Processing Job Log for Sequence 27009000, version 002

This is the complete and detailed record of how this sequence was processed.

The following information is also available:



Processing started ( 20:11:07 )


Verifying telemetry, attitude and orbit files ( 20:11:10 )

-> Checking if column TIME in ft990317_0605.2000 is in order
-> Standard Output From FTOOL cktime:
 
Time column is TIME ORDERED
-> Determining observation start and end
-> Fetching leapsec.fits
-> Standard Output From FTOOL sec2time:
 Offset of   195804316.337000     from 1993-01-01   00:00:00
 is date and time (including leapseconds) = 1999-03-17   06:05:12.33700
 Modified Julian Day    =   51254.253615011577494
-> leapsