0.063 5446 0.875 82.74124 0.000106 0.000192 0.000022 r_peak,r_snr = 0.8170806 106.8683 746 0.094 5446 0.813 106.86832 0.000113 0.000212 0.000027 r_peak,r_snr = 0.8149754 86.14806 846 0.063 5446 0.781 86.14806 0.000120 0.000225 0.000032 r_peak,r_snr = 0.7733111 58.18942 946 0.031 5446 0.813 58.18942 0.000157 0.000323 0.000038 r_peak,r_snr = 0.8105927 53.63277 1046 0.094 5446 0.719 53.63277 0.000131 0.000257 0.000034 r_peak,r_snr = 0.7394291 59.45377 1146 0.000 5446 0.750 59.45377 0.000196 0.000471 0.000056 r_peak,r_snr = 0.7718457 56.89702 1246 0.063 5446 0.688 56.89702 0.000173 0.000403 0.000058 r_peak,r_snr = 0.7991376 63.17879 1346 0.063 5446 0.656 63.17879 0.000120 0.000225 0.000029 r_peak,r_snr = 0.7845674 43.72709 1446 0.063 5446 0.656 43.72709 0.000146 0.000299 0.000037 r_peak,r_snr = 0.8022706 98.17765 1546 0.063 5446 0.594 98.17765 0.000121 0.000281 0.000032 r_peak,r_snr = 0.8000262 97.83866 1646 0.063 5446 0.563 97.83866 0.000116 0.000281 0.000035 r_peak,r_snr = 0.7856284 39.64830 1746 0.031 5446 0.563 39.64830 0.000160 0.000354 0.000045 r_peak,r_snr = 0.7254621 63.97794 1846 0.063 5446 0.531 63.97794 0.000205 0.000522 0.000062 r_peak,r_snr = 0.7337936 90.98560 1946 0.031 5446 0.563 90.98560 0.000172 0.000379 0.000044 r_peak,r_snr = 0.7579150 137.9993 2046 0.063 5446 0.531 137.99927 0.000135 0.000300 0.000037 At line = 5800 Reading in data.... r_peak,r_snr = 0.4867254 47.46264 146 0.094 5846 1.344 47.46264 0.000841 0.001976 0.000154 r_peak,r_snr = 0.7238641 103.6097 246 0.063 5846 1.156 103.60974 0.000201 0.000324 0.000037 r_peak,r_snr = 0.8199168 102.8676 346 0.063 5846 1.094 102.86758 0.000100 0.000211 0.000018 r_peak,r_snr = 0.7282748 122.0398 446 0.063 5846 1.031 122.03980 0.000200 0.000338 0.000043 r_peak,r_snr = 0.7781046 91.60865 546 0.031 5846 0.938 91.60865 0.000144 0.000272 0.000037 r_peak,r_snr = 0.8268817 79.70226 646 0.063 5846 0.875 79.70226 0.000111 0.000208 0.000020 r_peak,r_snr = 0.8728908 114.2155 746 0.031 5846 0.906 114.21547 0.000070 0.000131 0.000015 r_peak,r_snr = 0.8579751 106.8715 846 0.031 5846 0.844 106.87151 0.000077 0.000152 0.000019 r_peak,r_snr = 0.7756695 54.18274 946 0.031 5846 0.781 54.18274 0.000166 0.000336 0.000033 r_peak,r_snr = 0.7506798 35.88034 1046 0.094 5846 0.719 35.88034 0.000206 0.000481 0.000052 r_peak,r_snr = 0.7834337 37.89088 1146 0.125 5846 0.656 37.89088 0.000170 0.000376 0.000049 r_peak,r_snr = 0.7881163 71.03518 1246 0.063 5846 0.656 71.03518 0.000140 0.000314 0.000031 r_peak,r_snr = 0.8048087 60.35388 1346 0.094 5846 0.656 60.35388 0.000129 0.000314 0.000039 r_peak,r_snr = 0.8067034 42.63188 1446 0.063 5846 0.625 42.63188 0.000139 0.000325 0.000039 r_peak,r_snr = 0.8158840 62.19631 1546 0.031 5846 0.656 62.19631 0.000119 0.000267 0.000033 r_peak,r_snr = 0.7996719 91.45989 1646 0.063 5846 0.594 91.45989 0.000118 0.000273 0.000034 r_peak,r_snr = 0.7683074 62.89422 1746 0.031 5846 0.625 62.89422 0.000166 0.000395 0.000047 r_peak,r_snr = 0.7481053 82.84361 1846 0.063 5846 0.563 82.84361 0.000168 0.000420 0.000056 r_peak,r_snr = 0.7961704 65.07540 1946 0.031 5846 0.531 65.07540 0.000127 0.000330 0.000037 r_peak,r_snr = 0.7522895 126.1243 2046 0.063 5846 0.500 126.12432 0.000152 0.000335 0.000047 ************************************************** ***** ***** ***** 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 Enter the output file name number of input lines: 43978 number of output lines: 2443 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 *** Filtering. o/p nlines: 2443 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 Writing data out. ************************************************** ***** ***** ***** 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 Enter the output file name number of input lines: 43978 number of output lines: 2443 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 *** Filtering. o/p nlines: 2443 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 Writing data out. ************************************************** ***** ***** ***** 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 Enter the output file name number of input lines: 43978 number of output lines: 2443 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 *** Filtering. o/p nlines: 2443 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 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 ************************************************** ***** ***** ***** 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 ************************************************** ***** ***** ***** 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 ************************************************** ***** ***** ***** 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 ************************************************** ***** ***** ***** 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 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Interferometric Phase Generation ***** ***** ***** ***** This program calculates ***** ***** unwrapped phase from ***** ***** two complex single look files. ***** ***** ***** ************************************************** Enter the name of the top antenna complex file. size: 2560 43978 Enter number of looks Enter the name of the bottom antenna file. Enter the name of the correlation image file. Enter the cut-off for the correlation. Enter the maximum branch length. Enter the maximum phase noise in radians. Enter the name of the output phase file. size: 2560 2443 43978 Reading data and doing multi-looking. + 100 + 200 + 300 + 400 + 500 + 600 + 700 + 800 + 900 + 1000 + 1100 + 1200 + 1300 + 1400 + 1500 + 1600 + 1700 + 1800 + 1900 + 2000 + 2100 + 2200 + 2300 + 2400 Filtering the interferogram 256 512 768 1024 1280 1536 1792 2048 2304 Unwrapping the phases Enter seed point index (0 Opening command file... Reading and decoding header file... Finished reading the header file... Data acquired after 1994. J2000 time = -53195052.36155403 GPS J2000 time = -53195053.79129398 Message 1 Time = -53195052.36155403 INS Time = 1.071680000000000 Roll angle = 0.2197265625000000 Pitch angle = 1.312866210937500 Heading angle = 50.52612304687500 Long. acc = 0.2700000000000000 Lat. acc = -0.1300000000000000 Norm. acc = -9.710000000000001 East vel. = 184.1880000000000 North vel. = 107.8290000000000 Up vel. = 4.7000000000000000E-02 True Grnd Spd = 213.4218750000000 Altitude = 9545.000000000000 Latitude = 44.42715156823397 Longitude = -121.6501781065017 Message 6 Week = 954 GPS Time = -53195053.79129398 GDOP = 2.203125000000000 PDOP = 2.031250000000000 HDOP = 1.265625000000000 VDOP = 1.578125000000000 TDOP = 0.8437500000000000 Spherical Acc = 9.000000000000000 Time Acc = 9.0000000000000012E-09 GPS Lat = 44.42585655603531 GPS Lon = -121.6533135026799 GPS Alt = 9549.000000000000 GPS East Vel = 184.1400000000000 GPS North Vel = 107.8100000000000 GPS Up Vel = 2.0000000000000000E-02 Message 3 Del INU Time = 0.6517120000000000 Del vel east = 2.3437500000000000E-02 Del vel north = 1.5625000000000000E-02 Del vel up = 1.8554687500000000E-02 Del pos east = 0.7500000000000000 Del pos north = 0.3750000000000000 Del pos up = -0.1250000000000000 Message 4 Sigma Pos x = 1.500000000000000 Sigma Pos y = 1.375000000000000 Sigma Pos z = 2.000000000000000 Sigma Vel x = 8.7890625000000000E-03 Sigma Vel y = 7.8125000000000000E-03 Sigma Vel z = 1.0253906250000000E-02 Message 7 Satellites used = 14 24 4 14 30 2 Retrived Honeywell data... 5030 Operator Comments: - - - - - - - - - - - - - - - - - - - - - CPA @ 18:53:42 IDR1: 330258 IDR2: 328416 drft +9.1; another nice shot of the crater; smooth ride for all data lines so far; nav systems look goodc look good, Michael Kobrick, Timothy William Miller - - - - - - - - - - - - - - - - - - - - - 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: 598023 98023 enter HDDT footage number <0> : enter the title of image: enter the CCT ID: cct: 685 prod ID1:685 685 prod ID:685 SONY tapeid: 98023 98023 tapeid:9802398023 tapeid par:98023 prod ID: 685 chrp_delay from subcomm header tapeID: 32.45000 98023 chrp_delay is 32.5 usec 98023 32.45000 Is 9803998001 for P-bnad?: 98023 1998 P-band fc? 22.50000 idelay,chrp_delay,xdelay 96 32.45000 0.4200000 near range delr windela: 9462.949 3.331027 0 f_cal 43.59375 1216.406 Parameter header created .. >> Record # : 128 >> GPS Stuff = 2.40 5 7 16 30 4 24 digdelay startrng(us):96 96.00000000000000 startrng(m) elecdelay: 10312.86200000000 2.7200000000000000E-05 >> start range = 10312.8620 >> ccal_amp = -90.39999 >> ccal_atn = 32 >> ratn_phh = 0 12 0 >> ratn_phv = 0 8 0 >> ratn_pvh = 0 6 0 >> ratn_pvv = 0 14 0 >> ratn_lhh = 0 13 0 >> ratn_lhv = 0 13 0 >> ratn_lvh = 0 13 0 >> ratn_lvv = 0 13 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 = 358.5 >> rcvr_cbw = 1 >> chrp_bnd = 40 >> chrp_len = 5 >> chrp_mod = DN Check for frame count time glitches Warning timing glitch at frame 7903394 Warning timing glitch at frame 7904224 Warning timing glitch at frame 7905054 Warning timing glitch at frame 7905883 Warning timing glitch at frame 7906713 Warning timing glitch at frame 7907543 Warning timing glitch at frame 7908373 Warning timing glitch at frame 7909202 Warning timing glitch at frame 7910032 Warning timing glitch at frame 7911692 Warning timing glitch at frame 7913352 Warning timing glitch at frame 7915013 Warning timing glitch at frame 7916674 Warning timing glitch at frame 7918335 Warning timing glitch at frame 7919997 Warning timing glitch at frame 7921659 Warning timing glitch at frame 7923321 Warning timing glitch at frame 7924984 Warning timing glitch at frame 7926647 Warning timing glitch at frame 7928311 Warning timing glitch at frame 7929976 Warning timing glitch at frame 7931641 Warning timing glitch at frame 7933307 Warning timing glitch at frame 7934974 Warning timing glitch at frame 7936641 Warning timing glitch at frame 7938309 Warning timing glitch at frame 7939977 Warning timing glitch at frame 7941646 Warning timing glitch at frame 7943315 Warning timing glitch at frame 7944150 Warning timing glitch at frame 7944985 Warning timing glitch at frame 7945820 Warning timing glitch at frame 7946655 Warning timing glitch at frame 7947490 Warning timing glitch at frame 7948326 Warning timing glitch at frame 7949161 Warning timing glitch at frame 7949997 Warning timing glitch at frame 7950832 Warning timing glitch at frame 7952503 Warning timing glitch at frame 7954174 Warning timing glitch at frame 7955845 Warning timing glitch at frame 7957517 Warning timing glitch at frame 7959188 Warning timing glitch at frame 7960023 Warning timing glitch at frame 7960858 Warning timing glitch at frame 7961693 Warning timing glitch at frame 7962529 Warning timing glitch at frame 7963364 Warning timing glitch at frame 7964199 Warning timing glitch at frame 7965034 Warning timing glitch at frame 7965869 Warning timing glitch at frame 7966704 Warning timing glitch at frame 7968374 Warning timing glitch at frame 7970044 Warning timing glitch at frame 7971714 Warning timing glitch at frame 7973383 Warning timing glitch at frame 7975053 Warning timing glitch at frame 7976722 Warning timing glitch at frame 7977556 Warning timing glitch at frame 7978391 Warning timing glitch at frame 7979225 Warning timing glitch at frame 7980059 Warning timing glitch at frame 7980893 Warning timing glitch at frame 7981727 Warning timing glitch at frame 7982561 Warning timing glitch at frame 7983395 Warning timing glitch at frame 7984229 Warning timing glitch at frame 7985062 Warning timing glitch at frame 7985896 Warning timing glitch at frame 7986730 There were 70 timing glitches Done decoding data from header array... Data collected on ==> 25-APR-1998 Starting and end GPS times for SAR data -53195053.4990 -53194951.7390 Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00120 0.00120 0.00121 0.0000029 0 hdg 50.63253 50.50964 50.76782 0.0607300 0 trc 59.82874 59.65326 59.95989 0.0925020 0 tgs 214.42273 213.42188 215.01563 0.5221824 0 roll 0.29585 -0.01099 0.64270 0.1385427 0 pitch 1.21902 1.07666 1.34583 0.0791725 0 lati 44.47436 44.42586 44.52270 0.0281455 0 loni -121.53701 -121.65332 -121.42071 0.0676687 0 latd 44.47316 44.42333 44.52167 0.0282153 0 lond -121.54074 -121.65833 -121.42333 0.0677479 0 balt 9463.07449 9461.60160 9464.34480 0.8055076 0 ralt 8391.09754 8198.20560 8639.25120 125.9028573 0 dpth 1.21067 1.10000 1.30000 0.0819476 0 droll 0.31997 0.00000 0.70000 0.1485109 0 thd 50.59954 50.40000 50.80000 0.0821757 0 dad 9.24055 9.10000 9.40000 0.0842959 0 latg 44.47512 44.42649 44.52421 0.0281189 0 long -121.53487 -121.65162 -121.41670 0.0676668 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 9514.98644 9510.08984 9529.18945 5.0686805 0 phh_aten 12.00000 12.00000 12.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 6.00000 6.00000 6.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 13.00000 13.00000 13.00000 0.0000000 0 lhv_aten 13.00000 13.00000 13.00000 0.0000000 0 lvh_aten 13.00000 13.00000 13.00000 0.0000000 0 lvv_aten 13.00000 13.00000 13.00000 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 44.47585 44.42715 44.52455 0.0281190 0 hwlon -121.55758 -243.06583 -121.41624 1.7147572 0 hwalt 9543.70358 9540.89843 9546.96224 1.8286194 0 hwev 185.38109 184.18700 186.13300 0.6214295 0 hwnv 107.76882 107.63600 107.91600 0.0749851 0 hwuv -0.00445 -0.25500 0.20700 0.0988476 0 hwroll 0.29606 -0.01099 0.64270 0.1385734 0 hwpitch 1.21891 1.07666 1.34583 0.0791319 0 hwhdg 50.64266 50.50964 101.20605 0.7155829 0 hwtrc 59.84063 59.65326 119.52061 0.8466218 0 hwtgs 214.42292 213.42188 215.01563 0.5216124 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... -53195051.99913150 i_yearind 19983 GPS time for first pulse = -53195052.49816708 -53195053.49900000 New start and number of records = 115 83817 New start and number of blocks = 1 656 GPS trend coefficients = -3.433484398306914 -11.00937712244649 26.77587870409744 Begin final analysis of data... Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00120 0.00120 0.00121 0.0000029 0 hdg 50.63266 50.50964 50.76782 0.0606513 0 trc 59.82896 59.65326 59.95989 0.0923578 0 tgs 214.42408 213.42188 215.01563 0.5213453 0 roll 0.29591 -0.01099 0.64270 0.1386305 0 pitch 1.21886 1.07666 1.34583 0.0791472 0 delx 0.25730 0.00000 0.25738 0.0008891 0 lati 44.47436 44.42586 44.52270 0.0281455 0 loni -121.53701 -121.65332 -121.42071 0.0676687 0 latd 44.47316 44.42333 44.52167 0.0282153 0 lond -121.54074 -121.65833 -121.42333 0.0677479 0 balt 9463.07449 9461.60160 9464.34480 0.8055076 0 ralt 8391.09754 8198.20560 8639.25120 125.9028573 0 dpth 1.21067 1.10000 1.30000 0.0819476 0 droll 0.31997 0.00000 0.70000 0.1485109 0 thd 50.59954 50.40000 50.80000 0.0821757 0 dad 9.24055 9.10000 9.40000 0.0842959 0 latg 44.47512 44.42649 44.52324 0.0281163 0 long -121.53488 -121.65162 -121.41904 0.0676606 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 9514.98644 9513.16514 9516.68373 0.9285560 0 phh_aten 12.00000 12.00000 12.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 6.00000 6.00000 6.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 13.00000 13.00000 13.00000 0.0000000 0 lhv_aten 13.00000 13.00000 13.00000 0.0000000 0 lvh_aten 13.00000 13.00000 13.00000 0.0000000 0 lvv_aten 13.00000 13.00000 13.00000 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 44.47585 44.42717 44.52453 0.0281190 0 hwlon -121.53340 -121.65014 -121.41633 0.0676176 0 hwalt 9543.70357 9540.89844 9546.96097 1.8286185 0 hwev 185.38100 184.18700 186.13100 0.6215628 0 hwnv 107.76882 107.63800 107.91500 0.0749688 0 hwuv -0.00445 -0.25500 0.20700 0.0988481 0 hwroll 0.29609 -0.01099 0.64270 0.1386368 0 hwpitch 1.21891 1.07666 1.34583 0.0791435 0 hwhdg 50.63257 50.50964 50.76782 0.0606073 0 hwtrc 59.82876 59.65350 59.95933 0.0924044 0 hwtgs 214.42284 213.42188 215.00000 0.5216705 0 Finished final analysis of data... Average Barometric Altitude = 9463.074490243851 Average Radar Altitude = 8391.097536585357 Average GPS Altitude = 9514.986436331252 >>Record # : 128 >>GPS Stuff = 2.40 5 7 16 30 >>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 = 44.4271689 -121.6501413 9546.961 End position = 44.5245296 -121.4163333 9544.793 Loxodromic Heading (deg) = 59.8182635 Loxodromic Distance (km) = 21519.6188210 Geodesic Heading (deg) = 59.7364057 Geodesic Distance (km) = 21519.6114033 Peg latitude and longitude = 44.4759389 -121.5333123 Peg heading = 59.8286349 Rotation matrix First row = -0.373179762 0.921022574 -0.111598757 Second row = -0.608180028 -0.152019229 0.779106673 Third row = 0.700609676 0.358618978 0.616878035 Translation vector Vector = -2064.64021 -3364.79379 -26087.50636 Local Radius of Curvature = 6383109.494379944 Start and end pulse used = 115 83931 Ellipsoidal delta s (m) = 0.2567482509697461 Delta s on reference surface = 0.2567482522388658 Miscellaneous Information Start range = 10312.86200000000 Start ground range = 5995.381953016429 Time orgin = -53195052.49816708 Pulse spacing = 0.2573029206248791 First frame = 7903094 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. /u/air47/airops/685/ts0685_l.mocomp Name of the H-pol motion compensation file? /u/air47/airops/685/ts0685_l.mocomph Name of the V-pol motion compensation file? /u/air47/airops/685/ts0685_l.mocompv How many lines per polarization? 42000 + 1 + 10001 + 20001 + 30001 + 40001 + 50001 + 60001 + 70001 + 80001 ********************************************* * * * 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. /u/air47/airops/685/ts0685_l.par Enter the raw data file name. /u/air40/airops/685/l_hh Enter the motion compensation file name. /u/air47/airops/685/ts0685_l.mocomp Enter a file name for the range spectrum: /u/air47/airops/685/db_l_hh.dat Enter a file name for the sampled caltone power: /u/air47/airops/685/1st_l_hh.dat Enter histogram of the caltone power file name: /u/air47/airops/685/pw_hist_l_hh.dat Enter histogram of the caltone phase file name: /u/air47/airops/685/ph_hist_l_hh.dat How many lines of raw data? 42000 Enter start range line #: 1 Enter polarization (1=HH,2=HV,3=VH,4=VV): 1 Sampling frequency = 90.00000 Raw data samples per line = 5119 Caltone frequency = 43.59380 Prediction cal_bin 1057 start/end pulse: 1 41857 128-Loop Count: 328 cmplx raw(1 2 3): (-58.06887,0.0000000E+00) (156.3393,0.0000000E+00) (22.33418,0.0000000E+00) attenuation (dB): 13.00000 Pulse#/128: 1 1057 3.3565523E+08 Pulse#/128: 129 1057 3.3452710E+08 Pulse#/128: 257 1057 3.3193805E+08 plot_x: 328 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 85.24519 Power RMS: 7.9672180E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 18291.96 Amp. RMS: 33.94112 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -150.4277 Phase RMS: 0.1653595 Incoherent PH 1st: -150.3104 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 85.21794 CalTone Power Coherently dB : 85.24519 Incoherent PW - Coherent PW : -2.7244568E-02 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 18224.00 CalTone Amplitude Coherently : 18291.96 Incoherent Amp.- Coherent Amp. : -67.95898 ------------ *** ------------ running time (sec): 19.50 ********** 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. /u/air47/airops/685/ts0685_l.par Enter the raw data file name. /u/air40/airops/685/l_hv Enter the motion compensation file name. /u/air47/airops/685/ts0685_l.mocomp Enter a file name for the range spectrum: /u/air47/airops/685/db_l_hv.dat Enter a file name for the sampled caltone power: /u/air47/airops/685/1st_l_hv.dat Enter histogram of the caltone power file name: /u/air47/airops/685/pw_hist_l_hv.dat Enter histogram of the caltone phase file name: /u/air47/airops/685/ph_hist_l_hv.dat How many lines of raw data? 42000 Enter start range line #: 1 Enter polarization (1=HH,2=HV,3=VH,4=VV): 2 Sampling frequency = 90.00000 Raw data samples per line = 5119 Caltone frequency = 43.59380 Prediction cal_bin 1057 start/end pulse: 1 41857 128-Loop Count: 328 cmplx raw(1 2 3): (49.13520,0.0000000E+00) (111.6709,0.0000000E+00) (-26.80102,0.0000000E+00) attenuation (dB): 13.00000 Pulse#/128: 1 1057 4.0536074E+08 Pulse#/128: 129 1057 4.0459386E+08 Pulse#/128: 257 1057 4.0665184E+08 plot_x: 328 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 86.07622 Power RMS: 4.4194173E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 20128.42 Amp. RMS: 35.32704 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 101.7767 Phase RMS: 0.1250000 Incoherent PH 1st: 101.7911 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 86.08743 CalTone Power Coherently dB : 86.07622 Incoherent PW - Coherent PW : 1.1215210E-02 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 20203.21 CalTone Amplitude Coherently : 20128.42 Incoherent Amp.- Coherent Amp. : 74.78906 ------------ *** ------------ running time (sec): 18.35 ********** 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. /u/air47/airops/685/ts0685_l.par Enter the raw data file name. /u/air40/airops/685/l_vh Enter the motion compensation file name. /u/air47/airops/685/ts0685_l.mocomp Enter a file name for the range spectrum: /u/air47/airops/685/db_l_vh.dat Enter a file name for the sampled caltone power: /u/air47/airops/685/1st_l_vh.dat Enter histogram of the caltone power file name: /u/air47/airops/685/pw_hist_l_vh.dat Enter histogram of the caltone phase file name: /u/air47/airops/685/ph_hist_l_vh.dat How many lines of raw data? 42000 Enter start range line #: 1 Enter polarization (1=HH,2=HV,3=VH,4=VV): 3 Sampling frequency = 90.00000 Raw data samples per line = 5119 Caltone frequency = 43.59380 Prediction cal_bin 1057 start/end pulse: 1 41857 128-Loop Count: 328 cmplx raw(1 2 3): (89.33673,0.0000000E+00) (62.53571,0.0000000E+00) (-71.46938,0.0000000E+00) attenuation (dB): 13.00000 Pulse#/128: 1 1057 3.3774029E+08 Pulse#/128: 129 1057 3.3704957E+08 Pulse#/128: 257 1057 3.3842790E+08 plot_x: 328 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 85.27863 Power RMS: 6.6291258E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 18362.46 Amp. RMS: 28.84441 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -150.3261 Phase RMS: 0.2379929 Incoherent PH 1st: -150.3403 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 85.28032 CalTone Power Coherently dB : 85.27863 Incoherent PW - Coherent PW : 1.6937256E-03 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 18421.68 CalTone Amplitude Coherently : 18362.46 Incoherent Amp.- Coherent Amp. : 59.22852 ------------ *** ------------ running time (sec): 17.76 ********** 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. /u/air47/airops/685/ts0685_l.par Enter the raw data file name. /u/air40/airops/685/l_vv Enter the motion compensation file name. /u/air47/airops/685/ts0685_l.mocomp Enter a file name for the range spectrum: /u/air47/airops/685/db_l_vv.dat Enter a file name for the sampled caltone power: /u/air47/airops/685/1st_l_vv.dat Enter histogram of the caltone power file name: /u/air47/airops/685/pw_hist_l_vv.dat Enter histogram of the caltone phase file name: /u/air47/airops/685/ph_hist_l_vv.dat How many lines of raw data? 42000 Enter start range line #: 1 Enter polarization (1=HH,2=HV,3=VH,4=VV): 4 Sampling frequency = 90.00000 Raw data samples per line = 5119 Caltone frequency = 43.59380 Prediction cal_bin 1057 start/end pulse: 1 41857 128-Loop Count: 328 cmplx raw(1 2 3): (-35.73469,0.0000000E+00) (-8.933673,0.0000000E+00) (-58.06887,0.0000000E+00) attenuation (dB): 13.00000 Pulse#/128: 1 1057 4.1376554E+08 Pulse#/128: 129 1057 4.1454982E+08 Pulse#/128: 257 1057 4.1396195E+08 plot_x: 328 Estimate Caltone : 1057 33 -----CalTone Estimate Position --- CalTone Bin at : 1057 1057 CalTone Bin offset : 0 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 86.17068 Power RMS: 5.8463398E-02 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 20348.68 Amp. RMS: 30.98387 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 101.2992 Phase RMS: 0.1082532 Incoherent PH 1st: 101.3778 max_bin with Incoherent averaging: 1057 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 86.16937 CalTone Power Coherently dB : 86.17068 Incoherent PW - Coherent PW : -1.3122559E-03 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 20397.57 CalTone Amplitude Coherently : 20348.68 Incoherent Amp.- Coherent Amp. : 48.89453 ------------ *** ------------ running time (sec): 19.38 ********** 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. 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: 2.269833 -1.0247680E-04 z fit: constant and linear terms: -0.8136436 -5.8166592E-05 y and z standard deviations (meters) 2.754333 1.166147 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 = 10 Step size = 3492 PATCH NUMER 1 First line = 1 Averages = -0.1201096 -0.1204307 -0.1205698 -0.1222745 Differences = 7.3663145E-04 4.1554868E-04 2.7640164E-04 -1.4282465E-03 PATCH NUMER 2 First line = 3493 Averages = -0.1204382 -0.1218088 -0.1238680 -0.1268780 Differences = 2.8105304E-03 1.4398843E-03 -6.1924011E-04 -3.6292598E-03 PATCH NUMER 3 First line = 6985 Averages = -0.1230542 -0.1260543 -0.1279671 -0.1281509 Differences = 3.2528862E-03 2.5281310E-04 -1.6599894E-03 -1.8437654E-03 PATCH NUMER 4 First line = 10477 Averages = -0.1276265 -0.1282655 -0.1287058 -0.1295546 Differences = 9.1151893E-04 2.7251244E-04 -1.6775727E-04 -1.0165870E-03 PATCH NUMER 5 First line = 13969 Averages = -0.1282557 -0.1292987 -0.1306050 -0.1292072 Differences = 1.0861158E-03 4.3094158E-05 -1.2631863E-03 1.3454258E-04 PATCH NUMER 6 First line = 17461 Averages = -0.1302752 -0.1299201 -0.1271937 -0.1244418 Differences = -2.3170114E-03 -1.9619316E-03 7.6448917E-04 3.5163164E-03 PATCH NUMER 7 First line = 20953 Averages = -0.1280566 -0.1254372 -0.1230373 -0.1214536 Differences = -3.5597682E-03 -9.4033778E-04 1.4595687E-03 3.0432120E-03 PATCH NUMER 8 First line = 24445 Averages = -0.1234881 -0.1216142 -0.1215078 -0.1212993 Differences = -1.5106648E-03 3.6320835E-04 4.6959519E-04 6.7815930E-04 PATCH NUMER 9 First line = 27937 Averages = -0.1215791 -0.1214572 -0.1208665 -0.1176871 Differences = -1.1814013E-03 -1.0595620E-03 -4.6883523E-04 2.7105659E-03 PATCH NUMER 10 First line = 31429 Averages = -0.1209426 -0.1186901 -0.1162104 -0.1135858 Differences = -3.5849363E-03 -1.3324246E-03 1.1472553E-03 3.7719235E-03 PATCH NUMER 11 First line = 34921 last black mod_64: 55 42000 34921 8192 Averages = -0.1168552 -0.1142230 -0.1133232 -0.1134739 Differences = -2.3861527E-03 2.4604797E-04 1.1457875E-03 9.9509209E-04 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 5.02 ***** ***** ***** ********************************************* 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. /u/air40/airops/685/sensor.hh98l Please enter the name of the parameter file /u/air47/airops/685/ts0685_l.par hddt: 98023 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 42000 lines Keeping 4192 data points per patch Near range (m) = 9462.950 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) = 5.000000 Chirp bandwidth (MHz) = 40.00000 Ashift = 0.9580000 Range weighting coefficient = 0.1000000 Map height (m) = 1155.900 Transmit leverarm x,y,z = 0.5189053 1.222541 1.592935 Receive leverarm x,y,z = 0.5189053 1.222541 1.592935 Name of raw data file? /u/air40/airops/685/l_hh Name of the mocomp data file? /u/air47/airops/685/ts0685_l.mocomph Output file name w/o ext? /u/air47/airops/685/ts0685_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:/u/air40/airops/685/ output filename:/u/air40/airops/685/ts0685_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? /u/air40/airops/685/deskew.lh WAYNE init fft, calc slant range, load unpack, interpo 1.3078999E-02 reading motion compensation data WAYNE read motion compen 0.8966900 write parameters ... analog chirp >/ 96032 98023 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.2859660 start range comp, time = 1.287 WAYNE PREV 1.209079 NUMBER OF PROCESSOR USED = 8 POINTER 288239859439501312 288521334416211968 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 7 ..... WAYNE IS IN Processing 10 to 10 by # 6 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 1.531 seconds. before reading done reading WAYNE load raw data , time = 45.48051595687866 ATTN ifrq ipol ln 4 1 39620 13.00000 IPOL, ITOP nblock 1 0 10 ****shift in azimuth (fractional pixel)= -0.4928501 shift in azimuth *fractional pixel= -0.4928501 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.0672092437744141E-02 WAYNE Motion comp. added to patch, time = 14.77302396297455 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.1780729293823242E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 175.0677100419998 Writing 4192 lines of data to file WAYNE write output data 1.533108949661255 ==w out 10 0 2001 0 WAYNE PROCESS 236.8681839704514 ==w out 11 4195 PROCESSING KID# 6 ..... WAYNE IS IN Processing 9 to 9 by # 5 Processing block number 9 WAYNE PATCHES: 27937 36128 patch# 9 reference line: 32032 1.517 seconds. before reading done reading WAYNE load raw data , time = 45.74997603893280 ATTN ifrq ipol ln 4 1 36128 13.00000 IPOL, ITOP nblock 1 0 9 ****shift in azimuth (fractional pixel)= -0.4927922 shift in azimuth *fractional pixel= -0.4927922 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.0701060295104980E-02 WAYNE Motion comp. added to patch, time = 15.01955389976501 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.3319721221923828E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 175.0500409603119 Writing 4192 lines of data to file WAYNE write output data 1.517732024192810 ==w out 9 0 2001 0 WAYNE PROCESS 237.3515890836716 ==w out 10 4195 PROCESSING KID# 4 ..... WAYNE IS IN Processing 7 to 7 by # 3 Processing block number 7 WAYNE PATCHES: 20953 29144 patch# 7 reference line: 25048 1.490 seconds. before reading done reading WAYNE load raw data , time = 45.39348900318146 ATTN ifrq ipol ln 4 1 29144 13.00000 IPOL, ITOP nblock 1 0 7 ****shift in azimuth (fractional pixel)= -0.4930060 shift in azimuth *fractional pixel= -0.4930060 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.0532021522521973E-02 WAYNE Motion comp. added to patch, time = 15.07019197940826 WAYNE Doppler estimation done, time = 8.1062316894531250E-06 WAYNE write deskew done, time = 2.2829771041870117E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 175.4142210483551 Writing 4192 lines of data to file WAYNE write output data 1.584004998207092 ==w out 7 0 2001 0 WAYNE PROCESS 237.4758759737015 ==w out 8 4195 PROCESSING KID# 5 ..... WAYNE IS IN Processing 8 to 8 by # 4 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 1.496 seconds. before reading done reading WAYNE load raw data , time = 45.46856701374054 ATTN ifrq ipol ln 4 1 32636 13.00000 IPOL, ITOP nblock 1 0 8 ****shift in azimuth (fractional pixel)= -0.4928194 shift in azimuth *fractional pixel= -0.4928194 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.0602951049804688E-02 WAYNE Motion comp. added to patch, time = 14.74498200416565 WAYNE Doppler estimation done, time = 6.9141387939453125E-06 WAYNE write deskew done, time = 2.3219585418701172E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 175.6725059747696 Writing 4192 lines of data to file WAYNE write output data 1.583122968673706 ==w out 8 0 2001 0 WAYNE PROCESS 237.4832079410553 ==w out 9 4195 PROCESSING KID# 8 ..... WAYNE IS IN Processing 11 to 11 by # 7 Processing block number 11 WAYNE PATCHES: 33808 41999 patch# 11 reference line: 37903 1.541 seconds. before reading done reading WAYNE load raw data , time = 45.45724701881409 ATTN ifrq ipol ln 4 1 41999 13.00000 IPOL, ITOP nblock 1 0 11 ****shift in azimuth (fractional pixel)= -0.4928767 shift in azimuth *fractional pixel= -0.4928767 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.0028958320617676E-02 WAYNE Motion comp. added to patch, time = 14.90234899520874 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 2.4369955062866211E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 175.0852090120316 Writing 4192 lines of data to file WAYNE write output data 5.062985897064209 ==w out 11 0 2001 0 WAYNE PROCESS 240.5215809345245 ==w out 12 4195 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 2 by # 0 Processing block number 1 TESTING WHY -0.1690470 2.2242401E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 1.457 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 45.32283401489258 ATTN ifrq ipol ln 4 1 8192 13.00000 IPOL, ITOP nblock 1 0 1 ****shift in azimuth (fractional pixel)= -0.4927982 shift in azimuth *fractional pixel= -0.4927982 1.000000 WAYNE Motion comp. coeff. calculated, time = 9.9749565124511719E-03 TESTING 0.0000000E+00 7.4880518E-02 0.8472643 WAYNE Motion comp. added to patch, time = 14.73044002056122 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.2031068801879883E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 7.4880518E-02 0.8472643 HEY,dt,fract,ye,pe -0.4927982 1.000000 -0.1690470 2.2242401E-02 WAYNE Azimuth compression done, time = 174.9968409538269 Writing 4192 lines of data to file WAYNE write output data 1.400657892227173 ==w out 1 0 2001 0 WAYNE PROCESS 236.4639979600906 Processing block number 2 TESTING WHY -0.1686140 2.1502599E-02 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 237.921 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 77.58691096305847 ATTN ifrq ipol ln 4 1 11684 13.00000 IPOL, ITOP nblock 1 0 2 ****shift in azimuth (fractional pixel)= -0.4928696 shift in azimuth *fractional pixel= -0.4928696 1.000000 WAYNE Motion comp. coeff. calculated, time = 9.3139410018920898E-03 TESTING 0.0000000E+00 2.061462 0.3077330 WAYNE Motion comp. added to patch, time = 13.62926292419434 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 2.7070999145507813E-02 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 2.061462 0.3077330 HEY,dt,fract,ye,pe -0.4928696 1.000000 -0.1686140 2.1502599E-02 WAYNE Azimuth compression done, time = 158.3744070529938 Writing 4192 lines of data to file WAYNE write output data 0.9145070314407349 ==w out 2 4192 2001 85852160 WAYNE PROCESS 250.5423859357834 ==w out 3 8387 PROCESSING KID# 2 ..... WAYNE IS IN Processing 3 to 4 by # 1 Processing block number 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 1.471 seconds. before reading done reading WAYNE load raw data , time = 45.32035505771637 ATTN ifrq ipol ln 4 1 15176 13.00000 IPOL, ITOP nblock 1 0 3 ****shift in azimuth (fractional pixel)= -0.4928504 shift in azimuth *fractional pixel= -0.4928504 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.0423064231872559E-02 WAYNE Motion comp. added to patch, time = 14.67678105831146 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.2239685058593750E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 178.0086630582809 Writing 4192 lines of data to file WAYNE write output data 0.9006060361862183 ==w out 3 0 2001 0 WAYNE PROCESS 238.9202129840851 Processing block number 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 240.391 seconds. before reading done reading WAYNE load raw data , time = 71.82821702957153 ATTN ifrq ipol ln 4 1 18668 13.00000 IPOL, ITOP nblock 1 0 4 ****shift in azimuth (fractional pixel)= -0.4929838 shift in azimuth *fractional pixel= -0.4929838 1.000000 WAYNE Motion comp. coeff. calculated, time = 9.6390247344970703E-03 WAYNE Motion comp. added to patch, time = 13.86048305034637 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.0147085189819336E-02 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 176.1567810773849 Writing 4192 lines of data to file WAYNE write output data 0.9086689949035645 ==w out 4 4192 2001 85852160 WAYNE PROCESS 262.7848050594330 ==w out 5 8387 PROCESSING KID# 3 ..... WAYNE IS IN Processing 5 to 6 by # 2 Processing block number 5 WAYNE PATCHES: 13969 22160 patch# 5 reference line: 18064 1.477 seconds. before reading done reading WAYNE load raw data , time = 46.94416296482086 ATTN ifrq ipol ln 4 1 22160 13.00000 IPOL, ITOP nblock 1 0 5 ****shift in azimuth (fractional pixel)= -0.4930457 shift in azimuth *fractional pixel= -0.4930457 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.0551929473876953E-02 WAYNE Motion comp. added to patch, time = 15.71222591400146 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.3070573806762695E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 172.7962480783463 Writing 4192 lines of data to file WAYNE write output data 1.483440041542053 ==w out 5 0 2001 0 WAYNE PROCESS 236.9499859809875 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 238.427 seconds. before reading done reading WAYNE load raw data , time = 74.79585003852844 ATTN ifrq ipol ln 4 1 25652 13.00000 IPOL, ITOP nblock 1 0 6 ****shift in azimuth (fractional pixel)= -0.4930271 shift in azimuth *fractional pixel= -0.4930271 1.000000 WAYNE Motion comp. coeff. calculated, time = 9.6790790557861328E-03 WAYNE Motion comp. added to patch, time = 14.28130805492401 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.5330066680908203E-02 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 175.9464800357819 Writing 4192 lines of data to file WAYNE write output data 0.8640079498291016 ==w out 6 4192 2001 85852160 WAYNE PROCESS 265.9234509468079 ==w out 7 8387 1 4872948 0 2 4865848 0 3 4873350 0 4 4873172 0 5 4872965 0 6 4872982 0 7 4872808 0 8 4872742 0 PROCESSING COMPLETED POINTER 288239859439501312 288521334416211968 icnt = 46112kids= 8 Writing variable header... gather image from processor # 0 2 gather image from processor # 1 2 gather image from processor # 2 2 gather image from processor # 3 1 gather image from processor # 4 1 gather image from processor # 5 1 gather image from processor # 6 1 gather image from processor # 7 1 WAYNE gather images takes: 0.1014239788055420 WAYNE LOOP TIME: 511.5435649156570 update sarfile,mocompfile,dopfile,glbfile,N_RA: /u/air40/airops/685/ts0685_l.hh_j /u/air47/airops/685/ts0685_l.mocomph /u/air47/airops/685/ts0685_l.dop /u/air47/airops/685/ts0685_l.glb 2560 46112 update intf hdr ha: 8391.100 UPDATE: 2560 46112 3.331000 0.5144000 mocompfile /u/air47/airops/685/ts0685_l.mocomph dopfile /u/air47/airops/685/ts0685_l.dop globalfile /u/air47/airops/685/ts0685_l.glb /u/air47/airops/685/ts0685_l.glb 32 deskew line ra ha trc: -552.2505 -1074 9465.095 8391.100 59.86913 lat1 lon1: -1074 44.45876 -121.6837 46112 lati loni: 45038 44.63287 -121.4901 45038 2560 lati loni: 21982 44.54453 -121.5899 21982 1280 Updated paramater header in /u/air40/airops/685/ts0685_l.hh_j WAYNE FINAL PROCESS 512.8982020616531 ********************************************* ***** ***** ***** 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 8384 2 8384 2 8384 2 4192 1 4192 1 4192 1 4192 1 4192 1 Name of data file to be deskewed? /u/air40/airops/685/ts0685_l.hh_j Name of the doppler parameter file? /u/air47/airops/685/ts0685_l.dop Name of the deskew file? /u/air40/airops/685/deskew.lh Line up to another frequency [y/n]? y Name of the deskew file to line up to? /u/air40/airops/685/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? /u/air47/airops/685/ts0685_l.hh Name of the line output file? /u/air47/airops/685/l_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 2.862129926681519 Deskewing 11 patches Processing block number 1 DEBUG -4893 -1074.528 -4893.000 -0.4927982 -0.4927982 patch iptc,sj,dgj,dgi,id: 1 1068 -4893 -4893 0 half line dmj dgc: 0 2001 -1075 -4904 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1068 1 Zeroing lines in arrays Total # of output lines = 1 1067 1068 3164 0 2096 patch iptc,sj,dgj,dgi,id: 1 3164 -4893 -4893 2096 half line dmj dgc: 1 2001 -1075 -4904 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3164 1068 Zeroing lines in arrays Total # of output lines = 1 3163 Processing block number 2 DEBUG -4892 -1083.265 -4891.777 -0.4928696 -0.4928696 3164 4561 1 1396 patch iptc,sj,dgj,dgi,id: 2 4561 -4892 -4893 1396 half line dmj dgc: 0 5493 -1083 -4904 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 4561 3164 Zeroing lines in arrays Total # of output lines = 2 4560 4561 6657 0 2096 patch iptc,sj,dgj,dgi,id: 2 6657 -4892 -4892 2096 half line dmj dgc: 1 5493 -1083 -4904 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 6657 4561 Zeroing lines in arrays Total # of output lines = 2 6656 Processing block number 3 DEBUG -4890 -1094.114 -4889.458 -0.4928504 -0.4928504 6657 8055 2 1396 patch iptc,sj,dgj,dgi,id: 3 8055 -4890 -4892 1396 half line dmj dgc: 0 8985 -1094 -4904 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 8055 6657 Zeroing lines in arrays Total # of output lines = 3 8054 8055 10151 0 2096 patch iptc,sj,dgj,dgi,id: 3 10151 -4890 -4890 2096 half line dmj dgc: 1 8985 -1094 -4904 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 10151 8055 Zeroing lines in arrays Total # of output lines = 3 10150 Processing block number 4 DEBUG -4878 -1100.817 -4877.624 -0.4929838 -0.4929838 10151 11559 12 1396 patch iptc,sj,dgj,dgi,id: 4 11559 -4878 -4890 1396 half line dmj dgc: 0 12477 -1101 -4904 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 11559 10151 Zeroing lines in arrays Total # of output lines = 4 11558 11559 13655 0 2096 patch iptc,sj,dgj,dgi,id: 4 1367 -4878 -4878 2096 half line dmj dgc: 1 12477 -1101 -4904 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 s1>sj: 11559 1367 Zeroing lines in arrays Total # of output lines = 4 13654 Processing block number 5 DEBUG -4861 -1101.933 -4860.414 -0.4930457 -0.4930457 1367 2780 17 1396 patch iptc,sj,dgj,dgi,id: 5 2780 -4861 -4878 1396 half line dmj dgc: 0 15969 -1102 -4904 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 2780 1367 Zeroing lines in arrays Total # of output lines = 5 15067 2780 4876 0 2096 patch iptc,sj,dgj,dgi,id: 5 4876 -4861 -4861 2096 half line dmj dgc: 1 15969 -1102 -4904 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 sj>s1: 4876 2780 Zeroing lines in arrays Total # of output lines = 5 17163 Processing block number 6 DEBUG -4842 -1095.463 -4842.364 -0.4930271 -0.4930271 4876 6291 19 1396 patch iptc,sj,dgj,dgi,id: 6 6291 -4842 -4861 1396 half line dmj dgc: 0 19461 -1096 -4904 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 6291 4876 Zeroing lines in arrays Total # of output lines = 6 18578 6291 8387 0 2096 patch iptc,sj,dgj,dgi,id: 6 8387 -4842 -4842 2096 half line dmj dgc: 1 19461 -1096 -4904 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 8387 6291 Zeroing lines in arrays Total # of output lines = 6 20674 Processing block number 7 DEBUG -4842 -1083.828 -4841.671 -0.4930060 -0.4930060 8387 9783 0 1396 patch iptc,sj,dgj,dgi,id: 7 9783 -4842 -4842 1396 half line dmj dgc: 0 22953 -1084 -4904 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 9783 8387 Zeroing lines in arrays Total # of output lines = 7 22070 9783 11879 0 2096 patch iptc,sj,dgj,dgi,id: 7 11879 -4842 -4842 2096 half line dmj dgc: 1 22953 -1084 -4904 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 11879 9783 Zeroing lines in arrays Total # of output lines = 7 24166 Processing block number 8 DEBUG -4857 -1076.933 -4856.781 -0.4928194 -0.4928194 11879 13260 -15 1396 patch iptc,sj,dgj,dgi,id: 8 972 -4857 -4842 1396 half line dmj dgc: 0 26445 -1077 -4904 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 s1>sj: 11879 972 Zeroing lines in arrays Total # of output lines = 8 25547 972 3068 0 2096 patch iptc,sj,dgj,dgi,id: 8 3068 -4857 -4857 2096 half line dmj dgc: 1 26445 -1077 -4904 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 sj>s1: 3068 972 Zeroing lines in arrays Total # of output lines = 8 27643 Processing block number 9 DEBUG -4864 -1071.921 -4863.900 -0.4927922 -0.4927922 3068 4457 -7 1396 patch iptc,sj,dgj,dgi,id: 9 4457 -4864 -4857 1396 half line dmj dgc: 0 29937 -1072 -4904 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 4457 3068 Zeroing lines in arrays Total # of output lines = 9 29032 4457 6553 0 2096 patch iptc,sj,dgj,dgi,id: 9 6553 -4864 -4864 2096 half line dmj dgc: 1 29937 -1072 -4904 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 6553 4457 Zeroing lines in arrays Total # of output lines = 9 31128 Processing block number 10 DEBUG -4841 -1057.804 -4841.202 -0.4928501 -0.4928501 6553 7972 23 1396 patch iptc,sj,dgj,dgi,id: 10 7972 -4841 -4864 1396 half line dmj dgc: 0 33429 -1058 -4904 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 7972 6553 Zeroing lines in arrays Total # of output lines = 10 32547 7972 10068 0 2096 patch iptc,sj,dgj,dgi,id: 10 10068 -4841 -4841 2096 half line dmj dgc: 1 33429 -1058 -4904 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 sj>s1: 10068 7972 Zeroing lines in arrays Total # of output lines = 10 34643 Processing block number 11 DEBUG -4805 -1042.391 -4804.706 -0.4928767 -0.4928767 10068 10387 36 283 patch iptc,sj,dgj,dgi,id: 11 10387 -4805 -4841 283 half line dmj dgc: 0 35808 -1042 -4904 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 10387 10068 Zeroing lines in arrays Total # of output lines = 11 34962 10387 12483 0 2096 patch iptc,sj,dgj,dgi,id: 11 195 -4805 -4805 2096 half line dmj dgc: 1 35808 -1042 -4904 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 s1>sj: 10387 195 Zeroing lines in arrays Total # of output lines = 11 37058 ia dmi dgi: 195 -1042 -4805 Writing the last 5859 lines last half sj>s1 6054 195 37058 WAYNE done patche 50.32462298870087 Total # of output lines = 42917 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 42917 NUMBER OF BYTES PER SAMPLE = 8 JPL AIRCRAFT SAR PROCESSOR VERSION 6.10 DATA TYPE = COMPLEX RANGE PROJECTION = SLANT RANGE PIXEL SPACING (METERS) = 3.3310 AZIMUTH PIXEL SPACING (METERS) = 0.5144 BYTE OFFSET OF OLD HEADER = 0 BYTE OFFSET OF USER HEADER = 0 BYTE OFFSET OF FIRST DATA RECORD = 40960 BYTE OFFSET OF PARAMETER HEADER = 20480 LINE FORMAT OF DATA = RANGE BYTE OFFSET OF CALIBRATION HEADER = 0 BYTE OFFSET OF DEM HEADER = 0 Closing files .. WAYNE done total 50.87199592590332 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 5.02 ***** ***** ***** ********************************************* 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. /u/air40/airops/685/sensor.hv98l Please enter the name of the parameter file /u/air47/airops/685/ts0685_l.par hddt: 98023 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 42000 lines Keeping 4192 data points per patch Near range (m) = 9462.950 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) = 5.000000 Chirp bandwidth (MHz) = 40.00000 Ashift = 0.4790000 Range weighting coefficient = 0.1000000 Map height (m) = 1155.900 Transmit leverarm x,y,z = 0.5189053 1.222541 1.592935 Receive leverarm x,y,z = 0.5410946 0.5174593 -0.2429344 Name of raw data file? /u/air40/airops/685/l_hv Name of the mocomp data file? /u/air47/airops/685/ts0685_l.mocomph Output file name w/o ext? /u/air47/airops/685/ts0685_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. hv Raw DIR Path:/u/air40/airops/685/ output filename:/u/air40/airops/685/ts0685_l.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? /u/air40/airops/685/deskew.lh WAYNE init fft, calc slant range, load unpack, interpo 1.1764001E-02 reading motion compensation data WAYNE read motion compen 0.9022220 write parameters ... analog chirp >/ 96032 98023 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.2837870 start range comp, time = 7.114 WAYNE PREV 1.211564 NUMBER OF PROCESSOR USED = 8 POINTER 288239859439501312 288521334416211968 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 5 ..... WAYNE IS IN Processing 8 to 8 by # 4 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 7.414 seconds. before reading done reading WAYNE load raw data , time = 45.28052794933319 ATTN ifrq ipol ln 4 2 32636 13.00000 IPOL, ITOP nblock 2 0 8 ****shift in azimuth (fractional pixel)= -0.4928194 shift in azimuth *fractional pixel= -0.4928194 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.0421991348266602E-02 WAYNE Motion comp. added to patch, time = 14.68272507190704 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.2070407867431641E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 174.4085389375687 Writing 4192 lines of data to file WAYNE write output data 1.370274066925049 ==w out 8 0 2001 0 WAYNE PROCESS 235.7557940483093 ==w out 9 4195 PROCESSING KID# 4 ..... WAYNE IS IN Processing 7 to 7 by # 3 Processing block number 7 WAYNE PATCHES: 20953 29144 patch# 7 reference line: 25048 7.403 seconds. before reading done reading WAYNE load raw data , time = 45.34127199649811 ATTN ifrq ipol ln 4 2 29144 13.00000 IPOL, ITOP nblock 2 0 7 ****shift in azimuth (fractional pixel)= -0.4930060 shift in azimuth *fractional pixel= -0.4930060 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.0578989982604980E-02 WAYNE Motion comp. added to patch, time = 15.00900900363922 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.4319887161254883E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 174.3060669898987 Writing 4192 lines of data to file WAYNE write output data 1.445883035659790 ==w out 7 0 2001 0 WAYNE PROCESS 236.1162850856781 ==w out 8 4195 PROCESSING KID# 8 ..... WAYNE IS IN Processing 11 to 11 by # 7 Processing block number 11 WAYNE PATCHES: 33808 41999 patch# 11 reference line: 37903 7.447 seconds. before reading done reading WAYNE load raw data , time = 45.96012198925018 ATTN ifrq ipol ln 4 2 41999 13.00000 IPOL, ITOP nblock 2 0 11 ****shift in azimuth (fractional pixel)= -0.4928767 shift in azimuth *fractional pixel= -0.4928767 1.000000 WAYNE Motion comp. coeff. calculated, time = 9.9700689315795898E-03 WAYNE Motion comp. added to patch, time = 14.79137396812439 WAYNE Doppler estimation done, time = 8.1062316894531250E-06 WAYNE write deskew done, time = 2.2330284118652344E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 174.5030360221863 Writing 4192 lines of data to file WAYNE write output data 1.277705073356628 ==w out 11 0 2001 0 WAYNE PROCESS 236.5456600189209 ==w out 12 4195 PROCESSING KID# 6 ..... WAYNE IS IN Processing 9 to 9 by # 5 Processing block number 9 WAYNE PATCHES: 27937 36128 patch# 9 reference line: 32032 7.426 seconds. before reading done reading WAYNE load raw data , time = 46.72469592094421 ATTN ifrq ipol ln 4 2 36128 13.00000 IPOL, ITOP nblock 2 0 9 ****shift in azimuth (fractional pixel)= -0.4927922 shift in azimuth *fractional pixel= -0.4927922 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.0565996170043945E-02 WAYNE Motion comp. added to patch, time = 14.90327596664429 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.3059844970703125E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 173.8987580537796 Writing 4192 lines of data to file WAYNE write output data 1.185946941375732 ==w out 9 0 2001 0 WAYNE PROCESS 236.7266809940338 ==w out 10 4195 PROCESSING KID# 7 ..... WAYNE IS IN Processing 10 to 10 by # 6 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 7.444 seconds. before reading done reading WAYNE load raw data , time = 46.13078391551971 ATTN ifrq ipol ln 4 2 39620 13.00000 IPOL, ITOP nblock 2 0 10 ****shift in azimuth (fractional pixel)= -0.4928501 shift in azimuth *fractional pixel= -0.4928501 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.0594964027404785E-02 WAYNE Motion comp. added to patch, time = 15.29116809368134 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.2839307785034180E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 177.0137959718704 Writing 4192 lines of data to file WAYNE write output data 0.8794519901275635 ==w out 10 0 2001 0 WAYNE PROCESS 239.3293100595474 ==w out 11 4195 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 2 by # 0 Processing block number 1 TESTING WHY -0.1690470 2.2242401E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 7.381 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 45.37954103946686 ATTN ifrq ipol ln 4 2 8192 13.00000 IPOL, ITOP nblock 2 0 1 ****shift in azimuth (fractional pixel)= -0.4927982 shift in azimuth *fractional pixel= -0.4927982 1.000000 WAYNE Motion comp. coeff. calculated, time = 9.8699331283569336E-03 TESTING 1.1094660E-02 -0.2776603 -7.0670366E-02 WAYNE Motion comp. added to patch, time = 14.59243798255920 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.2259950637817383E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 1.1094660E-02 -0.2776603 -7.0670366E-02 HEY,dt,fract,ye,pe -0.4927982 1.000000 -0.1690470 2.2242401E-02 WAYNE Azimuth compression done, time = 174.2178699970245 Writing 4192 lines of data to file WAYNE write output data 1.160133957862854 ==w out 1 0 2001 0 WAYNE PROCESS 235.3631389141083 Processing block number 2 TESTING WHY -0.1686140 2.1502599E-02 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 242.747 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 76.81007301807404 ATTN ifrq ipol ln 4 2 11684 13.00000 IPOL, ITOP nblock 2 0 2 ****shift in azimuth (fractional pixel)= -0.4928696 shift in azimuth *fractional pixel= -0.4928696 1.000000 WAYNE Motion comp. coeff. calculated, time = 9.3749761581420898E-03 TESTING 1.1094660E-02 1.708921 -0.6102017 WAYNE Motion comp. added to patch, time = 13.53452003002167 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.2512078285217285E-02 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 1.1094660E-02 1.708921 -0.6102017 HEY,dt,fract,ye,pe -0.4928696 1.000000 -0.1686140 2.1502599E-02 WAYNE Azimuth compression done, time = 155.3097470998764 Writing 4192 lines of data to file WAYNE write output data 0.8932629823684692 ==w out 2 4192 2001 85852160 WAYNE PROCESS 246.5826649665833 ==w out 3 8387 PROCESSING KID# 2 ..... WAYNE IS IN Processing 3 to 4 by # 1 Processing block number 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 7.391 seconds. before reading done reading WAYNE load raw data , time = 45.55472707748413 ATTN ifrq ipol ln 4 2 15176 13.00000 IPOL, ITOP nblock 2 0 3 ****shift in azimuth (fractional pixel)= -0.4928504 shift in azimuth *fractional pixel= -0.4928504 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.0622978210449219E-02 WAYNE Motion comp. added to patch, time = 14.63574302196503 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.2640228271484375E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 174.4565079212189 Writing 4192 lines of data to file WAYNE write output data 1.336632966995239 ==w out 3 0 2001 0 WAYNE PROCESS 235.9977010488510 Processing block number 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 243.389 seconds. before reading done reading WAYNE load raw data , time = 76.76910793781281 ATTN ifrq ipol ln 4 2 18668 13.00000 IPOL, ITOP nblock 2 0 4 ****shift in azimuth (fractional pixel)= -0.4929838 shift in azimuth *fractional pixel= -0.4929838 1.000000 WAYNE Motion comp. coeff. calculated, time = 9.8819732666015625E-03 WAYNE Motion comp. added to patch, time = 13.86257100105286 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.1816015243530273E-02 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 176.5854699611664 Writing 4192 lines of data to file WAYNE write output data 1.102655053138733 ==w out 4 4192 2001 85852160 WAYNE PROCESS 268.3523930311203 ==w out 5 8387 PROCESSING KID# 3 ..... WAYNE IS IN Processing 5 to 6 by # 2 Processing block number 5 WAYNE PATCHES: 13969 22160 patch# 5 reference line: 18064 7.397 seconds. before reading done reading WAYNE load raw data , time = 45.54465603828430 ATTN ifrq ipol ln 4 2 22160 13.00000 IPOL, ITOP nblock 2 0 5 ****shift in azimuth (fractional pixel)= -0.4930457 shift in azimuth *fractional pixel= -0.4930457 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.0520100593566895E-02 WAYNE Motion comp. added to patch, time = 15.02983903884888 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.3480653762817383E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 175.1091849803925 Writing 4192 lines of data to file WAYNE write output data 1.170042991638184 ==w out 5 0 2001 0 WAYNE PROCESS 236.8677610158920 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 244.265 seconds. before reading done reading WAYNE load raw data , time = 76.01372599601746 ATTN ifrq ipol ln 4 2 25652 13.00000 IPOL, ITOP nblock 2 0 6 ****shift in azimuth (fractional pixel)= -0.4930271 shift in azimuth *fractional pixel= -0.4930271 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.0035991668701172E-02 WAYNE Motion comp. added to patch, time = 14.25432598590851 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.0107984542846680E-02 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 176.3820929527283 Writing 4192 lines of data to file WAYNE write output data 1.100872039794922 ==w out 6 4192 2001 85852160 WAYNE PROCESS 267.7821329832077 ==w out 7 8387 1 4872112 0 2 4872918 0 3 4873231 0 4 4869610 0 5 4872864 0 6 4873309 0 7 4873221 0 8 4872627 0 PROCESSING COMPLETED POINTER 288239859439501312 288521334416211968 icnt = 46112kids= 8 Writing variable header... gather image from processor # 0 2 gather image from processor # 1 2 gather image from processor # 2 2 gather image from processor # 3 1 gather image from processor # 4 1 gather image from processor # 5 1 gather image from processor # 6 1 gather image from processor # 7 1 WAYNE gather images takes: 0.1049150228500366 WAYNE LOOP TIME: 513.4045870304108 update sarfile,mocompfile,dopfile,glbfile,N_RA: /u/air40/airops/685/ts0685_l.hv_j /u/air47/airops/685/ts0685_l.mocomph /u/air47/airops/685/ts0685_l.dop /u/air47/airops/685/ts0685_l.glb 2560 46112 update intf hdr ha: 8391.100 UPDATE: 2560 46112 3.331000 0.5144000 mocompfile /u/air47/airops/685/ts0685_l.mocomph dopfile /u/air47/airops/685/ts0685_l.dop globalfile /u/air47/airops/685/ts0685_l.glb /u/air47/airops/685/ts0685_l.glb 32 deskew line ra ha trc: -552.2505 -1074 9465.095 8391.100 59.86913 lat1 lon1: -1074 44.45876 -121.6837 46112 lati loni: 45038 44.63287 -121.4901 45038 2560 lati loni: 21982 44.54453 -121.5899 21982 1280 Updated paramater header in /u/air40/airops/685/ts0685_l.hv_j WAYNE FINAL PROCESS 520.5680029392242 ********************************************* ***** ***** ***** 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 8384 2 8384 2 8384 2 4192 1 4192 1 4192 1 4192 1 4192 1 Name of data file to be deskewed? /u/air40/airops/685/ts0685_l.hv_j Name of the doppler parameter file? /u/air47/airops/685/ts0685_l.dop Name of the deskew file? /u/air40/airops/685/deskew.lh Line up to another frequency [y/n]? y Name of the deskew file to line up to? /u/air40/airops/685/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? /u/air47/airops/685/ts0685_l.hv Name of the line output file? /u/air47/airops/685/l_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 2.930945038795471 Deskewing 11 patches Processing block number 1 DEBUG -4893 -1074.549 -4893.021 -0.4927982 -0.4927982 patch iptc,sj,dgj,dgi,id: 1 1068 -4893 -4893 0 half line dmj dgc: 0 2001 -1075 -4904 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1068 1 Zeroing lines in arrays Total # of output lines = 1 1067 1068 3164 0 2096 patch iptc,sj,dgj,dgi,id: 1 3164 -4893 -4893 2096 half line dmj dgc: 1 2001 -1075 -4904 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3164 1068 Zeroing lines in arrays Total # of output lines = 1 3163 Processing block number 2 DEBUG -4892 -1083.286 -4891.798 -0.4928696 -0.4928696 3164 4561 1 1396 patch iptc,sj,dgj,dgi,id: 2 4561 -4892 -4893 1396 half line dmj dgc: 0 5493 -1083 -4904 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 4561 3164 Zeroing lines in arrays Total # of output lines = 2 4560 4561 6657 0 2096 patch iptc,sj,dgj,dgi,id: 2 6657 -4892 -4892 2096 half line dmj dgc: 1 5493 -1083 -4904 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 6657 4561 Zeroing lines in arrays Total # of output lines = 2 6656 Processing block number 3 DEBUG -4890 -1094.136 -4889.480 -0.4928504 -0.4928504 6657 8055 2 1396 patch iptc,sj,dgj,dgi,id: 3 8055 -4890 -4892 1396 half line dmj dgc: 0 8985 -1094 -4904 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 8055 6657 Zeroing lines in arrays Total # of output lines = 3 8054 8055 10151 0 2096 patch iptc,sj,dgj,dgi,id: 3 10151 -4890 -4890 2096 half line dmj dgc: 1 8985 -1094 -4904 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 10151 8055 Zeroing lines in arrays Total # of output lines = 3 10150 Processing block number 4 DEBUG -4878 -1100.839 -4877.646 -0.4929838 -0.4929838 10151 11559 12 1396 patch iptc,sj,dgj,dgi,id: 4 11559 -4878 -4890 1396 half line dmj dgc: 0 12477 -1101 -4904 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 11559 10151 Zeroing lines in arrays Total # of output lines = 4 11558 11559 13655 0 2096 patch iptc,sj,dgj,dgi,id: 4 1367 -4878 -4878 2096 half line dmj dgc: 1 12477 -1101 -4904 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 s1>sj: 11559 1367 Zeroing lines in arrays Total # of output lines = 4 13654 Processing block number 5 DEBUG -4861 -1101.955 -4860.436 -0.4930457 -0.4930457 1367 2780 17 1396 patch iptc,sj,dgj,dgi,id: 5 2780 -4861 -4878 1396 half line dmj dgc: 0 15969 -1102 -4904 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 2780 1367 Zeroing lines in arrays Total # of output lines = 5 15067 2780 4876 0 2096 patch iptc,sj,dgj,dgi,id: 5 4876 -4861 -4861 2096 half line dmj dgc: 1 15969 -1102 -4904 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 sj>s1: 4876 2780 Zeroing lines in arrays Total # of output lines = 5 17163 Processing block number 6 DEBUG -4842 -1095.485 -4842.385 -0.4930271 -0.4930271 4876 6291 19 1396 patch iptc,sj,dgj,dgi,id: 6 6291 -4842 -4861 1396 half line dmj dgc: 0 19461 -1096 -4904 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 6291 4876 Zeroing lines in arrays Total # of output lines = 6 18578 6291 8387 0 2096 patch iptc,sj,dgj,dgi,id: 6 8387 -4842 -4842 2096 half line dmj dgc: 1 19461 -1096 -4904 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 8387 6291 Zeroing lines in arrays Total # of output lines = 6 20674 Processing block number 7 DEBUG -4842 -1083.850 -4841.692 -0.4930060 -0.4930060 8387 9783 0 1396 patch iptc,sj,dgj,dgi,id: 7 9783 -4842 -4842 1396 half line dmj dgc: 0 22953 -1084 -4904 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 9783 8387 Zeroing lines in arrays Total # of output lines = 7 22070 9783 11879 0 2096 patch iptc,sj,dgj,dgi,id: 7 11879 -4842 -4842 2096 half line dmj dgc: 1 22953 -1084 -4904 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 11879 9783 Zeroing lines in arrays Total # of output lines = 7 24166 Processing block number 8 DEBUG -4857 -1076.955 -4856.802 -0.4928194 -0.4928194 11879 13260 -15 1396 patch iptc,sj,dgj,dgi,id: 8 972 -4857 -4842 1396 half line dmj dgc: 0 26445 -1077 -4904 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 s1>sj: 11879 972 Zeroing lines in arrays Total # of output lines = 8 25547 972 3068 0 2096 patch iptc,sj,dgj,dgi,id: 8 3068 -4857 -4857 2096 half line dmj dgc: 1 26445 -1077 -4904 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 sj>s1: 3068 972 Zeroing lines in arrays Total # of output lines = 8 27643 Processing block number 9 DEBUG -4864 -1071.943 -4863.921 -0.4927922 -0.4927922 3068 4457 -7 1396 patch iptc,sj,dgj,dgi,id: 9 4457 -4864 -4857 1396 half line dmj dgc: 0 29937 -1072 -4904 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 4457 3068 Zeroing lines in arrays Total # of output lines = 9 29032 4457 6553 0 2096 patch iptc,sj,dgj,dgi,id: 9 6553 -4864 -4864 2096 half line dmj dgc: 1 29937 -1072 -4904 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 6553 4457 Zeroing lines in arrays Total # of output lines = 9 31128 Processing block number 10 DEBUG -4841 -1057.826 -4841.224 -0.4928501 -0.4928501 6553 7972 23 1396 patch iptc,sj,dgj,dgi,id: 10 7972 -4841 -4864 1396 half line dmj dgc: 0 33429 -1058 -4904 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 7972 6553 Zeroing lines in arrays Total # of output lines = 10 32547 7972 10068 0 2096 patch iptc,sj,dgj,dgi,id: 10 10068 -4841 -4841 2096 half line dmj dgc: 1 33429 -1058 -4904 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 sj>s1: 10068 7972 Zeroing lines in arrays Total # of output lines = 10 34643 Processing block number 11 DEBUG -4805 -1042.412 -4804.728 -0.4928767 -0.4928767 10068 10387 36 283 patch iptc,sj,dgj,dgi,id: 11 10387 -4805 -4841 283 half line dmj dgc: 0 35808 -1043 -4904 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 10387 10068 Zeroing lines in arrays Total # of output lines = 11 34962 10387 12483 0 2096 patch iptc,sj,dgj,dgi,id: 11 195 -4805 -4805 2096 half line dmj dgc: 1 35808 -1043 -4904 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 s1>sj: 10387 195 Zeroing lines in arrays Total # of output lines = 11 37058 ia dmi dgi: 195 -1043 -4805 Writing the last 5858 lines last half sj>s1 6053 195 37058 WAYNE done patche 58.05939102172852 Total # of output lines = 42916 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 42916 NUMBER OF BYTES PER SAMPLE = 8 JPL AIRCRAFT SAR PROCESSOR VERSION 6.10 DATA TYPE = COMPLEX RANGE PROJECTION = SLANT RANGE PIXEL SPACING (METERS) = 3.3310 AZIMUTH PIXEL SPACING (METERS) = 0.5144 BYTE OFFSET OF OLD HEADER = 0 BYTE OFFSET OF USER HEADER = 0 BYTE OFFSET OF FIRST DATA RECORD = 40960 BYTE OFFSET OF PARAMETER HEADER = 20480 LINE FORMAT OF DATA = RANGE BYTE OFFSET OF CALIBRATION HEADER = 0 BYTE OFFSET OF DEM HEADER = 0 Closing files .. WAYNE done total 58.63401699066162 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 5.02 ***** ***** ***** ********************************************* 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. /u/air40/airops/685/sensor.vh98l Please enter the name of the parameter file /u/air47/airops/685/ts0685_l.par hddt: 98023 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 42000 lines Keeping 4192 data points per patch Near range (m) = 9462.950 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) = 5.000000 Chirp bandwidth (MHz) = 40.00000 Ashift = -0.3850000 Range weighting coefficient = 0.1000000 Map height (m) = 1155.900 Transmit leverarm x,y,z = 0.5400000 0.5060908 -0.2513379 Receive leverarm x,y,z = 0.5200000 1.233909 1.601338 Name of raw data file? /u/air40/airops/685/l_vh Name of the mocomp data file? /u/air47/airops/685/ts0685_l.mocompv Output file name w/o ext? /u/air47/airops/685/ts0685_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. vh Raw DIR Path:/u/air40/airops/685/ output filename:/u/air40/airops/685/ts0685_l.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? /u/air40/airops/685/deskew.lv WAYNE init fft, calc slant range, load unpack, interpo 1.3314001E-02 reading motion compensation data WAYNE read motion compen 0.9110260 write parameters ... analog chirp >/ 96032 98023 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.2850980 start range comp, time = 24.644 WAYNE PREV 1.223614 NUMBER OF PROCESSOR USED = 8 POINTER 288239859439501312 288521334416211968 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 6 ..... WAYNE IS IN Processing 9 to 9 by # 5 Processing block number 9 WAYNE PATCHES: 27937 36128 patch# 9 reference line: 32032 24.868 seconds. before reading done reading WAYNE load raw data , time = 45.33615207672119 ATTN ifrq ipol ln 4 3 36128 13.00000 IPOL, ITOP nblock 3 0 9 WAYNE Motion comp. coeff. calculated, time = 1.0442018508911133E-02 WAYNE Motion comp. added to patch, time = 14.57590901851654 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 3.2860040664672852E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 174.5752999782562 Writing 4192 lines of data to file WAYNE write output data 1.310955047607422 ==w out 9 0 2001 0 WAYNE PROCESS 235.8131800889969 ==w out 10 4195 PROCESSING KID# 7 ..... WAYNE IS IN Processing 10 to 10 by # 6 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 24.876 seconds. before reading done reading WAYNE load raw data , time = 45.16857099533081 ATTN ifrq ipol ln 4 3 39620 13.00000 IPOL, ITOP nblock 3 0 10 WAYNE Motion comp. coeff. calculated, time = 1.0153055191040039E-02 WAYNE Motion comp. added to patch, time = 14.64442098140717 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.2720098495483398E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 174.8199729919434 Writing 4192 lines of data to file WAYNE write output data 1.359849929809570 ==w out 10 0 2001 0 WAYNE PROCESS 236.0063929557800 ==w out 11 4195 PROCESSING KID# 4 ..... WAYNE IS IN Processing 7 to 7 by # 3 Processing block number 7 WAYNE PATCHES: 20953 29144 patch# 7 reference line: 25048 24.852 seconds. before reading done reading WAYNE load raw data , time = 45.50733089447021 ATTN ifrq ipol ln 4 3 29144 13.00000 IPOL, ITOP nblock 3 0 7 WAYNE Motion comp. coeff. calculated, time = 1.0408997535705566E-02 WAYNE Motion comp. added to patch, time = 14.91730403900146 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.4629831314086914E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 174.7359180450439 Writing 4192 lines of data to file WAYNE write output data 1.311528086662292 ==w out 7 0 2001 0 WAYNE PROCESS 236.4860110282898 ==w out 8 4195 PROCESSING KID# 5 ..... WAYNE IS IN Processing 8 to 8 by # 4 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 24.860 seconds. before reading done reading WAYNE load raw data , time = 45.46703505516052 ATTN ifrq ipol ln 4 3 32636 13.00000 IPOL, ITOP nblock 3 0 8 WAYNE Motion comp. coeff. calculated, time = 1.0375022888183594E-02 WAYNE Motion comp. added to patch, time = 14.64595401287079 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.2889375686645508E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 175.6960510015488 Writing 4192 lines of data to file WAYNE write output data 1.214196920394897 ==w out 8 0 2001 0 WAYNE PROCESS 237.0369060039520 ==w out 9 4195 PROCESSING KID# 8 ..... WAYNE IS IN Processing 11 to 11 by # 7 Processing block number 11 WAYNE PATCHES: 33808 41999 patch# 11 reference line: 37903 24.895 seconds. before reading done reading WAYNE load raw data , time = 45.61613702774048 ATTN ifrq ipol ln 4 3 41999 13.00000 IPOL, ITOP nblock 3 0 11 WAYNE Motion comp. coeff. calculated, time = 1.0140895843505859E-02 WAYNE Motion comp. added to patch, time = 14.80047392845154 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.5219917297363281E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 175.5806059837341 Writing 4192 lines of data to file WAYNE write output data 1.154942035675049 ==w out 11 0 2001 0 WAYNE PROCESS 237.1661350727081 ==w out 12 4195 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 2 by # 0 Processing block number 1 TESTING WHY -0.1690470 2.2242401E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 24.830 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 45.79293799400330 ATTN ifrq ipol ln 4 3 8192 13.00000 IPOL, ITOP nblock 3 0 1 WAYNE Motion comp. coeff. calculated, time = 9.8390579223632813E-03 TESTING -1.0000020E-02 -0.2306510 -7.9913020E-02 WAYNE Motion comp. added to patch, time = 14.58072495460510 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.1680593490600586E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 -1.0000020E-02 -0.2306510 -7.9913020E-02 HEY,dt,fract,ye,pe 0.0000000E+00 1.000000 -0.1690470 2.2242401E-02 WAYNE Azimuth compression done, time = 174.5897569656372 Writing 4192 lines of data to file WAYNE write output data 1.272673010826111 ==w out 1 0 2001 0 WAYNE PROCESS 236.2491160631180 Processing block number 2 TESTING WHY -0.1686140 2.1502599E-02 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 261.079 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 81.05465996265411 ATTN ifrq ipol ln 4 3 11684 13.00000 IPOL, ITOP nblock 3 0 2 WAYNE Motion comp. coeff. calculated, time = 9.3619823455810547E-03 TESTING -1.0000020E-02 1.756002 -0.6196342 WAYNE Motion comp. added to patch, time = 13.51898300647736 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.5329947471618652E-02 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 -1.0000020E-02 1.756002 -0.6196342 HEY,dt,fract,ye,pe 0.0000000E+00 1.000000 -0.1686140 2.1502599E-02 WAYNE Azimuth compression done, time = 165.0537830591202 Writing 4192 lines of data to file WAYNE write output data 0.9106020927429199 ==w out 2 4192 2001 85852160 WAYNE PROCESS 260.5735870599747 ==w out 3 8387 PROCESSING KID# 2 ..... WAYNE IS IN Processing 3 to 4 by # 1 Processing block number 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 24.838 seconds. before reading done reading WAYNE load raw data , time = 46.52922499179840 ATTN ifrq ipol ln 4 3 15176 13.00000 IPOL, ITOP nblock 3 0 3 WAYNE Motion comp. coeff. calculated, time = 1.0218024253845215E-02 WAYNE Motion comp. added to patch, time = 15.28241300582886 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.1829605102539063E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 174.6051279306412 Writing 4192 lines of data to file WAYNE write output data 1.037364006042480 ==w out 3 0 2001 0 WAYNE PROCESS 237.4675849676132 Processing block number 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 262.305 seconds. before reading done reading WAYNE load raw data , time = 80.39228904247284 ATTN ifrq ipol ln 4 3 18668 13.00000 IPOL, ITOP nblock 3 0 4 WAYNE Motion comp. coeff. calculated, time = 9.6629858016967773E-03 WAYNE Motion comp. added to patch, time = 13.56463897228241 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.8177022933959961E-02 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 174.7683620452881 Writing 4192 lines of data to file WAYNE write output data 0.8640969991683960 ==w out 4 4192 2001 85852160 WAYNE PROCESS 269.6280970573425 ==w out 5 8387 PROCESSING KID# 3 ..... WAYNE IS IN Processing 5 to 6 by # 2 Processing block number 5 WAYNE PATCHES: 13969 22160 patch# 5 reference line: 18064 24.844 seconds. before reading done reading WAYNE load raw data , time = 46.98592305183411 ATTN ifrq ipol ln 4 3 22160 13.00000 IPOL, ITOP nblock 3 0 5 WAYNE Motion comp. coeff. calculated, time = 1.0326027870178223E-02 WAYNE Motion comp. added to patch, time = 15.08258593082428 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.2230148315429688E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 176.3713051080704 Writing 4192 lines of data to file WAYNE write output data 0.8645200729370117 ==w out 5 0 2001 0 WAYNE PROCESS 239.3179960250854 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 264.162 seconds. before reading done reading WAYNE load raw data , time = 79.58760797977448 ATTN ifrq ipol ln 4 3 25652 13.00000 IPOL, ITOP nblock 3 0 6 WAYNE Motion comp. coeff. calculated, time = 9.8590850830078125E-03 WAYNE Motion comp. added to patch, time = 14.10677802562714 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.3524999618530273E-02 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 175.2541780471802 Writing 4192 lines of data to file WAYNE write output data 0.8690279722213745 ==w out 6 4192 2001 85852160 WAYNE PROCESS 269.8519629240036 ==w out 7 8387 1 4872775 0 2 4873080 0 3 4873460 0 4 4873030 0 5 4873342 0 6 4873207 0 7 4872957 0 8 4873236 0 PROCESSING COMPLETED POINTER 288239859439501312 288521334416211968 icnt = 46112kids= 8 Writing variable header... gather image from processor # 0 2 gather image from processor # 1 2 gather image from processor # 2 2 gather image from processor # 3 1 gather image from processor # 4 1 gather image from processor # 5 1 gather image from processor # 6 1 gather image from processor # 7 1 WAYNE gather images takes: 0.3070110082626343 WAYNE LOOP TIME: 518.0653369426727 update sarfile,mocompfile,dopfile,glbfile,N_RA: /u/air40/airops/685/ts0685_l.vh_j /u/air47/airops/685/ts0685_l.mocompv /u/air47/airops/685/ts0685_l.dop /u/air47/airops/685/ts0685_l.glb 2560 46112 update intf hdr ha: 8391.100 UPDATE: 2560 46112 3.331000 0.5144000 mocompfile /u/air47/airops/685/ts0685_l.mocompv dopfile /u/air47/airops/685/ts0685_l.dop globalfile /u/air47/airops/685/ts0685_l.glb /u/air47/airops/685/ts0685_l.glb 32 deskew line ra ha trc: -552.2505 -1074 9465.095 8391.100 59.86913 lat1 lon1: -1074 44.45876 -121.6837 46112 lati loni: 45038 44.63287 -121.4901 45038 2560 lati loni: 21982 44.54453 -121.5899 21982 1280 Updated paramater header in /u/air40/airops/685/ts0685_l.vh_j WAYNE FINAL PROCESS 542.7818340063095 ********************************************* ***** ***** ***** 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 8384 2 8384 2 8384 2 4192 1 4192 1 4192 1 4192 1 4192 1 Name of data file to be deskewed? /u/air40/airops/685/ts0685_l.vh_j Name of the doppler parameter file? /u/air47/airops/685/ts0685_l.dop Name of the deskew file? /u/air40/airops/685/deskew.lv Line up to another frequency [y/n]? y Name of the deskew file to line up to? /u/air40/airops/685/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? /u/air47/airops/685/ts0685_l.vh Name of the line output file? /u/air47/airops/685/l_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 2.997025966644287 Deskewing 11 patches Processing block number 1 DEBUG -4893 -1074.015 -4892.488 0.0000000E+00 0.0000000E+00 patch iptc,sj,dgj,dgi,id: 1 1068 -4893 -4893 0 half line dmj dgc: 0 2001 -1075 -4904 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1068 1 Zeroing lines in arrays Total # of output lines = 1 1067 1068 3164 0 2096 patch iptc,sj,dgj,dgi,id: 1 3164 -4893 -4893 2096 half line dmj dgc: 1 2001 -1075 -4904 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3164 1068 Zeroing lines in arrays Total # of output lines = 1 3163 Processing block number 2 DEBUG -4892 -1082.752 -4891.265 0.0000000E+00 0.0000000E+00 3164 4561 1 1396 patch iptc,sj,dgj,dgi,id: 2 4561 -4892 -4893 1396 half line dmj dgc: 0 5493 -1083 -4904 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 4561 3164 Zeroing lines in arrays Total # of output lines = 2 4560 4561 6657 0 2096 patch iptc,sj,dgj,dgi,id: 2 6657 -4892 -4892 2096 half line dmj dgc: 1 5493 -1083 -4904 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 6657 4561 Zeroing lines in arrays Total # of output lines = 2 6656 Processing block number 3 DEBUG -4890 -1093.602 -4888.946 0.0000000E+00 0.0000000E+00 6657 8055 2 1396 patch iptc,sj,dgj,dgi,id: 3 8055 -4890 -4892 1396 half line dmj dgc: 0 8985 -1094 -4904 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 8055 6657 Zeroing lines in arrays Total # of output lines = 3 8054 8055 10151 0 2096 patch iptc,sj,dgj,dgi,id: 3 10151 -4890 -4890 2096 half line dmj dgc: 1 8985 -1094 -4904 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 10151 8055 Zeroing lines in arrays Total # of output lines = 3 10150 Processing block number 4 DEBUG -4878 -1100.305 -4877.111 0.0000000E+00 0.0000000E+00 10151 11559 12 1396 patch iptc,sj,dgj,dgi,id: 4 11559 -4878 -4890 1396 half line dmj dgc: 0 12477 -1101 -4904 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 11559 10151 Zeroing lines in arrays Total # of output lines = 4 11558 11559 13655 0 2096 patch iptc,sj,dgj,dgi,id: 4 1367 -4878 -4878 2096 half line dmj dgc: 1 12477 -1101 -4904 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 s1>sj: 11559 1367 Zeroing lines in arrays Total # of output lines = 4 13654 Processing block number 5 DEBUG -4861 -1101.421 -4859.901 0.0000000E+00 0.0000000E+00 1367 2780 17 1396 patch iptc,sj,dgj,dgi,id: 5 2780 -4861 -4878 1396 half line dmj dgc: 0 15969 -1102 -4904 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 2780 1367 Zeroing lines in arrays Total # of output lines = 5 15067 2780 4876 0 2096 patch iptc,sj,dgj,dgi,id: 5 4876 -4861 -4861 2096 half line dmj dgc: 1 15969 -1102 -4904 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 sj>s1: 4876 2780 Zeroing lines in arrays Total # of output lines = 5 17163 Processing block number 6 DEBUG -4842 -1094.951 -4841.851 0.0000000E+00 0.0000000E+00 4876 6291 19 1396 patch iptc,sj,dgj,dgi,id: 6 6291 -4842 -4861 1396 half line dmj dgc: 0 19461 -1096 -4904 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 6291 4876 Zeroing lines in arrays Total # of output lines = 6 18578 6291 8387 0 2096 patch iptc,sj,dgj,dgi,id: 6 8387 -4842 -4842 2096 half line dmj dgc: 1 19461 -1096 -4904 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 8387 6291 Zeroing lines in arrays Total # of output lines = 6 20674 Processing block number 7 DEBUG -4842 -1083.316 -4841.159 0.0000000E+00 0.0000000E+00 8387 9783 0 1396 patch iptc,sj,dgj,dgi,id: 7 9783 -4842 -4842 1396 half line dmj dgc: 0 22953 -1084 -4904 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 9783 8387 Zeroing lines in arrays Total # of output lines = 7 22070 9783 11879 0 2096 patch iptc,sj,dgj,dgi,id: 7 11879 -4842 -4842 2096 half line dmj dgc: 1 22953 -1084 -4904 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 11879 9783 Zeroing lines in arrays Total # of output lines = 7 24166 Processing block number 8 DEBUG -4857 -1076.421 -4856.269 0.0000000E+00 0.0000000E+00 11879 13260 -15 1396 patch iptc,sj,dgj,dgi,id: 8 972 -4857 -4842 1396 half line dmj dgc: 0 26445 -1077 -4904 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 s1>sj: 11879 972 Zeroing lines in arrays Total # of output lines = 8 25547 972 3068 0 2096 patch iptc,sj,dgj,dgi,id: 8 3068 -4857 -4857 2096 half line dmj dgc: 1 26445 -1077 -4904 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 sj>s1: 3068 972 Zeroing lines in arrays Total # of output lines = 8 27643 Processing block number 9 DEBUG -4864 -1071.409 -4863.388 0.0000000E+00 0.0000000E+00 3068 4457 -7 1396 patch iptc,sj,dgj,dgi,id: 9 4457 -4864 -4857 1396 half line dmj dgc: 0 29937 -1072 -4904 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 4457 3068 Zeroing lines in arrays Total # of output lines = 9 29032 4457 6553 0 2096 patch iptc,sj,dgj,dgi,id: 9 6553 -4864 -4864 2096 half line dmj dgc: 1 29937 -1072 -4904 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 6553 4457 Zeroing lines in arrays Total # of output lines = 9 31128 Processing block number 10 DEBUG -4841 -1057.292 -4840.690 0.0000000E+00 0.0000000E+00 6553 7972 23 1396 patch iptc,sj,dgj,dgi,id: 10 7972 -4841 -4864 1396 half line dmj dgc: 0 33429 -1058 -4904 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 7972 6553 Zeroing lines in arrays Total # of output lines = 10 32547 7972 10068 0 2096 patch iptc,sj,dgj,dgi,id: 10 10068 -4841 -4841 2096 half line dmj dgc: 1 33429 -1058 -4904 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 sj>s1: 10068 7972 Zeroing lines in arrays Total # of output lines = 10 34643 Processing block number 11 DEBUG -4805 -1041.878 -4804.194 0.0000000E+00 0.0000000E+00 10068 10387 36 283 patch iptc,sj,dgj,dgi,id: 11 10387 -4805 -4841 283 half line dmj dgc: 0 35808 -1042 -4904 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 10387 10068 Zeroing lines in arrays Total # of output lines = 11 34962 10387 12483 0 2096 patch iptc,sj,dgj,dgi,id: 11 195 -4805 -4805 2096 half line dmj dgc: 1 35808 -1042 -4904 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 s1>sj: 10387 195 Zeroing lines in arrays Total # of output lines = 11 37058 ia dmi dgi: 195 -1042 -4805 Writing the last 5859 lines last half sj>s1 6054 195 37058 WAYNE done patche 100.3746299743652 Total # of output lines = 42917 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 42917 NUMBER OF BYTES PER SAMPLE = 8 JPL AIRCRAFT SAR PROCESSOR VERSION 6.10 DATA TYPE = COMPLEX RANGE PROJECTION = SLANT RANGE PIXEL SPACING (METERS) = 3.3310 AZIMUTH PIXEL SPACING (METERS) = 0.5144 BYTE OFFSET OF OLD HEADER = 0 BYTE OFFSET OF USER HEADER = 0 BYTE OFFSET OF FIRST DATA RECORD = 40960 BYTE OFFSET OF PARAMETER HEADER = 20480 LINE FORMAT OF DATA = RANGE BYTE OFFSET OF CALIBRATION HEADER = 0 BYTE OFFSET OF DEM HEADER = 0 Closing files .. WAYNE done total 100.9394109249115 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 5.02 ***** ***** ***** ********************************************* 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. /u/air40/airops/685/sensor.vv98l Please enter the name of the parameter file /u/air47/airops/685/ts0685_l.par hddt: 98023 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 42000 lines Keeping 4192 data points per patch Near range (m) = 9462.950 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) = 5.000000 Chirp bandwidth (MHz) = 40.00000 Ashift = 0.0000000E+00 Range weighting coefficient = 0.1000000 Map height (m) = 1155.900 Transmit leverarm x,y,z = 0.5410946 0.5174593 -0.2429344 Receive leverarm x,y,z = 0.5410946 0.5174593 -0.2429344 Name of raw data file? /u/air40/airops/685/l_vv Name of the mocomp data file? /u/air47/airops/685/ts0685_l.mocompv Output file name w/o ext? /u/air47/airops/685/ts0685_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:/u/air40/airops/685/ output filename:/u/air40/airops/685/ts0685_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? /u/air40/airops/685/deskew.lv WAYNE init fft, calc slant range, load unpack, interpo 1.2946002E-02 reading motion compensation data WAYNE read motion compen 0.9007480 write parameters ... analog chirp >/ 96032 98023 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.2838601 start range comp, time = 1.270 WAYNE PREV 1.211068 NUMBER OF PROCESSOR USED = 8 POINTER 288239859439501312 288521334416211968 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 5 ..... WAYNE IS IN Processing 8 to 8 by # 4 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 1.440 seconds. before reading done reading WAYNE load raw data , time = 45.66858398914337 ATTN ifrq ipol ln 4 4 32636 13.00000 IPOL, ITOP nblock 4 0 8 WAYNE Motion comp. coeff. calculated, time = 1.0197997093200684E-02 WAYNE Motion comp. added to patch, time = 14.56794905662537 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.2139549255371094E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 174.6620860099792 Writing 4192 lines of data to file WAYNE write output data 1.250455975532532 ==w out 8 0 2001 0 WAYNE PROCESS 236.1625170707703 ==w out 9 4195 PROCESSING KID# 6 ..... WAYNE IS IN Processing 9 to 9 by # 5 Processing block number 9 WAYNE PATCHES: 27937 36128 patch# 9 reference line: 32032 1.448 seconds. before reading done reading WAYNE load raw data , time = 45.89579606056213 ATTN ifrq ipol ln 4 4 36128 13.00000 IPOL, ITOP nblock 4 0 9 WAYNE Motion comp. coeff. calculated, time = 1.0401010513305664E-02 WAYNE Motion comp. added to patch, time = 14.49818396568298 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.3560523986816406E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 174.4608050584793 Writing 4192 lines of data to file WAYNE write output data 1.304225921630859 ==w out 9 0 2001 0 WAYNE PROCESS 236.1726819276810 ==w out 10 4195 PROCESSING KID# 7 ..... WAYNE IS IN Processing 10 to 10 by # 6 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 1.463 seconds. before reading done reading WAYNE load raw data , time = 46.34504497051239 ATTN ifrq ipol ln 4 4 39620 13.00000 IPOL, ITOP nblock 4 0 10 WAYNE Motion comp. coeff. calculated, time = 1.0408997535705566E-02 WAYNE Motion comp. added to patch, time = 14.63845503330231 WAYNE Doppler estimation done, time = 1.1920928955078125E-05 WAYNE write deskew done, time = 2.4390220642089844E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 174.8216459751129 Writing 4192 lines of data to file WAYNE write output data 1.116218924522400 ==w out 10 0 2001 0 WAYNE PROCESS 236.9355489015579 ==w out 11 4195 PROCESSING KID# 8 ..... WAYNE IS IN Processing 11 to 11 by # 7 Processing block number 11 WAYNE PATCHES: 33808 41999 patch# 11 reference line: 37903 1.464 seconds. before reading done reading WAYNE load raw data , time = 46.10632503032684 ATTN ifrq ipol ln 4 4 41999 13.00000 IPOL, ITOP nblock 4 0 11 WAYNE Motion comp. coeff. calculated, time = 9.8330974578857422E-03 WAYNE Motion comp. added to patch, time = 14.81418991088867 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.2109746932983398E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 176.6601879596710 Writing 4192 lines of data to file WAYNE write output data 0.9757059812545776 ==w out 11 0 2001 0 WAYNE PROCESS 238.5695250034332 ==w out 12 4195 PROCESSING KID# 4 ..... WAYNE IS IN Processing 7 to 7 by # 3 Processing block number 7 WAYNE PATCHES: 20953 29144 patch# 7 reference line: 25048 1.432 seconds. before reading done reading WAYNE load raw data , time = 47.13467407226563 ATTN ifrq ipol ln 4 4 29144 13.00000 IPOL, ITOP nblock 4 0 7 WAYNE Motion comp. coeff. calculated, time = 1.0503053665161133E-02 WAYNE Motion comp. added to patch, time = 15.64671897888184 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 9.5249414443969727E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 175.0475859642029 Writing 4192 lines of data to file WAYNE write output data 0.9677929878234863 ==w out 7 0 2001 0 WAYNE PROCESS 238.8179920911789 ==w out 8 4195 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 2 by # 0 Processing block number 1 TESTING WHY -0.1690470 2.2242401E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 1.410 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 46.22528910636902 ATTN ifrq ipol ln 4 4 8192 13.00000 IPOL, ITOP nblock 4 0 1 WAYNE Motion comp. coeff. calculated, time = 9.7730159759521484E-03 TESTING 0.0000000E+00 -0.5833158 -0.9976590 WAYNE Motion comp. added to patch, time = 14.92902696132660 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.2629499435424805E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -0.5833158 -0.9976590 HEY,dt,fract,ye,pe 0.0000000E+00 1.000000 -0.1690470 2.2242401E-02 WAYNE Azimuth compression done, time = 174.1997900009155 Writing 4192 lines of data to file WAYNE write output data 1.227607011795044 ==w out 1 0 2001 0 WAYNE PROCESS 236.5947990417480 Processing block number 2 TESTING WHY -0.1686140 2.1502599E-02 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 238.005 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 76.26229298114777 ATTN ifrq ipol ln 4 4 11684 13.00000 IPOL, ITOP nblock 4 0 2 WAYNE Motion comp. coeff. calculated, time = 9.5549821853637695E-03 TESTING 0.0000000E+00 1.403324 -1.537374 WAYNE Motion comp. added to patch, time = 13.70508897304535 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.6372909545898438E-02 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 1.403324 -1.537374 HEY,dt,fract,ye,pe 0.0000000E+00 1.000000 -0.1686140 2.1502599E-02 WAYNE Azimuth compression done, time = 159.4443700313568 Writing 4192 lines of data to file WAYNE write output data 0.9008409976959229 ==w out 2 4192 2001 85852160 WAYNE PROCESS 250.3493570089340 ==w out 3 8387 PROCESSING KID# 2 ..... WAYNE IS IN Processing 3 to 4 by # 1 Processing block number 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 1.418 seconds. before reading done reading WAYNE load raw data , time = 45.66181600093842 ATTN ifrq ipol ln 4 4 15176 13.00000 IPOL, ITOP nblock 4 0 3 WAYNE Motion comp. coeff. calculated, time = 1.0172009468078613E-02 WAYNE Motion comp. added to patch, time = 14.54395997524261 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.2600889205932617E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 174.2995390892029 Writing 4192 lines of data to file WAYNE write output data 1.170014023780823 ==w out 3 0 2001 0 WAYNE PROCESS 235.6887800693512 Processing block number 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 237.107 seconds. before reading done reading WAYNE load raw data , time = 77.21614706516266 ATTN ifrq ipol ln 4 4 18668 13.00000 IPOL, ITOP nblock 4 0 4 WAYNE Motion comp. coeff. calculated, time = 9.6380710601806641E-03 WAYNE Motion comp. added to patch, time = 13.48198592662811 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.6252031326293945E-02 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 175.7867799997330 Writing 4192 lines of data to file WAYNE write output data 1.025478005409241 ==w out 4 4192 2001 85852160 WAYNE PROCESS 267.5472220182419 ==w out 5 8387 PROCESSING KID# 3 ..... WAYNE IS IN Processing 5 to 6 by # 2 Processing block number 5 WAYNE PATCHES: 13969 22160 patch# 5 reference line: 18064 1.424 seconds. before reading done reading WAYNE load raw data , time = 46.22832989692688 ATTN ifrq ipol ln 4 4 22160 13.00000 IPOL, ITOP nblock 4 0 5 WAYNE Motion comp. coeff. calculated, time = 1.0233044624328613E-02 WAYNE Motion comp. added to patch, time = 14.77420604228973 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.2460222244262695E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 174.1778589487076 Writing 4192 lines of data to file WAYNE write output data 1.369603037834167 ==w out 5 0 2001 0 WAYNE PROCESS 236.5636630058289 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 237.988 seconds. before reading done reading WAYNE load raw data , time = 76.32341504096985 ATTN ifrq ipol ln 4 4 25652 13.00000 IPOL, ITOP nblock 4 0 6 WAYNE Motion comp. coeff. calculated, time = 9.6499919891357422E-03 WAYNE Motion comp. added to patch, time = 13.92599499225616 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 2.0625948905944824E-02 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 175.8244138956070 Writing 4192 lines of data to file WAYNE write output data 1.023729920387268 ==w out 6 4192 2001 85852160 WAYNE PROCESS 267.1287579536438 ==w out 7 8387 1 4873227 0 2 4873053 0 3 4872971 0 4 4872815 0 5 4873077 0 6 4872985 0 7 4872800 0 8 4873052 0 PROCESSING COMPLETED POINTER 288239859439501312 288521334416211968 icnt = 46112kids= 8 Writing variable header... gather image from processor # 0 2 gather image from processor # 1 2 gather image from processor # 2 2 gather image from processor # 3 1 gather image from processor # 4 1 gather image from processor # 5 1 gather image from processor # 6 1 gather image from processor # 7 1 WAYNE gather images takes: 9.3037962913513184E-02 WAYNE LOOP TIME: 512.3281849622726 update sarfile,mocompfile,dopfile,glbfile,N_RA: /u/air40/airops/685/ts0685_l.vv_j /u/air47/airops/685/ts0685_l.mocompv /u/air47/airops/685/ts0685_l.dop /u/air47/airops/685/ts0685_l.glb 2560 46112 update intf hdr ha: 8391.100 UPDATE: 2560 46112 3.331000 0.5144000 mocompfile /u/air47/airops/685/ts0685_l.mocompv dopfile /u/air47/airops/685/ts0685_l.dop globalfile /u/air47/airops/685/ts0685_l.glb /u/air47/airops/685/ts0685_l.glb 32 deskew line ra ha trc: -552.2505 -1074 9465.095 8391.100 59.86913 lat1 lon1: -1074 44.45876 -121.6837 46112 lati loni: 45038 44.63287 -121.4901 45038 2560 lati loni: 21982 44.54453 -121.5899 21982 1280 Updated paramater header in /u/air40/airops/685/ts0685_l.vv_j WAYNE FINAL PROCESS 513.6850559711456 ********************************************* ***** ***** ***** 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 8384 2 8384 2 8384 2 4192 1 4192 1 4192 1 4192 1 4192 1 Name of data file to be deskewed? /u/air40/airops/685/ts0685_l.vv_j Name of the doppler parameter file? /u/air47/airops/685/ts0685_l.dop Name of the deskew file? /u/air40/airops/685/deskew.lv Line up to another frequency [y/n]? y Name of the deskew file to line up to? /u/air40/airops/685/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? /u/air47/airops/685/ts0685_l.vv Name of the line output file? /u/air47/airops/685/l_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 3.065092086791992 Deskewing 11 patches Processing block number 1 DEBUG -4893 -1074.035 -4892.507 0.0000000E+00 0.0000000E+00 patch iptc,sj,dgj,dgi,id: 1 1068 -4893 -4893 0 half line dmj dgc: 0 2001 -1075 -4904 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1068 1 Zeroing lines in arrays Total # of output lines = 1 1067 1068 3164 0 2096 patch iptc,sj,dgj,dgi,id: 1 3164 -4893 -4893 2096 half line dmj dgc: 1 2001 -1075 -4904 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 3164 1068 Zeroing lines in arrays Total # of output lines = 1 3163 Processing block number 2 DEBUG -4892 -1082.772 -4891.284 0.0000000E+00 0.0000000E+00 3164 4561 1 1396 patch iptc,sj,dgj,dgi,id: 2 4561 -4892 -4893 1396 half line dmj dgc: 0 5493 -1083 -4904 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 4561 3164 Zeroing lines in arrays Total # of output lines = 2 4560 4561 6657 0 2096 patch iptc,sj,dgj,dgi,id: 2 6657 -4892 -4892 2096 half line dmj dgc: 1 5493 -1083 -4904 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 6657 4561 Zeroing lines in arrays Total # of output lines = 2 6656 Processing block number 3 DEBUG -4890 -1093.621 -4888.966 0.0000000E+00 0.0000000E+00 6657 8055 2 1396 patch iptc,sj,dgj,dgi,id: 3 8055 -4890 -4892 1396 half line dmj dgc: 0 8985 -1094 -4904 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 8055 6657 Zeroing lines in arrays Total # of output lines = 3 8054 8055 10151 0 2096 patch iptc,sj,dgj,dgi,id: 3 10151 -4890 -4890 2096 half line dmj dgc: 1 8985 -1094 -4904 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 10151 8055 Zeroing lines in arrays Total # of output lines = 3 10150 Processing block number 4 DEBUG -4878 -1100.324 -4877.131 0.0000000E+00 0.0000000E+00 10151 11559 12 1396 patch iptc,sj,dgj,dgi,id: 4 11559 -4878 -4890 1396 half line dmj dgc: 0 12477 -1101 -4904 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 11559 10151 Zeroing lines in arrays Total # of output lines = 4 11558 11559 13655 0 2096 patch iptc,sj,dgj,dgi,id: 4 1367 -4878 -4878 2096 half line dmj dgc: 1 12477 -1101 -4904 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 s1>sj: 11559 1367 Zeroing lines in arrays Total # of output lines = 4 13654 Processing block number 5 DEBUG -4861 -1101.440 -4859.921 0.0000000E+00 0.0000000E+00 1367 2780 17 1396 patch iptc,sj,dgj,dgi,id: 5 2780 -4861 -4878 1396 half line dmj dgc: 0 15969 -1102 -4904 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 2780 1367 Zeroing lines in arrays Total # of output lines = 5 15067 2780 4876 0 2096 patch iptc,sj,dgj,dgi,id: 5 4876 -4861 -4861 2096 half line dmj dgc: 1 15969 -1102 -4904 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 sj>s1: 4876 2780 Zeroing lines in arrays Total # of output lines = 5 17163 Processing block number 6 DEBUG -4842 -1094.970 -4841.871 0.0000000E+00 0.0000000E+00 4876 6291 19 1396 patch iptc,sj,dgj,dgi,id: 6 6291 -4842 -4861 1396 half line dmj dgc: 0 19461 -1096 -4904 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 6291 4876 Zeroing lines in arrays Total # of output lines = 6 18578 6291 8387 0 2096 patch iptc,sj,dgj,dgi,id: 6 8387 -4842 -4842 2096 half line dmj dgc: 1 19461 -1096 -4904 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 8387 6291 Zeroing lines in arrays Total # of output lines = 6 20674 Processing block number 7 DEBUG -4842 -1083.335 -4841.178 0.0000000E+00 0.0000000E+00 8387 9783 0 1396 patch iptc,sj,dgj,dgi,id: 7 9783 -4842 -4842 1396 half line dmj dgc: 0 22953 -1084 -4904 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 9783 8387 Zeroing lines in arrays Total # of output lines = 7 22070 9783 11879 0 2096 patch iptc,sj,dgj,dgi,id: 7 11879 -4842 -4842 2096 half line dmj dgc: 1 22953 -1084 -4904 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 11879 9783 Zeroing lines in arrays Total # of output lines = 7 24166 Processing block number 8 DEBUG -4857 -1076.440 -4856.288 0.0000000E+00 0.0000000E+00 11879 13260 -15 1396 patch iptc,sj,dgj,dgi,id: 8 972 -4857 -4842 1396 half line dmj dgc: 0 26445 -1077 -4904 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 s1>sj: 11879 972 Zeroing lines in arrays Total # of output lines = 8 25547 972 3068 0 2096 patch iptc,sj,dgj,dgi,id: 8 3068 -4857 -4857 2096 half line dmj dgc: 1 26445 -1077 -4904 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 sj>s1: 3068 972 Zeroing lines in arrays Total # of output lines = 8 27643 Processing block number 9 DEBUG -4864 -1071.428 -4863.407 0.0000000E+00 0.0000000E+00 3068 4457 -7 1396 patch iptc,sj,dgj,dgi,id: 9 4457 -4864 -4857 1396 half line dmj dgc: 0 29937 -1072 -4904 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 4457 3068 Zeroing lines in arrays Total # of output lines = 9 29032 4457 6553 0 2096 patch iptc,sj,dgj,dgi,id: 9 6553 -4864 -4864 2096 half line dmj dgc: 1 29937 -1072 -4904 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 6553 4457 Zeroing lines in arrays Total # of output lines = 9 31128 Processing block number 10 DEBUG -4841 -1057.311 -4840.709 0.0000000E+00 0.0000000E+00 6553 7972 23 1396 patch iptc,sj,dgj,dgi,id: 10 7972 -4841 -4864 1396 half line dmj dgc: 0 33429 -1058 -4904 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 7972 6553 Zeroing lines in arrays Total # of output lines = 10 32547 7972 10068 0 2096 patch iptc,sj,dgj,dgi,id: 10 10068 -4841 -4841 2096 half line dmj dgc: 1 33429 -1058 -4904 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 sj>s1: 10068 7972 Zeroing lines in arrays Total # of output lines = 10 34643 Processing block number 11 DEBUG -4805 -1041.898 -4804.213 0.0000000E+00 0.0000000E+00 10068 10387 36 283 patch iptc,sj,dgj,dgi,id: 11 10387 -4805 -4841 283 half line dmj dgc: 0 35808 -1042 -4904 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 10387 10068 Zeroing lines in arrays Total # of output lines = 11 34962 10387 12483 0 2096 patch iptc,sj,dgj,dgi,id: 11 195 -4805 -4805 2096 half line dmj dgc: 1 35808 -1042 -4904 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 s1>sj: 10387 195 Zeroing lines in arrays Total # of output lines = 11 37058 ia dmi dgi: 195 -1042 -4805 Writing the last 5859 lines last half sj>s1 6054 195 37058 WAYNE done patche 65.52767503261566 Total # of output lines = 42917 Writing new header.. RECORD LENGTH IN BYTES = 20480 NUMBER OF HEADER RECORDS = 2 NUMBER OF SAMPLES PER RECORD = 2560 NUMBER OF LINES IN IMAGE = 42917 NUMBER OF BYTES PER SAMPLE = 8 JPL AIRCRAFT SAR PROCESSOR VERSION 6.10 DATA TYPE = COMPLEX RANGE PROJECTION = SLANT RANGE PIXEL SPACING (METERS) = 3.3310 AZIMUTH PIXEL SPACING (METERS) = 0.5144 BYTE OFFSET OF OLD HEADER = 0 BYTE OFFSET OF USER HEADER = 0 BYTE OFFSET OF FIRST DATA RECORD = 40960 BYTE OFFSET OF PARAMETER HEADER = 20480 LINE FORMAT OF DATA = RANGE BYTE OFFSET OF CALIBRATION HEADER = 0 BYTE OFFSET OF DEM HEADER = 0 Closing files .. WAYNE done total 66.06843602657318 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.9597319 66.30463 1146 0.000 3046 -0.313 66.30463 0.000022 0.000093 0.000006 r_peak,r_snr = 0.9601191 36.25274 1246 0.000 3046 -0.313 36.25274 0.000024 0.000103 0.000008 r_peak,r_snr = 0.9645299 59.81452 1346 -0.031 3046 -0.281 59.81452 0.000021 0.000096 0.000007 r_peak,r_snr = 0.9670391 61.17868 1446 -0.031 3046 -0.281 61.17868 0.000020 0.000080 0.000005 r_peak,r_snr = 0.9632341 59.29181 1546 0.000 3046 -0.250 59.29181 0.000020 0.000092 0.000007 r_peak,r_snr = 0.9596261 91.46673 1646 -0.031 3046 -0.250 91.46673 0.000021 0.000083 0.000005 r_peak,r_snr = 0.9585247 56.57249 1746 0.000 3046 -0.281 56.57249 0.000023 0.000104 0.000007 r_peak,r_snr = 0.9488183 72.90720 1846 0.000 3046 -0.250 72.90720 0.000029 0.000117 0.000009 r_peak,r_snr = 0.9502531 78.95353 1946 -0.031 3046 -0.188 78.95353 0.000025 0.000109 0.000008 r_peak,r_snr = 0.9643635 51.18941 2046 -0.031 3046 -0.250 51.18941 0.000021 0.000089 0.000008 At line = 3400 Reading in data.... r_peak,r_snr = 0.9543772 61.75829 846 -0.031 3446 -0.313 61.75829 0.000027 0.000114 0.000012 r_peak,r_snr = 0.9568231 33.18336 946 0.000 3446 -0.344 33.18336 0.000025 0.000109 0.000008 r_peak,r_snr = 0.9678751 58.85953 1046 0.000 3446 -0.313 58.85953 0.000019 0.000085 0.000006 r_peak,r_snr = 0.9563143 73.83670 1146 0.000 3446 -0.313 73.83670 0.000022 0.000098 0.000007 r_peak,r_snr = 0.9702128 43.98515 1246 0.000 3446 -0.281 43.98515 0.000018 0.000084 0.000006 r_peak,r_snr = 0.9634260 69.22330 1346 0.000 3446 -0.313 69.22330 0.000020 0.000082 0.000007 r_peak,r_snr = 0.9636564 61.65981 1446 0.000 3446 -0.313 61.65981 0.000020 0.000086 0.000008 r_peak,r_snr = 0.9666300 50.54453 1546 -0.031 3446 -0.250 50.54453 0.000020 0.000085 0.000008 r_peak,r_snr = 0.9618664 77.48949 1646 0.000 3446 -0.281 77.48949 0.000020 0.000077 0.000006 r_peak,r_snr = 0.9628885 69.93685 1746 0.000 3446 -0.250 69.93685 0.000020 0.000095 0.000007 r_peak,r_snr = 0.9499102 60.47837 1846 0.000 3446 -0.250 60.47837 0.000027 0.000116 0.000009 r_peak,r_snr = 0.9294497 91.30529 1946 -0.031 3446 -0.250 91.30529 0.000035 0.000161 0.000007 r_peak,r_snr = 0.9604019 78.83218 2046 0.000 3446 -0.250 78.83218 0.000021 0.000092 0.000007 At line = 3800 Reading in data.... r_peak,r_snr = 0.9491009 83.04970 646 0.000 3846 -0.406 83.04970 0.000026 0.000117 0.000008 r_peak,r_snr = 0.9519978 46.82166 746 0.000 3846 -0.406 46.82166 0.000029 0.000122 0.000010 r_peak,r_snr = 0.9579799 79.24393 846 -0.031 3846 -0.344 79.24393 0.000022 0.000098 0.000005 r_peak,r_snr = 0.9604773 69.93095 946 -0.031 3846 -0.344 69.93095 0.000022 0.000100 0.000006 r_peak,r_snr = 0.9652035 81.29807 1046 0.000 3846 -0.313 81.29807 0.000017 0.000081 0.000006 r_peak,r_snr = 0.9611980 69.35390 1146 0.000 3846 -0.313 69.35390 0.000020 0.000096 0.000007 r_peak,r_snr = 0.9568498 55.00494 1246 0.000 3846 -0.344 55.00494 0.000023 0.000098 0.000008 r_peak,r_snr = 0.9664213 63.84296 1346 0.000 3846 -0.281 63.84296 0.000020 0.000074 0.000005 r_peak,r_snr = 0.9594510 65.17247 1446 -0.031 3846 -0.250 65.17247 0.000021 0.000097 0.000008 r_peak,r_snr = 0.9641486 75.50948 1546 -0.031 3846 -0.250 75.50948 0.000019 0.000085 0.000008 r_peak,r_snr = 0.9625183 28.28043 1646 -0.031 3846 -0.219 28.28043 0.000024 0.000107 0.000009 r_peak,r_snr = 0.9624459 69.90693 1746 0.000 3846 -0.281 69.90693 0.000021 0.000087 0.000007 r_peak,r_snr = 0.9677022 21.90320 1846 0.000 3846 -0.219 21.90320 0.000022 0.000092 0.000009 r_peak,r_snr = 0.9452811 61.26466 1946 0.000 3846 -0.219 61.26466 0.000031 0.000141 0.000015 r_peak,r_snr = 0.9637738 83.23338 2046 -0.031 3846 -0.219 83.23338 0.000019 0.000084 0.000006 At line = 4200 Reading in data.... r_peak,r_snr = 0.9547472 35.17530 446 0.000 4246 -0.375 35.17530 0.000028 0.000132 0.000008 r_peak,r_snr = 0.9580842 58.12585 546 0.000 4246 -0.406 58.12585 0.000024 0.000107 0.000007 r_peak,r_snr = 0.9597339 49.38773 646 0.000 4246 -0.375 49.38773 0.000024 0.000090 0.000006 r_peak,r_snr = 0.9491956 73.73655 746 0.000 4246 -0.406 73.73655 0.000027 0.000118 0.000006 r_peak,r_snr = 0.9568292 63.65530 846 0.000 4246 -0.375 63.65530 0.000024 0.000103 0.000008 r_peak,r_snr = 0.9627120 31.26734 946 0.000 4246 -0.344 31.26734 0.000021 0.000096 0.000006 r_peak,r_snr = 0.9511467 51.87106 1046 0.000 4246 -0.313 51.87106 0.000026 0.000110 0.000008 r_peak,r_snr = 0.9664070 48.71529 1146 -0.031 4246 -0.313 48.71529 0.000020 0.000090 0.000007 r_peak,r_snr = 0.9671632 30.42388 1246 0.000 4246 -0.313 30.42388 0.000021 0.000090 0.000006 r_peak,r_snr = 0.9685475 41.27588 1346 0.000 4246 -0.281 41.27588 0.000020 0.000083 0.000004 r_peak,r_snr = 0.9600942 67.03969 1446 -0.031 4246 -0.281 67.03969 0.000022 0.000094 0.000008 r_peak,r_snr = 0.9649554 66.34599 1546 -0.031 4246 -0.281 66.34599 0.000019 0.000084 0.000006 r_peak,r_snr = 0.9599296 93.27209 1646 -0.031 4246 -0.281 93.27209 0.000020 0.000081 0.000006 r_peak,r_snr = 0.9687039 41.84879 1746 0.000 4246 -0.281 41.84879 0.000018 0.000077 0.000006 r_peak,r_snr = 0.9702811 26.27209 1846 0.000 4246 -0.250 26.27209 0.000021 0.000092 0.000007 r_peak,r_snr = 0.9594461 45.64223 1946 -0.031 4246 -0.250 45.64223 0.000025 0.000121 0.000008 r_peak,r_snr = 0.9566287 78.43428 2046 -0.031 4246 -0.281 78.43428 0.000022 0.000104 0.000006 At line = 4600 Reading in data.... r_peak,r_snr = 0.9344910 80.06917 246 0.031 4646 -0.438 80.06917 0.000035 0.000161 0.000007 r_peak,r_snr = 0.9358733 75.30278 346 0.000 4646 -0.469 75.30278 0.000033 0.000150 0.000007 r_peak,r_snr = 0.9388881 83.79298 446 0.000 4646 -0.438 83.79298 0.000031 0.000140 0.000008 r_peak,r_snr = 0.9487624 89.20302 546 0.000 4646 -0.406 89.20302 0.000026 0.000104 0.000008 r_peak,r_snr = 0.9641455 35.15028 646 0.000 4646 -0.375 35.15028 0.000022 0.000103 0.000004 r_peak,r_snr = 0.9505978 66.41760 746 0.000 4646 -0.375 66.41760 0.000030 0.000111 0.000008 r_peak,r_snr = 0.9568728 71.66216 846 0.000 4646 -0.344 71.66216 0.000022 0.000097 0.000007 r_peak,r_snr = 0.9564683 82.55374 946 0.000 4646 -0.344 82.55374 0.000022 0.000095 0.000008 r_peak,r_snr = 0.9618098 69.81837 1046 0.000 4646 -0.313 69.81837 0.000019 0.000085 0.000007 r_peak,r_snr = 0.9645765 41.81232 1146 0.000 4646 -0.313 41.81232 0.000021 0.000091 0.000007 r_peak,r_snr = 0.9565446 52.17836 1246 -0.031 4646 -0.344 52.17836 0.000025 0.000099 0.000008 r_peak,r_snr = 0.9710834 22.86944 1346 0.000 4646 -0.281 22.86944 0.000020 0.000082 0.000005 r_peak,r_snr = 0.9627418 68.61942 1446 -0.031 4646 -0.281 68.61942 0.000019 0.000091 0.000007 r_peak,r_snr = 0.9683305 72.24855 1546 -0.031 4646 -0.219 72.24855 0.000016 0.000079 0.000005 r_peak,r_snr = 0.9619460 89.55153 1646 0.000 4646 -0.281 89.55153 0.000018 0.000077 0.000007 r_peak,r_snr = 0.9695975 26.53391 1746 0.000 4646 -0.281 26.53391 0.000019 0.000085 0.000007 r_peak,r_snr = 0.9703832 28.06273 1846 0.000 4646 -0.250 28.06273 0.000020 0.000092 0.000008 r_peak,r_snr = 0.9544968 64.95177 1946 0.000 4646 -0.313 64.95177 0.000024 0.000115 0.000010 r_peak,r_snr = 0.9539011 80.60740 2046 -0.031 4646 -0.188 80.60740 0.000024 0.000103 0.000008 At line = 5000 Reading in data.... r_peak,r_snr = 0.9272993 74.73881 146 0.000 5046 -0.531 74.73881 0.000039 0.000177 0.000008 r_peak,r_snr = 0.9275216 80.39803 246 0.000 5046 -0.469 80.39803 0.000040 0.000170 0.000010 r_peak,r_snr = 0.9381265 78.98746 346 0.000 5046 -0.438 78.98746 0.000034 0.000139 0.000011 r_peak,r_snr = 0.9435719 68.49979 446 0.000 5046 -0.438 68.49979 0.000032 0.000134 0.000007 r_peak,r_snr = 0.9529722 77.53119 546 0.000 5046 -0.375 77.53119 0.000024 0.000110 0.000006 r_peak,r_snr = 0.9573981 86.49728 646 0.031 5046 -0.375 86.49728 0.000021 0.000090 0.000007 r_peak,r_snr = 0.9567952 65.87255 746 0.000 5046 -0.375 65.87255 0.000024 0.000105 0.000007 r_peak,r_snr = 0.9619466 57.49649 846 0.000 5046 -0.344 57.49649 0.000021 0.000093 0.000008 r_peak,r_snr = 0.9573482 44.32826 946 -0.031 5046 -0.313 44.32826 0.000028 0.000113 0.000009 r_peak,r_snr = 0.9694737 46.11152 1046 0.000 5046 -0.344 46.11152 0.000018 0.000079 0.000004 r_peak,r_snr = 0.9566294 48.09504 1146 0.000 5046 -0.313 48.09504 0.000028 0.000112 0.000007 r_peak,r_snr = 0.9673926 38.77793 1246 0.000 5046 -0.313 38.77793 0.000021 0.000091 0.000007 r_peak,r_snr = 0.9595490 25.79316 1346 0.000 5046 -0.313 25.79316 0.000025 0.000103 0.000008 r_peak,r_snr = 0.9653193 33.28010 1446 -0.031 5046 -0.250 33.28010 0.000020 0.000089 0.000006 r_peak,r_snr = 0.9736534 29.26221 1546 -0.031 5046 -0.250 29.26221 0.000019 0.000081 0.000006 r_peak,r_snr = 0.9663729 68.01160 1646 -0.031 5046 -0.250 68.01160 0.000017 0.000077 0.000007 r_peak,r_snr = 0.9709831 18.08575 1746 0.000 5046 -0.250 18.08575 0.000017 0.000073 0.000006 r_peak,r_snr = 0.9660920 39.56731 1846 0.000 5046 -0.250 39.56731 0.000021 0.000087 0.000007 r_peak,r_snr = 0.9683443 45.63411 1946 -0.031 5046 -0.219 45.63411 0.000019 0.000088 0.000006 r_peak,r_snr = 0.9547681 78.52579 2046 -0.031 5046 -0.250 78.52579 0.000024 0.000097 0.000005 At line = 5400 Reading in data.... r_peak,r_snr = 0.9263142 94.11115 146 0.031 5446 -0.563 94.11115 0.000037 0.000162 0.000003 r_peak,r_snr = 0.9389554 88.16582 246 0.000 5446 -0.469 88.16582 0.000032 0.000134 0.000008 r_peak,r_snr = 0.9403263 79.38162 346 0.000 5446 -0.438 79.38162 0.000031 0.000145 0.000009 r_peak,r_snr = 0.9479336 97.97890 446 0.000 5446 -0.406 97.97890 0.000027 0.000100 0.000007 r_peak,r_snr = 0.9490969 89.08834 546 0.000 5446 -0.406 89.08834 0.000026 0.000111 0.000008 r_peak,r_snr = 0.9615988 54.74662 646 0.000 5446 -0.344 54.74662 0.000023 0.000098 0.000006 r_peak,r_snr = 0.9607353 72.76080 746 -0.031 5446 -0.313 72.76080 0.000022 0.000095 0.000004 r_peak,r_snr = 0.9591475 65.57718 846 -0.031 5446 -0.281 65.57718 0.000022 0.000090 0.000007 r_peak,r_snr = 0.9668942 30.47553 946 -0.031 5446 -0.281 30.47553 0.000022 0.000093 0.000007 r_peak,r_snr = 0.9630365 34.61266 1046 0.000 5446 -0.313 34.61266 0.000024 0.000091 0.000007 r_peak,r_snr = 0.9627034 59.39045 1146 0.000 5446 -0.313 59.39045 0.000022 0.000087 0.000006 r_peak,r_snr = 0.9591900 62.87605 1246 0.000 5446 -0.313 62.87605 0.000022 0.000102 0.000008 r_peak,r_snr = 0.9770105 21.46005 1346 -0.031 5446 -0.219 21.46005 0.000015 0.000078 0.000004 r_peak,r_snr = 0.9635860 14.33012 1446 -0.031 5446 -0.250 14.33012 0.000026 0.000124 0.000009 r_peak,r_snr = 0.9665406 77.80228 1546 -0.031 5446 -0.250 77.80228 0.000017 0.000078 0.000006 r_peak,r_snr = 0.9649480 85.50041 1646 0.000 5446 -0.250 85.50041 0.000016 0.000068 0.000005 r_peak,r_snr = 0.9672442 29.91995 1746 -0.031 5446 -0.219 29.91995 0.000021 0.000099 0.000008 r_peak,r_snr = 0.9643912 54.12336 1846 0.000 5446 -0.156 54.12336 0.000022 0.000092 0.000006 r_peak,r_snr = 0.9588047 18.63770 1946 -0.031 5446 -0.281 18.63770 0.000027 0.000099 0.000008 r_peak,r_snr = 0.9542267 85.35217 2046 -0.031 5446 -0.250 85.35217 0.000023 0.000089 0.000008 At line = 5800 Reading in data.... r_peak,r_snr = 0.9287986 68.79387 146 0.000 5846 -0.563 68.79387 0.000041 0.000168 0.000005 r_peak,r_snr = 0.9382339 66.00304 246 0.031 5846 -0.469 66.00304 0.000034 0.000152 0.000007 r_peak,r_snr = 0.9405935 57.84280 346 0.031 5846 -0.500 57.84280 0.000034 0.000153 0.000009 r_peak,r_snr = 0.9449934 75.54073 446 0.000 5846 -0.438 75.54073 0.000029 0.000134 0.000010 r_peak,r_snr = 0.9531288 80.68198 546 0.000 5846 -0.406 80.68198 0.000023 0.000098 0.000004 r_peak,r_snr = 0.9589139 71.03458 646 0.000 5846 -0.375 71.03458 0.000023 0.000090 0.000007 r_peak,r_snr = 0.9578572 74.12589 746 -0.031 5846 -0.344 74.12589 0.000023 0.000096 0.000006 r_peak,r_snr = 0.9584556 62.40444 846 0.000 5846 -0.344 62.40444 0.000024 0.000098 0.000007 r_peak,r_snr = 0.9653718 67.81125 946 -0.031 5846 -0.313 67.81125 0.000019 0.000081 0.000004 r_peak,r_snr = 0.9697328 32.44441 1046 -0.031 5846 -0.281 32.44441 0.000019 0.000090 0.000007 r_peak,r_snr = 0.9638513 36.75240 1146 0.000 5846 -0.313 36.75240 0.000022 0.000093 0.000006 r_peak,r_snr = 0.9608466 67.02579 1246 0.000 5846 -0.344 67.02579 0.000022 0.000084 0.000007 r_peak,r_snr = 0.9634060 58.73410 1346 0.000 5846 -0.313 58.73410 0.000021 0.000089 0.000008 r_peak,r_snr = 0.9612527 59.06812 1446 -0.031 5846 -0.250 59.06812 0.000020 0.000090 0.000006 r_peak,r_snr = 0.9613627 59.41953 1546 -0.031 5846 -0.250 59.41953 0.000021 0.000096 0.000008 r_peak,r_snr = 0.9635925 68.15852 1646 0.000 5846 -0.281 68.15852 0.000021 0.000083 0.000005 r_peak,r_snr = 0.9689670 51.03851 1746 0.000 5846 -0.250 51.03851 0.000018 0.000077 0.000007 r_peak,r_snr = 0.9601045 73.66471 1846 0.000 5846 -0.281 73.66471 0.000020 0.000094 0.000009 r_peak,r_snr = 0.9578077 71.07879 1946 0.000 5846 -0.281 71.07879 0.000022 0.000094 0.000006 r_peak,r_snr = 0.9631272 59.01226 2046 -0.031 5846 -0.250 59.01226 0.000019 0.000083 0.000008 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.9192558 62.76100 1146 0.000 3046 -0.594 62.76100 0.000049 0.000205 0.000016 r_peak,r_snr = 0.9117591 33.30951 1246 -0.031 3046 -0.594 33.30951 0.000058 0.000264 0.000021 r_peak,r_snr = 0.9093238 55.01343 1346 -0.063 3046 -0.531 55.01343 0.000059 0.000301 0.000023 r_peak,r_snr = 0.9143279 55.92796 1446 -0.063 3046 -0.563 55.92796 0.000057 0.000256 0.000018 r_peak,r_snr = 0.8824468 51.62779 1546 -0.063 3046 -0.406 51.62779 0.000074 0.000394 0.000030 r_peak,r_snr = 0.8697419 83.00693 1646 -0.063 3046 -0.531 83.00693 0.000076 0.000356 0.000022 r_peak,r_snr = 0.8886244 53.04827 1746 -0.031 3046 -0.563 53.04827 0.000071 0.000351 0.000022 r_peak,r_snr = 0.8581762 66.54504 1846 -0.063 3046 -0.438 66.54504 0.000094 0.000427 0.000035 r_peak,r_snr = 0.8557671 72.15749 1946 -0.063 3046 -0.406 72.15749 0.000086 0.000431 0.000029 r_peak,r_snr = 0.8895788 45.22905 2046 -0.094 3046 -0.375 45.22905 0.000077 0.000364 0.000031 At line = 3400 Reading in data.... r_peak,r_snr = 0.9185631 58.16785 846 -0.063 3446 -0.656 58.16785 0.000053 0.000230 0.000026 r_peak,r_snr = 0.9225081 32.22084 946 -0.031 3446 -0.688 32.22084 0.000048 0.000215 0.000017 r_peak,r_snr = 0.9283053 57.29289 1046 -0.031 3446 -0.656 57.29289 0.000047 0.000216 0.000015 r_peak,r_snr = 0.9073270 71.28029 1146 -0.031 3446 -0.656 71.28029 0.000051 0.000232 0.000017 r_peak,r_snr = 0.9176448 40.61738 1246 -0.063 3446 -0.531 40.61738 0.000055 0.000285 0.000020 r_peak,r_snr = 0.9051870 64.87101 1346 -0.063 3446 -0.563 64.87101 0.000058 0.000247 0.000024 r_peak,r_snr = 0.8994682 54.72982 1446 -0.063 3446 -0.500 54.72982 0.000062 0.000300 0.000028 r_peak,r_snr = 0.9043747 45.42492 1546 -0.063 3446 -0.469 45.42492 0.000068 0.000317 0.000031 r_peak,r_snr = 0.8901302 68.86971 1646 -0.063 3446 -0.500 68.86971 0.000067 0.000276 0.000024 r_peak,r_snr = 0.8813212 62.58895 1746 -0.063 3446 -0.406 62.58895 0.000074 0.000411 0.000029 r_peak,r_snr = 0.8597642 56.10917 1846 -0.031 3446 -0.469 56.10917 0.000089 0.000429 0.000035 r_peak,r_snr = 0.8141490 76.31203 1946 -0.063 3446 -0.438 76.31203 0.000116 0.000653 0.000025 r_peak,r_snr = 0.8692335 70.68242 2046 -0.063 3446 -0.438 70.68242 0.000083 0.000409 0.000030 At line = 3800 Reading in data.... r_peak,r_snr = 0.9244670 82.66227 646 0.000 3846 -0.781 82.66227 0.000041 0.000180 0.000013 r_peak,r_snr = 0.9230865 46.08654 746 -0.031 3846 -0.750 46.08654 0.000050 0.000207 0.000018 r_peak,r_snr = 0.9069488 77.20821 846 -0.063 3846 -0.594 77.20821 0.000053 0.000249 0.000014 r_peak,r_snr = 0.9239684 66.89934 946 -0.063 3846 -0.656 66.89934 0.000046 0.000213 0.000013 r_peak,r_snr = 0.9229723 76.18594 1046 -0.031 3846 -0.625 76.18594 0.000041 0.000207 0.000017 r_peak,r_snr = 0.9082642 63.94968 1146 -0.031 3846 -0.594 63.94968 0.000054 0.000269 0.000020 r_peak,r_snr = 0.8972285 50.67417 1246 -0.031 3846 -0.594 50.67417 0.000060 0.000266 0.000023 r_peak,r_snr = 0.9034945 57.70305 1346 -0.063 3846 -0.469 57.70305 0.000066 0.000266 0.000019 r_peak,r_snr = 0.8818951 58.25949 1446 -0.094 3846 -0.469 58.25949 0.000071 0.000373 0.000032 r_peak,r_snr = 0.8858500 67.94637 1546 -0.094 3846 -0.406 67.94637 0.000069 0.000355 0.000035 r_peak,r_snr = 0.8895960 23.86923 1646 -0.063 3846 -0.406 23.86923 0.000085 0.000436 0.000039 r_peak,r_snr = 0.8847198 64.49364 1746 -0.031 3846 -0.531 64.49364 0.000073 0.000340 0.000029 r_peak,r_snr = 0.9056891 19.30081 1846 -0.031 3846 -0.406 19.30081 0.000076 0.000340 0.000035 r_peak,r_snr = 0.8545827 53.06314 1946 -0.031 3846 -0.344 53.06314 0.000098 0.000509 0.000056 r_peak,r_snr = 0.8817821 76.70634 2046 -0.094 3846 -0.344 76.70634 0.000070 0.000354 0.000026 At line = 4200 Reading in data.... r_peak,r_snr = 0.9386973 35.73586 446 -0.031 4246 -0.781 35.73586 0.000039 0.000177 0.000012 r_peak,r_snr = 0.9441148 59.19673 546 -0.031 4246 -0.813 59.19673 0.000033 0.000139 0.000011 r_peak,r_snr = 0.9280795 47.70110 646 -0.031 4246 -0.688 47.70110 0.000045 0.000176 0.000012 r_peak,r_snr = 0.9136941 71.32241 746 -0.063 4246 -0.719 71.32241 0.000051 0.000220 0.000010 r_peak,r_snr = 0.9165553 61.40172 846 -0.031 4246 -0.688 61.40172 0.000050 0.000222 0.000019 r_peak,r_snr = 0.9240329 29.33940 946 -0.031 4246 -0.656 29.33940 0.000047 0.000217 0.000015 r_peak,r_snr = 0.8912259 45.45108 1046 -0.031 4246 -0.625 45.45108 0.000067 0.000291 0.000021 r_peak,r_snr = 0.9222019 44.70292 1146 -0.031 4246 -0.625 44.70292 0.000051 0.000237 0.000018 r_peak,r_snr = 0.9180942 27.59168 1246 -0.031 4246 -0.625 27.59168 0.000060 0.000271 0.000019 r_peak,r_snr = 0.9087421 36.92761 1346 -0.063 4246 -0.531 36.92761 0.000066 0.000312 0.000017 r_peak,r_snr = 0.8816679 60.07672 1446 -0.063 4246 -0.500 60.07672 0.000076 0.000358 0.000034 r_peak,r_snr = 0.8985420 59.88768 1546 -0.063 4246 -0.531 59.88768 0.000063 0.000296 0.000022 r_peak,r_snr = 0.8781849 84.29136 1646 -0.063 4246 -0.500 84.29136 0.000069 0.000313 0.000023 r_peak,r_snr = 0.9070081 39.75977 1746 -0.031 4246 -0.531 39.75977 0.000059 0.000288 0.000023 r_peak,r_snr = 0.9114876 23.73801 1846 -0.063 4246 -0.406 23.73801 0.000072 0.000365 0.000027 r_peak,r_snr = 0.8858501 40.60479 1946 -0.094 4246 -0.469 40.60479 0.000084 0.000452 0.000034 r_peak,r_snr = 0.8725541 67.57682 2046 -0.063 4246 -0.531 67.57682 0.000076 0.000406 0.000028 At line = 4600 Reading in data.... r_peak,r_snr = 0.9358349 83.20938 246 0.000 4646 -0.875 83.20938 0.000034 0.000148 0.000006 r_peak,r_snr = 0.9306637 76.54174 346 0.000 4646 -0.906 76.54174 0.000037 0.000156 0.000008 r_peak,r_snr = 0.9258270 86.87385 446 -0.031 4646 -0.844 86.87385 0.000039 0.000167 0.000009 r_peak,r_snr = 0.9199097 88.22300 546 0.000 4646 -0.750 88.22300 0.000043 0.000173 0.000014 r_peak,r_snr = 0.9413314 36.11413 646 -0.031 4646 -0.750 36.11413 0.000038 0.000173 0.000006 r_peak,r_snr = 0.9230442 65.70461 746 0.000 4646 -0.719 65.70461 0.000050 0.000184 0.000014 r_peak,r_snr = 0.9116207 70.19376 846 -0.063 4646 -0.625 70.19376 0.000049 0.000220 0.000018 r_peak,r_snr = 0.9058207 79.82700 946 -0.031 4646 -0.625 79.82700 0.000054 0.000232 0.000020 r_peak,r_snr = 0.9046276 67.82066 1046 -0.063 4646 -0.563 67.82066 0.000053 0.000248 0.000020 r_peak,r_snr = 0.9002762 37.99807 1146 -0.031 4646 -0.594 37.99807 0.000067 0.000315 0.000025 r_peak,r_snr = 0.9084924 49.99842 1246 -0.063 4646 -0.656 49.99842 0.000059 0.000242 0.000022 r_peak,r_snr = 0.9164512 21.03704 1346 -0.031 4646 -0.500 21.03704 0.000063 0.000301 0.000019 r_peak,r_snr = 0.8952464 63.13444 1446 -0.063 4646 -0.500 63.13444 0.000060 0.000316 0.000026 r_peak,r_snr = 0.8976020 65.60534 1546 -0.094 4646 -0.375 65.60534 0.000061 0.000329 0.000023 r_peak,r_snr = 0.8907029 82.82952 1646 -0.031 4646 -0.531 82.82952 0.000059 0.000280 0.000027 r_peak,r_snr = 0.9036207 23.93204 1746 -0.063 4646 -0.500 23.93204 0.000069 0.000340 0.000028 r_peak,r_snr = 0.9108278 23.67438 1846 -0.063 4646 -0.469 23.67438 0.000071 0.000383 0.000038 r_peak,r_snr = 0.8706416 57.92128 1946 -0.063 4646 -0.563 57.92128 0.000081 0.000436 0.000040 r_peak,r_snr = 0.8665921 72.67538 2046 -0.063 4646 -0.344 72.67538 0.000081 0.000385 0.000032 At line = 5000 Reading in data.... r_peak,r_snr = 0.9104583 78.02328 146 0.000 5046 -1.031 78.02328 0.000050 0.000208 0.000011 r_peak,r_snr = 0.9337643 83.87608 246 0.000 5046 -0.906 83.87608 0.000037 0.000143 0.000008 r_peak,r_snr = 0.9390255 83.45805 346 0.000 5046 -0.875 83.45805 0.000034 0.000129 0.000011 r_peak,r_snr = 0.9268814 70.64574 446 -0.031 5046 -0.875 70.64574 0.000043 0.000170 0.000011 r_peak,r_snr = 0.9309773 77.05518 546 0.000 5046 -0.781 77.05518 0.000037 0.000163 0.000011 r_peak,r_snr = 0.9218233 83.25439 646 0.000 5046 -0.719 83.25439 0.000041 0.000181 0.000014 r_peak,r_snr = 0.9259853 63.72813 746 -0.031 5046 -0.719 63.72813 0.000045 0.000195 0.000013 r_peak,r_snr = 0.9131882 57.27069 846 -0.031 5046 -0.656 57.27069 0.000053 0.000239 0.000021 r_peak,r_snr = 0.9125629 39.79727 946 -0.063 5046 -0.594 39.79727 0.000065 0.000273 0.000023 r_peak,r_snr = 0.9343988 43.91773 1046 -0.031 5046 -0.656 43.91773 0.000042 0.000187 0.000011 r_peak,r_snr = 0.8953350 44.46532 1146 -0.031 5046 -0.563 44.46532 0.000078 0.000328 0.000025 r_peak,r_snr = 0.9158221 36.05120 1246 -0.063 5046 -0.594 36.05120 0.000061 0.000278 0.000022 r_peak,r_snr = 0.9084380 22.24957 1346 -0.031 5046 -0.625 22.24957 0.000063 0.000287 0.000022 r_peak,r_snr = 0.8898836 27.72093 1446 -0.063 5046 -0.469 27.72093 0.000073 0.000390 0.000028 r_peak,r_snr = 0.9285833 27.40973 1546 -0.094 5046 -0.531 27.40973 0.000057 0.000273 0.000024 r_peak,r_snr = 0.8976689 61.56559 1646 -0.063 5046 -0.469 61.56559 0.000060 0.000300 0.000028 r_peak,r_snr = 0.9009901 16.34916 1746 -0.031 5046 -0.438 16.34916 0.000066 0.000334 0.000028 r_peak,r_snr = 0.8967402 35.81945 1846 -0.063 5046 -0.406 35.81945 0.000074 0.000338 0.000026 r_peak,r_snr = 0.9093168 41.00486 1946 -0.063 5046 -0.438 41.00486 0.000062 0.000321 0.000020 r_peak,r_snr = 0.8603211 72.62300 2046 -0.063 5046 -0.438 72.62300 0.000086 0.000394 0.000023 At line = 5400 Reading in data.... r_peak,r_snr = 0.9130400 96.14970 146 0.031 5446 -1.031 96.14970 0.000045 0.000188 0.000006 r_peak,r_snr = 0.9454924 89.48751 246 0.000 5446 -0.938 89.48751 0.000030 0.000112 0.000007 r_peak,r_snr = 0.9403752 81.46500 346 0.031 5446 -0.938 81.46500 0.000032 0.000138 0.000009 r_peak,r_snr = 0.9290669 99.16743 446 -0.031 5446 -0.781 99.16743 0.000037 0.000139 0.000010 r_peak,r_snr = 0.9173688 91.89503 546 -0.031 5446 -0.688 91.89503 0.000045 0.000186 0.000015 r_peak,r_snr = 0.9352123 52.99684 646 -0.031 5446 -0.688 52.99684 0.000041 0.000180 0.000012 r_peak,r_snr = 0.9216748 70.57908 746 -0.031 5446 -0.656 70.57908 0.000048 0.000211 0.000009 r_peak,r_snr = 0.9107336 62.13400 846 -0.063 5446 -0.625 62.13400 0.000052 0.000227 0.000017 r_peak,r_snr = 0.9290145 28.05594 946 -0.063 5446 -0.563 28.05594 0.000050 0.000233 0.000019 r_peak,r_snr = 0.9195896 34.25978 1046 -0.031 5446 -0.625 34.25978 0.000056 0.000226 0.000019 r_peak,r_snr = 0.9168237 54.68711 1146 -0.063 5446 -0.563 54.68711 0.000055 0.000219 0.000018 r_peak,r_snr = 0.9019045 59.51689 1246 -0.031 5446 -0.563 59.51689 0.000059 0.000283 0.000026 r_peak,r_snr = 0.9298235 19.36339 1346 -0.094 5446 -0.406 19.36339 0.000053 0.000308 0.000014 r_peak,r_snr = 0.9106232 12.84852 1446 -0.063 5446 -0.531 12.84852 0.000071 0.000364 0.000030 r_peak,r_snr = 0.8917112 68.46297 1546 -0.063 5446 -0.469 68.46297 0.000063 0.000338 0.000028 r_peak,r_snr = 0.8913304 75.44276 1646 -0.031 5446 -0.438 75.44276 0.000058 0.000268 0.000021 r_peak,r_snr = 0.9049642 26.99052 1746 -0.063 5446 -0.438 26.99052 0.000071 0.000373 0.000032 r_peak,r_snr = 0.8948399 47.03818 1846 -0.063 5446 -0.344 47.03818 0.000076 0.000356 0.000020 r_peak,r_snr = 0.8922855 16.39485 1946 -0.063 5446 -0.500 16.39485 0.000083 0.000344 0.000031 r_peak,r_snr = 0.8577567 76.84483 2046 -0.063 5446 -0.438 76.84483 0.000087 0.000366 0.000034 At line = 5800 Reading in data.... r_peak,r_snr = 0.9138522 69.50091 146 0.000 5846 -1.125 69.50091 0.000051 0.000201 0.000006 r_peak,r_snr = 0.9360076 69.80026 246 0.000 5846 -0.969 69.80026 0.000036 0.000146 0.000006 r_peak,r_snr = 0.9368509 58.15932 346 0.000 5846 -0.938 58.15932 0.000038 0.000155 0.000010 r_peak,r_snr = 0.9280316 76.26743 446 -0.063 5846 -0.813 76.26743 0.000039 0.000176 0.000014 r_peak,r_snr = 0.9307709 83.45830 546 -0.031 5846 -0.750 83.45830 0.000035 0.000147 0.000007 r_peak,r_snr = 0.9298623 68.06531 646 -0.031 5846 -0.688 68.06531 0.000041 0.000167 0.000014 r_peak,r_snr = 0.9205621 71.96189 746 -0.031 5846 -0.688 71.96189 0.000046 0.000193 0.000012 r_peak,r_snr = 0.9256211 62.25219 846 -0.063 5846 -0.656 62.25219 0.000046 0.000185 0.000014 r_peak,r_snr = 0.9178184 65.32661 946 -0.063 5846 -0.594 65.32661 0.000049 0.000214 0.000013 r_peak,r_snr = 0.9301649 30.56638 1046 -0.031 5846 -0.594 30.56638 0.000049 0.000242 0.000021 r_peak,r_snr = 0.9107062 33.33171 1146 -0.031 5846 -0.594 33.33171 0.000060 0.000272 0.000018 r_peak,r_snr = 0.9089971 63.40189 1246 -0.031 5846 -0.563 63.40189 0.000057 0.000229 0.000019 r_peak,r_snr = 0.9082006 54.77326 1346 -0.031 5846 -0.594 54.77326 0.000058 0.000264 0.000025 r_peak,r_snr = 0.8923401 54.32649 1446 -0.094 5846 -0.500 54.32649 0.000064 0.000299 0.000022 r_peak,r_snr = 0.8889567 55.38287 1546 -0.063 5846 -0.531 55.38287 0.000068 0.000359 0.000034 r_peak,r_snr = 0.8903891 62.70218 1646 -0.063 5846 -0.500 62.70218 0.000071 0.000314 0.000021 r_peak,r_snr = 0.8959433 45.96813 1746 -0.063 5846 -0.438 45.96813 0.000070 0.000336 0.000031 r_peak,r_snr = 0.8853987 65.23857 1846 -0.063 5846 -0.469 65.23857 0.000069 0.000364 0.000036 r_peak,r_snr = 0.8722996 62.35911 1946 -0.063 5846 -0.500 62.35911 0.000079 0.000373 0.000022 r_peak,r_snr = 0.8763437 51.65793 2046 -0.063 5846 -0.438 51.65793 0.000074 0.000383 0.000039 ************************************************** ***** ***** ***** 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 Enter the output file name number of input lines: 42916 number of output lines: 2384 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 *** Filtering. o/p nlines: 2384 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 Writing data out. ************************************************** ***** ***** ***** 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 Enter the output file name number of input lines: 42916 number of output lines: 2384 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 *** Filtering. o/p nlines: 2384 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 Writing data out. ************************************************** ***** ***** ***** 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 Enter the output file name number of input lines: 42916 number of output lines: 2384 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 *** Filtering. o/p nlines: 2384 + 256 + 512 + 768 + 1024 + 1280 + 1536 + 1792 + 2048 + 2304 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 ************************************************** ***** ***** ***** 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 ************************************************** ***** ***** ***** 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 ************************************************** ***** ***** ***** 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 ************************************************** ***** ***** ***** 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 ************************************************** ***** ***** ***** Integrated AIRSAR Processor ***** ***** ***** ***** Interferometric Phase Generation ***** ***** ***** ***** This program calculates ***** ***** unwrapped phase from ***** ***** two complex single look files. ***** ***** ***** ************************************************** Enter the name of the top antenna complex file. size: 2560 42916 Enter number of looks Enter the name of the bottom antenna file. Enter the name of the correlation image file. Enter the cut-off for the correlation. Enter the maximum branch length. Enter the maximum phase noise in radians. Enter the name of the output phase file. size: 2560 2384 42916 Reading data and doing multi-looking. + 100 + 200 + 300 + 400 + 500 + 600 + 700 + 800 + 900 + 1000 + 1100 + 1200 + 1300 + 1400 + 1500 + 1600 + 1700 + 1800 + 1900 + 2000 + 2100 + 2200 + 2300 Filtering the interferogram 256 512 768 1024 1280 1536 1792 2048 2304 Unwrapping the phases Enter seed point index (0> Enter P-band input file name: p_hh.rfi Enter Output file name: p_hh Enter range spectrum file name: ts0685_p_hh_spec.dat Enter range samples: 6144 Enter starting line #: 1 Enter end line #: 42000 Enter 40 MHz flag : 0 Enter the file name of the sub-band fileter coeff : /u/sarairways0/airops/processor/data/par_npr_qmf_16_384_pro.dat Enter the file name of the LMS parameters array : p_hh_par_lms.dat Number of subbands: 16 Length of prototype: 384 Subband Switch Weighting Length Block Step Factor 1 0 1 128 32 0.75 0.9 2 0 1 128 32 0.75 0.9 3 0 1 128 32 0.75 0.9 4 0 1 128 32 0.75 0.9 5 0 1 128 32 0.75 0.9 6 0 1 128 32 0.75 0.9 7 0 1 128 32 0.75 0.9 8 0 1 128 32 0.75 0.9 9 0 1 128 32 0.75 0.9 10 0 1 128 32 0.75 0.9 11 0 1 128 32 0.75 0.9 12 0 1 128 32 0.75 0.9 13 0 1 128 32 0.75 0.9 14 0 1 128 32 0.75 0.9 15 0 1 128 32 0.75 0.9 16 0 1 128 32 0.75 0.9 40 MHz flag: 0 3905 4289 8.0289999E-03 3.2276001E-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 42000 lines to process FFT size: 8192 Done Initializing c_data At line: 1001 ; # of saturated pulses= 0 At line: 2001 ; # of saturated pulses= 0 At line: 3001 ; # of saturated pulses= 0 At line: 4001 ; # of saturated pulses= 0 At line: 5001 ; # of saturated pulses= 0 At line: 6001 ; # of saturated pulses= 0 At line: 7001 ; # of saturated pulses= 0 At line: 8001 ; # of saturated pulses= 0 At line: 9001 ; # of saturated pulses= 0 At line: 10001 ; # of saturated pulses= 0 At line: 11001 ; # of saturated pulses= 0 At line: 12001 ; # of saturated pulses= 0 At line: 13001 ; # of saturated pulses= 0 At line: 14001 ; # of saturated pulses= 0 At line: 15001 ; # of saturated pulses= 0 At line: 16001 ; # of saturated pulses= 0 At line: 17001 ; # of saturated pulses= 0 At line: 18001 ; # of saturated pulses= 0 At line: 19001 ; # of saturated pulses= 0 At line: 20001 ; # of saturated pulses= 0 At line: 21001 ; # of saturated pulses= 0 At line: 22001 ; # of saturated pulses= 0 At line: 23001 ; # of saturated pulses= 0 At line: 24001 ; # of saturated pulses= 0 At line: 25001 ; # of saturated pulses= 0 At line: 26001 ; # of saturated pulses= 0 At line: 27001 ; # of saturated pulses= 0 At line: 28001 ; # of saturated pulses= 0 At line: 29001 ; # of saturated pulses= 0 At line: 30001 ; # of saturated pulses= 0 At line: 31001 ; # of saturated pulses= 0 At line: 32001 ; # of saturated pulses= 0 At line: 33001 ; # of saturated pulses= 0 At line: 34001 ; # of saturated pulses= 0 At line: 35001 ; # of saturated pulses= 0 At line: 36001 ; # of saturated pulses= 0 At line: 37001 ; # of saturated pulses= 0 At line: 38001 ; # of saturated pulses= 0 At line: 39001 ; # of saturated pulses= 0 At line: 40001 ; # of saturated pulses= 0 At line: 41001 ; # of saturated pulses= 0 At line: 42001 ; # of saturated pulses= 0 Writing file: ts0685_p_hh_spec.dat How many problems did you sweep under the rug this time? Total run time = cputime: 538.7935 sys time: 5.560494 538.8015 5.592770 << 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: ts0685_p_hv_spec.dat Enter range samples: 6144 Enter starting line #: 1 Enter end line #: 42000 Enter 40 MHz flag : 0 Enter the file name of the sub-band fileter coeff : /u/sarairways0/airops/processor/data/par_npr_qmf_16_384_pro.dat Enter the file name of the LMS parameters array : p_hv_par_lms.dat Number of subbands: 16 Length of prototype: 384 Subband Switch Weighting Length Block Step Factor 1 1 1 128 32 0.75 0.9 2 1 1 128 32 0.75 0.9 3 1 1 128 32 0.75 0.9 4 0 1 128 32 0.75 0.9 5 1 1 128 32 0.75 0.9 6 0 1 128 32 0.75 0.9 7 0 1 128 32 0.75 0.9 8 0 1 128 32 0.75 0.9 9 0 1 128 32 0.75 0.9 10 0 1 128 32 0.75 0.9 11 0 1 128 32 0.75 0.9 12 0 1 128 32 0.75 0.9 13 0 1 128 32 0.75 0.9 14 0 1 128 32 0.75 0.9 15 0 1 128 32 0.75 0.9 16 1 1 128 32 0.75 0.9 40 MHz flag: 0 3905 4289 8.5920002E-03 2.9477000E-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 42000 lines to process FFT size: 8192 Done Initializing c_data At line: 1001 ; # of saturated pulses= 0 At line: 2001 ; # of saturated pulses= 0 At line: 3001 ; # of saturated pulses= 0 At line: 4001 ; # of saturated pulses= 0 At line: 5001 ; # of saturated pulses= 0 At line: 6001 ; # of saturated pulses= 0 At line: 7001 ; # of saturated pulses= 0 At line: 8001 ; # of saturated pulses= 0 At line: 9001 ; # of saturated pulses= 0 At line: 10001 ; # of saturated pulses= 0 At line: 11001 ; # of saturated pulses= 0 At line: 12001 ; # of saturated pulses= 0 At line: 13001 ; # of saturated pulses= 0 At line: 14001 ; # of saturated pulses= 0 At line: 15001 ; # of saturated pulses= 0 At line: 16001 ; # of saturated pulses= 0 At line: 17001 ; # of saturated pulses= 0 At line: 18001 ; # of saturated pulses= 0 At line: 19001 ; # of saturated pulses= 0 At line: 20001 ; # of saturated pulses= 0 At line: 21001 ; # of saturated pulses= 0 At line: 22001 ; # of saturated pulses= 0 At line: 23001 ; # of saturated pulses= 0 At line: 24001 ; # of saturated pulses= 0 At line: 25001 ; # of saturated pulses= 0 At line: 26001 ; # of saturated pulses= 0 At line: 27001 ; # of saturated pulses= 0 At line: 28001 ; # of saturated pulses= 0 At line: 29001 ; # of saturated pulses= 0 At line: 30001 ; # of saturated pulses= 0 At line: 31001 ; # of saturated pulses= 0 At line: 32001 ; # of saturated pulses= 0 At line: 33001 ; # of saturated pulses= 0 At line: 34001 ; # of saturated pulses= 0 At line: 35001 ; # of saturated pulses= 0 At line: 36001 ; # of saturated pulses= 0 At line: 37001 ; # of saturated pulses= 0 At line: 38001 ; # of saturated pulses= 0 At line: 39001 ; # of saturated pulses= 0 At line: 40001 ; # of saturated pulses= 0 At line: 41001 ; # of saturated pulses= 0 At line: 42001 ; # of saturated pulses= 0 Writing file: ts0685_p_hv_spec.dat How many problems did you sweep under the rug this time? Total run time = cputime: 669.5630 sys time: 5.538847 669.5716 5.568324 << 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: ts0685_p_vh_spec.dat Enter range samples: 6144 Enter starting line #: 1 Enter end line #: 42000 Enter 40 MHz flag : 0 Enter the file name of the sub-band fileter coeff : /u/sarairways0/airops/processor/data/par_npr_qmf_16_384_pro.dat Enter the file name of the LMS parameters array : p_vh_par_lms.dat Number of subbands: 16 Length of prototype: 384 Subband Switch Weighting Length Block Step Factor 1 1 1 128 32 0.75 0.9 2 1 1 128 32 0.75 0.9 3 0 1 128 32 0.75 0.9 4 0 1 128 32 0.75 0.9 5 0 1 128 32 0.75 0.9 6 0 1 128 32 0.75 0.9 7 0 1 128 32 0.75 0.9 8 0 1 128 32 0.75 0.9 9 0 1 128 32 0.75 0.9 10 0 1 128 32 0.75 0.9 11 0 1 128 32 0.75 0.9 12 0 1 128 32 0.75 0.9 13 0 1 128 32 0.75 0.9 14 0 1 128 32 0.75 0.9 15 0 1 128 32 0.75 0.9 16 0 1 128 32 0.75 0.9 40 MHz flag: 0 3905 4289 8.4619997E-03 2.9600000E-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 42000 lines to process FFT size: 8192 Done Initializing c_data At line: 1001 ; # of saturated pulses= 0 At line: 2001 ; # of saturated pulses= 0 At line: 3001 ; # of saturated pulses= 0 At line: 4001 ; # of saturated pulses= 0 At line: 5001 ; # of saturated pulses= 0 At line: 6001 ; # of saturated pulses= 0 At line: 7001 ; # of saturated pulses= 0 At line: 8001 ; # of saturated pulses= 0 At line: 9001 ; # of saturated pulses= 0 At line: 10001 ; # of saturated pulses= 0 At line: 11001 ; # of saturated pulses= 0 At line: 12001 ; # of saturated pulses= 0 At line: 13001 ; # of saturated pulses= 0 At line: 14001 ; # of saturated pulses= 0 At line: 15001 ; # of saturated pulses= 0 At line: 16001 ; # of saturated pulses= 0 At line: 17001 ; # of saturated pulses= 0 At line: 18001 ; # of saturated pulses= 0 At line: 19001 ; # of saturated pulses= 0 At line: 20001 ; # of saturated pulses= 0 At line: 21001 ; # of saturated pulses= 0 At line: 22001 ; # of saturated pulses= 0 At line: 23001 ; # of saturated pulses= 0 At line: 24001 ; # of saturated pulses= 0 At line: 25001 ; # of saturated pulses= 0 At line: 26001 ; # of saturated pulses= 0 At line: 27001 ; # of saturated pulses= 0 At line: 28001 ; # of saturated pulses= 0 At line: 29001 ; # of saturated pulses= 0 At line: 30001 ; # of saturated pulses= 0 At line: 31001 ; # of saturated pulses= 0 At line: 32001 ; # of saturated pulses= 0 At line: 33001 ; # of saturated pulses= 0 At line: 34001 ; # of saturated pulses= 0 At line: 35001 ; # of saturated pulses= 0 At line: 36001 ; # of saturated pulses= 0 At line: 37001 ; # of saturated pulses= 0 At line: 38001 ; # of saturated pulses= 0 At line: 39001 ; # of saturated pulses= 0 At line: 40001 ; # of saturated pulses= 0 At line: 41001 ; # of saturated pulses= 0 At line: 42001 ; # of saturated pulses= 0 Writing file: ts0685_p_vh_spec.dat How many problems did you sweep under the rug this time? Total run time = cputime: 613.2834 sys time: 5.673944 613.2919 5.703544 << 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: ts0685_p_vv_spec.dat Enter range samples: 6144 Enter starting line #: 1 Enter end line #: 42000 Enter 40 MHz flag : 0 Enter the file name of the sub-band fileter coeff : /u/sarairways0/airops/processor/data/par_npr_qmf_16_384_pro.dat Enter the file name of the LMS parameters array : p_vv_par_lms.dat Number of subbands: 16 Length of prototype: 384 Subband Switch Weighting Length Block Step Factor 1 1 1 128 32 0.75 0.9 2 1 1 128 32 0.75 0.9 3 1 1 128 32 0.75 0.9 4 0 1 128 32 0.75 0.9 5 1 1 128 32 0.75 0.9 6 0 1 128 32 0.75 0.9 7 0 1 128 32 0.75 0.9 8 0 1 128 32 0.75 0.9 9 0 1 128 32 0.75 0.9 10 0 1 128 32 0.75 0.9 11 0 1 128 32 0.75 0.9 12 0 1 128 32 0.75 0.9 13 0 1 128 32 0.75 0.9 14 0 1 128 32 0.75 0.9 15 0 1 128 32 0.75 0.9 16 0 1 128 32 0.75 0.9 40 MHz flag: 0 3905 4289 8.3569996E-03 2.7073000E-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 42000 lines to process FFT size: 8192 Done Initializing c_data At line: 1001 ; # of saturated pulses= 0 At line: 2001 ; # of saturated pulses= 0 At line: 3001 ; # of saturated pulses= 0 At line: 4001 ; # of saturated pulses= 0 At line: 5001 ; # of saturated pulses= 0 At line: 6001 ; # of saturated pulses= 0 At line: 7001 ; # of saturated pulses= 0 At line: 8001 ; # of saturated pulses= 0 At line: 9001 ; # of saturated pulses= 0 At line: 10001 ; # of saturated pulses= 0 At line: 11001 ; # of saturated pulses= 0 At line: 12001 ; # of saturated pulses= 0 At line: 13001 ; # of saturated pulses= 0 At line: 14001 ; # of saturated pulses= 0 At line: 15001 ; # of saturated pulses= 0 At line: 16001 ; # of saturated pulses= 0 At line: 17001 ; # of saturated pulses= 0 At line: 18001 ; # of saturated pulses= 0 At line: 19001 ; # of saturated pulses= 0 At line: 20001 ; # of saturated pulses= 0 At line: 21001 ; # of saturated pulses= 0 At line: 22001 ; # of saturated pulses= 0 At line: 23001 ; # of saturated pulses= 0 At line: 24001 ; # of saturated pulses= 0 At line: 25001 ; # of saturated pulses= 0 At line: 26001 ; # of saturated pulses= 0 At line: 27001 ; # of saturated pulses= 0 At line: 28001 ; # of saturated pulses= 0 At line: 29001 ; # of saturated pulses= 0 At line: 30001 ; # of saturated pulses= 0 At line: 31001 ; # of saturated pulses= 0 At line: 32001 ; # of saturated pulses= 0 At line: 33001 ; # of saturated pulses= 0 At line: 34001 ; # of saturated pulses= 0 At line: 35001 ; # of saturated pulses= 0 At line: 36001 ; # of saturated pulses= 0 At line: 37001 ; # of saturated pulses= 0 At line: 38001 ; # of saturated pulses= 0 At line: 39001 ; # of saturated pulses= 0 At line: 40001 ; # of saturated pulses= 0 At line: 41001 ; # of saturated pulses= 0 At line: 42001 ; # of saturated pulses= 0 Writing file: ts0685_p_vv_spec.dat How many problems did you sweep under the rug this time? Total run time = cputime: 671.0273 sys time: 5.640911 671.0356 5.667984 P FILTER COMPLETED. Wed Apr 7 00:29:18 PDT 1999 ***************************************************** * * * 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... Reading and decoding header file... Finished reading the header file... Data acquired after 1994. J2000 time = -53195052.36155403 GPS J2000 time = -53195053.79129398 Message 1 Time = -53195052.36155403 INS Time = 1.071680000000000 Roll angle = 0.2197265625000000 Pitch angle = 1.312866210937500 Heading angle = 50.52612304687500 Long. acc = 0.2700000000000000 Lat. acc = -0.1300000000000000 Norm. acc = -9.710000000000001 East vel. = 184.1880000000000 North vel. = 107.8290000000000 Up vel. = 4.7000000000000000E-02 True Grnd Spd = 213.4218750000000 Altitude = 9545.000000000000 Latitude = 44.42715156823397 Longitude = -121.6501781065017 Message 6 Week = 954 GPS Time = -53195053.79129398 GDOP = 2.203125000000000 PDOP = 2.031250000000000 HDOP = 1.265625000000000 VDOP = 1.578125000000000 TDOP = 0.8437500000000000 Spherical Acc = 9.000000000000000 Time Acc = 9.0000000000000012E-09 GPS Lat = 44.42585655603531 GPS Lon = -121.6533135026799 GPS Alt = 9549.000000000000 GPS East Vel = 184.1400000000000 GPS North Vel = 107.8100000000000 GPS Up Vel = 2.0000000000000000E-02 Message 3 Del INU Time = 0.6517120000000000 Del vel east = 2.3437500000000000E-02 Del vel north = 1.5625000000000000E-02 Del vel up = 1.8554687500000000E-02 Del pos east = 0.7500000000000000 Del pos north = 0.3750000000000000 Del pos up = -0.1250000000000000 Message 4 Sigma Pos x = 1.500000000000000 Sigma Pos y = 1.375000000000000 Sigma Pos z = 2.000000000000000 Sigma Vel x = 8.7890625000000000E-03 Sigma Vel y = 7.8125000000000000E-03 Sigma Vel z = 1.0253906250000000E-02 Message 7 Satellites used = 14 24 4 14 30 2 Retrived Honeywell data... 5030 Operator Comments: - - - - - - - - - - - - - - - - - - - - - CPA @ 18:53:42 IDR1: 330258 IDR2: 328416 drft +9.1; another nice shot of the crater; smooth ride for all data lines so far; nav systems look goodc look good, Michael Kobrick, Timothy William Miller - - - - - - - - - - - - - - - - - - - - - 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: 598023 98023 enter HDDT footage number <0> : enter the title of image: enter the CCT ID: cct: 685 prod ID1:685 685 prod ID:685 SONY tapeid: 98023 98023 tapeid:9802398023 tapeid par:98023 prod ID: 685 chrp_delay from subcomm header tapeID: 32.45000 98023 chrp_delay is 32.5 usec 98023 32.45000 Is 9803998001 for P-bnad?: 98023 1998 P 45/90 11.25 20 MHz 45.00000 11.25000 20.00000 10.00000 1998 P-band fc? 11.25000 idelay,chrp_delay,xdelay 96 32.45000 0.4200000 near range delr windela: 9462.949 6.662055 0 f_cal 43.59375 1216.406 1998 P-band 20 MHz/10us f_cal 21.47700 Parameter header created .. >> Record # : 128 >> GPS Stuff = 2.40 5 7 16 30 4 24 digdelay startrng(us):96 96.00000000000000 startrng(m) elecdelay: 10312.86200000000 2.7200000000000000E-05 >> start range = 10312.8620 >> ccal_amp = -90.39999 >> ccal_atn = 32 >> ratn_phh = 0 12 0 >> ratn_phv = 0 8 0 >> ratn_pvh = 0 6 0 >> ratn_pvv = 0 14 0 >> ratn_lhh = 0 13 0 >> ratn_lhv = 0 13 0 >> ratn_lvh = 0 13 0 >> ratn_lvv = 0 13 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 = 358.5 >> rcvr_cbw = 1 >> chrp_bnd = 40 >> chrp_len = 5 >> chrp_mod = DN Check for frame count time glitches Warning timing glitch at frame 7903394 Warning timing glitch at frame 7904224 Warning timing glitch at frame 7905054 Warning timing glitch at frame 7905883 Warning timing glitch at frame 7906713 Warning timing glitch at frame 7907543 Warning timing glitch at frame 7908373 Warning timing glitch at frame 7909202 Warning timing glitch at frame 7910032 Warning timing glitch at frame 7911692 Warning timing glitch at frame 7913352 Warning timing glitch at frame 7915013 Warning timing glitch at frame 7916674 Warning timing glitch at frame 7918335 Warning timing glitch at frame 7919997 Warning timing glitch at frame 7921659 Warning timing glitch at frame 7923321 Warning timing glitch at frame 7924984 Warning timing glitch at frame 7926647 Warning timing glitch at frame 7928311 Warning timing glitch at frame 7929976 Warning timing glitch at frame 7931641 Warning timing glitch at frame 7933307 Warning timing glitch at frame 7934974 Warning timing glitch at frame 7936641 Warning timing glitch at frame 7938309 Warning timing glitch at frame 7939977 Warning timing glitch at frame 7941646 Warning timing glitch at frame 7943315 Warning timing glitch at frame 7944150 Warning timing glitch at frame 7944985 Warning timing glitch at frame 7945820 Warning timing glitch at frame 7946655 Warning timing glitch at frame 7947490 Warning timing glitch at frame 7948326 Warning timing glitch at frame 7949161 Warning timing glitch at frame 7949997 Warning timing glitch at frame 7950832 Warning timing glitch at frame 7952503 Warning timing glitch at frame 7954174 Warning timing glitch at frame 7955845 Warning timing glitch at frame 7957517 Warning timing glitch at frame 7959188 Warning timing glitch at frame 7960023 Warning timing glitch at frame 7960858 Warning timing glitch at frame 7961693 Warning timing glitch at frame 7962529 Warning timing glitch at frame 7963364 Warning timing glitch at frame 7964199 Warning timing glitch at frame 7965034 Warning timing glitch at frame 7965869 Warning timing glitch at frame 7966704 Warning timing glitch at frame 7968374 Warning timing glitch at frame 7970044 Warning timing glitch at frame 7971714 Warning timing glitch at frame 7973383 Warning timing glitch at frame 7975053 Warning timing glitch at frame 7976722 Warning timing glitch at frame 7977556 Warning timing glitch at frame 7978391 Warning timing glitch at frame 7979225 Warning timing glitch at frame 7980059 Warning timing glitch at frame 7980893 Warning timing glitch at frame 7981727 Warning timing glitch at frame 7982561 Warning timing glitch at frame 7983395 Warning timing glitch at frame 7984229 Warning timing glitch at frame 7985062 Warning timing glitch at frame 7985896 Warning timing glitch at frame 7986730 There were 70 timing glitches Done decoding data from header array... Data collected on ==> 25-APR-1998 Starting and end GPS times for SAR data -53195053.4990 -53194951.7390 Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00120 0.00120 0.00121 0.0000029 0 hdg 50.63253 50.50964 50.76782 0.0607300 0 trc 59.82874 59.65326 59.95989 0.0925020 0 tgs 214.42273 213.42188 215.01563 0.5221824 0 roll 0.29585 -0.01099 0.64270 0.1385427 0 pitch 1.21902 1.07666 1.34583 0.0791725 0 lati 44.47436 44.42586 44.52270 0.0281455 0 loni -121.53701 -121.65332 -121.42071 0.0676687 0 latd 44.47316 44.42333 44.52167 0.0282153 0 lond -121.54074 -121.65833 -121.42333 0.0677479 0 balt 9463.07449 9461.60160 9464.34480 0.8055076 0 ralt 8391.09754 8198.20560 8639.25120 125.9028573 0 dpth 1.21067 1.10000 1.30000 0.0819476 0 droll 0.31997 0.00000 0.70000 0.1485109 0 thd 50.59954 50.40000 50.80000 0.0821757 0 dad 9.24055 9.10000 9.40000 0.0842959 0 latg 44.47512 44.42649 44.52421 0.0281189 0 long -121.53487 -121.65162 -121.41670 0.0676668 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 9514.98644 9510.08984 9529.18945 5.0686805 0 phh_aten 12.00000 12.00000 12.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 6.00000 6.00000 6.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 13.00000 13.00000 13.00000 0.0000000 0 lhv_aten 13.00000 13.00000 13.00000 0.0000000 0 lvh_aten 13.00000 13.00000 13.00000 0.0000000 0 lvv_aten 13.00000 13.00000 13.00000 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 44.47585 44.42715 44.52455 0.0281190 0 hwlon -121.55758 -243.06583 -121.41624 1.7147572 0 hwalt 9543.70358 9540.89843 9546.96224 1.8286194 0 hwev 185.38109 184.18700 186.13300 0.6214295 0 hwnv 107.76882 107.63600 107.91600 0.0749851 0 hwuv -0.00445 -0.25500 0.20700 0.0988476 0 hwroll 0.29606 -0.01099 0.64270 0.1385734 0 hwpitch 1.21891 1.07666 1.34583 0.0791319 0 hwhdg 50.64266 50.50964 101.20605 0.7155829 0 hwtrc 59.84063 59.65326 119.52061 0.8466218 0 hwtgs 214.42292 213.42188 215.01563 0.5216124 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... -53195051.99913150 i_yearind 19983 GPS time for first pulse = -53195052.49816708 -53195053.49900000 New start and number of records = 115 83817 New start and number of blocks = 1 656 GPS trend coefficients = -3.433484398306914 -11.00937712244649 26.77587870409744 Begin final analysis of data... Analysis Results Parameter Average Minimum Maximum Std. Dev Errors t_prf 0.00120 0.00120 0.00121 0.0000029 0 hdg 50.63266 50.50964 50.76782 0.0606513 0 trc 59.82896 59.65326 59.95989 0.0923578 0 tgs 214.42408 213.42188 215.01563 0.5213453 0 roll 0.29591 -0.01099 0.64270 0.1386305 0 pitch 1.21886 1.07666 1.34583 0.0791472 0 delx 0.25730 0.00000 0.25738 0.0008891 0 lati 44.47436 44.42586 44.52270 0.0281455 0 loni -121.53701 -121.65332 -121.42071 0.0676687 0 latd 44.47316 44.42333 44.52167 0.0282153 0 lond -121.54074 -121.65833 -121.42333 0.0677479 0 balt 9463.07449 9461.60160 9464.34480 0.8055076 0 ralt 8391.09754 8198.20560 8639.25120 125.9028573 0 dpth 1.21067 1.10000 1.30000 0.0819476 0 droll 0.31997 0.00000 0.70000 0.1485109 0 thd 50.59954 50.40000 50.80000 0.0821757 0 dad 9.24055 9.10000 9.40000 0.0842959 0 latg 44.47512 44.42649 44.52324 0.0281163 0 long -121.53488 -121.65162 -121.41904 0.0676606 0 nc 0.00000 0.00000 0.00000 0.0000000 0 ec 0.00000 0.00000 0.00000 0.0000000 0 hgt 9514.98644 9513.16514 9516.68373 0.9285560 0 phh_aten 12.00000 12.00000 12.00000 0.0000000 0 phv_aten 8.00000 8.00000 8.00000 0.0000000 0 pvh_aten 6.00000 6.00000 6.00000 0.0000000 0 pvv_aten 14.00000 14.00000 14.00000 0.0000000 0 lhh_aten 13.00000 13.00000 13.00000 0.0000000 0 lhv_aten 13.00000 13.00000 13.00000 0.0000000 0 lvh_aten 13.00000 13.00000 13.00000 0.0000000 0 lvv_aten 13.00000 13.00000 13.00000 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 44.47585 44.42717 44.52453 0.0281190 0 hwlon -121.53340 -121.65014 -121.41633 0.0676176 0 hwalt 9543.70357 9540.89844 9546.96097 1.8286185 0 hwev 185.38100 184.18700 186.13100 0.6215628 0 hwnv 107.76882 107.63800 107.91500 0.0749688 0 hwuv -0.00445 -0.25500 0.20700 0.0988481 0 hwroll 0.29609 -0.01099 0.64270 0.1386368 0 hwpitch 1.21891 1.07666 1.34583 0.0791435 0 hwhdg 50.63257 50.50964 50.76782 0.0606073 0 hwtrc 59.82876 59.65350 59.95933 0.0924044 0 hwtgs 214.42284 213.42188 215.00000 0.5216705 0 Finished final analysis of data... Average Barometric Altitude = 9463.074490243851 Average Radar Altitude = 8391.097536585357 Average GPS Altitude = 9514.986436331252 >>Record # : 128 >>GPS Stuff = 2.40 5 7 16 30 >>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 = 44.4271689 -121.6501413 9546.961 End position = 44.5245296 -121.4163333 9544.793 Loxodromic Heading (deg) = 59.8182635 Loxodromic Distance (km) = 21519.6188210 Geodesic Heading (deg) = 59.7364057 Geodesic Distance (km) = 21519.6114033 Peg latitude and longitude = 44.4759389 -121.5333123 Peg heading = 59.8286349 Rotation matrix First row = -0.373179762 0.921022574 -0.111598757 Second row = -0.608180028 -0.152019229 0.779106673 Third row = 0.700609676 0.358618978 0.616878035 Translation vector Vector = -2064.64021 -3364.79379 -26087.50636 Local Radius of Curvature = 6383109.494379944 Start and end pulse used = 115 83931 Ellipsoidal delta s (m) = 0.2567482509697461 Delta s on reference surface = 0.2567482522388658 Miscellaneous Information Start range = 10312.86200000000 Start ground range = 5995.381953016429 Time orgin = -53195052.49816708 Pulse spacing = 0.2573029206248791 First frame = 7903094 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. /u/air47/airops/685/ts0685_p.mocomp Name of the H-pol motion compensation file? /u/air47/airops/685/ts0685_p.mocomph Name of the V-pol motion compensation file? /u/air47/airops/685/ts0685_p.mocompv How many lines per polarization? 42000 + 1 + 10001 + 20001 + 30001 + 40001 + 50001 + 60001 + 70001 + 80001 ********************************************* * * * 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. /u/air47/airops/685/ts0685_p.par Enter the raw data file name. /u/air40/airops/685/p_hh Enter the motion compensation file name. /u/air47/airops/685/ts0685_p.mocomp Enter a file name for the range spectrum: /u/air47/airops/685/db_p_hh.dat Enter a file name for the sampled caltone power: /u/air47/airops/685/1st_p_hh.dat Enter histogram of the caltone power file name: /u/air47/airops/685/pw_hist_p_hh.dat Enter histogram of the caltone phase file name: /u/air47/airops/685/ph_hist_p_hh.dat How many lines of raw data? 42000 Enter start range line #: 1 Enter polarization (1=HH,2=HV,3=VH,4=VV): 1 Sampling frequency = 45.00000 Raw data samples per line = 5119 Caltone frequency = 21.47700 Prediction cal_bin 1072 start/end pulse: 1 41857 128-Loop Count: 328 cmplx raw(1 2 3): (35.82965,0.0000000E+00) (119.4322,0.0000000E+00) (-143.3186,0.0000000E+00) attenuation (dB): 12.00000 Pulse#/128: 1 1072 684945.4 Pulse#/128: 129 1072 859041.4 Pulse#/128: 257 1072 852879.3 plot_x: 328 Estimate Caltone : 1073 49 -----CalTone Estimate Position --- CalTone Bin at : 1073 1072 CalTone Bin offset : -1 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 56.30906 Power RMS: 6.056154 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 812.6277 Amp. RMS: 522.5478 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 86.59841 Phase RMS: 165.4676 Incoherent PH 1st: -71.02846 max_bin with Incoherent averaging: 1073 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 87.17146 CalTone Power Coherently dB : 56.30906 WARNING!!! CalTone freq is drifting!!! Using Incoherently pw ph ph_sd: 87.17146 -71.02846 246.2176 Incoherent PW - Coherent PW : 30.86240 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 22645.76 CalTone Amplitude Coherently : 812.6277 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 21833.14 ------------ *** ------------ running time (sec): 18.83 ********** 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. /u/air47/airops/685/ts0685_p.par Enter the raw data file name. /u/air40/airops/685/p_hv Enter the motion compensation file name. /u/air47/airops/685/ts0685_p.mocomp Enter a file name for the range spectrum: /u/air47/airops/685/db_p_hv.dat Enter a file name for the sampled caltone power: /u/air47/airops/685/1st_p_hv.dat Enter histogram of the caltone power file name: /u/air47/airops/685/pw_hist_p_hv.dat Enter histogram of the caltone phase file name: /u/air47/airops/685/ph_hist_p_hv.dat How many lines of raw data? 42000 Enter start range line #: 1 Enter polarization (1=HH,2=HV,3=VH,4=VV): 2 Sampling frequency = 45.00000 Raw data samples per line = 5119 Caltone frequency = 21.47700 Prediction cal_bin 1072 start/end pulse: 1 41857 128-Loop Count: 328 cmplx raw(1 2 3): (-75.35659,0.0000000E+00) (-2.511886,0.0000000E+00) (95.45168,0.0000000E+00) attenuation (dB): 8.000000 Pulse#/128: 1 1072 4823615. Pulse#/128: 129 1072 5225127. Pulse#/128: 257 1072 4955875. plot_x: 328 Estimate Caltone : 1073 49 -----CalTone Estimate Position --- CalTone Bin at : 1073 1072 CalTone Bin offset : -1 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 67.05624 Power RMS: 0.3247595 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 2254.845 Amp. RMS: 84.52219 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -26.16280 Phase RMS: 1.974802 Incoherent PH 1st: -25.85423 max_bin with Incoherent averaging: 1073 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 90.43506 CalTone Power Coherently dB : 67.05624 WARNING!!! CalTone freq is drifting!!! Using Incoherently pw ph ph_sd: 90.43506 -25.85423 17.09773 Incoherent PW - Coherent PW : 23.37882 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 33302.99 CalTone Amplitude Coherently : 2254.845 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 31048.15 ------------ *** ------------ running time (sec): 17.64 ********** 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. /u/air47/airops/685/ts0685_p.par Enter the raw data file name. /u/air40/airops/685/p_vh Enter the motion compensation file name. /u/air47/airops/685/ts0685_p.mocomp Enter a file name for the range spectrum: /u/air47/airops/685/db_p_vh.dat Enter a file name for the sampled caltone power: /u/air47/airops/685/1st_p_vh.dat Enter histogram of the caltone power file name: /u/air47/airops/685/pw_hist_p_vh.dat Enter histogram of the caltone phase file name: /u/air47/airops/685/ph_hist_p_vh.dat How many lines of raw data? 42000 Enter start range line #: 1 Enter polarization (1=HH,2=HV,3=VH,4=VV): 3 Sampling frequency = 45.00000 Raw data samples per line = 5119 Caltone frequency = 21.47700 Prediction cal_bin 1072 start/end pulse: 1 41857 128-Loop Count: 328 cmplx raw(1 2 3): (-3.990525,0.0000000E+00) (67.83892,0.0000000E+00) (195.5357,0.0000000E+00) attenuation (dB): 6.000001 Pulse#/128: 1 1072 89984.46 Pulse#/128: 129 1072 21683.45 Pulse#/128: 257 1072 31956.92 plot_x: 328 Estimate Caltone : 1073 49 -----CalTone Estimate Position --- CalTone Bin at : 1073 1072 CalTone Bin offset : -1 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 45.36993 Power RMS: 4.931588 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 211.7711 Amp. RMS: 96.99168 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : 53.77748 Phase RMS: 205.7765 Incoherent PH 1st: -14.88622 max_bin with Incoherent averaging: 1073 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 87.44561 CalTone Power Coherently dB : 45.36993 WARNING!!! CalTone freq is drifting!!! Using Incoherently pw ph ph_sd: 87.44561 -14.88622 212.9821 Incoherent PW - Coherent PW : 42.07568 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 23649.01 CalTone Amplitude Coherently : 211.7711 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 23437.23 ------------ *** ------------ running time (sec): 17.59 ********** 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. /u/air47/airops/685/ts0685_p.par Enter the raw data file name. /u/air40/airops/685/p_vv Enter the motion compensation file name. /u/air47/airops/685/ts0685_p.mocomp Enter a file name for the range spectrum: /u/air47/airops/685/db_p_vv.dat Enter a file name for the sampled caltone power: /u/air47/airops/685/1st_p_vv.dat Enter histogram of the caltone power file name: /u/air47/airops/685/pw_hist_p_vv.dat Enter histogram of the caltone phase file name: /u/air47/airops/685/ph_hist_p_vv.dat How many lines of raw data? 42000 Enter start range line #: 1 Enter polarization (1=HH,2=HV,3=VH,4=VV): 4 Sampling frequency = 45.00000 Raw data samples per line = 5119 Caltone frequency = 21.47700 Prediction cal_bin 1072 start/end pulse: 1 41857 128-Loop Count: 328 cmplx raw(1 2 3): (40.09498,0.0000000E+00) (100.2374,0.0000000E+00) (-170.4037,0.0000000E+00) attenuation (dB): 14.00000 Pulse#/128: 1 1072 9241.751 Pulse#/128: 129 1072 40953.32 Pulse#/128: 257 1072 64604.50 plot_x: 328 Estimate Caltone : 1073 49 -----CalTone Estimate Position --- CalTone Bin at : 1073 1072 CalTone Bin offset : -1 -------- CalTone Intensity-------- Coherent Power MEAN (dB) : 46.31244 Power RMS: 6.218632 -------- CalTone Amplitude -------- Coherent Amplitude MEAN : 250.8784 Amp. RMS: 136.3514 ---------CalTone Phase Angle--------- Coherent Phase MEAN (Deg) : -44.51237 Phase RMS: 241.0327 Incoherent PH 1st: 14.54890 max_bin with Incoherent averaging: 1073 ----CalTone Power Comparison of Non/Coherent--- CalTone Power Incoherently dB: 90.47170 CalTone Power Coherently dB : 46.31244 WARNING!!! CalTone freq is drifting!!! Using Incoherently pw ph ph_sd: 90.47170 14.54890 250.5242 Incoherent PW - Coherent PW : 44.15927 ------------ *** ------------ ----CalTone Amplitude Comparison of Non/Coherent--- CalTone Amplitude Incoherently : 33415.00 CalTone Amplitude Coherently : 250.8784 WARNING!!! CalTone freq is drifting!!! Incoherent Amp.- Coherent Amp. : 33164.12 ------------ *** ------------ running time (sec): 17.60 ********** 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. 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: 2.269833 -1.0247682E-04 z fit: constant and linear terms: -0.8136442 -5.8166577E-05 y and z standard deviations (meters) 2.754333 1.166147 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 = 10 Step size = 3492 PATCH NUMER 1 First line = 1 Averages = -4.2391617E-02 -4.2504940E-02 -4.2554051E-02 -4.3155693E-02 Differences = 2.5998801E-04 1.4666468E-04 9.7554177E-05 -5.0408766E-04 PATCH NUMER 2 First line = 3493 Averages = -4.2507593E-02 -4.2991351E-02 -4.3718103E-02 -4.4780459E-02 Differences = 9.9195167E-04 5.0819293E-04 -2.1855906E-04 -1.2809150E-03 PATCH NUMER 3 First line = 6985 Averages = -4.3430898E-02 -4.4489749E-02 -4.5164853E-02 -4.5229714E-02 Differences = 1.1480749E-03 8.9224428E-05 -5.8588013E-04 -6.5074116E-04 PATCH NUMER 4 First line = 10477 Averages = -4.5044638E-02 -4.5270167E-02 -4.5425557E-02 -4.5725144E-02 Differences = 3.2171234E-04 9.6183270E-05 -5.9206039E-05 -3.5879388E-04 PATCH NUMER 5 First line = 13969 Averages = -4.5266699E-02 -4.5634821E-02 -4.6095867E-02 -4.5602545E-02 Differences = 3.8333237E-04 1.5210360E-05 -4.4583529E-04 4.7486275E-05 PATCH NUMER 6 First line = 17461 Averages = -4.5979466E-02 -4.5854144E-02 -4.4891879E-02 -4.3920647E-02 Differences = -8.1776828E-04 -6.9244578E-04 2.6981905E-04 1.2410507E-03 PATCH NUMER 7 First line = 20953 Averages = -4.5196448E-02 -4.4271942E-02 -4.3424919E-02 -4.2865988E-02 Differences = -1.2563877E-03 -3.3188239E-04 5.1514059E-04 1.0740720E-03 PATCH NUMER 8 First line = 24445 Averages = -4.3584026E-02 -4.2922657E-02 -4.2885110E-02 -4.2811498E-02 Differences = -5.3317845E-04 1.2819096E-04 1.6573817E-04 2.3934990E-04 PATCH NUMER 9 First line = 27937 Averages = -4.2910259E-02 -4.2867258E-02 -4.2658769E-02 -4.1536625E-02 Differences = -4.1696429E-04 -3.7396327E-04 -1.6547367E-04 9.5666945E-04 PATCH NUMER 10 First line = 31429 Averages = -4.2685635E-02 -4.1890632E-02 -4.1015450E-02 -4.0089097E-02 Differences = -1.2652725E-03 -4.7026947E-04 4.0491298E-04 1.3312660E-03 PATCH NUMER 11 First line = 34921 last black mod_64: 55 42000 34921 8192 Averages = -4.1243006E-02 -4.0313996E-02 -3.9996438E-02 -4.0049627E-02 Differences = -8.4216893E-04 8.6840242E-05 4.0439889E-04 3.5120919E-04 ********************************************* ***** ***** ***** Integrated AIRSAR Processor ***** ***** Fancy Single Look Processor ***** ***** ***** ***** Version 5.02 ***** ***** ***** ********************************************* 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. /u/air40/airops/685/sensor.pp Please enter the name of the parameter file /u/air47/airops/685/ts0685_p.par hddt: 98023 The following values were specified: Processing 6144 bytes per data line Start processing at line 1 Going to process 42000 lines Keeping 4192 data points per patch Near range (m) = 9462.950 Slant range pixel spacing (m) = 6.662055 Azimuth pixel spacing (m) = 0.5144400 Theoretical azimuth resolution (m) = 3.500000 Radar wavelength (m) = 0.6832900 ADC sampling frequency (MHz) = 45.00000 Pulse length (microseconds) = 10.00000 Chirp bandwidth (MHz) = 20.00000 Ashift = -0.7250000 Range weighting coefficient = 0.1000000 Map height (m) = 1155.900 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? /u/air40/airops/685/p_hh Name of the mocomp data file? /u/air47/airops/685/ts0685_p.mocomph Output file name w/o ext? /u/air47/airops/685/ts0685_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:/u/air40/airops/685/ output filename:/u/air40/airops/685/ts0685_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? /u/air40/airops/685/deskew.ph WAYNE init fft, calc slant range, load unpack, interpo 1.2650996E-02 reading motion compensation data WAYNE read motion compen 0.8927840 write parameters ... analog chirp >/ 96032 98023 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.2841581 start range comp, time = 1.279 WAYNE PREV 1.202863 NUMBER OF PROCESSOR USED = 8 POINTER 288239859439501312 288521334416211968 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 7 ..... WAYNE IS IN Processing 10 to 10 by # 6 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 1.473 seconds. before reading done reading WAYNE load raw data , time = 46.76355898380280 ATTN ifrq ipol ln 0 1 39620 12.00000 IPOL, ITOP nblock 1 0 10 ****shift in azimuth (fractional pixel)= -0.4928501 shift in azimuth *fractional pixel= -0.4928501 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.0630011558532715E-02 WAYNE Motion comp. added to patch, time = 14.70937097072601 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 2.2690296173095703E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 169.7859789133072 Writing 4192 lines of data to file WAYNE write output data 0.8676310777664185 ==w out 10 0 2001 0 WAYNE PROCESS 232.1406420469284 ==w out 11 4195 PROCESSING KID# 5 ..... WAYNE IS IN Processing 8 to 8 by # 4 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 1.465 seconds. before reading done reading WAYNE load raw data , time = 45.38028001785278 ATTN ifrq ipol ln 0 1 32636 12.00000 IPOL, ITOP nblock 1 0 8 ****shift in azimuth (fractional pixel)= -0.4928194 shift in azimuth *fractional pixel= -0.4928194 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.0568022727966309E-02 WAYNE Motion comp. added to patch, time = 14.67305397987366 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.2150278091430664E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 172.1057969331741 Writing 4192 lines of data to file WAYNE write output data 1.192404985427856 ==w out 8 0 2001 0 WAYNE PROCESS 233.3654279708862 ==w out 9 4195 PROCESSING KID# 4 ..... WAYNE IS IN Processing 7 to 7 by # 3 Processing block number 7 WAYNE PATCHES: 20953 29144 patch# 7 reference line: 25048 1.450 seconds. before reading done reading WAYNE load raw data , time = 45.37044799327850 ATTN ifrq ipol ln 0 1 29144 12.00000 IPOL, ITOP nblock 1 0 7 ****shift in azimuth (fractional pixel)= -0.4930060 shift in azimuth *fractional pixel= -0.4930060 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.0455012321472168E-02 WAYNE Motion comp. added to patch, time = 14.92571008205414 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 2.4549961090087891E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 172.2132240533829 Writing 4192 lines of data to file WAYNE write output data 1.381803989410400 ==w out 7 0 2001 0 WAYNE PROCESS 233.9053750038147 ==w out 8 4195 PROCESSING KID# 8 ..... WAYNE IS IN Processing 11 to 11 by # 7 Processing block number 11 WAYNE PATCHES: 33808 41999 patch# 11 reference line: 37903 1.481 seconds. before reading done reading WAYNE load raw data , time = 45.34469199180603 ATTN ifrq ipol ln 0 1 41999 12.00000 IPOL, ITOP nblock 1 0 11 ****shift in azimuth (fractional pixel)= -0.4928767 shift in azimuth *fractional pixel= -0.4928767 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.0035037994384766E-02 WAYNE Motion comp. added to patch, time = 14.80994999408722 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.3180246353149414E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 172.6472419500351 Writing 4192 lines of data to file WAYNE write output data 1.402774930000305 ==w out 11 0 2001 0 WAYNE PROCESS 234.2182509899139 ==w out 12 4195 PROCESSING KID# 6 ..... WAYNE IS IN Processing 9 to 9 by # 5 Processing block number 9 WAYNE PATCHES: 27937 36128 patch# 9 reference line: 32032 1.463 seconds. before reading done reading WAYNE load raw data , time = 45.79997301101685 ATTN ifrq ipol ln 0 1 36128 12.00000 IPOL, ITOP nblock 1 0 9 ****shift in azimuth (fractional pixel)= -0.4927922 shift in azimuth *fractional pixel= -0.4927922 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.0646939277648926E-02 WAYNE Motion comp. added to patch, time = 15.37888002395630 WAYNE Doppler estimation done, time = 6.9141387939453125E-06 WAYNE write deskew done, time = 2.3740530014038086E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 176.2127779722214 Writing 4192 lines of data to file WAYNE write output data 0.8820170164108276 ==w out 9 0 2001 0 WAYNE PROCESS 238.2878739833832 ==w out 10 4195 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 2 by # 0 Processing block number 1 TESTING WHY -0.1690470 2.2242401E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 1.417 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 45.32883095741272 ATTN ifrq ipol ln 0 1 8192 12.00000 IPOL, ITOP nblock 1 0 1 ****shift in azimuth (fractional pixel)= -0.4927982 shift in azimuth *fractional pixel= -0.4927982 1.000000 WAYNE Motion comp. coeff. calculated, time = 9.9179744720458984E-03 TESTING 0.0000000E+00 -0.3220955 -0.9413522 WAYNE Motion comp. added to patch, time = 14.63592600822449 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.2550821304321289E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -0.3220955 -0.9413522 HEY,dt,fract,ye,pe -0.4927982 1.000000 -0.1690470 2.2242401E-02 WAYNE Azimuth compression done, time = 173.0474500656128 Writing 4192 lines of data to file WAYNE write output data 1.375444054603577 ==w out 1 0 2001 0 WAYNE PROCESS 234.4008800983429 Processing block number 2 TESTING WHY -0.1686140 2.1502599E-02 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 235.818 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 44.54439401626587 ATTN ifrq ipol ln 0 1 11684 12.00000 IPOL, ITOP nblock 1 0 2 ****shift in azimuth (fractional pixel)= -0.4928696 shift in azimuth *fractional pixel= -0.4928696 1.000000 WAYNE Motion comp. coeff. calculated, time = 9.8419189453125000E-03 TESTING 0.0000000E+00 1.664162 -1.482184 WAYNE Motion comp. added to patch, time = 13.60976397991180 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.5574922561645508E-02 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 1.664162 -1.482184 HEY,dt,fract,ye,pe -0.4928696 1.000000 -0.1686140 2.1502599E-02 WAYNE Azimuth compression done, time = 157.0664960145950 Writing 4192 lines of data to file WAYNE write output data 0.9508569240570068 ==w out 2 4192 2001 85852160 WAYNE PROCESS 216.2077800035477 ==w out 3 8387 PROCESSING KID# 2 ..... WAYNE IS IN Processing 3 to 4 by # 1 Processing block number 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 1.431 seconds. before reading done reading WAYNE load raw data , time = 45.24388098716736 ATTN ifrq ipol ln 0 1 15176 12.00000 IPOL, ITOP nblock 1 0 3 ****shift in azimuth (fractional pixel)= -0.4928504 shift in azimuth *fractional pixel= -0.4928504 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.0412931442260742E-02 WAYNE Motion comp. added to patch, time = 14.63927209377289 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.2890567779541016E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 173.4472529888153 Writing 4192 lines of data to file WAYNE write output data 1.257400989532471 ==w out 3 0 2001 0 WAYNE PROCESS 234.6017049551010 Processing block number 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 236.033 seconds. before reading done reading WAYNE load raw data , time = 44.36706602573395 ATTN ifrq ipol ln 0 1 18668 12.00000 IPOL, ITOP nblock 1 0 4 ****shift in azimuth (fractional pixel)= -0.4929838 shift in azimuth *fractional pixel= -0.4929838 1.000000 WAYNE Motion comp. coeff. calculated, time = 9.7359418869018555E-03 WAYNE Motion comp. added to patch, time = 13.64646196365356 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 1.3169050216674805E-02 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 173.6489169597626 Writing 4192 lines of data to file WAYNE write output data 1.197874069213867 ==w out 4 4192 2001 85852160 WAYNE PROCESS 232.8840730190277 ==w out 5 8387 PROCESSING KID# 3 ..... WAYNE IS IN Processing 5 to 6 by # 2 Processing block number 5 WAYNE PATCHES: 13969 22160 patch# 5 reference line: 18064 1.438 seconds. before reading done reading WAYNE load raw data , time = 45.24282097816467 ATTN ifrq ipol ln 0 1 22160 12.00000 IPOL, ITOP nblock 1 0 5 ****shift in azimuth (fractional pixel)= -0.4930457 shift in azimuth *fractional pixel= -0.4930457 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.0414004325866699E-02 WAYNE Motion comp. added to patch, time = 14.78306102752686 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.3740530014038086E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 172.5071729421616 Writing 4192 lines of data to file WAYNE write output data 1.290307998657227 ==w out 5 0 2001 0 WAYNE PROCESS 233.8372809886932 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 235.275 seconds. before reading done reading WAYNE load raw data , time = 44.83490788936615 ATTN ifrq ipol ln 0 1 25652 12.00000 IPOL, ITOP nblock 1 0 6 ****shift in azimuth (fractional pixel)= -0.4930271 shift in azimuth *fractional pixel= -0.4930271 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.0025024414062500E-02 WAYNE Motion comp. added to patch, time = 13.92119002342224 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.1858930587768555E-02 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 173.8832119703293 Writing 4192 lines of data to file WAYNE write output data 1.198531985282898 ==w out 6 4192 2001 85852160 WAYNE PROCESS 233.8706749677658 ==w out 7 8387 1 4874063 0 2 4873966 0 3 4873749 0 4 4874017 0 5 4873624 0 6 4873522 0 7 4873487 0 8 4873795 0 PROCESSING COMPLETED POINTER 288239859439501312 288521334416211968 icnt = 46112kids= 8 Writing variable header... gather image from processor # 0 2 gather image from processor # 1 2 gather image from processor # 2 2 gather image from processor # 3 1 gather image from processor # 4 1 gather image from processor # 5 1 gather image from processor # 6 1 gather image from processor # 7 1 WAYNE gather images takes: 7.6900005340576172E-02 WAYNE LOOP TIME: 476.3178019523621 update sarfile,mocompfile,dopfile,glbfile,N_RA: /u/air40/airops/685/ts0685_p.hh_j /u/air47/airops/685/ts0685_p.mocomph /u/air47/airops/685/ts0685_p.dop /u/air47/airops/685/ts0685_p.glb 2560 46112 update intf hdr ha: 8391.100 UPDATE: 2560 46112 6.662100 0.5144000 mocompfile /u/air47/airops/685/ts0685_p.mocomph dopfile /u/air47/airops/685/ts0685_p.dop globalfile /u/air47/airops/685/ts0685_p.glb /u/air47/airops/685/ts0685_p.glb 32 deskew line ra ha trc: -552.2505 -1074 9465.095 8391.100 59.86913 lat1 lon1: -1074 44.45876 -121.6837 46112 lati loni: 45038 44.69931 -121.5461 45038 2560 lati loni: 21982 44.57775 -121.6178 21982 1280 Updated paramater header in /u/air40/airops/685/ts0685_p.hh_j WAYNE FINAL PROCESS 477.6577280759811 ********************************************* ***** ***** ***** 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 8384 2 8384 2 8384 2 4192 1 4192 1 4192 1 4192 1 4192 1 Name of data file to be deskewed? /u/air40/airops/685/ts0685_p.hh_j Name of the doppler parameter file? /u/air47/airops/685/ts0685_p.dop Name of the deskew file? /u/air40/airops/685/deskew.ph Line up to another frequency [y/n]? n Name of the output file? /u/air47/airops/685/ts0685_p.hh Name of the line output file? /u/air47/airops/685/p_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 2.854785084724426 Deskewing 11 patches Processing block number 1 DEBUG -7961 -1074.528 -7960.474 -0.4927982 -0.4927982 patch iptc,sj,dgj,dgi,id: 1 1 -7961 -7961 0 half line dmj dgc: 0 2001 -1075 -7961 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1 1 Zeroing lines in arrays Total # of output lines = 1 0 1 2097 0 2096 patch iptc,sj,dgj,dgi,id: 1 2097 -7961 -7961 2096 half line dmj dgc: 1 2001 -1075 -7961 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 2097 1 Zeroing lines in arrays Total # of output lines = 1 2096 Processing block number 2 DEBUG -7951 -1083.265 -7951.258 -0.4928696 -0.4928696 2097 3503 10 1396 patch iptc,sj,dgj,dgi,id: 2 3503 -7951 -7961 1396 half line dmj dgc: 0 5493 -1083 -7961 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 3503 2097 Zeroing lines in arrays Total # of output lines = 2 3502 3503 5599 0 2096 patch iptc,sj,dgj,dgi,id: 2 5599 -7951 -7951 2096 half line dmj dgc: 1 5493 -1083 -7961 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 5599 3503 Zeroing lines in arrays Total # of output lines = 2 5598 Processing block number 3 DEBUG -7938 -1094.114 -7938.288 -0.4928504 -0.4928504 5599 7008 13 1396 patch iptc,sj,dgj,dgi,id: 3 7008 -7938 -7951 1396 half line dmj dgc: 0 8985 -1094 -7961 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 7008 5599 Zeroing lines in arrays Total # of output lines = 3 7007 7008 9104 0 2096 patch iptc,sj,dgj,dgi,id: 3 9104 -7938 -7938 2096 half line dmj dgc: 1 8985 -1094 -7961 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 9104 7008 Zeroing lines in arrays Total # of output lines = 3 9103 Processing block number 4 DEBUG -7912 -1100.817 -7911.505 -0.4929838 -0.4929838 9104 10526 26 1396 patch iptc,sj,dgj,dgi,id: 4 10526 -7912 -7938 1396 half line dmj dgc: 0 12477 -1101 -7961 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 10526 9104 Zeroing lines in arrays Total # of output lines = 4 10525 10526 12622 0 2096 patch iptc,sj,dgj,dgi,id: 4 334 -7912 -7912 2096 half line dmj dgc: 1 12477 -1101 -7961 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 s1>sj: 10526 334 Zeroing lines in arrays Total # of output lines = 4 12621 Processing block number 5 DEBUG -7880 -1101.933 -7879.668 -0.4930457 -0.4930457 334 1762 32 1396 patch iptc,sj,dgj,dgi,id: 5 1762 -7880 -7912 1396 half line dmj dgc: 0 15969 -1102 -7961 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 1762 334 Zeroing lines in arrays Total # of output lines = 5 14049 1762 3858 0 2096 patch iptc,sj,dgj,dgi,id: 5 3858 -7880 -7880 2096 half line dmj dgc: 1 15969 -1102 -7961 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 sj>s1: 3858 1762 Zeroing lines in arrays Total # of output lines = 5 16145 Processing block number 6 DEBUG -7853 -1095.463 -7852.685 -0.4930271 -0.4930271 3858 5281 27 1396 patch iptc,sj,dgj,dgi,id: 6 5281 -7853 -7880 1396 half line dmj dgc: 0 19461 -1096 -7961 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 5281 3858 Zeroing lines in arrays Total # of output lines = 6 17568 5281 7377 0 2096 patch iptc,sj,dgj,dgi,id: 6 7377 -7853 -7853 2096 half line dmj dgc: 1 19461 -1096 -7961 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 7377 5281 Zeroing lines in arrays Total # of output lines = 6 19664 Processing block number 7 DEBUG -7861 -1083.828 -7861.343 -0.4930060 -0.4930060 7377 8765 -8 1396 patch iptc,sj,dgj,dgi,id: 7 8765 -7861 -7853 1396 half line dmj dgc: 0 22953 -1084 -7961 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 8765 7377 Zeroing lines in arrays Total # of output lines = 7 21052 8765 10861 0 2096 patch iptc,sj,dgj,dgi,id: 7 10861 -7861 -7861 2096 half line dmj dgc: 1 22953 -1084 -7961 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 10861 8765 Zeroing lines in arrays Total # of output lines = 7 23148 Processing block number 8 DEBUG -7895 -1076.933 -7894.403 -0.4928194 -0.4928194 10861 12223 -34 1396 patch iptc,sj,dgj,dgi,id: 8 12223 -7895 -7861 1396 half line dmj dgc: 0 26445 -1077 -7961 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 sj>s1: 12223 10861 Zeroing lines in arrays Total # of output lines = 8 24510 12223 14319 0 2096 patch iptc,sj,dgj,dgi,id: 8 2031 -7895 -7895 2096 half line dmj dgc: 1 26445 -1077 -7961 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 s1>sj: 12223 2031 Zeroing lines in arrays Total # of output lines = 8 26606 Processing block number 9 DEBUG -7911 -1071.921 -7911.250 -0.4927922 -0.4927922 2031 3411 -16 1396 patch iptc,sj,dgj,dgi,id: 9 3411 -7911 -7895 1396 half line dmj dgc: 0 29937 -1072 -7961 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 3411 2031 Zeroing lines in arrays Total # of output lines = 9 27986 3411 5507 0 2096 patch iptc,sj,dgj,dgi,id: 9 5507 -7911 -7911 2096 half line dmj dgc: 1 29937 -1072 -7961 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 5507 3411 Zeroing lines in arrays Total # of output lines = 9 30082 Processing block number 10 DEBUG -7882 -1057.804 -7881.561 -0.4928501 -0.4928501 5507 6932 29 1396 patch iptc,sj,dgj,dgi,id: 10 6932 -7882 -7911 1396 half line dmj dgc: 0 33429 -1058 -7961 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 6932 5507 Zeroing lines in arrays Total # of output lines = 10 31507 6932 9028 0 2096 patch iptc,sj,dgj,dgi,id: 10 9028 -7882 -7882 2096 half line dmj dgc: 1 33429 -1058 -7961 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 sj>s1: 9028 6932 Zeroing lines in arrays Total # of output lines = 10 33603 Processing block number 11 DEBUG -7828 -1042.391 -7827.930 -0.4928767 -0.4928767 9028 9365 54 283 patch iptc,sj,dgj,dgi,id: 11 9365 -7828 -7882 283 half line dmj dgc: 0 35808 -1042 -7961 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 9365 9028 Zeroing lines in arrays Total # of output lines = 11 33940 9365 11461 0 2096 patch iptc,sj,dgj,dgi,id: 11 11461 -7828 -7828 2096 half line dmj dgc: 1 35808 -1042 -7961 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 sj>s1: 11461 9365 Zeroing lines in arrays Total # of output lines = 11 36036 ia dmi dgi: 11461 -1042 -7828 Writing the last 8882 lines last half sj/ 96032 98023 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.2831991 start range comp, time = 1.219 WAYNE PREV 1.209977 NUMBER OF PROCESSOR USED = 8 POINTER 288239859439501312 288521334416211968 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 7 ..... WAYNE IS IN Processing 10 to 10 by # 6 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 1.434 seconds. before reading done reading WAYNE load raw data , time = 46.08713495731354 ATTN ifrq ipol ln 0 2 39620 8.000000 IPOL, ITOP nblock 2 0 10 ****shift in azimuth (fractional pixel)= -0.4928501 shift in azimuth *fractional pixel= -0.4928501 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.0334014892578125E-02 WAYNE Motion comp. added to patch, time = 14.63639390468597 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.2400617599487305E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 171.6891089677811 Writing 4192 lines of data to file WAYNE write output data 1.227180004119873 ==w out 10 0 2001 0 WAYNE PROCESS 233.6534129381180 ==w out 11 4195 PROCESSING KID# 6 ..... WAYNE IS IN Processing 9 to 9 by # 5 Processing block number 9 WAYNE PATCHES: 27937 36128 patch# 9 reference line: 32032 1.427 seconds. before reading done reading WAYNE load raw data , time = 46.97933995723724 ATTN ifrq ipol ln 0 2 36128 8.000000 IPOL, ITOP nblock 2 0 9 ****shift in azimuth (fractional pixel)= -0.4927922 shift in azimuth *fractional pixel= -0.4927922 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.0690093040466309E-02 WAYNE Motion comp. added to patch, time = 14.52964603900909 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.2810697555541992E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 171.4787000417709 Writing 4192 lines of data to file WAYNE write output data 1.351909995079041 ==w out 9 0 2001 0 WAYNE PROCESS 234.3537849187851 ==w out 10 4195 PROCESSING KID# 5 ..... WAYNE IS IN Processing 8 to 8 by # 4 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 1.420 seconds. before reading done reading WAYNE load raw data , time = 46.54501891136169 ATTN ifrq ipol ln 0 2 32636 8.000000 IPOL, ITOP nblock 2 0 8 ****shift in azimuth (fractional pixel)= -0.4928194 shift in azimuth *fractional pixel= -0.4928194 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.0491013526916504E-02 WAYNE Motion comp. added to patch, time = 14.59776902198792 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.2959709167480469E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 171.9437080621719 Writing 4192 lines of data to file WAYNE write output data 1.416695952415466 ==w out 8 0 2001 0 WAYNE PROCESS 234.5170729160309 ==w out 9 4195 PROCESSING KID# 4 ..... WAYNE IS IN Processing 7 to 7 by # 3 Processing block number 7 WAYNE PATCHES: 20953 29144 patch# 7 reference line: 25048 1.411 seconds. before reading done reading WAYNE load raw data , time = 46.23847997188568 ATTN ifrq ipol ln 0 2 29144 8.000000 IPOL, ITOP nblock 2 0 7 ****shift in azimuth (fractional pixel)= -0.4930060 shift in azimuth *fractional pixel= -0.4930060 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.0531067848205566E-02 WAYNE Motion comp. added to patch, time = 14.94990491867065 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.4989843368530273E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 171.9384989738464 Writing 4192 lines of data to file WAYNE write output data 1.427034020423889 ==w out 7 0 2001 0 WAYNE PROCESS 234.5680691003799 ==w out 8 4195 PROCESSING KID# 8 ..... WAYNE IS IN Processing 11 to 11 by # 7 Processing block number 11 WAYNE PATCHES: 33808 41999 patch# 11 reference line: 37903 1.441 seconds. before reading done reading WAYNE load raw data , time = 46.88995099067688 ATTN ifrq ipol ln 0 2 41999 8.000000 IPOL, ITOP nblock 2 0 11 ****shift in azimuth (fractional pixel)= -0.4928767 shift in azimuth *fractional pixel= -0.4928767 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.0500073432922363E-02 WAYNE Motion comp. added to patch, time = 14.70427298545837 WAYNE Doppler estimation done, time = 1.2993812561035156E-05 WAYNE write deskew done, time = 2.3760795593261719E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 172.2315920591354 Writing 4192 lines of data to file WAYNE write output data 1.173951983451843 ==w out 11 0 2001 0 WAYNE PROCESS 235.0138319730759 ==w out 12 4195 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 2 by # 0 Processing block number 1 TESTING WHY -0.1690470 2.2242401E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 1.388 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 46.57903301715851 ATTN ifrq ipol ln 0 2 8192 8.000000 IPOL, ITOP nblock 2 0 1 ****shift in azimuth (fractional pixel)= -0.4927982 shift in azimuth *fractional pixel= -0.4927982 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.0022997856140137E-02 TESTING 0.0000000E+00 -0.3220955 -0.9413522 WAYNE Motion comp. added to patch, time = 14.72122204303741 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.3119449615478516E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -0.3220955 -0.9413522 HEY,dt,fract,ye,pe -0.4927982 1.000000 -0.1690470 2.2242401E-02 WAYNE Azimuth compression done, time = 171.0155019760132 Writing 4192 lines of data to file WAYNE write output data 1.159020066261292 ==w out 1 0 2001 0 WAYNE PROCESS 233.4881670475006 Processing block number 2 TESTING WHY -0.1686140 2.1502599E-02 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 234.877 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 70.62232601642609 ATTN ifrq ipol ln 0 2 11684 8.000000 IPOL, ITOP nblock 2 0 2 ****shift in azimuth (fractional pixel)= -0.4928696 shift in azimuth *fractional pixel= -0.4928696 1.000000 WAYNE Motion comp. coeff. calculated, time = 9.5609426498413086E-03 TESTING 0.0000000E+00 1.664162 -1.482184 WAYNE Motion comp. added to patch, time = 13.57169592380524 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.1414041519165039E-02 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 1.664162 -1.482184 HEY,dt,fract,ye,pe -0.4928696 1.000000 -0.1686140 2.1502599E-02 WAYNE Azimuth compression done, time = 158.6496970653534 Writing 4192 lines of data to file WAYNE write output data 0.8965929746627808 ==w out 2 4192 2001 85852160 WAYNE PROCESS 243.7721869945526 ==w out 3 8387 PROCESSING KID# 3 ..... WAYNE IS IN Processing 5 to 6 by # 2 Processing block number 5 WAYNE PATCHES: 13969 22160 patch# 5 reference line: 18064 1.402 seconds. before reading done reading WAYNE load raw data , time = 46.26267802715302 ATTN ifrq ipol ln 0 2 22160 8.000000 IPOL, ITOP nblock 2 0 5 ****shift in azimuth (fractional pixel)= -0.4930457 shift in azimuth *fractional pixel= -0.4930457 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.0378003120422363E-02 WAYNE Motion comp. added to patch, time = 15.21295499801636 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.4379491806030273E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 171.9847489595413 Writing 4192 lines of data to file WAYNE write output data 1.254526972770691 ==w out 5 0 2001 0 WAYNE PROCESS 234.7289010286331 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 236.131 seconds. before reading done reading WAYNE load raw data , time = 69.71918201446533 ATTN ifrq ipol ln 0 2 25652 8.000000 IPOL, ITOP nblock 2 0 6 ****shift in azimuth (fractional pixel)= -0.4930271 shift in azimuth *fractional pixel= -0.4930271 1.000000 WAYNE Motion comp. coeff. calculated, time = 9.9350214004516602E-03 WAYNE Motion comp. added to patch, time = 13.75342500209808 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.4779081344604492E-02 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 172.6098910570145 Writing 4192 lines of data to file WAYNE write output data 0.8680460453033447 ==w out 6 4192 2001 85852160 WAYNE PROCESS 256.9861750602722 ==w out 7 8387 PROCESSING KID# 2 ..... WAYNE IS IN Processing 3 to 4 by # 1 Processing block number 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 1.396 seconds. before reading done reading WAYNE load raw data , time = 46.46244704723358 ATTN ifrq ipol ln 0 2 15176 8.000000 IPOL, ITOP nblock 2 0 3 ****shift in azimuth (fractional pixel)= -0.4928504 shift in azimuth *fractional pixel= -0.4928504 1.000000 WAYNE Motion comp. coeff. calculated, time = 1.0465979576110840E-02 WAYNE Motion comp. added to patch, time = 14.81103098392487 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.3330450057983398E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 173.1909790039063 Writing 4192 lines of data to file WAYNE write output data 1.035553932189941 ==w out 3 0 2001 0 WAYNE PROCESS 235.5139149427414 Processing block number 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 236.910 seconds. before reading done reading WAYNE load raw data , time = 70.92426204681396 ATTN ifrq ipol ln 0 2 18668 8.000000 IPOL, ITOP nblock 2 0 4 ****shift in azimuth (fractional pixel)= -0.4929838 shift in azimuth *fractional pixel= -0.4929838 1.000000 WAYNE Motion comp. coeff. calculated, time = 9.8429918289184570E-03 WAYNE Motion comp. added to patch, time = 13.50942099094391 WAYNE Doppler estimation done, time = 1.0967254638671875E-05 WAYNE write deskew done, time = 2.4840950965881348E-02 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 172.3024799823761 Writing 4192 lines of data to file WAYNE write output data 0.9034390449523926 ==w out 4 4192 2001 85852160 WAYNE PROCESS 257.6752129793167 ==w out 5 8387 1 4873586 0 2 4873871 0 3 4833535 0 4 4873818 0 5 4873625 0 6 4873448 0 7 4873815 0 8 4873456 0 PROCESSING COMPLETED POINTER 288239859439501312 288521334416211968 icnt = 46112kids= 8 Writing variable header... gather image from processor # 0 2 gather image from processor # 1 2 gather image from processor # 2 2 gather image from processor # 3 1 gather image from processor # 4 1 gather image from processor # 5 1 gather image from processor # 6 1 gather image from processor # 7 1 WAYNE gather images takes: 7.8105926513671875E-02 WAYNE LOOP TIME: 501.8187739849091 update sarfile,mocompfile,dopfile,glbfile,N_RA: /u/air40/airops/685/ts0685_p.hv_j /u/air47/airops/685/ts0685_p.mocomph /u/air47/airops/685/ts0685_p.dop /u/air47/airops/685/ts0685_p.glb 2560 46112 update intf hdr ha: 8391.100 UPDATE: 2560 46112 6.662100 0.5144000 mocompfile /u/air47/airops/685/ts0685_p.mocomph dopfile /u/air47/airops/685/ts0685_p.dop globalfile /u/air47/airops/685/ts0685_p.glb /u/air47/airops/685/ts0685_p.glb 32 deskew line ra ha trc: -552.2505 -1074 9465.095 8391.100 59.86913 lat1 lon1: -1074 44.45876 -121.6837 46112 lati loni: 45038 44.69931 -121.5461 45038 2560 lati loni: 21982 44.57775 -121.6178 21982 1280 Updated paramater header in /u/air40/airops/685/ts0685_p.hv_j WAYNE FINAL PROCESS 503.1045339107513 ********************************************* ***** ***** ***** 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 8384 2 8384 2 8384 2 4192 1 4192 1 4192 1 4192 1 4192 1 Name of data file to be deskewed? /u/air40/airops/685/ts0685_p.hv_j Name of the doppler parameter file? /u/air47/airops/685/ts0685_p.dop Name of the deskew file? /u/air40/airops/685/deskew.ph Line up to another frequency [y/n]? n Name of the output file? /u/air47/airops/685/ts0685_p.hv Name of the line output file? /u/air47/airops/685/p_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 2.976464986801147 Deskewing 11 patches Processing block number 1 DEBUG -7961 -1074.528 -7960.474 -0.4927982 -0.4927982 patch iptc,sj,dgj,dgi,id: 1 1 -7961 -7961 0 half line dmj dgc: 0 2001 -1075 -7961 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1 1 Zeroing lines in arrays Total # of output lines = 1 0 1 2097 0 2096 patch iptc,sj,dgj,dgi,id: 1 2097 -7961 -7961 2096 half line dmj dgc: 1 2001 -1075 -7961 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 2097 1 Zeroing lines in arrays Total # of output lines = 1 2096 Processing block number 2 DEBUG -7951 -1083.265 -7951.258 -0.4928696 -0.4928696 2097 3503 10 1396 patch iptc,sj,dgj,dgi,id: 2 3503 -7951 -7961 1396 half line dmj dgc: 0 5493 -1083 -7961 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 3503 2097 Zeroing lines in arrays Total # of output lines = 2 3502 3503 5599 0 2096 patch iptc,sj,dgj,dgi,id: 2 5599 -7951 -7951 2096 half line dmj dgc: 1 5493 -1083 -7961 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 5599 3503 Zeroing lines in arrays Total # of output lines = 2 5598 Processing block number 3 DEBUG -7938 -1094.114 -7938.288 -0.4928504 -0.4928504 5599 7008 13 1396 patch iptc,sj,dgj,dgi,id: 3 7008 -7938 -7951 1396 half line dmj dgc: 0 8985 -1094 -7961 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 7008 5599 Zeroing lines in arrays Total # of output lines = 3 7007 7008 9104 0 2096 patch iptc,sj,dgj,dgi,id: 3 9104 -7938 -7938 2096 half line dmj dgc: 1 8985 -1094 -7961 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 9104 7008 Zeroing lines in arrays Total # of output lines = 3 9103 Processing block number 4 DEBUG -7912 -1100.817 -7911.505 -0.4929838 -0.4929838 9104 10526 26 1396 patch iptc,sj,dgj,dgi,id: 4 10526 -7912 -7938 1396 half line dmj dgc: 0 12477 -1101 -7961 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 10526 9104 Zeroing lines in arrays Total # of output lines = 4 10525 10526 12622 0 2096 patch iptc,sj,dgj,dgi,id: 4 334 -7912 -7912 2096 half line dmj dgc: 1 12477 -1101 -7961 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 s1>sj: 10526 334 Zeroing lines in arrays Total # of output lines = 4 12621 Processing block number 5 DEBUG -7880 -1101.933 -7879.668 -0.4930457 -0.4930457 334 1762 32 1396 patch iptc,sj,dgj,dgi,id: 5 1762 -7880 -7912 1396 half line dmj dgc: 0 15969 -1102 -7961 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 1762 334 Zeroing lines in arrays Total # of output lines = 5 14049 1762 3858 0 2096 patch iptc,sj,dgj,dgi,id: 5 3858 -7880 -7880 2096 half line dmj dgc: 1 15969 -1102 -7961 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 sj>s1: 3858 1762 Zeroing lines in arrays Total # of output lines = 5 16145 Processing block number 6 DEBUG -7853 -1095.463 -7852.685 -0.4930271 -0.4930271 3858 5281 27 1396 patch iptc,sj,dgj,dgi,id: 6 5281 -7853 -7880 1396 half line dmj dgc: 0 19461 -1096 -7961 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 5281 3858 Zeroing lines in arrays Total # of output lines = 6 17568 5281 7377 0 2096 patch iptc,sj,dgj,dgi,id: 6 7377 -7853 -7853 2096 half line dmj dgc: 1 19461 -1096 -7961 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 7377 5281 Zeroing lines in arrays Total # of output lines = 6 19664 Processing block number 7 DEBUG -7861 -1083.828 -7861.343 -0.4930060 -0.4930060 7377 8765 -8 1396 patch iptc,sj,dgj,dgi,id: 7 8765 -7861 -7853 1396 half line dmj dgc: 0 22953 -1084 -7961 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 8765 7377 Zeroing lines in arrays Total # of output lines = 7 21052 8765 10861 0 2096 patch iptc,sj,dgj,dgi,id: 7 10861 -7861 -7861 2096 half line dmj dgc: 1 22953 -1084 -7961 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 10861 8765 Zeroing lines in arrays Total # of output lines = 7 23148 Processing block number 8 DEBUG -7895 -1076.933 -7894.403 -0.4928194 -0.4928194 10861 12223 -34 1396 patch iptc,sj,dgj,dgi,id: 8 12223 -7895 -7861 1396 half line dmj dgc: 0 26445 -1077 -7961 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 sj>s1: 12223 10861 Zeroing lines in arrays Total # of output lines = 8 24510 12223 14319 0 2096 patch iptc,sj,dgj,dgi,id: 8 2031 -7895 -7895 2096 half line dmj dgc: 1 26445 -1077 -7961 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 s1>sj: 12223 2031 Zeroing lines in arrays Total # of output lines = 8 26606 Processing block number 9 DEBUG -7911 -1071.921 -7911.250 -0.4927922 -0.4927922 2031 3411 -16 1396 patch iptc,sj,dgj,dgi,id: 9 3411 -7911 -7895 1396 half line dmj dgc: 0 29937 -1072 -7961 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 3411 2031 Zeroing lines in arrays Total # of output lines = 9 27986 3411 5507 0 2096 patch iptc,sj,dgj,dgi,id: 9 5507 -7911 -7911 2096 half line dmj dgc: 1 29937 -1072 -7961 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 5507 3411 Zeroing lines in arrays Total # of output lines = 9 30082 Processing block number 10 DEBUG -7882 -1057.804 -7881.561 -0.4928501 -0.4928501 5507 6932 29 1396 patch iptc,sj,dgj,dgi,id: 10 6932 -7882 -7911 1396 half line dmj dgc: 0 33429 -1058 -7961 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 6932 5507 Zeroing lines in arrays Total # of output lines = 10 31507 6932 9028 0 2096 patch iptc,sj,dgj,dgi,id: 10 9028 -7882 -7882 2096 half line dmj dgc: 1 33429 -1058 -7961 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 sj>s1: 9028 6932 Zeroing lines in arrays Total # of output lines = 10 33603 Processing block number 11 DEBUG -7828 -1042.391 -7827.930 -0.4928767 -0.4928767 9028 9365 54 283 patch iptc,sj,dgj,dgi,id: 11 9365 -7828 -7882 283 half line dmj dgc: 0 35808 -1042 -7961 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 9365 9028 Zeroing lines in arrays Total # of output lines = 11 33940 9365 11461 0 2096 patch iptc,sj,dgj,dgi,id: 11 11461 -7828 -7828 2096 half line dmj dgc: 1 35808 -1042 -7961 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 sj>s1: 11461 9365 Zeroing lines in arrays Total # of output lines = 11 36036 ia dmi dgi: 11461 -1042 -7828 Writing the last 8882 lines last half sj/ 96032 98023 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.2835100 start range comp, time = 20.012 WAYNE PREV 1.222661 NUMBER OF PROCESSOR USED = 8 POINTER 288239859439501312 288521334416211968 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 7 ..... WAYNE IS IN Processing 10 to 10 by # 6 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 20.214 seconds. before reading done reading WAYNE load raw data , time = 45.55953299999237 ATTN ifrq ipol ln 0 3 39620 6.000000 IPOL, ITOP nblock 3 0 10 WAYNE Motion comp. coeff. calculated, time = 1.0160923004150391E-02 WAYNE Motion comp. added to patch, time = 14.62985599040985 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.3649930953979492E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 172.4654450416565 Writing 4192 lines of data to file WAYNE write output data 1.429615974426270 ==w out 10 0 2001 0 WAYNE PROCESS 234.0981630086899 ==w out 11 4195 PROCESSING KID# 5 ..... WAYNE IS IN Processing 8 to 8 by # 4 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 20.198 seconds. before reading done reading WAYNE load raw data , time = 46.47766995429993 ATTN ifrq ipol ln 0 3 32636 6.000000 IPOL, ITOP nblock 3 0 8 WAYNE Motion comp. coeff. calculated, time = 1.0614991188049316E-02 WAYNE Motion comp. added to patch, time = 15.19238698482513 WAYNE Doppler estimation done, time = 1.5974044799804688E-05 WAYNE write deskew done, time = 2.3189783096313477E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 171.1005170345306 Writing 4192 lines of data to file WAYNE write output data 1.365507006645203 ==w out 8 0 2001 0 WAYNE PROCESS 234.1501959562302 ==w out 9 4195 PROCESSING KID# 6 ..... WAYNE IS IN Processing 9 to 9 by # 5 Processing block number 9 WAYNE PATCHES: 27937 36128 patch# 9 reference line: 32032 20.205 seconds. before reading done reading WAYNE load raw data , time = 46.13993608951569 ATTN ifrq ipol ln 0 3 36128 6.000000 IPOL, ITOP nblock 3 0 9 WAYNE Motion comp. coeff. calculated, time = 1.0462045669555664E-02 WAYNE Motion comp. added to patch, time = 14.49716889858246 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.4749040603637695E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 172.3167960643768 Writing 4192 lines of data to file WAYNE write output data 1.585381984710693 ==w out 9 0 2001 0 WAYNE PROCESS 234.5534399747849 ==w out 10 4195 PROCESSING KID# 8 ..... WAYNE IS IN Processing 11 to 11 by # 7 Processing block number 11 WAYNE PATCHES: 33808 41999 patch# 11 reference line: 37903 20.222 seconds. before reading done reading WAYNE load raw data , time = 47.09213805198669 ATTN ifrq ipol ln 0 3 41999 6.000000 IPOL, ITOP nblock 3 0 11 WAYNE Motion comp. coeff. calculated, time = 1.0020971298217773E-02 WAYNE Motion comp. added to patch, time = 14.72063899040222 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.1671056747436523E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 171.5077719688416 Writing 4192 lines of data to file WAYNE write output data 1.434197068214417 ==w out 11 0 2001 0 WAYNE PROCESS 234.7680879831314 ==w out 12 4195 PROCESSING KID# 4 ..... WAYNE IS IN Processing 7 to 7 by # 3 Processing block number 7 WAYNE PATCHES: 20953 29144 patch# 7 reference line: 25048 20.186 seconds. before reading done reading WAYNE load raw data , time = 45.67141497135162 ATTN ifrq ipol ln 0 3 29144 6.000000 IPOL, ITOP nblock 3 0 7 WAYNE Motion comp. coeff. calculated, time = 1.0369062423706055E-02 WAYNE Motion comp. added to patch, time = 15.00164508819580 WAYNE Doppler estimation done, time = 1.1086463928222656E-05 WAYNE write deskew done, time = 2.2600889205932617E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 175.3136640787125 Writing 4192 lines of data to file WAYNE write output data 0.8731460571289063 ==w out 7 0 2001 0 WAYNE PROCESS 236.8735620975494 ==w out 8 4195 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 2 by # 0 Processing block number 1 TESTING WHY -0.1690470 2.2242401E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 20.165 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 45.82443296909332 ATTN ifrq ipol ln 0 3 8192 6.000000 IPOL, ITOP nblock 3 0 1 WAYNE Motion comp. coeff. calculated, time = 9.7920894622802734E-03 TESTING 0.0000000E+00 -0.3217855 -0.9414451 WAYNE Motion comp. added to patch, time = 14.53252601623535 WAYNE Doppler estimation done, time = 6.9141387939453125E-06 WAYNE write deskew done, time = 2.2310018539428711E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -0.3217855 -0.9414451 HEY,dt,fract,ye,pe 0.0000000E+00 1.000000 -0.1690470 2.2242401E-02 WAYNE Azimuth compression done, time = 172.6011070013046 Writing 4192 lines of data to file WAYNE write output data 1.468331933021545 ==w out 1 0 2001 0 WAYNE PROCESS 234.4394019842148 Processing block number 2 TESTING WHY -0.1686140 2.1502599E-02 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 254.605 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 80.16335690021515 ATTN ifrq ipol ln 0 3 11684 6.000000 IPOL, ITOP nblock 3 0 2 WAYNE Motion comp. coeff. calculated, time = 9.2340707778930664E-03 TESTING 0.0000000E+00 1.664421 -1.482247 WAYNE Motion comp. added to patch, time = 13.39425492286682 WAYNE Doppler estimation done, time = 9.0599060058593750E-06 WAYNE write deskew done, time = 1.9208073616027832E-02 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 1.664421 -1.482247 HEY,dt,fract,ye,pe 0.0000000E+00 1.000000 -0.1686140 2.1502599E-02 WAYNE Azimuth compression done, time = 153.0211960077286 Writing 4192 lines of data to file WAYNE write output data 0.8429400920867920 ==w out 2 4192 2001 85852160 WAYNE PROCESS 247.4509590864182 ==w out 3 8387 PROCESSING KID# 2 ..... WAYNE IS IN Processing 3 to 4 by # 1 Processing block number 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 20.174 seconds. before reading done reading WAYNE load raw data , time = 45.63915205001831 ATTN ifrq ipol ln 0 3 15176 6.000000 IPOL, ITOP nblock 3 0 3 WAYNE Motion comp. coeff. calculated, time = 1.0273933410644531E-02 WAYNE Motion comp. added to patch, time = 14.57736504077911 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.3319721221923828E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 172.8577899932861 Writing 4192 lines of data to file WAYNE write output data 1.556860923767090 ==w out 3 0 2001 0 WAYNE PROCESS 234.6450009346008 Processing block number 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 254.819 seconds. before reading done reading WAYNE load raw data , time = 78.44412803649902 ATTN ifrq ipol ln 0 3 18668 6.000000 IPOL, ITOP nblock 3 0 4 WAYNE Motion comp. coeff. calculated, time = 9.7299814224243164E-03 WAYNE Motion comp. added to patch, time = 13.44119894504547 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.6690006256103516E-02 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 173.6010360717773 Writing 4192 lines of data to file WAYNE write output data 0.8517160415649414 ==w out 4 4192 2001 85852160 WAYNE PROCESS 266.3753340244293 ==w out 5 8387 PROCESSING KID# 3 ..... WAYNE IS IN Processing 5 to 6 by # 2 Processing block number 5 WAYNE PATCHES: 13969 22160 patch# 5 reference line: 18064 20.180 seconds. before reading done reading WAYNE load raw data , time = 45.45601201057434 ATTN ifrq ipol ln 0 3 22160 6.000000 IPOL, ITOP nblock 3 0 5 WAYNE Motion comp. coeff. calculated, time = 1.0096907615661621E-02 WAYNE Motion comp. added to patch, time = 14.65811002254486 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.3080110549926758E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 173.0585060119629 Writing 4192 lines of data to file WAYNE write output data 1.510600090026855 ==w out 5 0 2001 0 WAYNE PROCESS 234.6966420412064 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 254.877 seconds. before reading done reading WAYNE load raw data , time = 79.35693001747131 ATTN ifrq ipol ln 0 3 25652 6.000000 IPOL, ITOP nblock 3 0 6 WAYNE Motion comp. coeff. calculated, time = 9.8170042037963867E-03 WAYNE Motion comp. added to patch, time = 13.75245499610901 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.0790934562683105E-02 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 173.4765540361404 Writing 4192 lines of data to file WAYNE write output data 0.8316819667816162 ==w out 6 4192 2001 85852160 WAYNE PROCESS 267.4490870237350 ==w out 7 8387 1 4873539 0 2 4873690 0 3 4873092 0 4 4873546 0 5 4873362 0 6 4873035 0 7 4873982 0 8 4874126 0 PROCESSING COMPLETED POINTER 288239859439501312 288521334416211968 icnt = 46112kids= 8 Writing variable header... gather image from processor # 0 2 gather image from processor # 1 2 gather image from processor # 2 2 gather image from processor # 3 1 gather image from processor # 4 1 gather image from processor # 5 1 gather image from processor # 6 1 gather image from processor # 7 1 WAYNE gather images takes: 0.7031089067459106 WAYNE LOOP TIME: 511.3860599994659 update sarfile,mocompfile,dopfile,glbfile,N_RA: /u/air40/airops/685/ts0685_p.vh_j /u/air47/airops/685/ts0685_p.mocompv /u/air47/airops/685/ts0685_p.dop /u/air47/airops/685/ts0685_p.glb 2560 46112 update intf hdr ha: 8391.100 UPDATE: 2560 46112 6.662100 0.5144000 mocompfile /u/air47/airops/685/ts0685_p.mocompv dopfile /u/air47/airops/685/ts0685_p.dop globalfile /u/air47/airops/685/ts0685_p.glb /u/air47/airops/685/ts0685_p.glb 32 deskew line ra ha trc: -552.2505 -1074 9465.095 8391.100 59.86913 lat1 lon1: -1074 44.45876 -121.6837 46112 lati loni: 45038 44.69931 -121.5461 45038 2560 lati loni: 21982 44.57775 -121.6178 21982 1280 Updated paramater header in /u/air40/airops/685/ts0685_p.vh_j WAYNE FINAL PROCESS 531.4604170322418 ********************************************* ***** ***** ***** 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 8384 2 8384 2 8384 2 4192 1 4192 1 4192 1 4192 1 4192 1 Name of data file to be deskewed? /u/air40/airops/685/ts0685_p.vh_j Name of the doppler parameter file? /u/air47/airops/685/ts0685_p.dop Name of the deskew file? /u/air40/airops/685/deskew.pv Line up to another frequency [y/n]? n Name of the output file? /u/air47/airops/685/ts0685_p.vh Name of the line output file? /u/air47/airops/685/p_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 3.323899984359741 Deskewing 11 patches Processing block number 1 DEBUG -7961 -1074.035 -7959.981 0.0000000E+00 0.0000000E+00 patch iptc,sj,dgj,dgi,id: 1 1 -7961 -7961 0 half line dmj dgc: 0 2001 -1075 -7961 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1 1 Zeroing lines in arrays Total # of output lines = 1 0 1 2097 0 2096 patch iptc,sj,dgj,dgi,id: 1 2097 -7961 -7961 2096 half line dmj dgc: 1 2001 -1075 -7961 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 2097 1 Zeroing lines in arrays Total # of output lines = 1 2096 Processing block number 2 DEBUG -7951 -1082.772 -7950.766 0.0000000E+00 0.0000000E+00 2097 3503 10 1396 patch iptc,sj,dgj,dgi,id: 2 3503 -7951 -7961 1396 half line dmj dgc: 0 5493 -1083 -7961 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 3503 2097 Zeroing lines in arrays Total # of output lines = 2 3502 3503 5599 0 2096 patch iptc,sj,dgj,dgi,id: 2 5599 -7951 -7951 2096 half line dmj dgc: 1 5493 -1083 -7961 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 5599 3503 Zeroing lines in arrays Total # of output lines = 2 5598 Processing block number 3 DEBUG -7938 -1093.621 -7937.795 0.0000000E+00 0.0000000E+00 5599 7008 13 1396 patch iptc,sj,dgj,dgi,id: 3 7008 -7938 -7951 1396 half line dmj dgc: 0 8985 -1094 -7961 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 7008 5599 Zeroing lines in arrays Total # of output lines = 3 7007 7008 9104 0 2096 patch iptc,sj,dgj,dgi,id: 3 9104 -7938 -7938 2096 half line dmj dgc: 1 8985 -1094 -7961 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 9104 7008 Zeroing lines in arrays Total # of output lines = 3 9103 Processing block number 4 DEBUG -7912 -1100.324 -7911.012 0.0000000E+00 0.0000000E+00 9104 10526 26 1396 patch iptc,sj,dgj,dgi,id: 4 10526 -7912 -7938 1396 half line dmj dgc: 0 12477 -1101 -7961 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 10526 9104 Zeroing lines in arrays Total # of output lines = 4 10525 10526 12622 0 2096 patch iptc,sj,dgj,dgi,id: 4 334 -7912 -7912 2096 half line dmj dgc: 1 12477 -1101 -7961 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 s1>sj: 10526 334 Zeroing lines in arrays Total # of output lines = 4 12621 Processing block number 5 DEBUG -7880 -1101.440 -7879.175 0.0000000E+00 0.0000000E+00 334 1762 32 1396 patch iptc,sj,dgj,dgi,id: 5 1762 -7880 -7912 1396 half line dmj dgc: 0 15969 -1102 -7961 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 1762 334 Zeroing lines in arrays Total # of output lines = 5 14049 1762 3858 0 2096 patch iptc,sj,dgj,dgi,id: 5 3858 -7880 -7880 2096 half line dmj dgc: 1 15969 -1102 -7961 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 sj>s1: 3858 1762 Zeroing lines in arrays Total # of output lines = 5 16145 Processing block number 6 DEBUG -7853 -1094.970 -7852.192 0.0000000E+00 0.0000000E+00 3858 5281 27 1396 patch iptc,sj,dgj,dgi,id: 6 5281 -7853 -7880 1396 half line dmj dgc: 0 19461 -1096 -7961 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 5281 3858 Zeroing lines in arrays Total # of output lines = 6 17568 5281 7377 0 2096 patch iptc,sj,dgj,dgi,id: 6 7377 -7853 -7853 2096 half line dmj dgc: 1 19461 -1096 -7961 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 7377 5281 Zeroing lines in arrays Total # of output lines = 6 19664 Processing block number 7 DEBUG -7861 -1083.335 -7860.850 0.0000000E+00 0.0000000E+00 7377 8765 -8 1396 patch iptc,sj,dgj,dgi,id: 7 8765 -7861 -7853 1396 half line dmj dgc: 0 22953 -1084 -7961 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 8765 7377 Zeroing lines in arrays Total # of output lines = 7 21052 8765 10861 0 2096 patch iptc,sj,dgj,dgi,id: 7 10861 -7861 -7861 2096 half line dmj dgc: 1 22953 -1084 -7961 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 10861 8765 Zeroing lines in arrays Total # of output lines = 7 23148 Processing block number 8 DEBUG -7895 -1076.440 -7893.911 0.0000000E+00 0.0000000E+00 10861 12223 -34 1396 patch iptc,sj,dgj,dgi,id: 8 12223 -7895 -7861 1396 half line dmj dgc: 0 26445 -1077 -7961 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 sj>s1: 12223 10861 Zeroing lines in arrays Total # of output lines = 8 24510 12223 14319 0 2096 patch iptc,sj,dgj,dgi,id: 8 2031 -7895 -7895 2096 half line dmj dgc: 1 26445 -1077 -7961 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 s1>sj: 12223 2031 Zeroing lines in arrays Total # of output lines = 8 26606 Processing block number 9 DEBUG -7911 -1071.428 -7910.757 0.0000000E+00 0.0000000E+00 2031 3411 -16 1396 patch iptc,sj,dgj,dgi,id: 9 3411 -7911 -7895 1396 half line dmj dgc: 0 29937 -1072 -7961 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 3411 2031 Zeroing lines in arrays Total # of output lines = 9 27986 3411 5507 0 2096 patch iptc,sj,dgj,dgi,id: 9 5507 -7911 -7911 2096 half line dmj dgc: 1 29937 -1072 -7961 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 5507 3411 Zeroing lines in arrays Total # of output lines = 9 30082 Processing block number 10 DEBUG -7882 -1057.311 -7881.068 0.0000000E+00 0.0000000E+00 5507 6932 29 1396 patch iptc,sj,dgj,dgi,id: 10 6932 -7882 -7911 1396 half line dmj dgc: 0 33429 -1058 -7961 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 6932 5507 Zeroing lines in arrays Total # of output lines = 10 31507 6932 9028 0 2096 patch iptc,sj,dgj,dgi,id: 10 9028 -7882 -7882 2096 half line dmj dgc: 1 33429 -1058 -7961 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 sj>s1: 9028 6932 Zeroing lines in arrays Total # of output lines = 10 33603 Processing block number 11 DEBUG -7828 -1041.898 -7827.437 0.0000000E+00 0.0000000E+00 9028 9365 54 283 patch iptc,sj,dgj,dgi,id: 11 9365 -7828 -7882 283 half line dmj dgc: 0 35808 -1042 -7961 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 9365 9028 Zeroing lines in arrays Total # of output lines = 11 33940 9365 11461 0 2096 patch iptc,sj,dgj,dgi,id: 11 11461 -7828 -7828 2096 half line dmj dgc: 1 35808 -1042 -7961 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 sj>s1: 11461 9365 Zeroing lines in arrays Total # of output lines = 11 36036 ia dmi dgi: 11461 -1042 -7828 Writing the last 8882 lines last half sj/ 96032 98023 References calculated in time domain. WAYNE calc pos of antenna, baseline,global ref line, range ref 0.2836381 start range comp, time = 27.518 WAYNE PREV 1.219450 NUMBER OF PROCESSOR USED = 8 POINTER 288239859439501312 288521334416211968 NONE-SYMMETRIC PARALLEL JOBS PROCESSING KID# 6 ..... WAYNE IS IN Processing 9 to 9 by # 5 Processing block number 9 WAYNE PATCHES: 27937 36128 patch# 9 reference line: 32032 27.792 seconds. before reading done reading WAYNE load raw data , time = 45.39592099189758 ATTN ifrq ipol ln 0 4 36128 14.00000 IPOL, ITOP nblock 4 0 9 WAYNE Motion comp. coeff. calculated, time = 1.0211944580078125E-02 WAYNE Motion comp. added to patch, time = 14.51399898529053 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.1970272064208984E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 170.6343120336533 Writing 4192 lines of data to file WAYNE write output data 0.9317969083786011 ==w out 9 0 2001 0 WAYNE PROCESS 231.4895439147949 ==w out 10 4195 PROCESSING KID# 5 ..... WAYNE IS IN Processing 8 to 8 by # 4 Processing block number 8 WAYNE PATCHES: 24445 32636 patch# 8 reference line: 28540 27.785 seconds. before reading done reading WAYNE load raw data , time = 45.81513702869415 ATTN ifrq ipol ln 0 4 32636 14.00000 IPOL, ITOP nblock 4 0 8 WAYNE Motion comp. coeff. calculated, time = 1.0559082031250000E-02 WAYNE Motion comp. added to patch, time = 14.53311789035797 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.2070407867431641E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 172.0846570730209 Writing 4192 lines of data to file WAYNE write output data 1.325616002082825 ==w out 8 0 2001 0 WAYNE PROCESS 233.7725120782852 ==w out 9 4195 PROCESSING KID# 4 ..... WAYNE IS IN Processing 7 to 7 by # 3 Processing block number 7 WAYNE PATCHES: 20953 29144 patch# 7 reference line: 25048 27.767 seconds. before reading done reading WAYNE load raw data , time = 45.78860199451447 ATTN ifrq ipol ln 0 4 29144 14.00000 IPOL, ITOP nblock 4 0 7 WAYNE Motion comp. coeff. calculated, time = 1.0366082191467285E-02 WAYNE Motion comp. added to patch, time = 14.71717190742493 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 2.3050308227539063E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 172.0524029731750 Writing 4192 lines of data to file WAYNE write output data 1.351360917091370 ==w out 7 0 2001 0 WAYNE PROCESS 233.9232679605484 ==w out 8 4195 PROCESSING KID# 7 ..... WAYNE IS IN Processing 10 to 10 by # 6 Processing block number 10 WAYNE PATCHES: 31429 39620 patch# 10 reference line: 35524 27.799 seconds. before reading done reading WAYNE load raw data , time = 45.79452002048492 ATTN ifrq ipol ln 0 4 39620 14.00000 IPOL, ITOP nblock 4 0 10 WAYNE Motion comp. coeff. calculated, time = 1.0776042938232422E-02 WAYNE Motion comp. added to patch, time = 14.65381300449371 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.4129152297973633E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 172.2581179141998 Writing 4192 lines of data to file WAYNE write output data 1.240588068962097 ==w out 10 0 2001 0 WAYNE PROCESS 233.9613860845566 ==w out 11 4195 PROCESSING KID# 8 ..... WAYNE IS IN Processing 11 to 11 by # 7 Processing block number 11 WAYNE PATCHES: 33808 41999 patch# 11 reference line: 37903 27.806 seconds. before reading done reading WAYNE load raw data , time = 45.98766803741455 ATTN ifrq ipol ln 0 4 41999 14.00000 IPOL, ITOP nblock 4 0 11 WAYNE Motion comp. coeff. calculated, time = 1.0092020034790039E-02 WAYNE Motion comp. added to patch, time = 15.00342798233032 WAYNE Doppler estimation done, time = 6.9141387939453125E-06 WAYNE write deskew done, time = 2.2840499877929688E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 174.1267770528793 Writing 4192 lines of data to file WAYNE write output data 0.8763719797134399 ==w out 11 0 2001 0 WAYNE PROCESS 236.0076889991760 ==w out 12 4195 PROCESSING KID# 1 ..... WAYNE IS IN Processing 1 to 2 by # 0 Processing block number 1 TESTING WHY -0.1690470 2.2242401E-02 1 1 WAYNE PATCHES: 1 8192 patch# 1 reference line: 4096 27.745 seconds. TESTING 1 before reading done reading WAYNE load raw data , time = 46.97143995761871 ATTN ifrq ipol ln 0 4 8192 14.00000 IPOL, ITOP nblock 4 0 1 WAYNE Motion comp. coeff. calculated, time = 9.9790096282958984E-03 TESTING 0.0000000E+00 -0.3217855 -0.9414451 WAYNE Motion comp. added to patch, time = 15.11045992374420 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 2.3390054702758789E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 -0.3217855 -0.9414451 HEY,dt,fract,ye,pe 0.0000000E+00 1.000000 -0.1690470 2.2242401E-02 WAYNE Azimuth compression done, time = 171.5365580320358 Writing 4192 lines of data to file WAYNE write output data 0.9918550252914429 ==w out 1 0 2001 0 WAYNE PROCESS 234.6238150596619 Processing block number 2 TESTING WHY -0.1686140 2.1502599E-02 3492 2 WAYNE PATCHES: 3493 11684 patch# 2 reference line: 7588 262.369 seconds. TESTING 3493 before reading done reading WAYNE load raw data , time = 77.02393698692322 ATTN ifrq ipol ln 0 4 11684 14.00000 IPOL, ITOP nblock 4 0 2 WAYNE Motion comp. coeff. calculated, time = 9.7099542617797852E-03 TESTING 0.0000000E+00 1.664421 -1.482247 WAYNE Motion comp. added to patch, time = 13.64333105087280 WAYNE Doppler estimation done, time = 1.0013580322265625E-05 WAYNE write deskew done, time = 2.4907946586608887E-02 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection HEY,x10,y10,z10 0.0000000E+00 1.664421 -1.482247 HEY,dt,fract,ye,pe 0.0000000E+00 1.000000 -0.1686140 2.1502599E-02 WAYNE Azimuth compression done, time = 160.0385669469833 Writing 4192 lines of data to file WAYNE write output data 0.8727239370346069 ==w out 2 4192 2001 85852160 WAYNE PROCESS 251.6140239238739 ==w out 3 8387 PROCESSING KID# 2 ..... WAYNE IS IN Processing 3 to 4 by # 1 Processing block number 3 WAYNE PATCHES: 6985 15176 patch# 3 reference line: 11080 27.755 seconds. before reading done reading WAYNE load raw data , time = 45.52901399135590 ATTN ifrq ipol ln 0 4 15176 14.00000 IPOL, ITOP nblock 4 0 3 WAYNE Motion comp. coeff. calculated, time = 1.0177016258239746E-02 WAYNE Motion comp. added to patch, time = 14.55525398254395 WAYNE Doppler estimation done, time = 7.0333480834960938E-06 WAYNE write deskew done, time = 2.2999048233032227E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 171.8995540142059 Writing 4192 lines of data to file WAYNE write output data 1.171926021575928 ==w out 3 0 2001 0 WAYNE PROCESS 233.1693710088730 Processing block number 4 WAYNE PATCHES: 10477 18668 patch# 4 reference line: 14572 260.924 seconds. before reading done reading WAYNE load raw data , time = 78.42548489570618 ATTN ifrq ipol ln 0 4 18668 14.00000 IPOL, ITOP nblock 4 0 4 WAYNE Motion comp. coeff. calculated, time = 9.7460746765136719E-03 WAYNE Motion comp. added to patch, time = 13.82183504104614 WAYNE Doppler estimation done, time = 8.9406967163085938E-06 WAYNE write deskew done, time = 1.7261028289794922E-02 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 173.4804639816284 Writing 4192 lines of data to file WAYNE write output data 1.026137948036194 ==w out 4 4192 2001 85852160 WAYNE PROCESS 266.7818889617920 ==w out 5 8387 PROCESSING KID# 3 ..... WAYNE IS IN Processing 5 to 6 by # 2 Processing block number 5 WAYNE PATCHES: 13969 22160 patch# 5 reference line: 18064 27.761 seconds. before reading done reading WAYNE load raw data , time = 45.95594203472137 ATTN ifrq ipol ln 0 4 22160 14.00000 IPOL, ITOP nblock 4 0 5 WAYNE Motion comp. coeff. calculated, time = 1.0221958160400391E-02 WAYNE Motion comp. added to patch, time = 14.68441903591156 WAYNE Doppler estimation done, time = 1.2040138244628906E-05 WAYNE write deskew done, time = 2.4060010910034180E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 171.6975630521774 Writing 4192 lines of data to file WAYNE write output data 1.247902989387512 ==w out 5 0 2001 0 WAYNE PROCESS 233.5995990037918 Processing block number 6 WAYNE PATCHES: 17461 25652 patch# 6 reference line: 21556 261.361 seconds. before reading done reading WAYNE load raw data , time = 78.10760104656219 ATTN ifrq ipol ln 0 4 25652 14.00000 IPOL, ITOP nblock 4 0 6 WAYNE Motion comp. coeff. calculated, time = 9.8550319671630859E-03 WAYNE Motion comp. added to patch, time = 14.07375991344452 WAYNE Doppler estimation done, time = 7.9870223999023438E-06 WAYNE write deskew done, time = 4.4809579849243164E-03 range migration lines: 1 4700 range migration lines: 4701 8192 Back projection WAYNE Azimuth compression done, time = 173.5731840133667 Writing 4192 lines of data to file WAYNE write output data 1.019075989723206 ==w out 6 4192 2001 85852160 WAYNE PROCESS 266.7889900207520 ==w out 7 8387 1 4873396 0 2 4873446 0 3 4873811 0 4 4873713 0 5 4873529 0 6 4873450 0 7 4874019 0 8 4873425 0 PROCESSING COMPLETED POINTER 288239859439501312 288521334416211968 icnt = 46112kids= 8 Writing variable header... gather image from processor # 0 2 gather image from processor # 1 2 gather image from processor # 2 2 gather image from processor # 3 1 gather image from processor # 4 1 gather image from processor # 5 1 gather image from processor # 6 1 gather image from processor # 7 1 WAYNE gather images takes: 8.7494015693664551E-02 WAYNE LOOP TIME: 509.1042580604553 update sarfile,mocompfile,dopfile,glbfile,N_RA: /u/air40/airops/685/ts0685_p.vv_j /u/air47/airops/685/ts0685_p.mocompv /u/air47/airops/685/ts0685_p.dop /u/air47/airops/685/ts0685_p.glb 2560 46112 update intf hdr ha: 8391.100 UPDATE: 2560 46112 6.662100 0.5144000 mocompfile /u/air47/airops/685/ts0685_p.mocompv dopfile /u/air47/airops/685/ts0685_p.dop globalfile /u/air47/airops/685/ts0685_p.glb /u/air47/airops/685/ts0685_p.glb 32 deskew line ra ha trc: -552.2505 -1074 9465.095 8391.100 59.86913 lat1 lon1: -1074 44.45876 -121.6837 46112 lati loni: 45038 44.69931 -121.5461 45038 2560 lati loni: 21982 44.57775 -121.6178 21982 1280 Updated paramater header in /u/air40/airops/685/ts0685_p.vv_j WAYNE FINAL PROCESS 536.6645159721375 ********************************************* ***** ***** ***** 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 8384 2 8384 2 8384 2 4192 1 4192 1 4192 1 4192 1 4192 1 Name of data file to be deskewed? /u/air40/airops/685/ts0685_p.vv_j Name of the doppler parameter file? /u/air47/airops/685/ts0685_p.dop Name of the deskew file? /u/air40/airops/685/deskew.pv Line up to another frequency [y/n]? n Name of the output file? /u/air47/airops/685/ts0685_p.vv Name of the line output file? /u/air47/airops/685/p_lines.dat NONE-SYMMETRIC PARALLEL JOBS WAYNE before patch: 3.038158059120178 Deskewing 11 patches Processing block number 1 DEBUG -7961 -1074.035 -7959.981 0.0000000E+00 0.0000000E+00 patch iptc,sj,dgj,dgi,id: 1 1 -7961 -7961 0 half line dmj dgc: 0 2001 -1075 -7961 Actual deskew ireclen: 20480 ** 1 2096 0 2096 Writing data negflag .eq. 0 sj>s1: 1 1 Zeroing lines in arrays Total # of output lines = 1 0 1 2097 0 2096 patch iptc,sj,dgj,dgi,id: 1 2097 -7961 -7961 2096 half line dmj dgc: 1 2001 -1075 -7961 Actual deskew ireclen: 20480 ** 1 2096 1 4192 Writing data negflag .eq. 0 sj>s1: 2097 1 Zeroing lines in arrays Total # of output lines = 1 2096 Processing block number 2 DEBUG -7951 -1082.772 -7950.766 0.0000000E+00 0.0000000E+00 2097 3503 10 1396 patch iptc,sj,dgj,dgi,id: 2 3503 -7951 -7961 1396 half line dmj dgc: 0 5493 -1083 -7961 Actual deskew ireclen: 20480 ** 2 2096 0 6288 Writing data negflag .eq. 0 sj>s1: 3503 2097 Zeroing lines in arrays Total # of output lines = 2 3502 3503 5599 0 2096 patch iptc,sj,dgj,dgi,id: 2 5599 -7951 -7951 2096 half line dmj dgc: 1 5493 -1083 -7961 Actual deskew ireclen: 20480 ** 2 2096 1 8384 Writing data negflag .eq. 0 sj>s1: 5599 3503 Zeroing lines in arrays Total # of output lines = 2 5598 Processing block number 3 DEBUG -7938 -1093.621 -7937.795 0.0000000E+00 0.0000000E+00 5599 7008 13 1396 patch iptc,sj,dgj,dgi,id: 3 7008 -7938 -7951 1396 half line dmj dgc: 0 8985 -1094 -7961 Actual deskew ireclen: 20480 ** 3 2096 0 10480 Writing data negflag .eq. 0 sj>s1: 7008 5599 Zeroing lines in arrays Total # of output lines = 3 7007 7008 9104 0 2096 patch iptc,sj,dgj,dgi,id: 3 9104 -7938 -7938 2096 half line dmj dgc: 1 8985 -1094 -7961 Actual deskew ireclen: 20480 ** 3 2096 1 12576 Writing data negflag .eq. 0 sj>s1: 9104 7008 Zeroing lines in arrays Total # of output lines = 3 9103 Processing block number 4 DEBUG -7912 -1100.324 -7911.012 0.0000000E+00 0.0000000E+00 9104 10526 26 1396 patch iptc,sj,dgj,dgi,id: 4 10526 -7912 -7938 1396 half line dmj dgc: 0 12477 -1101 -7961 Actual deskew ireclen: 20480 ** 4 2096 0 14672 Writing data negflag .eq. 0 sj>s1: 10526 9104 Zeroing lines in arrays Total # of output lines = 4 10525 10526 12622 0 2096 patch iptc,sj,dgj,dgi,id: 4 334 -7912 -7912 2096 half line dmj dgc: 1 12477 -1101 -7961 Actual deskew ireclen: 20480 ** 4 2096 1 16768 Writing data negflag .eq. 0 s1>sj: 10526 334 Zeroing lines in arrays Total # of output lines = 4 12621 Processing block number 5 DEBUG -7880 -1101.440 -7879.175 0.0000000E+00 0.0000000E+00 334 1762 32 1396 patch iptc,sj,dgj,dgi,id: 5 1762 -7880 -7912 1396 half line dmj dgc: 0 15969 -1102 -7961 Actual deskew ireclen: 20480 ** 5 2096 0 18864 Writing data negflag .eq. 0 sj>s1: 1762 334 Zeroing lines in arrays Total # of output lines = 5 14049 1762 3858 0 2096 patch iptc,sj,dgj,dgi,id: 5 3858 -7880 -7880 2096 half line dmj dgc: 1 15969 -1102 -7961 Actual deskew ireclen: 20480 ** 5 2096 1 20960 Writing data negflag .eq. 0 sj>s1: 3858 1762 Zeroing lines in arrays Total # of output lines = 5 16145 Processing block number 6 DEBUG -7853 -1094.970 -7852.192 0.0000000E+00 0.0000000E+00 3858 5281 27 1396 patch iptc,sj,dgj,dgi,id: 6 5281 -7853 -7880 1396 half line dmj dgc: 0 19461 -1096 -7961 Actual deskew ireclen: 20480 ** 6 2096 0 23056 Writing data negflag .eq. 0 sj>s1: 5281 3858 Zeroing lines in arrays Total # of output lines = 6 17568 5281 7377 0 2096 patch iptc,sj,dgj,dgi,id: 6 7377 -7853 -7853 2096 half line dmj dgc: 1 19461 -1096 -7961 Actual deskew ireclen: 20480 ** 6 2096 1 25152 Writing data negflag .eq. 0 sj>s1: 7377 5281 Zeroing lines in arrays Total # of output lines = 6 19664 Processing block number 7 DEBUG -7861 -1083.335 -7860.850 0.0000000E+00 0.0000000E+00 7377 8765 -8 1396 patch iptc,sj,dgj,dgi,id: 7 8765 -7861 -7853 1396 half line dmj dgc: 0 22953 -1084 -7961 Actual deskew ireclen: 20480 ** 7 2096 0 27248 Writing data negflag .eq. 0 sj>s1: 8765 7377 Zeroing lines in arrays Total # of output lines = 7 21052 8765 10861 0 2096 patch iptc,sj,dgj,dgi,id: 7 10861 -7861 -7861 2096 half line dmj dgc: 1 22953 -1084 -7961 Actual deskew ireclen: 20480 ** 7 2096 1 29344 Writing data negflag .eq. 0 sj>s1: 10861 8765 Zeroing lines in arrays Total # of output lines = 7 23148 Processing block number 8 DEBUG -7895 -1076.440 -7893.911 0.0000000E+00 0.0000000E+00 10861 12223 -34 1396 patch iptc,sj,dgj,dgi,id: 8 12223 -7895 -7861 1396 half line dmj dgc: 0 26445 -1077 -7961 Actual deskew ireclen: 20480 ** 8 2096 0 31440 Writing data negflag .eq. 0 sj>s1: 12223 10861 Zeroing lines in arrays Total # of output lines = 8 24510 12223 14319 0 2096 patch iptc,sj,dgj,dgi,id: 8 2031 -7895 -7895 2096 half line dmj dgc: 1 26445 -1077 -7961 Actual deskew ireclen: 20480 ** 8 2096 1 33536 Writing data negflag .eq. 0 s1>sj: 12223 2031 Zeroing lines in arrays Total # of output lines = 8 26606 Processing block number 9 DEBUG -7911 -1071.428 -7910.757 0.0000000E+00 0.0000000E+00 2031 3411 -16 1396 patch iptc,sj,dgj,dgi,id: 9 3411 -7911 -7895 1396 half line dmj dgc: 0 29937 -1072 -7961 Actual deskew ireclen: 20480 ** 9 2096 0 35632 Writing data negflag .eq. 0 sj>s1: 3411 2031 Zeroing lines in arrays Total # of output lines = 9 27986 3411 5507 0 2096 patch iptc,sj,dgj,dgi,id: 9 5507 -7911 -7911 2096 half line dmj dgc: 1 29937 -1072 -7961 Actual deskew ireclen: 20480 ** 9 2096 1 37728 Writing data negflag .eq. 0 sj>s1: 5507 3411 Zeroing lines in arrays Total # of output lines = 9 30082 Processing block number 10 DEBUG -7882 -1057.311 -7881.068 0.0000000E+00 0.0000000E+00 5507 6932 29 1396 patch iptc,sj,dgj,dgi,id: 10 6932 -7882 -7911 1396 half line dmj dgc: 0 33429 -1058 -7961 Actual deskew ireclen: 20480 ** 10 2096 0 39824 Writing data negflag .eq. 0 sj>s1: 6932 5507 Zeroing lines in arrays Total # of output lines = 10 31507 6932 9028 0 2096 patch iptc,sj,dgj,dgi,id: 10 9028 -7882 -7882 2096 half line dmj dgc: 1 33429 -1058 -7961 Actual deskew ireclen: 20480 ** 10 2096 1 41920 Writing data negflag .eq. 0 sj>s1: 9028 6932 Zeroing lines in arrays Total # of output lines = 10 33603 Processing block number 11 DEBUG -7828 -1041.898 -7827.437 0.0000000E+00 0.0000000E+00 9028 9365 54 283 patch iptc,sj,dgj,dgi,id: 11 9365 -7828 -7882 283 half line dmj dgc: 0 35808 -1042 -7961 Actual deskew ireclen: 20480 ** 11 2096 0 44016 Writing data negflag .eq. 0 sj>s1: 9365 9028 Zeroing lines in arrays Total # of output lines = 11 33940 9365 11461 0 2096 patch iptc,sj,dgj,dgi,id: 11 11461 -7828 -7828 2096 half line dmj dgc: 1 35808 -1042 -7961 Actual deskew ireclen: 20480 ** 11 2096 1 46112 Writing data negflag .eq. 0 sj>s1: 11461 9365 Zeroing lines in arrays Total # of output lines = 11 36036 ia dmi dgi: 11461 -1042 -7828 Writing the last 8882 lines last half sj 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 = 1.084479 24.45758 44910 2495 18 1 19 37 55 73 91 109 127 145 163 181 199 217 235 253 271 289 307 325 343 361 379 397 415 433 451 469 487 505 523 541 559 577 595 613 631 649 667 685 703 721 739 757 775 793 811 829 847 865 883 901 919 937 955 973 991 1009 1027 1045 1063 1081 1099 1117 1135 1153 1171 1189 1207 1225 1243 1261 1279 1297 1315 1333 1351 1369 1387 1405 1423 1441 1459 1477 1495 1513 1531 1549 1567 1585 1603 1621 1639 1657 1675 1693 1711 1729 1747 1765 1783 1801 1819 1837 1855 1873 1891 1909 1927 1945 1963 1981 1999 2017 2035 2053 2071 2089 2107 2125 2143 2161 2179 2197 2215 2233 2251 2269 2287 2305 2323 2341 2359 2377 2395 2413 2431 2449 2467 2485 2503 2521 2539 2557 2575 2593 2611 2629 2647 2665 2683 2701 2719 2737 2755 2773 2791 2809 2827 2845 2863 2881 2899 2917 2935 2953 2971 2989 3007 3025 3043 3061 3079 3097 3115 3133 3151 3169 3187 3205 3223 3241 3259 3277 3295 3313 3331 3349 3367 3385 3403 3421 3439 3457 3475 3493 3511 3529 3547 3565 3583 3601 3619 3637 3655 3673 3691 3709 3727 3745 3763 3781 3799 3817 3835 3853 3871 3889 3907 3925 3943 3961 3979 3997 4015 4033 4051 4069 4087 4105 4123 4141 4159 4177 4195 4213 4231 4249 4267 4285 4303 4321 4339 4357 4375 4393 4411 4429 4447 4465 4483 4501 4519 4537 4555 4573 4591 4609 4627 4645 4663 4681 4699 4717 4735 4753 4771 4789 4807 4825 4843 4861 4879 4897 4915 4933 4951 4969 4987 5005 5023 5041 5059 5077 5095 5113 5131 5149 5167 5185 5203 5221 5239 5257 5275 5293 5311 5329 5347 5365 5383 5401 5419 5437 5455 5473 5491 5509 5527 5545 5563 5581 5599 5617 5635 5653 5671 5689 5707 5725 5743 5761 5779 5797 5815 5833 5851 5869 5887 5905 5923 5941 5959 5977 5995 6013 6031 6049 6067 6085 6103 6121 6139 6157 6175 6193 6211 6229 6247 6265 6283 6301 6319 6337 6355 6373 6391 6409 6427 6445 6463 6481 6499 6517 6535 6553 6571 6589 6607 6625 6643 6661 6679 6697 6715 6733 6751 6769 6787 6805 6823 6841 6859 6877 6895 6913 6931 6949 6967 6985 7003 7021 7039 7057 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40447 40465 40483 40501 40519 40537 40555 40573 40591 40609 40627 40645 40663 40681 40699 40717 40735 40753 40771 40789 40807 40825 40843 40861 40879 40897 40915 40933 40951 40969 40987 41005 41023 41041 41059 41077 41095 41113 41131 41149 41167 41185 41203 41221 41239 41257 41275 41293 41311 41329 41347 41365 41383 41401 41419 41437 41455 41473 41491 41509 41527 41545 41563 41581 41599 41617 41635 41653 41671 41689 41707 41725 41743 41761 41779 41797 41815 41833 41851 41869 41887 41905 41923 41941 41959 41977 41995 42013 42031 42049 42067 42085 42103 42121 42139 42157 42175 42193 42211 42229 42247 42265 42283 42301 42319 42337 42355 42373 42391 42409 42427 42445 42463 42481 42499 42517 42535 42553 42571 42589 42607 42625 42643 42661 42679 42697 42715 42733 42751 42769 42787 42805 42823 42841 42859 42877 42895 42913 42931 42949 42967 42985 43003 43021 43039 43057 43075 43093 43111 43129 43147 43165 43183 43201 43219 43237 43255 43273 43291 43309 43327 43345 43363 43381 43399 43417 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Correlation Surface at 1446 3046 0.623 0.517 0.607 0.694 0.711 0.790 0.795 0.734 0.749 0.613 0.544 0.666 0.740 0.790 0.864 0.791 0.718 0.744 0.610 0.583 0.727 0.791 0.881 0.912 0.770 0.713 0.735 0.614 0.625 0.777 0.845 0.960 0.920 0.740 0.712 0.727 0.615 0.659 0.805 0.893 1.000 0.886 0.707 0.710 0.718 0.604 0.674 0.808 0.920 0.984 0.821 0.677 0.702 0.709 0.576 0.667 0.787 0.917 0.919 0.739 0.657 0.686 0.703 0.537 0.642 0.750 0.879 0.826 0.659 0.651 0.660 0.703 0.496 0.607 0.705 0.813 0.728 0.596 0.658 0.628 0.711 r_peak,r_snr = 0.5401784 1.543700 Correlation Surface of oversamples image at 1446 3046 8.632 6.861 5.633 5.716 6.954 8.237 6.473 5.488 5.848 7.341 7.814 6.130 5.417 6.046 7.740 7.464 5.902 5.462 6.353 8.202 7.158 5.754 5.583 6.719 8.670 1446 -1.344 3046 -7.313 1.54370 0.020989 0.186379 0.044766 Correlation Surface at 1546 3046 0.095 0.010 0.010 0.185 0.653 0.688 0.332 0.049 0.001 0.031 0.000 0.046 0.421 0.901 0.637 0.176 0.002 0.002 0.005 0.002 0.154 0.711 1.000 0.450 0.044 0.010 0.007 0.002 0.028 0.336 0.940 0.884 0.221 0.000 0.040 0.004 0.015 0.121 0.527 0.991 0.617 0.059 0.033 0.059 0.000 0.078 0.271 0.633 0.834 0.329 0.001 0.088 0.050 0.011 0.206 0.399 0.607 0.571 0.123 0.018 0.114 0.022 0.045 r_peak,r_snr = 0.1435207 7.628028 Correlation Surface of oversamples image at 1546 3046 0.025 0.078 0.163 0.373 0.684 0.889 0.837 0.641 0.383 0.048 0.131 0.243 0.489 0.799 0.929 0.779 0.532 0.272 0.085 0.197 0.331 0.599 0.882 0.917 0.682 0.405 0.167 0.152 0.291 0.442 0.722 0.956 0.890 0.586 0.299 0.093 0.244 0.401 0.562 0.837 1.000 0.835 0.484 0.206 0.042 0.331 0.486 0.645 0.893 0.967 0.721 0.356 0.114 0.007 0.403 0.539 0.684 0.886 0.871 0.573 0.229 0.043 0.002 0.516 0.633 0.765 0.916 0.816 0.482 0.159 0.016 0.014 1546 -11.969 3046 -11.125 7.62803 0.235829 1.576893 0.579830 Correlation Surface at 1646 3046 0.100 0.025 0.236 0.818 0.523 0.039 0.004 0.115 0.002 0.513 0.940 0.409 0.020 0.002 0.074 0.081 0.795 0.934 0.303 0.021 0.043 0.013 0.276 0.971 0.833 0.236 0.042 0.132 0.011 0.510 1.000 0.706 0.213 0.092 0.223 0.112 0.679 0.918 0.608 0.234 0.163 0.254 0.279 0.725 0.795 0.568 0.286 0.221 0.217 0.420 0.680 0.716 0.588 0.336 0.223 0.149 0.474 0.622 0.706 0.623 0.330 0.175 0.092 r_peak,r_snr = 0.1527237 4.501688 Correlation Surface of oversamples image at 1646 3046 0.080 0.001 0.094 0.405 0.754 0.901 0.787 0.541 0.255 0.046 0.006 0.181 0.538 0.853 0.909 0.712 0.444 0.196 0.014 0.039 0.292 0.664 0.920 0.886 0.631 0.363 0.157 0.000 0.110 0.427 0.788 0.972 0.860 0.566 0.309 0.139 0.020 0.217 0.569 0.890 1.000 0.823 0.508 0.272 0.136 0.075 0.338 0.687 0.946 0.983 0.761 0.447 0.240 0.135 0.163 0.464 0.778 0.968 0.945 0.696 0.396 0.219 0.139 0.285 0.597 0.861 0.990 0.921 0.657 0.374 0.220 0.158 0.419 0.711 0.916 0.993 0.893 0.627 0.363 0.230 0.180 1646 -13.125 3046 -5.719 4.50169 0.314210 4.365518 1.125543 Correlation Surface at 1846 3046 0.364 0.127 0.020 0.007 0.021 0.155 0.115 0.022 0.108 0.237 0.027 0.001 0.001 0.131 0.420 0.151 0.005 0.162 0.105 0.000 0.016 0.007 0.403 0.607 0.079 0.003 0.159 0.035 0.017 0.017 0.058 0.779 0.518 0.001 0.040 0.099 0.009 0.036 0.001 0.213 1.000 0.210 0.071 0.078 0.028 0.001 0.033 0.019 0.450 0.841 0.004 0.270 0.062 0.000 0.000 0.016 0.117 0.597 0.374 0.146 0.417 0.016 0.017 0.004 0.002 0.259 0.515 0.023 0.543 0.361 0.002 0.034 0.007 0.004 0.335 0.258 0.107 0.788 0.155 0.039 0.031 r_peak,r_snr = 6.6722259E-02 7.302098 Correlation Surface of oversamples image at 1846 3046 0.038 0.040 0.001 0.156 0.504 0.835 0.749 0.337 0.078 0.042 0.026 0.016 0.292 0.691 0.903 0.619 0.177 0.011 0.039 0.010 0.058 0.452 0.832 0.859 0.425 0.055 0.004 0.019 0.000 0.151 0.658 0.953 0.770 0.255 0.005 0.036 0.003 0.019 0.285 0.856 1.000 0.618 0.117 0.007 0.080 0.000 0.052 0.384 0.916 0.869 0.378 0.017 0.064 0.143 0.001 0.084 0.434 0.852 0.635 0.158 0.009 0.165 0.200 0.025 0.174 0.556 0.857 0.496 0.062 0.045 0.191 0.155 1846 7.344 3046 1.000 7.30210 0.144753 1.514308 0.424772 Correlation Surface at 1946 3046 0.001 0.003 0.004 0.013 0.159 0.002 0.001 0.008 0.069 0.409 0.003 0.000 0.025 0.210 0.711 0.003 0.000 0.080 0.439 0.936 0.001 0.003 0.193 0.684 1.000 0.000 0.018 0.357 0.839 0.906 0.000 0.067 0.514 0.836 0.722 0.002 0.153 0.581 0.704 0.531 0.021 0.248 0.529 0.527 0.373 r_peak,r_snr = 0.1811447 10.69538 Correlation Surface of oversamples image at 1946 3046 0.029 0.088 0.232 0.498 0.714 0.745 0.673 0.512 0.324 0.050 0.141 0.329 0.626 0.825 0.804 0.675 0.473 0.271 0.087 0.217 0.442 0.750 0.913 0.833 0.652 0.420 0.217 0.145 0.317 0.567 0.863 0.975 0.836 0.611 0.362 0.168 0.227 0.433 0.687 0.948 1.000 0.810 0.554 0.300 0.124 0.325 0.549 0.780 0.984 0.976 0.748 0.479 0.235 0.083 0.438 0.656 0.840 0.978 0.918 0.668 0.400 0.176 0.049 0.571 0.761 0.883 0.956 0.855 0.594 0.333 0.130 0.027 0.703 0.840 0.892 0.908 0.780 0.519 0.272 0.092 0.012 1946 13.781 3046 -0.719 10.69538 0.132499 1.128462 0.354451 At line = 3400 Reading in data.... Correlation Surface at 1246 3446 0.225 0.267 0.101 0.125 0.507 0.473 0.198 0.195 0.017 0.196 0.221 0.105 0.175 0.642 0.516 0.142 0.116 0.003 0.148 0.177 0.127 0.242 0.791 0.520 0.088 0.060 0.000 0.102 0.147 0.162 0.323 0.924 0.481 0.052 0.027 0.002 0.067 0.133 0.203 0.409 1.000 0.426 0.035 0.015 0.002 0.046 0.130 0.231 0.485 0.994 0.382 0.036 0.013 0.000 0.031 0.128 0.227 0.529 0.923 0.363 0.050 0.018 0.005 0.020 0.116 0.186 0.532 0.848 0.378 0.074 0.029 0.023 0.009 0.088 0.132 0.509 0.809 0.414 0.099 0.037 0.054 r_peak,r_snr = 0.1748334 8.973872 Correlation Surface of oversamples image at 1246 3446 0.103 0.141 0.265 0.528 0.803 0.759 0.418 0.137 0.025 0.109 0.162 0.307 0.600 0.877 0.788 0.412 0.126 0.018 0.119 0.184 0.351 0.669 0.937 0.801 0.402 0.117 0.014 0.131 0.207 0.394 0.730 0.980 0.803 0.393 0.112 0.011 0.141 0.225 0.428 0.774 1.000 0.792 0.382 0.108 0.010 0.148 0.237 0.452 0.798 0.996 0.770 0.373 0.106 0.010 0.153 0.247 0.469 0.809 0.978 0.749 0.369 0.109 0.011 0.155 0.253 0.478 0.804 0.950 0.729 0.370 0.113 0.012 0.147 0.245 0.467 0.773 0.903 0.701 0.366 0.113 0.013 1246 0.000 3446 -1.281 8.97387 0.019927 1.964896 0.148720 Correlation Surface at 1346 3446 0.705 0.669 0.595 0.637 0.739 0.740 0.753 0.713 0.668 0.732 0.856 0.844 0.805 0.765 0.738 0.804 0.937 0.922 0.848 0.816 0.789 0.841 0.980 0.970 0.878 0.858 0.813 0.853 1.000 0.990 0.890 0.875 0.803 0.842 0.998 0.975 0.879 0.848 0.758 0.812 0.968 0.918 0.846 0.782 0.698 0.763 0.901 0.816 0.792 0.695 0.632 0.693 0.795 0.690 r_peak,r_snr = 0.2928758 1.826225 Correlation Surface of oversamples image at 1346 3446 0.625 0.685 0.767 0.864 0.939 0.929 0.819 0.666 0.518 0.645 0.700 0.788 0.894 0.971 0.953 0.835 0.678 0.528 0.653 0.705 0.800 0.914 0.990 0.964 0.839 0.680 0.528 0.651 0.703 0.806 0.927 0.999 0.964 0.833 0.673 0.520 0.648 0.701 0.812 0.935 1.000 0.955 0.820 0.659 0.507 0.644 0.700 0.815 0.937 0.991 0.936 0.797 0.637 0.488 0.633 0.693 0.812 0.928 0.971 0.908 0.767 0.608 0.464 0.617 0.681 0.800 0.908 0.941 0.870 0.729 0.574 0.435 0.601 0.668 0.784 0.882 0.903 0.828 0.688 0.538 0.407 1346 13.563 3446 -1.813 1.82623 0.121432 6.101925 -0.044481 Correlation Surface at 1446 3446 0.453 0.437 0.506 0.651 0.838 0.942 0.804 0.892 0.752 0.462 0.443 0.504 0.676 0.891 0.933 0.811 0.889 0.742 0.468 0.447 0.507 0.694 0.943 0.901 0.824 0.862 0.720 0.471 0.455 0.520 0.709 0.982 0.852 0.836 0.809 0.695 0.474 0.470 0.542 0.724 1.000 0.799 0.840 0.742 0.674 0.481 0.495 0.569 0.737 0.989 0.754 0.825 0.677 0.662 0.492 0.528 0.592 0.748 0.948 0.718 0.784 0.627 0.663 0.508 0.565 0.604 0.754 0.888 0.697 0.728 0.601 0.674 0.531 0.599 0.602 0.750 0.825 0.690 0.674 0.606 0.689 r_peak,r_snr = 0.5086212 1.634187 Correlation Surface of oversamples image at 1446 3446 2.002 2.321 2.740 3.157 3.482 3.482 3.268 3.090 3.087 2.027 2.330 2.737 3.171 3.478 3.406 3.146 3.007 3.045 2.039 2.318 2.721 3.175 3.452 3.303 3.019 2.933 3.005 2.050 2.305 2.723 3.205 3.435 3.204 2.920 2.903 2.999 2.053 2.286 2.732 3.242 3.408 3.101 2.842 2.896 3.000 1446 -1.281 3446 -2.781 1.63419 0.007269 0.681061 0.050055 Correlation Surface at 1546 3446 0.000 0.003 0.057 0.272 0.039 0.263 0.537 0.016 0.000 0.122 0.148 0.039 0.664 0.541 0.023 0.016 0.130 0.012 0.366 0.903 0.343 0.010 0.052 0.068 0.052 0.813 0.791 0.123 0.000 0.072 0.005 0.286 1.000 0.454 0.014 0.005 0.052 0.024 0.508 0.782 0.154 0.003 0.014 0.016 0.114 0.498 0.384 0.021 0.018 0.012 0.000 0.165 0.279 0.102 0.000 0.021 0.002 0.009 0.109 0.065 0.008 0.000 0.016 r_peak,r_snr = 0.1183418 10.43569 Correlation Surface of oversamples image at 1546 3446 0.188 0.090 0.000 0.104 0.411 0.741 0.787 0.466 0.122 0.122 0.025 0.025 0.249 0.604 0.867 0.776 0.382 0.066 0.047 0.001 0.127 0.452 0.801 0.952 0.727 0.294 0.028 0.003 0.046 0.293 0.665 0.951 0.961 0.627 0.203 0.006 0.010 0.152 0.477 0.825 1.000 0.872 0.483 0.114 0.001 0.067 0.293 0.639 0.909 0.955 0.719 0.330 0.048 0.016 0.170 0.447 0.761 0.928 0.852 0.551 0.202 0.012 0.044 0.294 0.577 0.818 0.874 0.704 0.387 0.106 0.000 0.078 0.401 0.636 0.782 0.742 0.522 0.235 0.039 0.008 0.117 1546 13.188 3446 7.219 10.43569 0.067145 0.415335 0.147834 Correlation Surface at 1746 3446 0.094 0.001 0.057 0.059 0.166 0.652 0.423 0.044 1.131 0.091 0.001 0.101 0.214 0.458 0.905 0.261 0.244 1.331 0.095 0.008 0.192 0.432 0.757 0.972 0.087 0.565 1.323 0.069 0.050 0.317 0.614 0.945 0.852 0.002 0.881 1.175 0.019 0.159 0.429 0.697 1.000 0.620 0.047 1.118 0.991 0.002 0.305 0.474 0.682 0.952 0.376 0.213 1.290 0.841 0.036 0.369 0.434 0.616 0.844 0.186 0.456 1.395 0.734 0.058 0.292 0.345 0.538 0.712 0.058 0.754 1.425 0.651 0.030 0.151 0.268 0.488 0.584 0.000 1.114 1.374 0.577 r_peak,r_snr = 6.9701791E-02 3.201284 Correlation Surface of oversamples image at 1746 3446 0.479 0.573 0.541 0.597 0.660 0.659 0.652 0.553 0.264 0.517 0.611 0.601 0.692 0.767 0.755 0.724 0.569 0.236 0.529 0.620 0.641 0.767 0.846 0.823 0.763 0.558 0.200 0.550 0.640 0.696 0.855 0.933 0.895 0.805 0.554 0.180 0.560 0.654 0.750 0.932 1.000 0.946 0.829 0.542 0.163 0.511 0.607 0.737 0.926 0.978 0.914 0.779 0.479 0.124 0.425 0.523 0.677 0.858 0.892 0.826 0.688 0.392 0.079 0.416 0.527 0.707 0.879 0.897 0.831 0.684 0.374 0.069 1746 4.969 3446 8.906 3.20128 1.611997 22.844629 5.755910 Correlation Surface at 1946 3446 0.019 0.034 0.004 0.093 0.194 0.296 0.275 0.000 0.086 0.064 0.054 0.027 0.138 0.321 0.494 0.122 0.060 0.198 0.089 0.074 0.057 0.191 0.517 0.550 0.001 0.254 0.387 0.079 0.082 0.071 0.267 0.781 0.368 0.128 0.536 0.676 0.053 0.074 0.069 0.395 1.000 0.094 0.510 0.825 1.044 0.035 0.052 0.068 0.571 0.976 0.008 0.962 1.065 1.395 0.024 0.027 0.088 0.736 0.651 0.249 1.287 1.268 1.561 0.013 0.013 0.146 0.764 0.224 0.707 1.390 1.425 1.389 0.004 0.013 0.236 0.583 0.003 1.145 1.342 1.473 0.931 r_peak,r_snr = 8.4727407E-02 3.734941 Correlation Surface of oversamples image at 1946 3446 0.015 0.120 0.246 0.527 0.868 0.934 0.588 0.085 0.010 0.047 0.199 0.367 0.717 1.000 0.836 0.331 0.000 0.214 0.095 0.292 0.503 0.877 0.998 0.601 0.098 0.118 0.688 0.176 0.421 0.660 0.988 0.882 0.334 0.000 0.477 1.399 0.275 0.557 0.784 0.973 0.634 0.098 0.100 1.099 2.312 0.356 0.649 0.802 0.783 0.308 0.001 0.476 2.000 3.374 1946 3.750 3446 -6.281 3.73494 0.159524 2.598131 0.608672 Correlation Surface at 2046 3446 0.025 0.058 0.045 0.016 0.356 0.621 0.355 0.150 0.110 0.016 0.047 0.006 0.143 0.626 0.745 0.353 0.170 0.100 0.013 0.037 0.007 0.359 0.858 0.779 0.328 0.153 0.056 0.017 0.024 0.063 0.590 0.995 0.727 0.269 0.095 0.010 0.029 0.009 0.170 0.765 1.000 0.600 0.176 0.027 0.005 0.045 0.000 0.309 0.843 0.866 0.408 0.069 0.001 0.052 0.047 0.015 0.433 0.794 0.638 0.207 0.003 0.056 0.118 0.024 0.070 0.494 0.645 0.396 0.058 0.033 0.172 0.160 0.000 0.154 0.471 0.457 0.188 0.000 0.173 0.277 0.142 r_peak,r_snr = 0.1147793 5.294986 Correlation Surface of oversamples image at 2046 3446 0.100 0.310 0.558 0.815 0.972 0.921 0.758 0.447 0.206 0.202 0.428 0.650 0.881 1.000 0.896 0.698 0.386 0.165 0.325 0.542 0.726 0.924 0.998 0.844 0.620 0.318 0.122 0.465 0.647 0.787 0.952 0.985 0.793 0.548 0.257 0.085 0.596 0.723 0.816 0.946 0.938 0.719 0.463 0.192 0.049 0.699 0.765 0.811 0.897 0.846 0.607 0.353 0.118 0.015 2046 -5.969 3446 -14.781 5.29499 0.356973 3.404140 0.995109 At line = 3800 Reading in data.... Correlation Surface at 1046 3846 0.294 0.311 0.441 0.432 0.722 0.732 0.540 0.500 0.342 0.297 0.357 0.416 0.482 0.834 0.721 0.590 0.508 0.295 0.310 0.391 0.392 0.559 0.932 0.720 0.648 0.483 0.245 0.332 0.395 0.375 0.650 0.994 0.737 0.703 0.429 0.201 0.355 0.365 0.373 0.733 1.000 0.774 0.739 0.365 0.169 0.363 0.314 0.385 0.793 0.954 0.826 0.745 0.309 0.148 0.343 0.262 0.409 0.811 0.874 0.883 0.721 0.270 0.134 0.295 0.220 0.435 0.782 0.784 0.933 0.677 0.251 0.130 0.232 0.189 0.454 0.717 0.713 0.967 0.628 0.258 0.139 r_peak,r_snr = 0.2880774 3.669719 Correlation Surface of oversamples image at 1046 3846 3.020 2.918 2.715 2.719 3.002 3.198 2.731 1.844 1.146 2.856 2.720 2.603 2.771 3.172 3.313 2.692 1.741 1.070 2.666 2.520 2.511 2.846 3.343 3.390 2.616 1.632 1.005 2.578 2.442 2.558 3.066 3.642 3.556 2.618 1.609 1.016 1046 0.156 3846 0.813 3.66972 0.016688 1.143427 0.040308 Correlation Surface at 1146 3846 0.447 0.373 0.329 0.517 0.806 0.712 0.406 0.392 0.529 0.477 0.379 0.313 0.540 0.867 0.705 0.378 0.396 0.542 0.519 0.377 0.299 0.565 0.929 0.698 0.362 0.396 0.538 0.567 0.371 0.293 0.594 0.977 0.686 0.353 0.390 0.521 0.609 0.363 0.294 0.620 1.000 0.665 0.349 0.384 0.497 0.632 0.360 0.306 0.643 0.995 0.636 0.348 0.377 0.470 0.628 0.362 0.328 0.663 0.966 0.601 0.350 0.371 0.447 0.601 0.366 0.358 0.681 0.926 0.566 0.352 0.363 0.431 0.560 0.371 0.392 0.697 0.885 0.539 0.357 0.354 0.428 r_peak,r_snr = 0.4520668 2.402197 Correlation Surface of oversamples image at 1146 3846 0.277 0.382 0.604 0.848 0.980 0.918 0.701 0.495 0.384 0.281 0.395 0.624 0.867 0.990 0.917 0.698 0.500 0.394 0.288 0.411 0.644 0.883 0.995 0.911 0.693 0.504 0.405 0.301 0.431 0.668 0.900 0.999 0.904 0.689 0.511 0.419 0.317 0.456 0.693 0.915 1.000 0.894 0.684 0.518 0.432 0.332 0.479 0.713 0.922 0.989 0.873 0.671 0.519 0.441 0.347 0.500 0.728 0.921 0.970 0.847 0.656 0.518 0.447 0.373 0.532 0.755 0.931 0.962 0.833 0.652 0.528 0.461 1146 -0.031 3846 -5.219 2.40220 0.004302 1.021664 0.041406 Correlation Surface at 1246 3846 0.056 0.094 0.217 0.366 0.398 0.527 0.250 0.105 0.052 0.018 0.041 0.156 0.377 0.585 0.675 0.279 0.097 0.045 0.001 0.012 0.114 0.439 0.807 0.763 0.273 0.069 0.031 0.002 0.001 0.095 0.538 0.975 0.747 0.235 0.035 0.016 0.010 0.000 0.095 0.641 1.000 0.644 0.182 0.011 0.004 0.018 0.001 0.111 0.708 0.865 0.503 0.128 0.001 0.000 0.024 0.001 0.144 0.711 0.640 0.378 0.083 0.000 0.005 0.028 0.000 0.190 0.630 0.412 0.295 0.052 0.002 0.018 0.028 0.000 0.240 0.482 0.247 0.252 0.033 0.002 0.032 r_peak,r_snr = 0.2048300 9.696255 Correlation Surface of oversamples image at 1246 3846 0.005 0.071 0.255 0.512 0.738 0.802 0.653 0.417 0.225 0.002 0.066 0.267 0.574 0.843 0.884 0.677 0.416 0.222 0.001 0.068 0.292 0.643 0.933 0.928 0.670 0.402 0.215 0.001 0.075 0.324 0.709 0.991 0.925 0.631 0.377 0.204 0.001 0.085 0.357 0.755 1.000 0.866 0.562 0.340 0.189 0.003 0.100 0.390 0.778 0.961 0.767 0.478 0.302 0.173 0.006 0.123 0.427 0.790 0.895 0.656 0.402 0.274 0.164 0.012 0.149 0.460 0.777 0.798 0.538 0.336 0.255 0.159 0.019 0.170 0.469 0.717 0.661 0.410 0.270 0.235 0.148 1246 -0.375 3846 1.188 9.69625 0.030952 0.398408 0.076790 Correlation Surface at 1346 3846 0.477 0.439 0.396 0.464 0.683 0.741 0.655 0.671 0.622 0.528 0.480 0.409 0.523 0.786 0.796 0.666 0.699 0.639 0.605 0.530 0.451 0.629 0.895 0.823 0.674 0.725 0.655 0.693 0.575 0.518 0.761 0.975 0.819 0.676 0.743 0.676 0.768 0.604 0.595 0.876 1.000 0.785 0.668 0.753 0.702 0.813 0.613 0.663 0.941 0.971 0.736 0.651 0.756 0.725 0.821 0.604 0.710 0.947 0.910 0.690 0.633 0.755 0.736 0.790 0.577 0.724 0.909 0.838 0.647 0.614 0.749 0.719 0.729 0.543 0.713 0.853 0.771 0.604 0.592 0.733 0.668 r_peak,r_snr = 0.4619178 1.888558 Correlation Surface of oversamples image at 1346 3846 0.383 0.399 0.511 0.712 0.900 0.918 0.791 0.627 0.515 0.409 0.432 0.559 0.770 0.947 0.938 0.792 0.627 0.524 0.434 0.467 0.609 0.824 0.982 0.945 0.783 0.620 0.529 0.458 0.502 0.655 0.867 0.999 0.935 0.763 0.607 0.528 0.479 0.535 0.698 0.899 1.000 0.910 0.734 0.588 0.522 0.501 0.570 0.739 0.925 0.991 0.880 0.704 0.571 0.515 0.518 0.601 0.774 0.939 0.972 0.844 0.674 0.553 0.506 0.526 0.622 0.794 0.932 0.933 0.796 0.637 0.528 0.488 0.529 0.636 0.801 0.909 0.881 0.742 0.596 0.499 0.464 1346 1.531 3846 -8.219 1.88856 0.031281 0.460659 0.103059 Correlation Surface at 1546 3846 0.033 0.014 0.001 0.040 0.308 0.746 0.240 0.000 0.001 0.005 0.002 0.012 0.135 0.603 0.754 0.077 0.006 0.008 0.000 0.000 0.051 0.325 0.884 0.575 0.009 0.001 0.070 0.006 0.009 0.140 0.602 1.000 0.336 0.000 0.014 0.190 0.014 0.033 0.298 0.870 0.885 0.160 0.003 0.098 0.316 0.019 0.087 0.516 0.983 0.622 0.081 0.034 0.235 0.397 0.022 0.188 0.708 0.866 0.361 0.070 0.123 0.354 0.429 0.028 0.331 0.756 0.591 0.197 0.109 0.239 0.406 0.431 r_peak,r_snr = 0.1131014 5.499530 Correlation Surface of oversamples image at 1546 3846 0.004 0.030 0.105 0.278 0.529 0.726 0.697 0.492 0.263 0.017 0.065 0.183 0.417 0.691 0.830 0.696 0.428 0.210 0.042 0.119 0.287 0.571 0.831 0.883 0.653 0.358 0.170 0.082 0.194 0.413 0.727 0.941 0.896 0.598 0.304 0.151 0.136 0.285 0.547 0.859 1.000 0.864 0.531 0.261 0.147 0.199 0.380 0.664 0.935 0.981 0.773 0.443 0.221 0.149 0.265 0.469 0.747 0.946 0.897 0.650 0.357 0.192 0.161 0.349 0.563 0.812 0.925 0.803 0.550 0.305 0.191 0.196 0.432 0.637 0.833 0.862 0.696 0.463 0.273 0.206 0.244 1546 -8.063 3846 -11.781 5.49953 0.189739 1.780402 0.545256 Correlation Surface at 1646 3846 0.157 0.008 0.308 0.265 0.172 0.349 0.190 0.004 0.098 0.078 0.057 0.298 0.234 0.338 0.599 0.167 0.011 0.044 0.020 0.093 0.223 0.248 0.591 0.733 0.097 0.011 0.005 0.001 0.081 0.143 0.314 0.853 0.663 0.033 0.004 0.005 0.002 0.041 0.091 0.423 1.000 0.451 0.005 0.001 0.031 0.005 0.010 0.074 0.544 0.949 0.227 0.000 0.020 0.053 0.003 0.000 0.083 0.626 0.730 0.083 0.001 0.063 0.054 0.000 0.002 0.110 0.629 0.460 0.023 0.009 0.105 0.037 0.000 0.003 0.144 0.556 0.243 0.010 0.039 0.120 0.017 r_peak,r_snr = 0.1181260 8.002479 Correlation Surface of oversamples image at 1646 3846 0.312 0.283 0.303 0.430 0.646 0.795 0.671 0.341 0.071 0.232 0.236 0.317 0.513 0.762 0.854 0.627 0.262 0.035 0.166 0.207 0.348 0.607 0.860 0.867 0.548 0.183 0.012 0.127 0.206 0.409 0.721 0.948 0.852 0.465 0.124 0.003 0.104 0.224 0.489 0.833 1.000 0.798 0.377 0.080 0.001 0.087 0.244 0.561 0.906 0.985 0.696 0.282 0.046 0.000 0.078 0.271 0.627 0.941 0.923 0.577 0.203 0.026 0.000 0.088 0.325 0.708 0.971 0.858 0.484 0.156 0.020 0.000 0.109 0.391 0.783 0.971 0.777 0.403 0.128 0.022 0.004 1646 -6.094 3846 4.281 8.00248 0.073604 1.222120 0.256724 Correlation Surface at 1746 3846 0.685 0.226 0.101 0.154 0.172 0.860 0.354 0.011 0.014 0.631 0.026 0.274 0.063 0.440 0.922 0.216 0.001 0.032 0.371 0.034 0.388 0.000 0.750 0.767 0.092 0.000 0.044 0.094 0.253 0.358 0.067 0.968 0.494 0.028 0.000 0.044 0.003 0.551 0.221 0.266 1.000 0.241 0.008 0.003 0.036 0.168 0.752 0.071 0.511 0.834 0.087 0.007 0.008 0.033 0.497 0.723 0.000 0.708 0.563 0.025 0.015 0.006 0.040 0.779 0.471 0.061 0.774 0.311 0.008 0.025 0.000 0.057 0.808 0.161 0.226 0.682 0.144 0.004 0.019 0.023 0.071 r_peak,r_snr = 0.1093338 7.239077 Correlation Surface of oversamples image at 1746 3846 16.000 13.142 5.318 0.352 0.699 15.068 10.235 2.851 0.001 1.654 13.306 7.229 1.095 0.383 2.662 11.140 4.614 0.195 1.214 3.358 8.630 2.472 0.017 2.221 3.643 1746 -7.844 3846 -10.813 7.23908 0.157411 2.787246 0.636982 Correlation Surface at 1846 3846 0.251 0.035 0.007 0.126 0.317 0.558 0.263 0.002 0.038 0.075 0.003 0.071 0.278 0.550 0.654 0.182 0.001 0.039 0.001 0.071 0.192 0.466 0.788 0.674 0.105 0.011 0.029 0.042 0.205 0.356 0.669 0.961 0.614 0.045 0.022 0.009 0.140 0.350 0.517 0.827 1.000 0.491 0.006 0.028 0.001 0.224 0.438 0.617 0.906 0.917 0.328 0.003 0.019 0.036 0.258 0.434 0.618 0.902 0.758 0.160 0.021 0.002 0.139 0.227 0.339 0.532 0.836 0.542 0.042 0.030 0.010 0.288 0.140 0.189 0.403 0.728 0.308 0.001 0.014 0.078 0.405 r_peak,r_snr = 9.7944945E-02 5.356810 Correlation Surface of oversamples image at 1846 3846 0.112 0.232 0.427 0.626 0.823 0.825 0.661 0.404 0.115 0.126 0.267 0.490 0.708 0.903 0.858 0.630 0.335 0.062 0.136 0.299 0.547 0.778 0.961 0.863 0.581 0.262 0.024 0.144 0.333 0.601 0.837 0.992 0.834 0.509 0.187 0.004 0.155 0.372 0.658 0.888 1.000 0.783 0.429 0.121 0.001 0.167 0.415 0.712 0.928 0.985 0.715 0.346 0.068 0.009 0.183 0.459 0.761 0.948 0.939 0.625 0.259 0.029 0.025 0.200 0.501 0.797 0.939 0.857 0.514 0.173 0.007 0.040 0.216 0.538 0.823 0.907 0.747 0.392 0.100 0.000 0.051 1846 8.406 3846 -9.781 5.35681 0.437377 6.043987 1.476682 Correlation Surface at 1946 3846 0.014 0.093 0.121 0.056 0.150 0.525 0.390 0.124 0.027 0.036 0.096 0.102 0.096 0.363 0.719 0.351 0.097 0.022 0.039 0.070 0.070 0.170 0.643 0.773 0.249 0.066 0.020 0.021 0.035 0.045 0.292 0.895 0.652 0.138 0.043 0.025 0.004 0.009 0.035 0.464 1.000 0.433 0.056 0.035 0.041 0.000 0.000 0.043 0.656 0.909 0.221 0.016 0.048 0.070 0.009 0.002 0.079 0.813 0.673 0.080 0.005 0.087 0.111 0.023 0.004 0.160 0.868 0.403 0.017 0.008 0.160 0.146 0.033 0.000 0.293 0.774 0.187 0.002 0.031 0.262 0.162 r_peak,r_snr = 0.1165274 9.313365 Correlation Surface of oversamples image at 1946 3846 0.041 0.050 0.113 0.290 0.626 0.908 0.810 0.401 0.111 0.037 0.066 0.178 0.426 0.782 0.972 0.753 0.313 0.065 0.038 0.091 0.263 0.574 0.909 0.973 0.653 0.224 0.033 0.045 0.130 0.367 0.721 0.990 0.915 0.532 0.149 0.015 0.057 0.181 0.480 0.837 1.000 0.796 0.400 0.090 0.005 0.071 0.236 0.573 0.886 0.919 0.624 0.265 0.043 0.001 0.092 0.296 0.643 0.868 0.776 0.440 0.151 0.014 0.000 0.136 0.377 0.703 0.817 0.624 0.292 0.078 0.004 0.000 0.195 0.459 0.723 0.716 0.462 0.172 0.034 0.001 0.001 1946 -6.906 3846 -6.344 9.31336 0.130960 1.758707 0.439991 Correlation Surface at 2046 3846 0.033 0.086 0.025 0.003 0.084 0.073 0.074 0.000 0.003 0.263 0.106 0.030 0.013 0.004 0.571 0.100 0.000 0.029 0.078 0.883 0.055 0.020 0.015 0.284 1.000 0.010 0.058 0.001 0.571 0.836 0.002 0.060 0.067 0.771 0.494 0.018 0.019 0.244 0.731 0.181 0.022 0.003 0.439 0.476 0.026 r_peak,r_snr = 0.1477977 13.00717 Correlation Surface of oversamples image at 2046 3846 0.036 0.010 0.020 0.204 0.517 0.785 0.814 0.602 0.369 0.039 0.001 0.069 0.354 0.703 0.891 0.799 0.530 0.300 0.029 0.003 0.157 0.527 0.861 0.929 0.727 0.433 0.229 0.012 0.028 0.277 0.698 0.963 0.893 0.613 0.328 0.166 0.001 0.085 0.420 0.847 1.000 0.802 0.483 0.233 0.117 0.008 0.178 0.571 0.950 0.968 0.673 0.357 0.158 0.085 0.049 0.302 0.707 0.990 0.871 0.525 0.247 0.103 0.067 0.126 0.435 0.799 0.956 0.726 0.379 0.159 0.067 0.060 0.229 0.548 0.825 0.850 0.556 0.249 0.095 0.044 0.060 2046 14.781 3846 -2.031 13.00717 0.075616 0.670711 0.209872 At line = 4200 Reading in data.... Correlation Surface at 946 4246 0.033 0.003 0.070 0.220 0.418 0.394 0.040 0.045 0.013 0.075 0.242 0.569 0.350 0.010 0.059 0.027 0.074 0.300 0.769 0.285 0.001 0.071 0.035 0.074 0.411 0.944 0.211 0.000 0.080 0.032 0.082 0.562 1.000 0.146 0.003 0.082 0.022 0.105 0.700 0.893 0.104 0.016 0.074 0.010 0.147 0.755 0.659 0.083 0.042 0.055 0.004 0.208 0.693 0.397 0.082 0.076 0.030 0.002 0.276 0.540 0.201 0.101 0.108 r_peak,r_snr = 0.1477998 7.613536 Correlation Surface of oversamples image at 946 4246 0.469 0.585 0.320 0.093 0.107 0.579 0.641 0.300 0.074 0.113 0.675 0.668 0.259 0.049 0.109 0.741 0.651 0.199 0.025 0.105 0.753 0.580 0.125 0.006 0.099 0.697 0.457 0.051 0.001 0.081 0.597 0.314 0.006 0.018 0.063 0.505 0.202 0.003 0.041 0.067 0.399 0.106 0.029 0.059 0.082 946 4.688 4246 0.688 7.61354 0.016728 0.758522 0.078559 Correlation Surface at 1046 4246 0.154 0.216 0.270 0.526 0.826 0.837 0.439 0.205 0.139 0.168 0.182 0.252 0.567 0.899 0.864 0.422 0.205 0.122 0.170 0.142 0.243 0.611 0.956 0.853 0.398 0.206 0.109 0.162 0.106 0.243 0.653 0.990 0.814 0.377 0.209 0.101 0.146 0.079 0.252 0.687 1.000 0.762 0.368 0.211 0.098 0.127 0.063 0.268 0.710 0.990 0.713 0.373 0.216 0.102 0.109 0.058 0.289 0.718 0.965 0.676 0.392 0.223 0.110 0.096 0.061 0.308 0.706 0.932 0.657 0.420 0.233 0.119 0.088 0.072 0.317 0.674 0.894 0.658 0.453 0.244 0.128 r_peak,r_snr = 0.4315156 5.370770 Correlation Surface of oversamples image at 1046 4246 0.237 0.388 0.587 0.759 0.831 0.790 0.669 0.500 0.340 0.243 0.415 0.626 0.796 0.858 0.804 0.670 0.492 0.338 0.250 0.442 0.661 0.826 0.877 0.813 0.667 0.483 0.337 0.259 0.466 0.688 0.847 0.888 0.816 0.660 0.473 0.336 0.268 0.487 0.708 0.857 0.890 0.810 0.646 0.460 0.334 0.276 0.504 0.720 0.860 0.885 0.799 0.628 0.448 0.334 0.286 0.517 0.728 0.860 0.879 0.788 0.614 0.441 0.339 0.296 0.527 0.731 0.856 0.871 0.777 0.602 0.439 0.346 0.304 0.531 0.727 0.846 0.859 0.762 0.589 0.438 0.353 1046 -0.094 4246 -1.781 5.37077 0.024573 3.147968 0.251241 Correlation Surface at 1146 4246 0.753 0.827 0.874 0.847 0.909 0.781 0.675 0.717 0.689 0.745 0.844 0.876 0.869 0.943 0.800 0.689 0.705 0.665 0.739 0.857 0.872 0.887 0.974 0.819 0.708 0.693 0.656 0.732 0.861 0.859 0.901 0.995 0.836 0.732 0.687 0.666 0.720 0.854 0.840 0.910 1.000 0.846 0.757 0.695 0.692 0.705 0.835 0.820 0.911 0.985 0.852 0.782 0.717 0.726 0.690 0.809 0.806 0.905 0.953 0.855 0.805 0.750 0.760 0.676 0.786 0.804 0.890 0.911 0.858 0.823 0.787 0.785 0.671 0.772 0.810 0.864 0.864 0.859 0.832 0.816 0.794 r_peak,r_snr = 0.5950559 1.527156 Correlation Surface of oversamples image at 1146 4246 0.836 0.885 0.947 0.980 0.968 0.918 0.876 0.852 0.838 0.893 0.957 0.988 0.971 0.917 0.876 0.855 0.843 0.902 0.967 0.994 0.972 0.917 0.879 0.862 0.849 0.912 0.977 0.999 0.971 0.916 0.883 0.870 0.854 0.920 0.983 1.000 0.967 0.913 0.885 0.878 0.855 0.922 0.981 0.993 0.957 0.907 0.889 0.888 0.853 0.919 0.974 0.980 0.943 0.900 0.893 0.898 0.850 0.914 0.963 0.964 0.928 0.895 0.897 0.909 0.845 0.907 0.949 0.946 0.912 0.889 0.902 0.919 1146 -1.750 4246 1.250 1.52716 0.006195 0.595079 -0.003886 Correlation Surface at 1246 4246 0.027 0.014 0.003 0.235 0.729 0.234 0.006 0.016 0.007 0.007 0.009 0.010 0.299 0.855 0.269 0.010 0.015 0.004 0.000 0.005 0.020 0.356 0.943 0.305 0.017 0.012 0.002 0.004 0.002 0.028 0.402 0.992 0.340 0.026 0.008 0.001 0.011 0.001 0.032 0.432 1.000 0.372 0.036 0.005 0.001 0.015 0.001 0.034 0.447 0.970 0.394 0.044 0.003 0.002 0.012 0.002 0.034 0.446 0.914 0.400 0.051 0.001 0.003 0.007 0.004 0.035 0.429 0.842 0.388 0.059 0.000 0.006 0.002 0.006 0.037 0.401 0.756 0.360 0.072 0.001 0.009 r_peak,r_snr = 0.2786232 14.53145 Correlation Surface of oversamples image at 1246 4246 0.031 0.168 0.498 0.909 0.976 0.672 0.356 0.162 0.050 0.035 0.176 0.515 0.921 0.982 0.694 0.386 0.183 0.057 0.036 0.183 0.528 0.925 0.983 0.714 0.415 0.202 0.062 0.039 0.192 0.546 0.934 0.992 0.741 0.447 0.222 0.068 0.042 0.203 0.563 0.941 1.000 0.766 0.477 0.241 0.074 0.042 0.207 0.563 0.925 0.986 0.771 0.489 0.247 0.075 0.039 0.204 0.550 0.889 0.949 0.752 0.483 0.243 0.072 0.043 0.214 0.555 0.878 0.936 0.748 0.487 0.248 0.077 1246 -0.188 4246 3.781 14.53145 0.003270 2.262004 -0.007284 Correlation Surface at 1346 4246 0.447 0.500 0.548 0.677 0.719 0.532 0.292 0.205 0.233 0.421 0.488 0.574 0.748 0.802 0.569 0.295 0.205 0.220 0.387 0.476 0.602 0.824 0.885 0.598 0.296 0.208 0.201 0.356 0.465 0.625 0.896 0.957 0.612 0.299 0.214 0.184 0.335 0.453 0.635 0.955 1.000 0.607 0.304 0.226 0.174 0.322 0.436 0.633 0.988 0.998 0.587 0.316 0.243 0.170 0.314 0.415 0.623 0.989 0.956 0.564 0.333 0.260 0.171 0.307 0.392 0.609 0.956 0.889 0.549 0.351 0.272 0.176 0.297 0.372 0.590 0.890 0.816 0.546 0.363 0.274 0.180 r_peak,r_snr = 0.3995803 4.185915 Correlation Surface of oversamples image at 1346 4246 0.465 0.556 0.694 0.834 0.899 0.837 0.674 0.483 0.323 0.456 0.561 0.714 0.868 0.939 0.872 0.698 0.498 0.337 0.451 0.570 0.737 0.901 0.972 0.896 0.712 0.508 0.349 0.449 0.581 0.760 0.928 0.994 0.907 0.714 0.511 0.358 0.448 0.592 0.779 0.945 1.000 0.901 0.704 0.507 0.364 0.451 0.605 0.795 0.954 0.993 0.882 0.687 0.502 0.372 0.457 0.617 0.805 0.948 0.968 0.851 0.664 0.497 0.379 0.457 0.618 0.796 0.917 0.919 0.800 0.630 0.484 0.382 0.449 0.605 0.765 0.861 0.849 0.737 0.591 0.468 0.381 1346 -0.563 4246 -4.156 4.18592 0.010807 0.639153 0.045136 Correlation Surface at 1446 4246 0.841 0.670 0.742 0.856 0.874 0.824 0.591 0.699 0.666 0.801 0.631 0.771 0.850 0.919 0.792 0.595 0.742 0.697 0.754 0.599 0.783 0.851 0.961 0.758 0.618 0.790 0.726 0.701 0.580 0.780 0.859 0.993 0.728 0.656 0.835 0.745 0.654 0.574 0.768 0.865 1.000 0.705 0.696 0.868 0.748 0.624 0.583 0.751 0.869 0.975 0.700 0.730 0.888 0.738 0.621 0.603 0.736 0.867 0.923 0.718 0.750 0.901 0.718 0.641 0.628 0.721 0.859 0.856 0.756 0.760 0.901 0.696 0.673 0.653 0.701 0.849 0.789 0.802 0.764 0.893 0.681 r_peak,r_snr = 0.4908453 1.374590 Correlation Surface of oversamples image at 1446 4246 0.707 0.706 0.718 0.829 0.890 0.763 0.608 0.554 0.600 0.717 0.695 0.715 0.837 0.890 0.756 0.607 0.560 0.608 0.723 0.687 0.717 0.848 0.891 0.751 0.612 0.571 0.622 0.727 0.685 0.725 0.858 0.889 0.748 0.619 0.584 0.638 0.728 0.686 0.735 0.867 0.884 0.744 0.627 0.598 0.656 0.724 0.688 0.746 0.873 0.876 0.740 0.638 0.615 0.673 0.719 0.691 0.759 0.879 0.864 0.735 0.650 0.634 0.691 1446 5.344 4246 6.250 1.37459 0.005028 0.541874 0.013699 Correlation Surface at 1546 4246 0.231 0.046 0.000 0.001 0.113 0.561 0.202 0.012 0.147 0.302 0.075 0.014 0.041 0.376 0.661 0.110 0.059 0.303 0.355 0.092 0.066 0.214 0.701 0.671 0.051 0.126 0.464 0.333 0.093 0.160 0.484 0.936 0.609 0.016 0.204 0.563 0.229 0.082 0.275 0.726 1.000 0.496 0.001 0.274 0.549 0.104 0.063 0.362 0.836 0.927 0.358 0.005 0.313 0.430 0.023 0.043 0.389 0.815 0.769 0.214 0.029 0.312 0.270 0.000 0.027 0.363 0.716 0.570 0.093 0.070 0.269 0.130 0.010 0.018 0.321 0.589 0.376 0.022 0.110 0.200 0.042 r_peak,r_snr = 9.5575809E-02 6.488297 Correlation Surface of oversamples image at 1546 4246 2.885 2.275 1.815 1.464 1.133 3.277 2.799 2.267 1.773 1.348 3.620 3.197 2.550 1.938 1.466 3.864 3.411 2.643 1.959 1.486 4.000 3.452 2.594 1.889 1.446 3.977 3.326 2.435 1.749 1.359 3.800 3.075 2.197 1.555 1.231 3.483 2.731 1.891 1.307 1.053 3.010 2.288 1.511 0.996 0.804 1546 1.188 4246 -2.688 6.48830 0.384440 5.212320 1.293791 Correlation Surface at 1646 4246 0.086 0.077 0.322 0.184 0.065 0.666 0.007 0.327 0.563 0.195 0.104 0.524 0.178 0.645 0.706 0.144 0.143 0.315 0.456 0.901 0.697 0.079 0.161 0.137 0.670 1.000 0.572 0.030 0.152 0.041 0.722 0.922 0.403 0.005 0.138 0.008 0.627 0.746 0.243 0.002 0.144 0.001 0.484 0.564 0.124 0.028 0.174 0.000 r_peak,r_snr = 7.5903811E-02 3.531283 Correlation Surface of oversamples image at 1646 4246 0.019 0.055 0.317 0.646 0.822 0.868 0.903 0.740 0.254 0.000 0.133 0.428 0.745 0.917 0.952 0.928 0.670 0.178 0.025 0.220 0.513 0.809 0.974 0.986 0.888 0.559 0.108 0.077 0.300 0.573 0.843 0.997 0.973 0.800 0.430 0.053 0.143 0.370 0.616 0.862 1.000 0.930 0.687 0.310 0.020 0.212 0.426 0.645 0.872 0.988 0.864 0.564 0.208 0.005 0.268 0.460 0.654 0.864 0.949 0.769 0.433 0.125 0.000 0.298 0.464 0.638 0.828 0.873 0.644 0.302 0.062 0.002 0.306 0.450 0.610 0.779 0.781 0.512 0.191 0.024 0.007 1646 -13.344 4246 9.469 3.53128 0.364385 3.950560 1.003545 Correlation Surface at 1946 4246 1.107 0.174 0.136 0.216 0.236 0.507 0.260 0.054 0.094 0.831 0.011 0.149 0.166 0.395 0.728 0.322 0.083 0.129 0.451 0.020 0.126 0.195 0.642 0.844 0.297 0.098 0.135 0.151 0.082 0.107 0.297 0.878 0.780 0.227 0.103 0.129 0.014 0.122 0.117 0.453 1.000 0.575 0.159 0.112 0.139 0.009 0.137 0.163 0.615 0.926 0.333 0.119 0.129 0.181 0.069 0.143 0.231 0.713 0.684 0.158 0.117 0.158 0.257 0.149 0.151 0.299 0.697 0.386 0.074 0.146 0.199 0.342 0.213 0.149 0.347 0.551 0.150 0.055 0.198 0.247 0.391 r_peak,r_snr = 9.1099523E-02 4.757001 Correlation Surface of oversamples image at 1946 4246 0.858 2.419 5.522 9.784 0.918 2.828 6.167 10.389 0.941 2.992 6.332 10.305 1.418 3.783 7.289 11.187 1946 6.844 4246 -7.156 4.75700 0.246497 2.857186 0.760395 Correlation Surface at 2046 4246 0.072 0.002 0.049 0.081 0.552 0.570 0.561 0.409 0.107 0.036 0.009 0.005 0.298 0.789 0.690 0.627 0.361 0.040 0.015 0.006 0.028 0.581 0.946 0.782 0.681 0.263 0.004 0.008 0.000 0.174 0.805 1.000 0.847 0.680 0.165 0.004 0.006 0.010 0.398 0.894 0.952 0.866 0.608 0.095 0.028 0.008 0.051 0.597 0.833 0.813 0.812 0.499 0.055 0.061 0.014 0.125 0.677 0.665 0.627 0.704 0.378 0.029 0.095 0.027 0.209 0.598 0.459 0.465 0.586 0.255 0.010 0.124 r_peak,r_snr = 8.4700666E-02 4.517381 Correlation Surface of oversamples image at 2046 4246 0.089 0.362 0.757 1.452 2.760 3.669 3.126 1.908 1.138 0.119 0.465 0.967 1.792 3.105 3.726 2.854 1.611 0.948 0.134 0.534 1.125 2.031 3.239 3.517 2.414 1.243 0.719 0.223 0.739 1.473 2.484 3.574 3.503 2.192 1.071 0.645 2046 -8.844 4246 -8.188 4.51738 0.835612 7.278952 1.688060 At line = 4600 Reading in data.... Correlation Surface at 746 4646 0.008 0.006 0.016 0.089 0.596 0.669 0.085 0.034 0.101 0.001 0.000 0.004 0.111 0.750 0.814 0.049 0.039 0.042 0.000 0.010 0.000 0.153 0.903 0.925 0.026 0.032 0.008 0.000 0.035 0.000 0.200 1.000 0.971 0.020 0.016 0.000 0.000 0.050 0.000 0.220 1.000 0.968 0.035 0.003 0.007 0.004 0.042 0.003 0.188 0.909 0.953 0.088 0.001 0.013 0.013 0.028 0.021 0.110 0.760 0.942 0.196 0.007 0.014 0.030 0.024 0.089 0.030 0.592 0.922 0.334 0.012 0.012 0.049 0.037 0.240 0.000 0.448 0.872 0.416 0.014 0.012 r_peak,r_snr = 0.1131649 6.046134 Correlation Surface of oversamples image at 746 4646 0.008 0.025 0.239 0.569 0.797 0.753 0.342 0.028 0.019 0.006 0.045 0.329 0.686 0.891 0.794 0.329 0.019 0.027 0.005 0.074 0.427 0.792 0.963 0.813 0.310 0.012 0.032 0.003 0.107 0.516 0.867 0.999 0.808 0.290 0.009 0.032 0.001 0.143 0.588 0.907 1.000 0.787 0.273 0.009 0.028 0.001 0.177 0.637 0.911 0.975 0.759 0.264 0.011 0.020 0.000 0.202 0.653 0.878 0.925 0.725 0.260 0.015 0.012 0.000 0.211 0.628 0.805 0.852 0.684 0.259 0.023 0.006 0.001 0.201 0.564 0.701 0.762 0.639 0.262 0.033 0.002 746 -0.531 4646 -1.906 6.04613 0.031996 3.541239 -0.007792 Correlation Surface at 846 4646 0.294 0.576 0.140 0.000 0.205 0.149 0.129 0.053 0.032 0.314 0.579 0.104 0.000 0.429 0.348 0.034 0.045 0.051 0.362 0.538 0.064 0.010 0.703 0.553 0.008 0.052 0.067 0.409 0.432 0.033 0.054 0.919 0.631 0.008 0.067 0.076 0.411 0.286 0.018 0.144 1.000 0.540 0.020 0.081 0.068 0.353 0.146 0.017 0.264 0.962 0.369 0.038 0.085 0.041 0.267 0.053 0.031 0.370 0.867 0.222 0.044 0.080 0.011 0.186 0.014 0.055 0.428 0.766 0.137 0.030 0.066 0.001 0.122 0.004 0.070 0.437 0.674 0.108 0.011 0.049 0.035 r_peak,r_snr = 0.1049079 7.444596 Correlation Surface of oversamples image at 846 4646 0.029 0.022 0.136 0.487 0.771 0.546 0.131 0.000 0.018 0.028 0.036 0.195 0.600 0.876 0.594 0.146 0.002 0.013 0.031 0.060 0.266 0.709 0.952 0.609 0.148 0.003 0.010 0.041 0.096 0.349 0.811 0.996 0.595 0.138 0.003 0.008 0.059 0.145 0.438 0.896 1.000 0.548 0.117 0.002 0.007 0.082 0.201 0.520 0.946 0.953 0.468 0.087 0.001 0.007 0.112 0.259 0.592 0.962 0.865 0.373 0.057 0.000 0.007 0.153 0.326 0.663 0.959 0.762 0.286 0.035 0.000 0.007 0.202 0.393 0.723 0.929 0.643 0.206 0.019 0.001 0.007 846 -8.688 4646 5.188 7.44460 0.103383 4.530087 0.629711 Correlation Surface at 946 4646 0.010 0.041 0.042 0.134 0.450 0.422 0.092 0.077 0.096 0.007 0.044 0.041 0.183 0.640 0.500 0.105 0.075 0.068 0.011 0.055 0.046 0.274 0.834 0.538 0.111 0.061 0.040 0.026 0.066 0.057 0.391 0.967 0.534 0.111 0.043 0.022 0.055 0.074 0.068 0.489 1.000 0.505 0.106 0.027 0.014 0.089 0.071 0.076 0.529 0.955 0.480 0.099 0.018 0.016 0.110 0.057 0.079 0.508 0.890 0.476 0.090 0.016 0.027 0.106 0.037 0.072 0.448 0.844 0.490 0.080 0.023 0.049 0.083 0.020 0.059 0.385 0.829 0.509 0.074 0.042 0.076 r_peak,r_snr = 0.2956410 10.40040 Correlation Surface of oversamples image at 946 4646 0.951 1.953 2.982 3.708 3.742 2.903 1.567 0.528 0.112 1.010 1.919 2.835 3.590 3.745 2.927 1.495 0.432 0.073 0.998 1.791 2.622 3.445 3.732 2.915 1.388 0.336 0.045 0.971 1.665 2.464 3.396 3.815 2.961 1.322 0.280 0.038 946 0.469 4646 1.813 10.40040 0.006035 0.527186 0.033083 Correlation Surface at 1046 4646 0.203 0.225 0.195 0.169 0.273 0.270 0.354 0.372 0.245 0.195 0.176 0.209 0.247 0.460 0.438 0.486 0.472 0.288 0.163 0.133 0.219 0.346 0.693 0.625 0.623 0.571 0.315 0.119 0.097 0.215 0.454 0.899 0.754 0.723 0.635 0.323 0.079 0.067 0.193 0.553 1.000 0.767 0.752 0.645 0.323 0.051 0.043 0.160 0.628 0.958 0.677 0.709 0.609 0.327 0.036 0.024 0.126 0.663 0.795 0.541 0.622 0.559 0.342 0.032 0.011 0.100 0.642 0.586 0.416 0.519 0.529 0.377 0.035 0.003 0.083 0.562 0.405 0.325 0.430 0.546 0.430 r_peak,r_snr = 0.2151659 4.886489 Correlation Surface of oversamples image at 1046 4646 0.089 0.157 0.192 0.282 0.421 0.422 0.310 0.243 0.240 0.086 0.150 0.206 0.344 0.506 0.462 0.305 0.224 0.224 0.076 0.136 0.215 0.403 0.572 0.471 0.276 0.191 0.198 0.060 0.116 0.220 0.454 0.611 0.447 0.229 0.150 0.167 0.046 0.099 0.230 0.503 0.629 0.407 0.180 0.115 0.141 0.032 0.083 0.238 0.538 0.618 0.351 0.133 0.086 0.119 0.016 0.062 0.231 0.535 0.560 0.272 0.085 0.057 0.092 0.004 0.039 0.210 0.493 0.465 0.187 0.045 0.033 0.066 0.000 0.030 0.207 0.466 0.395 0.136 0.027 0.026 0.057 1046 -3.625 4646 -8.188 4.88649 0.021720 0.374585 0.047125 Correlation Surface at 1146 4646 0.212 0.239 0.352 0.618 0.887 0.779 0.585 0.532 0.454 0.201 0.233 0.362 0.656 0.936 0.782 0.596 0.521 0.479 0.192 0.227 0.366 0.695 0.972 0.785 0.610 0.513 0.520 0.185 0.219 0.365 0.730 0.996 0.784 0.618 0.509 0.564 0.176 0.206 0.361 0.755 1.000 0.775 0.616 0.507 0.600 0.161 0.188 0.355 0.767 0.980 0.757 0.604 0.504 0.620 0.141 0.168 0.349 0.764 0.938 0.729 0.584 0.498 0.626 0.118 0.149 0.345 0.751 0.878 0.696 0.557 0.491 0.629 0.096 0.137 0.345 0.731 0.810 0.658 0.525 0.490 0.641 r_peak,r_snr = 0.4268207 2.208405 Correlation Surface of oversamples image at 1146 4646 0.385 0.597 0.803 0.940 0.982 0.888 0.748 0.665 0.637 0.387 0.604 0.816 0.954 0.989 0.887 0.749 0.670 0.642 0.387 0.608 0.828 0.968 0.996 0.888 0.751 0.675 0.646 0.382 0.608 0.835 0.977 0.999 0.887 0.752 0.679 0.648 0.374 0.605 0.838 0.982 1.000 0.887 0.754 0.682 0.648 0.365 0.601 0.840 0.984 0.999 0.885 0.755 0.684 0.646 0.355 0.595 0.837 0.981 0.992 0.881 0.755 0.685 0.644 0.342 0.583 0.826 0.968 0.979 0.873 0.751 0.682 0.638 0.328 0.568 0.808 0.947 0.960 0.862 0.745 0.676 0.629 1146 0.313 4646 -7.750 2.20841 0.008579 1.684238 0.064387 Correlation Surface at 1246 4646 0.030 0.116 0.057 0.061 0.604 0.692 0.101 0.115 0.130 0.010 0.075 0.015 0.089 0.728 0.658 0.069 0.072 0.102 0.002 0.039 0.003 0.151 0.860 0.615 0.062 0.046 0.081 0.000 0.015 0.002 0.246 0.966 0.557 0.068 0.026 0.058 0.000 0.003 0.007 0.359 1.000 0.482 0.082 0.011 0.036 0.000 0.000 0.024 0.456 0.934 0.396 0.097 0.002 0.019 0.001 0.000 0.052 0.503 0.769 0.318 0.108 0.000 0.010 0.002 0.000 0.080 0.481 0.557 0.266 0.114 0.003 0.008 r_peak,r_snr = 0.1920347 5.568744 Correlation Surface of oversamples image at 1246 4646 0.059 0.054 0.160 0.454 0.758 0.710 0.335 0.075 0.021 0.056 0.076 0.223 0.557 0.844 0.718 0.299 0.060 0.020 0.058 0.104 0.294 0.660 0.916 0.704 0.259 0.049 0.022 0.065 0.139 0.370 0.761 0.970 0.672 0.220 0.043 0.027 0.076 0.180 0.447 0.850 1.000 0.625 0.188 0.042 0.035 0.091 0.223 0.517 0.916 0.997 0.565 0.161 0.045 0.047 0.109 0.262 0.570 0.951 0.957 0.492 0.137 0.050 0.060 0.128 0.296 0.605 0.952 0.884 0.415 0.118 0.058 0.073 0.152 0.326 0.626 0.928 0.798 0.350 0.109 0.074 0.090 1246 -2.156 4646 10.938 5.56874 0.021996 1.210386 0.133901 Correlation Surface at 1346 4646 0.178 0.239 0.355 0.485 0.658 0.808 0.652 0.387 0.260 0.205 0.289 0.425 0.578 0.785 0.870 0.628 0.356 0.275 0.231 0.357 0.522 0.694 0.904 0.904 0.597 0.342 0.314 0.252 0.433 0.627 0.805 0.982 0.904 0.569 0.349 0.377 0.262 0.498 0.710 0.870 1.000 0.872 0.549 0.379 0.462 0.261 0.532 0.741 0.867 0.959 0.817 0.538 0.429 0.552 0.257 0.535 0.722 0.814 0.883 0.753 0.535 0.491 0.634 r_peak,r_snr = 0.3205280 2.565702 Correlation Surface of oversamples image at 1346 4646 0.355 0.487 0.629 0.759 0.861 0.920 0.921 0.837 0.656 0.396 0.544 0.691 0.815 0.905 0.947 0.924 0.809 0.604 0.439 0.603 0.755 0.872 0.947 0.971 0.922 0.775 0.551 0.482 0.661 0.815 0.922 0.983 0.986 0.909 0.732 0.497 0.517 0.708 0.859 0.955 1.000 0.983 0.878 0.678 0.442 0.545 0.741 0.885 0.968 1.000 0.962 0.833 0.619 0.391 0.572 0.767 0.901 0.973 0.993 0.937 0.787 0.566 0.351 0.594 0.782 0.902 0.964 0.973 0.901 0.737 0.517 0.320 0.598 0.772 0.877 0.930 0.929 0.842 0.670 0.460 0.287 1346 -2.344 4646 12.500 2.56570 0.064758 0.816884 0.147797 Correlation Surface at 1446 4646 0.552 0.633 0.766 0.770 0.808 0.863 0.820 0.851 0.820 0.581 0.660 0.807 0.783 0.876 0.891 0.849 0.890 0.856 0.625 0.702 0.840 0.806 0.937 0.913 0.885 0.909 0.887 0.679 0.758 0.857 0.835 0.980 0.921 0.921 0.901 0.906 0.733 0.814 0.852 0.864 1.000 0.912 0.947 0.869 0.912 0.777 0.855 0.828 0.886 0.994 0.887 0.955 0.822 0.904 0.801 0.869 0.795 0.894 0.964 0.855 0.946 0.771 0.879 0.800 0.850 0.759 0.881 0.914 0.827 0.921 0.727 0.843 0.771 0.803 0.726 0.850 0.854 0.811 0.884 0.699 0.798 r_peak,r_snr = 0.5256277 1.495573 Correlation Surface of oversamples image at 1446 4646 2.049 2.134 2.365 2.525 2.411 2.065 2.164 2.382 2.483 2.302 2.077 2.191 2.384 2.419 2.183 2.102 2.233 2.388 2.353 2.075 2.125 2.272 2.378 2.271 1.970 2.120 2.278 2.326 2.156 1.851 2.099 2.263 2.253 2.030 1.738 2.108 2.276 2.211 1.948 1.673 1446 -8.750 4646 0.813 1.49557 0.019858 0.759356 0.081267 Correlation Surface at 1746 4646 0.106 0.004 0.042 0.082 0.142 0.026 0.451 0.039 0.002 0.018 0.355 0.107 0.112 0.699 0.007 0.011 0.268 0.590 0.032 0.264 0.949 0.002 0.125 0.704 0.575 0.000 0.448 1.136 0.011 0.410 1.000 0.349 0.037 0.616 1.181 0.072 0.774 0.923 0.121 0.110 0.720 1.016 0.228 0.995 0.585 0.013 0.173 0.723 0.678 0.431 0.933 0.253 0.003 0.210 0.602 0.326 0.562 0.653 0.068 0.023 0.218 0.400 0.106 r_peak,r_snr = 9.7656742E-02 4.541090 Correlation Surface of oversamples image at 1746 4646 0.012 0.008 0.025 0.263 0.604 0.779 0.637 0.266 0.017 0.010 0.000 0.083 0.431 0.780 0.824 0.558 0.188 0.004 0.005 0.006 0.171 0.601 0.896 0.793 0.451 0.118 0.000 0.000 0.038 0.306 0.787 0.984 0.749 0.369 0.079 0.002 0.007 0.101 0.459 0.935 1.000 0.668 0.293 0.053 0.004 0.021 0.159 0.551 0.949 0.878 0.510 0.194 0.024 0.013 0.033 0.195 0.572 0.859 0.689 0.344 0.108 0.005 0.034 0.075 0.277 0.648 0.841 0.603 0.281 0.089 0.003 0.035 1746 -13.688 4646 -4.094 4.54109 0.109525 0.716686 0.250311 At line = 5000 Reading in data.... Correlation Surface at 646 5046 0.018 0.000 0.195 0.515 0.625 0.287 0.037 0.018 0.087 0.016 0.000 0.198 0.522 0.741 0.353 0.046 0.024 0.100 0.012 0.001 0.185 0.533 0.865 0.404 0.049 0.029 0.115 0.011 0.001 0.159 0.559 0.961 0.424 0.045 0.031 0.131 0.015 0.001 0.132 0.604 1.000 0.414 0.039 0.032 0.147 0.023 0.000 0.114 0.661 0.967 0.375 0.032 0.035 0.162 0.033 0.000 0.111 0.707 0.864 0.319 0.027 0.042 0.167 0.036 0.001 0.125 0.713 0.714 0.260 0.026 0.049 0.155 0.030 0.002 0.151 0.651 0.547 0.209 0.027 0.052 0.122 r_peak,r_snr = 0.2459324 11.73391 Correlation Surface of oversamples image at 646 5046 0.106 0.297 0.528 0.742 0.803 0.650 0.372 0.151 0.052 0.105 0.299 0.549 0.793 0.868 0.697 0.390 0.153 0.049 0.102 0.298 0.570 0.843 0.923 0.729 0.396 0.147 0.042 0.100 0.302 0.597 0.895 0.972 0.748 0.392 0.137 0.034 0.099 0.307 0.626 0.940 1.000 0.746 0.377 0.122 0.025 0.096 0.310 0.647 0.963 0.994 0.715 0.345 0.101 0.016 0.093 0.314 0.663 0.965 0.959 0.663 0.304 0.079 0.008 0.096 0.327 0.683 0.959 0.913 0.606 0.264 0.061 0.004 0.102 0.345 0.699 0.936 0.849 0.542 0.226 0.047 0.002 646 -0.188 5046 2.344 11.73391 0.008162 0.960553 0.045678 Correlation Surface at 746 5046 0.024 0.000 0.172 0.497 0.700 0.004 0.017 0.233 0.586 0.809 0.009 0.075 0.286 0.660 0.904 0.079 0.154 0.304 0.680 0.971 0.204 0.215 0.278 0.639 1.000 0.338 0.224 0.218 0.567 0.989 0.428 0.184 0.154 0.500 0.946 0.440 0.119 0.114 0.464 0.888 0.358 0.058 0.103 0.459 0.836 r_peak,r_snr = 0.1241657 4.784534 Correlation Surface of oversamples image at 746 5046 0.079 0.249 0.459 0.608 0.694 0.585 0.274 0.051 0.000 0.106 0.280 0.510 0.703 0.817 0.661 0.303 0.066 0.006 0.130 0.306 0.552 0.784 0.917 0.721 0.337 0.093 0.023 0.149 0.322 0.580 0.840 0.981 0.757 0.373 0.131 0.054 0.160 0.328 0.590 0.863 1.000 0.768 0.411 0.184 0.102 0.166 0.325 0.580 0.852 0.982 0.766 0.458 0.252 0.167 0.161 0.308 0.548 0.810 0.935 0.757 0.511 0.332 0.241 0.140 0.272 0.490 0.734 0.855 0.731 0.558 0.411 0.312 0.114 0.229 0.422 0.638 0.759 0.697 0.599 0.483 0.369 746 13.438 5046 8.156 4.78453 1.281428 48.996307 -7.747342 Correlation Surface at 846 5046 0.198 0.058 0.146 0.201 0.612 0.424 0.042 0.023 0.009 0.092 0.045 0.169 0.378 0.765 0.593 0.047 0.016 0.039 0.026 0.030 0.236 0.607 0.899 0.733 0.036 0.011 0.077 0.004 0.018 0.341 0.820 0.982 0.779 0.015 0.011 0.103 0.001 0.011 0.469 0.948 1.000 0.699 0.000 0.017 0.116 0.003 0.008 0.583 0.971 0.964 0.521 0.012 0.027 0.128 0.019 0.009 0.635 0.915 0.898 0.316 0.059 0.030 0.152 0.053 0.010 0.601 0.825 0.818 0.147 0.113 0.016 0.192 0.089 0.009 0.496 0.736 0.712 0.045 0.129 0.001 0.239 r_peak,r_snr = 0.1504389 6.871683 Correlation Surface of oversamples image at 846 5046 0.235 0.349 0.371 0.440 0.571 0.523 0.304 0.154 0.085 0.325 0.425 0.437 0.552 0.710 0.592 0.297 0.127 0.067 0.440 0.510 0.517 0.682 0.851 0.644 0.284 0.106 0.056 0.555 0.582 0.591 0.803 0.959 0.660 0.256 0.083 0.046 0.642 0.622 0.638 0.884 1.000 0.624 0.211 0.057 0.035 0.703 0.640 0.666 0.927 0.983 0.554 0.161 0.034 0.025 0.745 0.645 0.684 0.942 0.929 0.473 0.117 0.018 0.018 0.754 0.626 0.678 0.914 0.831 0.380 0.075 0.006 0.013 0.718 0.577 0.636 0.828 0.687 0.274 0.037 0.000 0.007 846 2.813 5046 4.938 6.87168 7.348338 67.229378 22.056387 Correlation Surface at 946 5046 0.004 0.072 0.057 0.169 0.685 0.402 0.001 0.030 0.025 0.002 0.061 0.065 0.215 0.807 0.382 0.004 0.022 0.027 0.002 0.058 0.074 0.261 0.916 0.362 0.006 0.026 0.040 0.002 0.062 0.072 0.292 0.987 0.348 0.007 0.043 0.069 0.004 0.070 0.056 0.300 1.000 0.339 0.005 0.077 0.118 0.010 0.075 0.032 0.281 0.952 0.324 0.001 0.125 0.185 0.022 0.075 0.014 0.244 0.855 0.292 0.001 0.176 0.253 0.041 0.069 0.005 0.199 0.727 0.243 0.006 0.210 0.300 0.063 0.064 0.004 0.160 0.596 0.183 0.012 0.216 0.314 r_peak,r_snr = 0.2371840 11.92926 Correlation Surface of oversamples image at 946 5046 0.041 0.072 0.226 0.588 0.878 0.711 0.305 0.055 0.000 0.040 0.072 0.244 0.642 0.927 0.722 0.300 0.051 0.000 0.037 0.069 0.259 0.688 0.964 0.728 0.293 0.047 0.000 0.032 0.063 0.269 0.722 0.987 0.729 0.286 0.042 0.002 0.025 0.056 0.274 0.745 1.000 0.727 0.279 0.036 0.004 0.017 0.047 0.272 0.752 0.998 0.717 0.268 0.028 0.009 0.010 0.038 0.265 0.743 0.980 0.697 0.251 0.020 0.017 0.006 0.032 0.258 0.730 0.958 0.676 0.235 0.014 0.026 0.003 0.029 0.253 0.712 0.931 0.653 0.219 0.009 0.036 946 -0.031 5046 -1.750 11.92926 0.003482 1.382238 0.004265 Correlation Surface at 1046 5046 0.109 0.269 0.002 0.372 0.391 0.222 0.022 0.019 0.005 0.129 0.172 0.000 0.471 0.582 0.280 0.010 0.001 0.085 0.119 0.091 0.005 0.532 0.819 0.281 0.010 0.057 0.204 0.095 0.039 0.010 0.537 1.000 0.217 0.025 0.211 0.243 0.074 0.016 0.003 0.497 0.987 0.125 0.065 0.399 0.158 0.059 0.013 0.005 0.417 0.752 0.051 0.132 0.485 0.041 0.050 0.029 0.066 0.327 0.440 0.018 0.214 0.407 0.001 0.051 0.088 0.188 0.259 0.201 0.016 0.293 0.230 0.059 r_peak,r_snr = 0.1068187 5.311199 Correlation Surface of oversamples image at 1046 5046 0.013 0.048 0.267 0.528 0.654 0.646 0.401 0.088 0.001 0.028 0.079 0.317 0.604 0.780 0.717 0.375 0.072 0.000 0.049 0.104 0.346 0.676 0.898 0.755 0.336 0.063 0.005 0.069 0.114 0.348 0.728 0.978 0.744 0.286 0.062 0.023 0.078 0.101 0.322 0.752 1.000 0.675 0.228 0.064 0.059 0.067 0.069 0.273 0.736 0.948 0.553 0.162 0.064 0.107 0.041 0.031 0.213 0.683 0.828 0.400 0.099 0.060 0.158 0.015 0.006 0.163 0.616 0.678 0.259 0.055 0.062 0.215 0.000 0.001 0.119 0.530 0.506 0.140 0.025 0.065 0.265 1046 7.969 5046 -12.063 5.31120 0.020866 0.900789 0.047808 Correlation Surface at 1146 5046 0.401 0.517 0.641 0.802 0.903 0.850 0.737 0.576 0.318 0.406 0.525 0.645 0.834 0.947 0.877 0.772 0.561 0.296 0.407 0.535 0.654 0.879 0.981 0.902 0.794 0.534 0.278 0.410 0.548 0.669 0.926 1.000 0.919 0.789 0.497 0.264 0.420 0.564 0.689 0.966 1.000 0.918 0.756 0.457 0.256 0.432 0.574 0.710 0.986 0.982 0.897 0.702 0.424 0.254 0.444 0.578 0.727 0.982 0.947 0.860 0.642 0.403 0.257 0.451 0.579 0.740 0.955 0.910 0.816 0.590 0.397 0.261 0.453 0.584 0.748 0.914 0.882 0.776 0.559 0.404 0.264 r_peak,r_snr = 0.5923697 2.748624 Correlation Surface of oversamples image at 1146 5046 0.796 0.792 0.811 0.892 0.946 0.860 0.639 0.379 0.179 0.809 0.817 0.842 0.919 0.964 0.860 0.620 0.356 0.166 0.823 0.841 0.867 0.940 0.975 0.853 0.593 0.330 0.153 0.840 0.863 0.886 0.955 0.981 0.839 0.561 0.302 0.141 0.859 0.882 0.899 0.963 0.981 0.818 0.525 0.274 0.131 0.876 0.896 0.906 0.966 0.975 0.790 0.486 0.248 0.121 0.891 0.905 0.906 0.964 0.963 0.757 0.446 0.224 0.113 0.906 0.910 0.904 0.961 0.949 0.721 0.410 0.205 0.109 0.919 0.911 0.898 0.956 0.931 0.684 0.377 0.190 0.106 1146 1.813 5046 4.219 2.74862 0.066311 1.148778 0.226490 Correlation Surface at 1246 5046 0.075 0.073 0.150 0.218 0.332 0.460 0.533 0.238 0.089 0.083 0.072 0.130 0.253 0.505 0.647 0.524 0.200 0.075 0.089 0.063 0.118 0.321 0.711 0.795 0.464 0.167 0.066 0.090 0.050 0.124 0.415 0.896 0.854 0.369 0.142 0.063 0.085 0.040 0.148 0.510 1.000 0.805 0.266 0.126 0.064 0.074 0.035 0.185 0.573 0.991 0.675 0.179 0.119 0.069 0.059 0.033 0.219 0.576 0.880 0.518 0.120 0.119 0.075 0.042 0.032 0.231 0.502 0.700 0.373 0.084 0.125 0.079 0.025 0.032 0.208 0.371 0.509 0.262 0.066 0.129 0.078 r_peak,r_snr = 0.2352106 7.926281 Correlation Surface of oversamples image at 1246 5046 0.104 0.206 0.343 0.479 0.581 0.645 0.567 0.295 0.092 0.119 0.242 0.405 0.564 0.666 0.693 0.557 0.266 0.079 0.140 0.282 0.471 0.647 0.741 0.727 0.541 0.243 0.072 0.160 0.319 0.528 0.715 0.793 0.739 0.516 0.221 0.067 0.175 0.344 0.567 0.754 0.810 0.721 0.476 0.196 0.062 0.186 0.363 0.594 0.773 0.807 0.690 0.435 0.175 0.058 0.197 0.381 0.617 0.785 0.799 0.662 0.405 0.165 0.061 0.200 0.387 0.621 0.776 0.774 0.624 0.376 0.156 0.065 0.186 0.369 0.592 0.729 0.713 0.562 0.333 0.139 0.063 1246 -0.625 5046 1.813 7.92628 0.025867 0.551566 0.085921 Correlation Surface at 1346 5046 0.637 0.652 0.602 0.724 0.828 0.711 0.570 0.596 0.671 0.634 0.618 0.599 0.773 0.888 0.754 0.598 0.612 0.651 0.636 0.605 0.622 0.838 0.948 0.787 0.615 0.614 0.624 0.643 0.610 0.667 0.905 0.990 0.797 0.615 0.599 0.595 0.649 0.631 0.729 0.960 1.000 0.782 0.601 0.572 0.572 0.653 0.663 0.795 0.989 0.977 0.752 0.582 0.543 0.563 0.649 0.694 0.846 0.980 0.924 0.713 0.559 0.512 0.564 0.634 0.714 0.865 0.934 0.854 0.674 0.534 0.486 0.574 0.609 0.714 0.846 0.863 0.783 0.640 0.509 0.467 0.583 r_peak,r_snr = 0.4992284 1.654396 Correlation Surface of oversamples image at 1346 5046 0.629 0.662 0.728 0.813 0.889 0.914 0.862 0.756 0.648 0.649 0.692 0.768 0.858 0.929 0.940 0.871 0.755 0.646 0.672 0.726 0.810 0.901 0.963 0.956 0.871 0.748 0.641 0.700 0.763 0.853 0.940 0.987 0.962 0.864 0.738 0.636 0.728 0.800 0.892 0.971 1.000 0.956 0.849 0.725 0.632 0.757 0.836 0.925 0.989 0.999 0.940 0.827 0.710 0.629 0.786 0.869 0.950 0.996 0.987 0.915 0.804 0.696 0.629 0.815 0.898 0.968 0.994 0.968 0.888 0.782 0.687 0.633 0.839 0.920 0.974 0.982 0.940 0.858 0.761 0.681 0.640 1346 -0.719 5046 0.438 1.65440 0.021789 0.597826 0.083259 Correlation Surface at 1746 5046 0.944 0.057 0.269 0.288 0.009 0.020 0.687 0.042 0.680 0.241 0.003 0.003 0.299 0.393 0.872 0.103 0.014 0.007 0.030 0.844 0.695 0.015 0.005 0.029 0.040 1.000 0.341 0.000 0.002 0.011 0.216 0.709 0.090 0.000 0.015 0.026 0.282 0.257 0.009 0.010 0.005 0.344 0.131 0.020 0.003 0.050 0.020 1.071 0.001 0.008 0.028 0.074 0.239 1.864 r_peak,r_snr = 7.3061787E-02 3.044260 Correlation Surface of oversamples image at 1746 5046 0.881 0.219 0.004 0.276 0.712 0.817 0.596 0.260 0.049 0.607 0.069 0.079 0.502 0.895 0.830 0.510 0.184 0.021 0.331 0.001 0.243 0.737 1.000 0.770 0.411 0.128 0.009 0.121 0.036 0.443 0.891 0.969 0.630 0.297 0.081 0.004 0.013 0.149 0.612 0.916 0.816 0.449 0.190 0.048 0.002 0.011 0.293 0.699 0.807 0.587 0.268 0.107 0.028 0.001 0.093 0.418 0.676 0.607 0.356 0.133 0.059 0.021 0.002 1746 -9.563 5046 8.219 3.04426 0.073904 0.767232 0.207680 Correlation Surface at 1846 5046 0.011 0.045 0.067 0.268 0.996 0.742 0.110 0.007 0.049 0.059 0.076 0.102 0.412 1.000 0.551 0.093 0.028 0.061 0.117 0.091 0.151 0.554 0.891 0.411 0.117 0.063 0.040 0.152 0.088 0.205 0.640 0.731 0.341 0.166 0.081 0.007 0.143 0.075 0.255 0.649 0.586 0.324 0.207 0.060 0.004 0.097 0.060 0.289 0.604 0.495 0.337 0.207 0.018 0.040 r_peak,r_snr = 0.1330758 9.506084 Correlation Surface of oversamples image at 1846 5046 0.668 1.319 2.311 3.363 4.000 3.278 1.714 0.689 0.425 0.756 1.517 2.514 3.368 3.625 2.643 1.207 0.424 0.293 0.900 1.760 2.707 3.316 3.215 2.091 0.842 0.269 0.233 1.057 1.973 2.794 3.124 2.729 1.591 0.576 0.183 0.218 1.208 2.124 2.758 2.809 2.224 1.174 0.392 0.138 0.226 1846 1.500 5046 -17.813 9.50608 0.162122 3.896163 0.748307 Correlation Surface at 1946 5046 0.234 0.179 0.036 0.098 0.006 0.461 0.089 0.792 1.294 0.260 0.066 0.012 0.029 0.090 0.726 0.007 0.739 0.525 0.236 0.012 0.001 0.002 0.435 0.745 0.013 0.436 0.068 0.165 0.000 0.005 0.086 0.836 0.519 0.056 0.131 0.028 0.081 0.017 0.033 0.273 1.000 0.216 0.076 0.001 0.241 0.023 0.041 0.075 0.453 0.794 0.024 0.065 0.082 0.477 0.002 0.047 0.116 0.504 0.408 0.016 0.029 0.314 0.626 0.000 0.031 0.143 0.401 0.098 0.121 0.001 0.569 0.680 0.001 0.015 0.161 0.228 0.000 0.209 0.019 0.762 0.660 r_peak,r_snr = 5.8960095E-02 1.810401 Correlation Surface of oversamples image at 1946 5046 0.283 0.089 0.182 1.222 2.298 0.224 0.016 0.440 1.775 2.807 0.160 0.002 0.760 2.254 3.120 0.048 0.098 1.301 2.922 3.576 1946 3.781 5046 -7.188 1.81040 0.157117 1.747245 0.459079 Correlation Surface at 2046 5046 0.050 0.032 0.098 0.014 0.010 0.217 0.221 0.012 0.014 0.000 0.109 0.086 0.000 0.139 0.470 0.194 0.009 0.000 0.048 0.146 0.034 0.051 0.448 0.620 0.114 0.012 0.006 0.125 0.110 0.000 0.218 0.818 0.551 0.043 0.020 0.013 0.147 0.042 0.027 0.477 1.000 0.311 0.006 0.022 0.012 0.097 0.003 0.118 0.735 0.860 0.082 0.002 0.012 0.009 0.030 0.008 0.250 0.864 0.499 0.000 0.021 0.003 0.011 r_peak,r_snr = 0.1046728 10.01508 Correlation Surface of oversamples image at 2046 5046 0.008 0.000 0.024 0.153 0.433 0.681 0.734 0.586 0.298 0.002 0.011 0.075 0.287 0.623 0.819 0.754 0.511 0.214 0.000 0.038 0.162 0.457 0.808 0.904 0.714 0.411 0.141 0.007 0.081 0.274 0.634 0.948 0.910 0.614 0.298 0.082 0.017 0.130 0.390 0.778 1.000 0.819 0.462 0.181 0.035 0.029 0.183 0.499 0.872 0.962 0.657 0.295 0.084 0.007 0.051 0.255 0.617 0.937 0.875 0.486 0.164 0.029 0.000 0.078 0.330 0.713 0.938 0.731 0.317 0.070 0.004 0.003 0.092 0.368 0.722 0.819 0.513 0.151 0.011 0.003 0.016 2046 -6.438 5046 12.406 10.01508 0.105508 0.848249 0.268955 At line = 5400 Reading in data.... Correlation Surface at 446 5446 0.122 0.147 0.186 0.527 0.822 0.339 0.100 0.170 0.180 0.116 0.122 0.225 0.633 0.905 0.329 0.083 0.152 0.165 0.094 0.105 0.261 0.711 0.958 0.329 0.082 0.146 0.172 0.070 0.105 0.287 0.748 0.990 0.345 0.103 0.149 0.192 0.056 0.123 0.297 0.742 1.000 0.378 0.147 0.153 0.215 0.056 0.151 0.288 0.698 0.983 0.423 0.198 0.148 0.230 0.073 0.180 0.268 0.633 0.941 0.459 0.224 0.128 0.235 0.105 0.203 0.250 0.564 0.872 0.461 0.200 0.096 0.235 0.144 0.218 0.241 0.497 0.773 0.417 0.136 0.066 0.243 r_peak,r_snr = 0.2455831 4.635121 Correlation Surface of oversamples image at 446 5446 0.296 0.445 0.614 0.765 0.801 0.626 0.336 0.138 0.076 0.312 0.457 0.631 0.796 0.839 0.650 0.349 0.151 0.092 0.326 0.462 0.643 0.823 0.872 0.673 0.366 0.171 0.114 0.332 0.459 0.646 0.841 0.895 0.691 0.385 0.195 0.140 0.327 0.445 0.636 0.841 0.898 0.693 0.397 0.218 0.163 0.316 0.425 0.619 0.828 0.884 0.685 0.405 0.237 0.182 0.307 0.411 0.606 0.815 0.869 0.678 0.415 0.257 0.196 0.297 0.397 0.590 0.793 0.846 0.668 0.422 0.270 0.200 0.279 0.375 0.556 0.744 0.796 0.634 0.408 0.263 0.184 446 -0.125 5446 0.313 4.63512 0.022159 7.363084 -0.333394 Correlation Surface at 546 5446 0.018 0.102 0.063 0.116 0.354 0.441 0.210 0.023 0.000 0.017 0.078 0.039 0.168 0.564 0.639 0.275 0.023 0.000 0.011 0.042 0.017 0.219 0.783 0.795 0.314 0.023 0.000 0.004 0.011 0.003 0.252 0.949 0.861 0.312 0.020 0.002 0.000 0.000 0.000 0.258 1.000 0.824 0.268 0.017 0.014 0.001 0.006 0.003 0.236 0.918 0.709 0.201 0.014 0.041 0.005 0.017 0.008 0.194 0.732 0.557 0.134 0.015 0.081 0.009 0.021 0.010 0.148 0.504 0.399 0.082 0.018 0.121 0.010 0.016 0.008 0.105 0.293 0.258 0.047 0.025 0.147 r_peak,r_snr = 0.2201349 15.87166 Correlation Surface of oversamples image at 546 5446 0.135 0.280 0.492 0.693 0.811 0.779 0.623 0.372 0.108 0.129 0.299 0.546 0.777 0.886 0.823 0.644 0.377 0.110 0.123 0.314 0.595 0.850 0.944 0.851 0.654 0.374 0.109 0.117 0.326 0.638 0.911 0.984 0.867 0.654 0.366 0.108 0.111 0.332 0.669 0.951 1.000 0.864 0.642 0.350 0.106 0.102 0.328 0.680 0.958 0.981 0.836 0.611 0.323 0.099 0.091 0.317 0.673 0.933 0.935 0.789 0.568 0.290 0.090 0.082 0.305 0.657 0.895 0.880 0.741 0.526 0.261 0.083 0.074 0.290 0.629 0.839 0.815 0.689 0.481 0.232 0.077 546 -0.688 5446 1.156 15.87166 0.007838 0.363526 0.011911 Correlation Surface at 646 5446 0.009 0.005 0.100 0.433 0.695 0.332 0.088 0.001 0.000 0.007 0.005 0.130 0.516 0.803 0.372 0.081 0.000 0.001 0.005 0.007 0.161 0.601 0.898 0.394 0.072 0.000 0.007 0.002 0.011 0.181 0.671 0.968 0.394 0.066 0.000 0.019 0.001 0.013 0.180 0.711 1.000 0.379 0.064 0.000 0.032 0.000 0.012 0.158 0.715 0.982 0.359 0.065 0.002 0.042 0.001 0.006 0.123 0.682 0.916 0.339 0.065 0.006 0.044 0.005 0.001 0.087 0.621 0.818 0.316 0.058 0.012 0.036 0.011 0.001 0.058 0.554 0.710 0.293 0.047 0.016 0.022 r_peak,r_snr = 0.2639206 11.42111 Correlation Surface of oversamples image at 646 5446 0.130 0.285 0.527 0.805 0.897 0.702 0.433 0.243 0.125 0.141 0.306 0.568 0.859 0.942 0.718 0.427 0.232 0.122 0.149 0.324 0.603 0.904 0.976 0.724 0.416 0.222 0.122 0.153 0.338 0.633 0.941 0.997 0.720 0.403 0.215 0.124 0.151 0.345 0.654 0.964 1.000 0.704 0.387 0.210 0.126 0.145 0.346 0.666 0.971 0.985 0.678 0.370 0.206 0.128 0.139 0.349 0.676 0.973 0.963 0.652 0.359 0.208 0.132 0.131 0.350 0.684 0.965 0.934 0.625 0.350 0.213 0.135 0.118 0.342 0.674 0.934 0.881 0.585 0.336 0.212 0.130 646 -0.219 5446 -2.344 11.42111 0.006849 1.587693 0.041780 Correlation Surface at 746 5446 0.065 0.011 0.048 0.248 0.751 0.811 0.054 0.014 0.102 0.033 0.002 0.026 0.225 0.845 0.678 0.012 0.019 0.041 0.016 0.000 0.009 0.211 0.922 0.502 0.000 0.016 0.002 0.005 0.009 0.001 0.213 0.979 0.332 0.004 0.009 0.014 0.000 0.036 0.000 0.235 1.000 0.199 0.017 0.003 0.059 0.013 0.081 0.002 0.276 0.961 0.106 0.035 0.001 0.091 0.061 0.141 0.006 0.315 0.849 0.047 0.059 0.000 0.090 0.152 0.202 0.011 0.325 0.672 0.014 0.085 0.000 0.070 0.271 0.248 0.018 0.285 0.463 0.001 0.099 0.001 0.051 r_peak,r_snr = 0.1683130 8.250513 Correlation Surface of oversamples image at 746 5446 0.124 0.294 0.560 0.838 0.961 0.686 0.228 0.018 0.008 0.106 0.273 0.563 0.875 0.986 0.649 0.185 0.009 0.012 0.088 0.257 0.574 0.918 1.000 0.602 0.147 0.004 0.015 0.069 0.238 0.583 0.949 0.993 0.542 0.112 0.001 0.016 0.050 0.220 0.590 0.972 0.966 0.475 0.081 0.000 0.017 0.035 0.204 0.599 0.986 0.921 0.402 0.055 0.000 0.018 0.022 0.194 0.612 0.990 0.859 0.328 0.033 0.002 0.019 746 0.313 5446 1.250 8.25051 0.033649 5.106466 0.383506 Correlation Surface at 846 5446 0.123 0.211 0.220 0.262 0.150 0.050 0.263 0.311 0.057 0.144 0.250 0.303 0.447 0.317 0.161 0.339 0.333 0.057 0.143 0.251 0.388 0.637 0.563 0.327 0.411 0.305 0.055 0.119 0.225 0.458 0.787 0.828 0.481 0.466 0.243 0.058 0.087 0.186 0.486 0.847 1.000 0.570 0.479 0.172 0.067 0.057 0.149 0.451 0.786 1.000 0.591 0.436 0.112 0.075 0.037 0.114 0.348 0.612 0.848 0.556 0.349 0.078 0.078 0.029 0.078 0.200 0.379 0.628 0.482 0.246 0.067 0.070 0.035 0.039 0.070 0.174 0.427 0.375 0.155 0.079 0.051 r_peak,r_snr = 0.1414823 9.224187 Correlation Surface of oversamples image at 846 5446 0.180 0.309 0.532 0.743 0.765 0.649 0.595 0.619 0.605 0.182 0.332 0.572 0.815 0.866 0.749 0.659 0.629 0.564 0.184 0.345 0.594 0.865 0.942 0.820 0.691 0.616 0.513 0.187 0.351 0.605 0.898 0.993 0.861 0.697 0.589 0.463 0.187 0.344 0.596 0.899 1.000 0.860 0.676 0.551 0.414 0.180 0.319 0.557 0.853 0.952 0.814 0.630 0.503 0.363 0.166 0.281 0.498 0.773 0.868 0.743 0.574 0.455 0.318 0.151 0.243 0.436 0.685 0.777 0.675 0.530 0.424 0.289 0.131 0.201 0.365 0.584 0.678 0.609 0.496 0.402 0.269 846 4.906 5446 -2.188 9.22419 0.054881 0.602603 -0.044518 Correlation Surface at 946 5446 0.554 0.438 0.416 0.659 0.876 0.890 0.771 0.546 0.377 0.526 0.450 0.467 0.714 0.929 0.899 0.752 0.543 0.401 0.528 0.489 0.524 0.768 0.973 0.901 0.748 0.553 0.435 0.558 0.548 0.578 0.818 0.998 0.899 0.757 0.568 0.463 0.610 0.611 0.624 0.862 1.000 0.896 0.773 0.582 0.473 0.671 0.661 0.663 0.904 0.985 0.894 0.791 0.585 0.463 0.723 0.692 0.693 0.935 0.954 0.888 0.802 0.574 0.438 0.764 0.703 0.710 0.947 0.918 0.884 0.805 0.554 0.409 0.797 0.695 0.705 0.932 0.884 0.885 0.791 0.531 0.383 r_peak,r_snr = 0.3045252 1.770925 Correlation Surface of oversamples image at 946 5446 2.593 2.925 3.258 3.722 4.000 3.942 3.549 2.884 2.250 2.685 3.000 3.353 3.787 3.953 3.811 3.398 2.768 2.181 2.764 3.081 3.460 3.848 3.898 3.693 3.281 2.688 2.138 2.855 3.179 3.580 3.906 3.850 3.608 3.214 2.664 2.145 2.938 3.275 3.692 3.942 3.800 3.546 3.180 2.672 2.183 946 1.000 5446 -5.781 1.77092 0.170597 11.196987 1.165399 Correlation Surface at 1046 5446 0.016 0.006 0.033 0.452 0.322 0.153 0.000 0.026 0.260 0.035 0.001 0.045 0.574 0.524 0.239 0.002 0.028 0.237 0.073 0.001 0.051 0.670 0.753 0.273 0.012 0.038 0.200 0.122 0.003 0.049 0.711 0.932 0.246 0.030 0.058 0.133 0.154 0.001 0.037 0.682 1.000 0.182 0.050 0.084 0.055 0.151 0.000 0.023 0.598 0.943 0.119 0.066 0.097 0.004 0.121 0.009 0.012 0.491 0.796 0.073 0.067 0.081 0.012 0.076 0.028 0.007 0.385 0.599 0.046 0.049 0.041 0.060 0.036 0.047 0.006 0.290 0.399 0.033 0.020 0.007 0.095 r_peak,r_snr = 0.1373427 7.723957 Correlation Surface of oversamples image at 1046 5446 0.061 0.400 0.767 0.898 0.893 0.703 0.294 0.026 0.016 0.049 0.350 0.692 0.870 0.930 0.740 0.299 0.025 0.019 0.033 0.294 0.615 0.836 0.950 0.751 0.291 0.021 0.023 0.023 0.251 0.561 0.826 0.979 0.761 0.286 0.020 0.025 0.015 0.215 0.520 0.822 1.000 0.760 0.278 0.019 0.025 0.006 0.173 0.469 0.788 0.965 0.709 0.247 0.014 0.028 0.001 0.137 0.416 0.728 0.880 0.619 0.202 0.009 0.032 0.001 0.134 0.414 0.717 0.836 0.568 0.185 0.010 0.022 1046 0.000 5446 1.813 7.72396 0.013805 1.266298 0.037017 Correlation Surface at 1146 5446 0.708 0.642 0.673 0.849 0.899 0.829 0.692 0.455 0.375 0.729 0.654 0.705 0.856 0.924 0.896 0.709 0.459 0.387 0.729 0.665 0.722 0.842 0.955 0.949 0.707 0.468 0.400 0.715 0.677 0.725 0.820 0.984 0.968 0.691 0.480 0.412 0.699 0.693 0.719 0.798 1.000 0.951 0.672 0.495 0.421 0.686 0.706 0.706 0.784 0.991 0.914 0.663 0.507 0.422 0.677 0.708 0.687 0.779 0.960 0.874 0.665 0.507 0.412 0.668 0.692 0.665 0.785 0.920 0.847 0.671 0.492 0.391 0.652 0.656 0.647 0.794 0.878 0.831 0.671 0.465 0.365 r_peak,r_snr = 0.5658612 2.173306 Correlation Surface of oversamples image at 1146 5446 0.653 0.742 0.887 0.993 0.986 0.861 0.681 0.528 0.423 0.674 0.754 0.890 0.996 0.995 0.875 0.697 0.543 0.433 0.687 0.757 0.885 0.993 1.000 0.888 0.712 0.557 0.442 0.691 0.752 0.874 0.984 1.000 0.896 0.725 0.570 0.449 0.688 0.740 0.858 0.970 0.994 0.900 0.734 0.581 0.453 0.678 0.724 0.839 0.952 0.982 0.897 0.739 0.589 0.457 0.664 0.706 0.817 0.930 0.965 0.890 0.742 0.596 0.461 1146 -0.188 5446 -0.781 2.17331 0.007145 0.498576 0.007642 Correlation Surface at 1246 5446 0.012 0.150 0.799 0.647 0.495 0.847 0.601 0.108 0.002 0.003 0.163 0.719 0.593 0.639 0.850 0.468 0.107 0.002 0.001 0.169 0.625 0.597 0.817 0.782 0.374 0.141 0.022 0.002 0.169 0.550 0.654 0.960 0.665 0.340 0.214 0.053 0.005 0.168 0.511 0.736 1.000 0.534 0.378 0.327 0.077 0.011 0.174 0.504 0.808 0.920 0.433 0.501 0.462 0.078 r_peak,r_snr = 0.2165603 4.790323 Correlation Surface of oversamples image at 1246 5446 2.604 1.711 1.305 1.601 2.287 2.599 1.969 0.893 2.308 1.492 1.269 1.773 2.596 2.827 1.976 0.789 1.987 1.296 1.270 1.983 2.903 2.987 1.908 0.664 1.813 1.246 1.430 2.389 3.398 3.274 1.932 0.614 1246 1.156 5446 16.844 4.79032 0.031562 0.636743 0.107152 Correlation Surface at 1346 5446 0.116 0.107 0.274 0.471 0.663 0.775 0.569 0.422 0.396 0.159 0.151 0.291 0.497 0.754 0.771 0.482 0.343 0.327 0.201 0.183 0.303 0.554 0.865 0.755 0.404 0.288 0.281 0.219 0.185 0.310 0.633 0.959 0.709 0.342 0.264 0.263 0.206 0.165 0.318 0.713 1.000 0.625 0.294 0.267 0.265 0.173 0.139 0.332 0.773 0.953 0.503 0.260 0.286 0.275 0.140 0.123 0.354 0.786 0.805 0.369 0.239 0.305 0.279 0.118 0.123 0.377 0.728 0.589 0.250 0.227 0.309 0.269 0.109 0.138 0.391 0.605 0.371 0.164 0.219 0.295 0.245 r_peak,r_snr = 0.2778529 3.639058 Correlation Surface of oversamples image at 1346 5446 0.294 0.367 0.488 0.659 0.828 0.883 0.749 0.490 0.266 0.295 0.385 0.531 0.721 0.883 0.902 0.729 0.457 0.242 0.297 0.408 0.580 0.785 0.930 0.908 0.700 0.422 0.220 0.307 0.444 0.643 0.856 0.974 0.908 0.669 0.393 0.207 0.319 0.486 0.708 0.917 1.000 0.887 0.626 0.360 0.195 0.327 0.519 0.755 0.948 0.986 0.831 0.560 0.316 0.178 0.334 0.547 0.786 0.950 0.940 0.750 0.484 0.272 0.163 0.352 0.583 0.815 0.941 0.880 0.665 0.415 0.238 0.157 0.373 0.613 0.825 0.903 0.795 0.568 0.346 0.206 0.152 1346 -1.063 5446 0.125 3.63906 0.027065 0.666988 0.108126 Correlation Surface at 1446 5446 0.646 0.708 0.754 0.868 0.942 0.654 0.752 0.784 0.899 0.965 0.675 0.793 0.803 0.909 0.979 0.711 0.833 0.813 0.903 0.991 0.757 0.868 0.814 0.886 1.000 0.800 0.895 0.804 0.866 0.999 0.833 0.911 0.782 0.848 0.982 0.848 0.911 0.752 0.834 0.951 0.845 0.893 0.719 0.822 0.913 r_peak,r_snr = 0.5362554 1.271353 Correlation Surface of oversamples image at 1446 5446 2.591 2.398 2.432 2.419 2.176 2.623 2.433 2.439 2.398 2.122 2.648 2.466 2.443 2.375 2.074 2.684 2.513 2.464 2.371 2.056 2.713 2.559 2.489 2.375 2.056 2.707 2.573 2.487 2.358 2.049 2.677 2.561 2.465 2.328 2.044 2.688 2.590 2.487 2.350 2.100 1446 6.688 5446 -6.188 1.27135 0.014285 3.815456 0.121864 Correlation Surface at 1546 5446 0.139 0.076 0.002 0.009 0.059 0.376 0.219 0.001 0.054 0.156 0.066 0.000 0.000 0.256 0.569 0.133 0.032 0.205 0.180 0.044 0.003 0.034 0.574 0.624 0.031 0.182 0.414 0.187 0.015 0.004 0.159 0.877 0.482 0.005 0.448 0.581 0.146 0.000 0.000 0.395 1.000 0.232 0.121 0.726 0.632 0.069 0.006 0.027 0.701 0.861 0.034 0.364 0.891 0.580 0.011 0.006 0.171 0.936 0.507 0.021 0.617 0.869 0.468 0.002 0.002 0.470 0.921 0.152 0.198 0.748 0.722 0.349 0.017 0.064 0.796 0.622 0.001 0.433 0.714 0.533 0.248 r_peak,r_snr = 0.1180223 5.471420 Correlation Surface of oversamples image at 1546 5446 0.004 0.015 0.002 0.136 0.495 0.845 0.897 0.551 0.129 0.011 0.013 0.016 0.242 0.655 0.919 0.806 0.378 0.035 0.021 0.007 0.051 0.376 0.799 0.929 0.659 0.210 0.000 0.026 0.001 0.119 0.541 0.924 0.892 0.497 0.086 0.033 0.023 0.004 0.223 0.712 1.000 0.798 0.330 0.015 0.122 0.019 0.021 0.338 0.833 0.974 0.623 0.164 0.004 0.272 0.012 0.054 0.448 0.882 0.851 0.409 0.043 0.071 0.479 0.000 0.136 0.615 0.953 0.751 0.263 0.003 0.168 0.631 1546 1.594 5446 10.906 5.47142 0.129208 1.433834 0.409660 Correlation Surface at 1646 5446 0.276 0.612 0.587 0.185 0.086 0.011 0.439 0.865 0.647 0.249 0.136 0.028 0.634 1.000 0.612 0.303 0.176 0.048 0.787 0.933 0.522 0.334 0.191 0.062 0.816 0.726 0.433 0.325 0.175 0.072 0.700 0.498 0.364 0.273 0.137 0.081 0.498 0.322 0.297 0.186 0.098 0.090 r_peak,r_snr = 0.1249350 6.279820 Correlation Surface of oversamples image at 1646 5446 0.024 0.160 0.343 0.558 0.777 0.792 0.566 0.293 0.085 0.020 0.163 0.377 0.639 0.875 0.836 0.552 0.271 0.080 0.014 0.158 0.403 0.710 0.947 0.841 0.508 0.235 0.071 0.008 0.154 0.435 0.778 0.996 0.815 0.451 0.199 0.064 0.003 0.151 0.463 0.826 1.000 0.751 0.381 0.162 0.057 0.000 0.140 0.471 0.824 0.931 0.634 0.292 0.117 0.043 0.001 0.130 0.465 0.778 0.808 0.494 0.205 0.077 0.029 0.001 0.139 0.479 0.736 0.694 0.388 0.152 0.058 0.025 0.001 0.155 0.485 0.669 0.568 0.293 0.111 0.044 0.022 1646 -14.500 5446 -13.188 6.27982 0.078764 0.802952 0.174541 Correlation Surface at 1846 5446 0.197 0.346 0.020 0.204 0.085 0.067 0.228 0.018 0.004 0.389 0.262 0.003 0.150 0.015 0.348 0.252 0.000 0.023 0.427 0.105 0.042 0.032 0.304 0.594 0.155 0.011 0.036 0.274 0.009 0.062 0.015 0.766 0.569 0.039 0.033 0.023 0.070 0.012 0.033 0.178 1.000 0.318 0.000 0.028 0.002 0.003 0.055 0.002 0.378 0.796 0.076 0.009 0.006 0.009 0.116 0.065 0.012 0.411 0.345 0.000 0.010 0.003 0.050 0.271 0.034 0.043 0.254 0.035 0.030 0.000 0.041 0.108 0.328 0.005 0.043 0.060 0.031 0.042 0.018 0.114 0.145 r_peak,r_snr = 7.3004544E-02 6.787013 Correlation Surface of oversamples image at 1846 5446 1.746 3.424 4.000 2.204 0.142 0.282 0.705 2.246 3.684 3.642 1.496 0.001 0.640 0.838 2.727 3.681 3.017 0.853 0.071 0.932 0.718 2.969 3.371 2.296 0.411 0.238 1.018 0.426 2.880 2.775 1.544 0.140 0.407 0.914 0.142 1846 6.875 5446 -14.813 6.78701 0.079226 0.720447 0.199020 Correlation Surface at 1946 5446 0.244 0.001 0.030 0.121 0.289 0.553 0.347 0.011 0.580 0.091 0.029 0.142 0.260 0.578 0.721 0.244 0.045 0.471 0.016 0.098 0.261 0.394 0.838 0.758 0.149 0.077 0.339 0.000 0.153 0.339 0.485 0.978 0.711 0.086 0.093 0.239 0.004 0.166 0.347 0.503 1.000 0.619 0.041 0.104 0.193 0.004 0.137 0.297 0.474 0.979 0.509 0.008 0.118 0.202 0.000 0.090 0.239 0.468 0.951 0.361 0.005 0.137 0.252 0.003 0.051 0.205 0.536 0.901 0.179 0.062 0.146 0.319 r_peak,r_snr = 7.5633749E-02 4.091592 Correlation Surface of oversamples image at 1946 5446 0.441 0.799 1.326 2.258 3.028 2.965 2.427 1.464 0.482 0.466 0.858 1.455 2.466 3.209 2.982 2.229 1.116 0.233 0.470 0.889 1.553 2.617 3.280 2.849 1.868 0.696 0.047 0.588 1.082 1.874 3.028 3.582 2.875 1.621 0.422 0.000 1946 -6.625 5446 14.844 4.09159 0.277610 49.192638 3.091258 At line = 5800 Reading in data.... Correlation Surface at 346 5846 0.000 0.080 0.074 0.086 0.421 0.424 0.129 0.015 0.008 0.006 0.060 0.044 0.117 0.641 0.550 0.174 0.028 0.009 0.006 0.039 0.042 0.207 0.856 0.617 0.172 0.026 0.019 0.002 0.031 0.070 0.367 0.988 0.609 0.120 0.011 0.041 0.001 0.044 0.137 0.555 1.000 0.529 0.052 0.000 0.068 0.006 0.088 0.239 0.693 0.935 0.420 0.009 0.012 0.088 0.039 0.171 0.330 0.727 0.863 0.316 0.001 0.052 0.089 0.138 0.266 0.361 0.675 0.827 0.225 0.018 0.107 0.076 0.304 0.323 0.322 0.584 0.814 0.147 0.051 0.156 0.057 r_peak,r_snr = 0.1403706 6.395382 Correlation Surface of oversamples image at 346 5846 0.147 0.307 0.492 0.643 0.751 0.871 0.969 0.873 0.608 0.198 0.377 0.580 0.745 0.848 0.926 0.956 0.815 0.531 0.264 0.452 0.661 0.830 0.919 0.950 0.920 0.741 0.444 0.349 0.536 0.739 0.905 0.975 0.960 0.880 0.671 0.364 0.446 0.615 0.799 0.953 1.000 0.948 0.830 0.597 0.288 0.523 0.657 0.810 0.944 0.968 0.893 0.750 0.503 0.204 0.570 0.659 0.776 0.889 0.897 0.813 0.658 0.405 0.129 0.625 0.671 0.757 0.855 0.856 0.776 0.613 0.349 0.087 346 -1.000 5846 -1.188 6.39538 0.290357 8.530808 1.514001 Correlation Surface at 446 5846 0.423 0.868 0.773 0.438 0.615 0.566 0.384 0.544 0.543 0.479 0.923 0.718 0.517 0.770 0.604 0.465 0.608 0.529 0.542 0.940 0.693 0.633 0.905 0.627 0.565 0.658 0.505 0.605 0.922 0.696 0.755 0.985 0.643 0.669 0.681 0.474 0.657 0.864 0.704 0.842 1.000 0.657 0.754 0.668 0.436 0.688 0.774 0.688 0.867 0.958 0.667 0.792 0.621 0.392 0.687 0.667 0.637 0.828 0.883 0.671 0.773 0.551 0.345 0.657 0.563 0.565 0.752 0.802 0.663 0.702 0.473 0.304 0.612 0.485 0.501 0.673 0.737 0.642 0.609 0.400 0.277 r_peak,r_snr = 0.2571822 2.255559 Correlation Surface of oversamples image at 446 5846 0.434 0.429 0.553 0.748 0.879 0.831 0.656 0.514 0.471 0.437 0.460 0.610 0.819 0.937 0.860 0.678 0.548 0.507 0.439 0.490 0.663 0.879 0.978 0.876 0.694 0.576 0.537 0.437 0.514 0.705 0.922 0.999 0.877 0.700 0.596 0.557 0.432 0.531 0.735 0.947 1.000 0.864 0.699 0.607 0.565 0.423 0.539 0.750 0.952 0.982 0.841 0.691 0.611 0.565 0.413 0.542 0.755 0.941 0.952 0.813 0.681 0.609 0.558 0.402 0.539 0.745 0.912 0.909 0.779 0.666 0.599 0.541 0.388 0.525 0.718 0.863 0.850 0.736 0.641 0.577 0.513 446 2.875 5846 -6.625 2.25556 0.022077 1.357681 0.065390 Correlation Surface at 646 5846 0.013 0.007 0.024 0.207 0.554 0.634 0.326 0.015 0.028 0.005 0.017 0.026 0.240 0.708 0.708 0.303 0.010 0.027 0.000 0.023 0.035 0.303 0.860 0.750 0.302 0.012 0.018 0.009 0.016 0.058 0.395 0.966 0.773 0.341 0.019 0.006 0.025 0.004 0.097 0.501 1.000 0.797 0.421 0.032 0.000 0.034 0.001 0.150 0.592 0.962 0.843 0.527 0.048 0.004 0.027 0.015 0.202 0.629 0.872 0.908 0.621 0.063 0.015 0.012 0.039 0.233 0.605 0.763 0.967 0.673 0.078 0.025 0.002 0.061 0.238 0.540 0.654 0.987 0.677 0.099 0.030 r_peak,r_snr = 0.2123732 8.657919 Correlation Surface of oversamples image at 646 5846 3.016 2.950 2.777 2.879 2.978 2.537 1.548 0.663 0.357 2.893 2.790 2.726 2.985 3.178 2.674 1.581 0.683 0.397 2.707 2.613 2.671 3.079 3.340 2.755 1.574 0.684 0.421 2.644 2.587 2.772 3.330 3.640 2.944 1.657 0.752 0.493 646 0.438 5846 13.813 8.65792 0.021987 1.461172 0.100944 Correlation Surface at 746 5846 0.051 0.000 0.066 0.406 0.566 0.328 0.008 0.050 0.012 0.034 0.002 0.044 0.472 0.711 0.482 0.029 0.031 0.018 0.028 0.008 0.040 0.523 0.863 0.638 0.048 0.016 0.026 0.028 0.010 0.045 0.533 0.975 0.704 0.051 0.009 0.034 0.026 0.006 0.048 0.492 1.000 0.645 0.039 0.006 0.038 0.020 0.001 0.044 0.434 0.933 0.519 0.026 0.006 0.034 0.010 0.000 0.036 0.374 0.797 0.396 0.019 0.006 0.025 r_peak,r_snr = 0.1547103 5.663517 Correlation Surface of oversamples image at 746 5846 0.133 0.343 0.577 0.748 0.809 0.728 0.486 0.180 0.021 0.122 0.325 0.584 0.799 0.890 0.811 0.549 0.214 0.034 0.111 0.309 0.588 0.836 0.951 0.883 0.605 0.246 0.050 0.099 0.291 0.581 0.849 0.987 0.935 0.645 0.270 0.066 0.087 0.272 0.563 0.839 1.000 0.962 0.664 0.284 0.081 0.078 0.253 0.535 0.812 0.993 0.965 0.659 0.288 0.093 0.071 0.232 0.496 0.770 0.968 0.944 0.632 0.283 0.104 0.064 0.209 0.450 0.719 0.929 0.899 0.588 0.272 0.111 0.056 0.183 0.400 0.660 0.868 0.824 0.526 0.255 0.114 746 0.656 5846 10.281 5.66352 0.021408 1.731191 0.044820 Correlation Surface at 846 5846 0.001 0.039 0.061 0.278 0.630 0.694 0.551 0.348 0.182 0.000 0.035 0.060 0.345 0.752 0.793 0.551 0.317 0.148 0.000 0.026 0.067 0.442 0.877 0.859 0.536 0.285 0.119 0.001 0.016 0.083 0.544 0.969 0.882 0.513 0.251 0.094 0.005 0.007 0.105 0.608 1.000 0.863 0.490 0.219 0.075 0.012 0.003 0.128 0.601 0.960 0.817 0.469 0.189 0.059 0.021 0.001 0.141 0.526 0.864 0.760 0.450 0.165 0.044 0.032 0.000 0.136 0.418 0.743 0.705 0.428 0.144 0.031 0.042 0.000 0.115 0.321 0.631 0.662 0.405 0.128 0.022 r_peak,r_snr = 0.3106426 7.840015 Correlation Surface of oversamples image at 846 5846 0.066 0.159 0.388 0.662 0.806 0.780 0.665 0.524 0.406 0.064 0.181 0.446 0.744 0.883 0.833 0.682 0.513 0.386 0.065 0.208 0.507 0.818 0.945 0.865 0.680 0.492 0.362 0.068 0.238 0.564 0.875 0.984 0.875 0.662 0.466 0.339 0.074 0.271 0.612 0.913 1.000 0.867 0.638 0.443 0.323 0.083 0.302 0.644 0.922 0.990 0.842 0.609 0.424 0.311 0.091 0.324 0.648 0.898 0.948 0.794 0.572 0.404 0.298 0.100 0.334 0.627 0.845 0.883 0.733 0.532 0.387 0.287 0.110 0.336 0.591 0.781 0.813 0.678 0.505 0.381 0.284 846 -1.094 5846 -1.250 7.84001 0.013400 0.542965 0.037606 Correlation Surface at 946 5846 0.116 0.239 0.496 0.703 0.803 0.741 0.503 0.429 0.446 0.122 0.262 0.500 0.712 0.850 0.760 0.493 0.422 0.443 0.129 0.277 0.503 0.738 0.912 0.770 0.484 0.418 0.443 0.133 0.282 0.506 0.777 0.970 0.762 0.476 0.414 0.440 0.130 0.272 0.508 0.818 1.000 0.734 0.466 0.409 0.432 0.117 0.249 0.507 0.851 0.990 0.696 0.455 0.403 0.416 0.100 0.221 0.504 0.867 0.942 0.657 0.444 0.394 0.395 0.085 0.199 0.500 0.858 0.865 0.622 0.434 0.384 0.367 0.072 0.183 0.494 0.820 0.778 0.597 0.429 0.373 0.339 r_peak,r_snr = 0.4883536 4.038072 Correlation Surface of oversamples image at 946 5846 0.409 0.561 0.693 0.809 0.899 0.875 0.710 0.526 0.420 0.417 0.576 0.718 0.847 0.935 0.888 0.701 0.514 0.412 0.427 0.595 0.748 0.887 0.967 0.895 0.691 0.504 0.407 0.438 0.615 0.779 0.923 0.990 0.892 0.677 0.496 0.404 0.449 0.635 0.809 0.954 1.000 0.878 0.660 0.487 0.401 0.458 0.654 0.836 0.976 0.998 0.856 0.641 0.480 0.400 0.468 0.673 0.862 0.991 0.987 0.831 0.626 0.478 0.403 0.475 0.690 0.882 0.994 0.963 0.802 0.612 0.477 0.407 0.477 0.698 0.888 0.978 0.924 0.765 0.595 0.474 0.409 946 -0.188 5846 -2.031 4.03807 0.007947 0.430130 0.038618 Correlation Surface at 1046 5846 0.004 0.090 0.018 0.059 0.874 0.468 0.019 0.016 0.042 0.001 0.077 0.018 0.171 1.000 0.403 0.036 0.046 0.066 0.000 0.043 0.025 0.334 0.974 0.366 0.084 0.114 0.106 0.003 0.011 0.043 0.489 0.820 0.369 0.159 0.193 0.155 0.021 0.000 0.077 0.560 0.614 0.404 0.221 0.227 0.215 0.072 0.009 0.127 0.514 0.432 0.449 0.227 0.195 0.285 r_peak,r_snr = 0.1057503 6.659332 Correlation Surface of oversamples image at 1046 5846 0.067 0.044 0.105 0.369 0.670 0.583 0.194 0.006 0.007 0.075 0.053 0.146 0.478 0.794 0.622 0.179 0.003 0.010 0.081 0.066 0.201 0.600 0.896 0.625 0.156 0.001 0.013 0.091 0.090 0.279 0.734 0.973 0.606 0.135 0.000 0.012 0.100 0.122 0.369 0.852 1.000 0.558 0.115 0.000 0.008 0.106 0.157 0.452 0.919 0.954 0.477 0.091 0.000 0.006 0.112 0.199 0.530 0.942 0.863 0.390 0.071 0.000 0.003 0.132 0.263 0.622 0.957 0.775 0.326 0.064 0.002 0.000 0.159 0.339 0.704 0.935 0.675 0.275 0.063 0.005 0.001 1046 0.813 5846 -13.750 6.65933 0.041530 2.056354 0.238461 Correlation Surface at 1146 5846 0.307 0.204 0.321 0.487 0.677 0.472 0.158 0.063 0.066 0.298 0.216 0.343 0.529 0.769 0.492 0.147 0.069 0.073 0.287 0.227 0.358 0.584 0.866 0.499 0.137 0.074 0.082 0.277 0.234 0.366 0.649 0.951 0.487 0.128 0.074 0.091 0.271 0.235 0.370 0.719 1.000 0.452 0.117 0.069 0.099 0.272 0.228 0.369 0.777 0.995 0.399 0.105 0.060 0.106 0.278 0.215 0.367 0.806 0.936 0.343 0.093 0.053 0.111 0.284 0.202 0.367 0.792 0.843 0.298 0.085 0.050 0.115 0.286 0.196 0.368 0.740 0.746 0.277 0.081 0.051 0.119 r_peak,r_snr = 0.4636892 5.687329 Correlation Surface of oversamples image at 1146 5846 0.206 0.339 0.542 0.771 0.898 0.815 0.558 0.296 0.158 0.218 0.361 0.586 0.830 0.945 0.828 0.548 0.285 0.155 0.229 0.384 0.629 0.883 0.981 0.833 0.535 0.275 0.152 0.238 0.405 0.665 0.921 0.999 0.824 0.515 0.263 0.148 0.244 0.421 0.692 0.944 1.000 0.804 0.493 0.251 0.143 0.251 0.436 0.711 0.953 0.990 0.781 0.472 0.243 0.140 0.257 0.447 0.719 0.947 0.969 0.754 0.453 0.237 0.138 0.257 0.446 0.706 0.917 0.927 0.715 0.431 0.229 0.135 0.250 0.431 0.673 0.865 0.869 0.669 0.407 0.222 0.129 1146 -0.125 5846 -1.156 5.68733 0.003623 0.292601 0.022573 Correlation Surface at 1246 5846 0.147 0.112 0.367 0.485 0.619 0.571 0.337 0.215 0.132 0.151 0.138 0.400 0.545 0.762 0.610 0.302 0.188 0.101 0.152 0.165 0.403 0.602 0.895 0.639 0.273 0.172 0.077 0.153 0.188 0.380 0.645 0.983 0.654 0.250 0.164 0.059 0.162 0.205 0.338 0.651 1.000 0.649 0.234 0.156 0.045 0.180 0.212 0.289 0.605 0.943 0.622 0.220 0.141 0.035 0.206 0.208 0.241 0.514 0.844 0.577 0.201 0.116 0.030 0.232 0.194 0.195 0.406 0.742 0.522 0.177 0.086 0.029 0.243 0.172 0.152 0.304 0.662 0.468 0.150 0.060 0.030 r_peak,r_snr = 0.2604648 6.809257 Correlation Surface of oversamples image at 1246 5846 0.503 0.552 0.626 0.755 0.864 0.854 0.722 0.559 0.396 0.492 0.551 0.654 0.810 0.920 0.891 0.740 0.563 0.391 0.471 0.542 0.675 0.852 0.960 0.915 0.750 0.563 0.384 0.444 0.529 0.689 0.882 0.986 0.929 0.755 0.562 0.377 0.414 0.513 0.696 0.900 1.000 0.936 0.760 0.562 0.372 0.382 0.493 0.693 0.901 0.999 0.935 0.761 0.561 0.367 0.348 0.466 0.674 0.880 0.980 0.923 0.757 0.555 0.358 0.314 0.436 0.642 0.843 0.947 0.904 0.749 0.546 0.347 0.286 0.407 0.606 0.802 0.915 0.890 0.747 0.540 0.338 1246 -0.938 5846 -9.219 6.80926 0.010146 0.754313 -0.002929 Correlation Surface at 1346 5846 0.003 0.005 0.012 0.190 0.477 0.543 0.337 0.201 0.217 0.001 0.002 0.023 0.263 0.638 0.684 0.372 0.184 0.165 0.001 0.000 0.045 0.379 0.818 0.774 0.353 0.133 0.093 0.003 0.002 0.090 0.531 0.959 0.764 0.280 0.070 0.037 0.007 0.011 0.166 0.679 1.000 0.655 0.180 0.023 0.009 r_peak,r_snr = 0.2470219 7.005515 Correlation Surface of oversamples image at 1346 5846 0.105 0.234 0.412 0.595 0.735 0.797 0.710 0.486 0.268 0.114 0.263 0.472 0.683 0.830 0.866 0.722 0.457 0.235 0.126 0.300 0.541 0.770 0.909 0.900 0.695 0.403 0.192 0.148 0.352 0.621 0.857 0.968 0.897 0.636 0.335 0.145 0.184 0.420 0.711 0.936 1.000 0.861 0.557 0.266 0.104 0.227 0.493 0.790 0.984 0.986 0.783 0.461 0.197 0.068 0.271 0.555 0.837 0.980 0.913 0.664 0.351 0.130 0.036 0.322 0.610 0.858 0.934 0.802 0.530 0.248 0.076 0.014 0.386 0.664 0.861 0.865 0.681 0.409 0.168 0.041 0.003 1346 7.813 5846 13.844 7.00551 0.046628 0.579242 0.141382 Correlation Surface at 1446 5846 0.642 0.586 0.633 0.678 0.804 0.820 0.841 0.867 0.839 0.611 0.590 0.666 0.736 0.880 0.884 0.893 0.900 0.836 0.592 0.607 0.707 0.797 0.948 0.934 0.926 0.915 0.822 0.583 0.635 0.748 0.851 0.993 0.958 0.931 0.900 0.792 0.584 0.665 0.779 0.888 1.000 0.948 0.901 0.851 0.751 0.592 0.688 0.794 0.897 0.962 0.902 0.840 0.778 0.711 0.603 0.698 0.791 0.874 0.885 0.826 0.759 0.702 0.678 0.613 0.689 0.769 0.820 0.783 0.735 0.674 0.641 0.658 0.616 0.665 0.731 0.746 0.677 0.648 0.600 0.606 0.653 r_peak,r_snr = 0.5141036 1.407801 Correlation Surface of oversamples image at 1446 5846 0.662 0.705 0.786 0.896 0.949 0.897 0.831 0.845 0.911 0.681 0.732 0.815 0.922 0.970 0.909 0.839 0.857 0.920 0.700 0.760 0.844 0.946 0.988 0.918 0.846 0.867 0.924 0.720 0.787 0.871 0.966 0.998 0.920 0.848 0.872 0.922 0.740 0.813 0.893 0.978 1.000 0.915 0.844 0.870 0.910 0.760 0.837 0.910 0.984 0.994 0.903 0.836 0.861 0.892 0.780 0.858 0.923 0.983 0.981 0.887 0.824 0.847 0.867 0.797 0.874 0.928 0.973 0.960 0.866 0.808 0.828 0.837 0.809 0.881 0.923 0.953 0.929 0.837 0.784 0.799 0.799 1446 -9.625 5846 -6.781 1.40780 0.031608 0.287738 0.056349 Correlation Surface at 1646 5846 0.293 0.859 1.975 1.372 0.026 0.281 0.302 0.032 0.010 0.241 0.989 1.923 0.787 0.051 0.586 0.396 0.102 0.063 0.222 1.095 1.498 0.226 0.373 0.836 0.439 0.201 0.095 0.228 1.068 0.843 0.000 0.803 0.865 0.431 0.299 0.062 0.244 0.855 0.264 0.166 1.000 0.677 0.404 0.341 0.005 0.243 0.505 0.008 0.458 0.808 0.426 0.384 0.273 0.040 0.203 0.171 0.070 0.549 0.416 0.236 0.348 0.112 0.285 0.127 0.008 0.224 0.354 0.110 0.129 0.260 0.001 0.763 0.046 0.035 0.247 0.090 0.003 0.074 0.122 0.126 1.369 r_peak,r_snr = 7.2988115E-02 1.902065 Correlation Surface of oversamples image at 1646 5846 0.615 0.152 0.008 0.245 0.616 0.860 0.825 0.565 0.286 0.416 0.040 0.083 0.434 0.796 0.964 0.860 0.579 0.308 0.235 0.000 0.220 0.623 0.921 0.997 0.842 0.564 0.313 0.091 0.038 0.401 0.789 0.985 0.973 0.791 0.535 0.310 0.010 0.154 0.603 0.917 1.000 0.919 0.731 0.507 0.309 0.011 0.322 0.778 0.974 0.951 0.830 0.656 0.470 0.298 0.081 0.490 0.872 0.930 0.828 0.697 0.555 0.412 0.265 0.196 0.629 0.884 0.817 0.674 0.558 0.457 0.356 0.228 0.344 0.740 0.851 0.695 0.545 0.457 0.394 0.324 0.204 1646 10.156 5846 5.625 1.90207 0.211014 1.335388 0.480062 Correlation Surface at 1846 5846 0.136 0.047 0.144 0.021 0.314 0.870 0.432 0.017 0.077 0.101 0.041 0.111 0.003 0.588 0.950 0.317 0.000 0.125 0.054 0.031 0.063 0.074 0.832 0.898 0.185 0.008 0.178 0.020 0.019 0.015 0.234 0.980 0.740 0.082 0.033 0.254 0.006 0.008 0.003 0.431 1.000 0.535 0.021 0.078 0.365 0.001 0.001 0.061 0.594 0.909 0.348 0.000 0.149 0.503 0.000 0.003 0.181 0.663 0.754 0.205 0.009 0.250 0.639 0.000 0.020 0.306 0.617 0.578 0.103 0.046 0.369 0.712 0.001 0.052 0.380 0.495 0.414 0.032 0.111 0.483 0.690 r_peak,r_snr = 0.1264386 7.403099 Correlation Surface of oversamples image at 1846 5846 0.170 0.064 0.019 0.334 0.740 0.883 0.660 0.262 0.019 0.123 0.019 0.078 0.489 0.860 0.893 0.573 0.171 0.001 0.078 0.000 0.173 0.642 0.943 0.860 0.470 0.096 0.004 0.035 0.014 0.300 0.786 0.993 0.801 0.369 0.045 0.020 0.007 0.066 0.443 0.903 1.000 0.717 0.274 0.014 0.045 0.001 0.144 0.574 0.966 0.951 0.605 0.185 0.001 0.078 0.016 0.237 0.679 0.979 0.865 0.488 0.113 0.004 0.115 0.058 0.351 0.778 0.980 0.785 0.396 0.067 0.019 0.145 0.127 0.471 0.852 0.954 0.700 0.315 0.036 0.039 0.171 1846 3.781 5846 8.250 7.40310 0.564425 9.776560 2.306472 Correlation Surface at 1946 5846 0.072 0.024 0.001 0.087 0.375 0.384 0.126 0.063 0.012 0.067 0.014 0.017 0.246 0.581 0.478 0.177 0.098 0.023 0.054 0.001 0.097 0.465 0.777 0.566 0.244 0.136 0.033 0.034 0.007 0.248 0.684 0.922 0.634 0.310 0.156 0.034 0.013 0.056 0.436 0.848 1.000 0.672 0.348 0.140 0.022 0.000 0.154 0.596 0.918 0.999 0.661 0.334 0.089 0.005 0.010 0.275 0.669 0.881 0.925 0.593 0.267 0.032 0.000 0.052 0.366 0.632 0.750 0.791 0.480 0.170 0.001 0.008 0.120 0.373 0.498 0.571 0.623 0.343 0.076 0.009 0.012 r_peak,r_snr = 0.1333928 8.375621 Correlation Surface of oversamples image at 1946 5846 0.161 0.383 0.554 0.735 0.878 0.786 0.532 0.308 0.179 0.241 0.487 0.647 0.816 0.949 0.832 0.553 0.323 0.194 0.326 0.581 0.718 0.867 0.986 0.848 0.553 0.324 0.198 0.410 0.655 0.762 0.890 0.994 0.841 0.542 0.319 0.195 0.497 0.721 0.796 0.905 1.000 0.841 0.542 0.322 0.198 0.572 0.765 0.809 0.904 0.993 0.835 0.541 0.324 0.196 0.597 0.752 0.772 0.857 0.944 0.795 0.512 0.300 0.173 0.572 0.690 0.698 0.780 0.871 0.736 0.468 0.262 0.138 0.565 0.657 0.663 0.754 0.856 0.733 0.467 0.255 0.125 1946 2.469 5846 4.750 8.37562 0.148537 3.872481 0.485315 Correlation Surface at 2046 5846 0.001 0.020 0.002 0.010 0.297 0.404 0.000 0.001 0.007 0.127 0.643 0.560 0.005 0.027 0.000 0.406 0.926 0.619 0.022 0.054 0.023 0.732 1.000 0.572 0.043 0.046 0.115 0.931 0.866 0.454 0.055 0.016 0.243 0.903 0.628 0.314 0.051 0.000 0.322 0.693 0.402 0.188 0.039 0.004 0.294 0.433 0.254 0.100 r_peak,r_snr = 0.1087833 9.048774 Correlation Surface of oversamples image at 2046 5846 0.000 0.060 0.241 0.514 0.756 0.795 0.579 0.270 0.087 0.011 0.145 0.386 0.681 0.887 0.857 0.592 0.264 0.073 0.052 0.251 0.527 0.812 0.965 0.873 0.577 0.239 0.049 0.116 0.360 0.641 0.893 0.993 0.853 0.540 0.202 0.024 0.197 0.464 0.727 0.943 1.000 0.828 0.505 0.168 0.008 0.277 0.540 0.772 0.951 0.977 0.788 0.460 0.130 0.000 0.320 0.553 0.741 0.885 0.889 0.697 0.380 0.079 0.007 0.320 0.513 0.658 0.772 0.763 0.580 0.288 0.035 0.035 0.332 0.496 0.614 0.714 0.699 0.521 0.240 0.017 0.061 2046 12.844 5846 -10.281 9.04877 0.238677 1.602569 0.533885 << Amplitude Cross Correlation >> At line = 3000 Reading in data.... r_peak,r_snr = 0.2911529 5.069294 1346 -6.313 3046 11.844 5.06929 0.058646 0.756871 0.183190 r_peak,r_snr = 0.5637941 1.331902 1446 3.281 3046 15.813 1.33190 0.023895 0.549096 0.072599 r_peak,r_snr = 0.1532107 5.793530 1546 -6.000 3046 -4.281 5.79353 0.459576 3.191779 1.132872 r_peak,r_snr = 0.1320913 4.083396 1646 11.156 3046 -13.531 4.08340 1.045395 13.251785 3.629110 r_peak,r_snr = 0.1223614 7.067233 1746 -1.938 3046 18.344 7.06723 0.085416 1.157797 0.284012 r_peak,r_snr = 0.1440281 4.639949 1846 -8.313 3046 -6.250 4.63995 0.560862 2.879613 1.233412 r_peak,r_snr = 0.1631725 4.799541 1946 9.031 3046 -0.813 4.79954 0.046247 0.200553 0.088699 r_peak,r_snr = 0.2677096 4.820115 2046 0.969 3046 -4.188 4.82012 0.106249 0.602123 0.243204 At line = 3400 Reading in data.... r_peak,r_snr = 0.2687791 8.901113 1246 -0.281 3446 0.000 8.90111 0.024132 1.460338 0.161999 r_peak,r_snr = 0.5460733 1.411931 1446 0.875 3446 -10.781 1.41193 0.023854 0.943734 0.096155 r_peak,r_snr = 0.2109227 4.740709 1646 6.375 3446 6.094 4.74071 0.265526 1.347500 0.571636 r_peak,r_snr = 6.7368805E-02 3.645216 1746 8.531 3446 -4.625 3.64522 0.119491 3.193808 0.568046 r_peak,r_snr = 0.2185183 4.671536 1946 -10.563 3446 -17.781 4.67154 0.511647 3.942100 1.346210 r_peak,r_snr = 0.2628445 4.630636 2046 2.063 3446 6.344 4.63064 0.063991 0.401769 0.153466 At line = 3800 Reading in data.... r_peak,r_snr = 0.3235980 5.934528 1046 0.906 3846 4.844 5.93453 0.005215 0.460933 0.028169 r_peak,r_snr = 0.4500259 1.987100 1146 0.125 3846 -0.281 1.98710 0.024331 1.433880 0.154183 r_peak,r_snr = 0.2691501 8.261902 1246 0.125 3846 1.063 8.26190 0.012980 0.956957 0.098898 r_peak,r_snr = 0.3746468 1.965342 1346 -0.688 3846 3.781 1.96534 0.048724 0.828914 -0.044686 r_peak,r_snr = 9.4771460E-02 4.830117 1546 -11.844 3846 -2.219 4.83012 0.137098 7.395432 0.763761 r_peak,r_snr = 0.1594220 4.174995 1646 -12.594 3846 7.125 4.17499 1.272948 9.176326 3.368165 r_peak,r_snr = 9.5043749E-02 7.537993 1746 0.719 3846 4.969 7.53799 0.215411 1.658573 0.570404 r_peak,r_snr = 0.1358684 3.323992 1846 4.563 3846 -10.563 3.32399 0.195301 0.737984 0.368973 r_peak,r_snr = 0.2099334 3.825189 1946 -9.469 3846 -8.813 3.82519 0.745890 8.401178 2.407871 At line = 4200 Reading in data.... r_peak,r_snr = 0.2051002 10.54586 946 -0.188 4246 -1.656 10.54586 0.007803 1.769542 0.006103 r_peak,r_snr = 0.3965802 5.954441 1046 -0.094 4246 2.063 5.95444 0.019127 4.193662 0.256614 r_peak,r_snr = 0.5613468 1.505861 1146 -0.188 4246 12.125 1.50586 0.006840 0.399607 0.001249 r_peak,r_snr = 0.1586189 8.160406 1246 0.344 4246 6.313 8.16041 0.024284 1.575983 -0.006138 r_peak,r_snr = 0.4040252 4.807119 1346 0.188 4246 -1.000 4.80712 0.020407 0.350591 0.047584 r_peak,r_snr = 9.0011135E-02 6.378948 1546 -11.000 4246 13.813 6.37895 0.108067 0.919743 0.276329 r_peak,r_snr = 7.2954752E-02 4.254557 1646 -5.063 4246 7.188 4.25456 0.232865 9.670788 -0.281097 r_peak,r_snr = 0.1788354 5.602761 1746 -10.844 4246 3.813 5.60276 0.137256 0.859592 0.310887 r_peak,r_snr = 0.1789260 5.110954 1846 2.344 4246 1.188 5.11095 0.645518 3.354210 1.438251 r_peak,r_snr = 0.1855331 4.930887 1946 -12.875 4246 -6.656 4.93089 0.122689 0.729031 0.281658 At line = 4600 Reading in data.... r_peak,r_snr = 0.1503228 10.32139 746 0.406 4646 -3.188 10.32139 0.022354 1.231736 0.112698 r_peak,r_snr = 9.5636077E-02 7.954596 846 6.000 4646 9.875 7.95460 0.022929 0.727355 0.056218 r_peak,r_snr = 0.2748690 10.67936 946 0.219 4646 -0.813 10.67936 0.006884 0.969658 0.066506 r_peak,r_snr = 0.1758599 5.074167 1046 -0.875 4646 5.813 5.07417 0.038491 3.397602 -0.198396 r_peak,r_snr = 0.5441487 2.617404 1146 0.063 4646 0.219 2.61740 0.004023 0.886134 0.038807 r_peak,r_snr = 0.2392238 8.927115 1246 0.313 4646 -1.063 8.92712 0.015803 0.642639 0.072435 r_peak,r_snr = 0.2915885 3.131842 1346 -3.625 4646 14.219 3.13184 0.455706 6.319327 1.207978 r_peak,r_snr = 0.5364432 1.331100 1446 -14.750 4646 6.813 1.33110 0.049359 3.146674 0.302350 r_peak,r_snr = 0.1554199 5.665633 1546 -2.469 4646 -12.188 5.66563 0.068961 1.158669 0.261427 r_peak,r_snr = 0.1009392 3.705421 1646 3.813 4646 -9.781 3.70542 1.058849 4.854850 2.091719 r_peak,r_snr = 8.7410010E-02 4.658228 1746 10.906 4646 -3.156 4.65823 0.201927 1.341846 0.464443 r_peak,r_snr = 0.3331784 4.741179 2046 -2.250 4646 4.469 4.74118 0.190503 1.102189 0.446229 At line = 5000 Reading in data.... r_peak,r_snr = 0.1784811 9.966031 646 0.656 5046 2.813 9.96603 0.006684 1.440151 -0.018339 r_peak,r_snr = 0.1981783 8.547349 746 0.000 5046 -4.781 8.54735 0.039661 7.279152 0.471325 r_peak,r_snr = 0.1831475 7.446892 846 2.656 5046 5.219 7.44689 0.048596 1.250822 0.189830 r_peak,r_snr = 0.1523806 7.870196 946 -4.000 5046 13.813 7.87020 0.017434 2.341482 0.161498 r_peak,r_snr = 0.1902410 12.21437 1046 -0.844 5046 3.125 12.21437 0.010874 0.582816 0.057479 r_peak,r_snr = 0.5477226 2.414848 1146 0.656 5046 -5.219 2.41485 0.007207 0.871730 -0.026064 r_peak,r_snr = 0.1568968 5.303853 1246 -4.719 5046 6.719 5.30385 0.043580 2.234411 0.258976 r_peak,r_snr = 0.4775550 2.028069 1346 -1.000 5046 -14.031 2.02807 0.015333 0.249048 0.020705 r_peak,r_snr = 0.5810305 1.532771 1446 14.781 5046 -1.219 1.53277 0.004941 0.222351 0.006772 r_peak,r_snr = 0.1285728 9.467246 1546 -5.406 5046 7.219 9.46725 0.288267 2.410944 0.807810 r_peak,r_snr = 7.9084322E-02 3.470746 1746 15.688 5046 -0.438 3.47075 0.129595 0.855469 0.311595 r_peak,r_snr = 0.2151107 4.163290 1946 -5.969 5046 -3.531 4.16329 0.102419 0.615493 0.229292 r_peak,r_snr = 0.1984145 4.190400 2046 -6.094 5046 6.000 4.19040 0.120238 0.781398 0.296053 At line = 5400 Reading in data.... r_peak,r_snr = 0.2666250 8.590877 446 0.000 5446 0.656 8.59088 0.005667 0.370223 -0.011595 r_peak,r_snr = 0.2856412 17.09126 546 0.031 5446 -0.313 17.09126 0.002700 0.327246 0.011987 r_peak,r_snr = 0.2233525 10.41384 646 -0.188 5446 1.219 10.41384 0.007574 2.003464 0.064385 r_peak,r_snr = 0.1326585 6.879799 746 -0.563 5446 6.813 6.87980 21.666746 923.937378 141.457108 r_peak,r_snr = 0.1392021 11.89662 846 -0.156 5446 1.125 11.89662 0.008774 0.626269 0.042076 r_peak,r_snr = 0.3649445 3.630943 946 -0.469 5446 1.688 3.63094 0.013625 0.566604 0.075174 r_peak,r_snr = 0.5613645 1.943371 1146 0.375 5446 2.813 1.94337 0.012669 0.830834 0.082668 r_peak,r_snr = 0.2613129 6.498355 1246 -0.469 5446 0.781 6.49836 0.007277 0.404718 0.033517 r_peak,r_snr = 0.5948867 1.278520 1446 12.219 5446 -6.750 1.27852 0.054137 1.977799 0.226294 r_peak,r_snr = 0.1934465 2.884991 1746 -7.344 5446 -6.156 2.88499 0.169271 2.049580 0.486627 At line = 5800 Reading in data.... r_peak,r_snr = 0.3370323 17.02722 346 -0.188 5846 0.844 17.02722 0.002866 0.175105 0.004819 r_peak,r_snr = 0.3715120 7.047898 446 0.031 5846 0.906 7.04790 0.002373 0.165743 0.005214 r_peak,r_snr = 0.3710190 23.22262 546 0.188 5846 0.750 23.22262 0.001722 0.079725 0.004162 r_peak,r_snr = 0.2068329 13.27266 646 -0.344 5846 -0.781 13.27266 0.021922 1.325998 0.142939 r_peak,r_snr = 0.1679917 6.922199 746 1.063 5846 -4.813 6.92220 0.018344 1.242209 0.042772 r_peak,r_snr = 0.2713899 6.955846 846 -0.313 5846 -1.250 6.95585 0.004325 1.077469 -0.007606 r_peak,r_snr = 0.4508286 5.085567 946 0.281 5846 -1.156 5.08557 0.003512 0.282582 0.004617 r_peak,r_snr = 0.1377247 8.922830 1046 -9.906 5846 -14.750 8.92283 0.008635 3.625657 -0.050239 r_peak,r_snr = 0.4447268 5.786896 1146 -0.594 5846 0.750 5.78690 0.002738 0.200821 0.007133 r_peak,r_snr = 0.2162956 6.131512 1246 0.531 5846 -9.750 6.13151 0.045724 2.117310 0.210754 r_peak,r_snr = 0.5546112 1.365795 1446 2.188 5846 -10.219 1.36579 0.302070 8.966574 1.603779 r_peak,r_snr = 0.1574819 6.037600 1546 10.688 5846 1.250 6.03760 0.264951 2.773104 0.800768 r_peak,r_snr = 3.9956808E-02 0.3221656 1646 2.063 5846 1.156 0.32217 1.540358 18.167707 5.110843 r_peak,r_snr = 9.0381950E-02 4.991856 1746 11.813 5846 -6.063 4.99186 0.200064 1.115067 0.446024 r_peak,r_snr = 0.1694986 5.474833 1846 11.375 5846 -1.250 5.47483 0.196563 1.345858 0.496219 r_peak,r_snr = 0.2312625 5.139616 1946 13.844 5846 12.094 5.13962 0.292282 2.426169 0.823128 /u/sarairways0/airops/processor/data/ ************************************************* ***** 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. 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/sarairways0/airops/processor/data/recal0.dat 20.00000 attenuation: 12.00000 12.00000 12.00000 12.00000 +base diff: 0.7900000 0.0000000E+00 0.7900000 0.0000000E+00 abs gain: 130.4820 129.7080 130.4820 129.7080 caltone: 87.30000 90.40000 87.40000 90.60000 cable phase P/L/C: -142.8300 42.20000 -173.2200 sigma zero: 0.0000000E+00 0.0000000E+00 0.0000000E+00 0.0000000E+00 hddt bw ha T : 98023 20.00000 8391.100 10.00000 $tphase,phasedat: 35.50000 24.50000 $rphase,phasevh,phasehv: 11.00000 -14.90000 -25.90000 $tphase,phasedat: 35.50000 24.50000 POLSAR H-ANT:/u/sarairways0/airops/processor/data/AIRSAR.PH POLSAR V-ANT:/u/sarairways0/airops/processor/data/AIRSAR.PV Enter the name of the motion compensation file. motion lun: 15 How many lines of raw data? Cross pol phase difference is: 24.50 deg Receiver phase difference is 11.00 deg Transmitter phase difference is 35.50 deg Cable phase difference is -142.83 deg $ghv,phasedat,phi: (0.9099613,0.4146932) 24.50000 24.50000 $phico aphase: -239.1600 -142.8300 $fhh,fhv,fvh: (-0.5126424,-0.8586022) (-0.2978748,0.9546050) (-0.6669227,0.7451269) Reading data to estimate cross-talk. 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,ip): (-2.3641117E-02,2.8595536E-03) (1.1771807E-02,2.9724209E-02) Finished estimating cross-talk. Enter the file with the lines per pixel. lines lun: 18 Is there a DEM available? Now doing the actual calibration. Absolute gain AChu(linear) :. 8.1357847E-08 8.2148460E-08 8.1208356E-08 ahh hv vv chh hv vh vv: -228.9920 -232.1080 -229.0920 -232.3080 87.20000 90.40000 87.40000 90.50000 1 257 513 769 1025 1281 1537 1793 2049 2305 ********************************************* ***** ***** ***** 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) Finished writing headers. 256 512 768 1024 1280 1536 1792 2048 2304 *** 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. 100 200 300 400 500 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 2100 2200 2300 2400 Wed Apr 7 01:19:47 PDT 1999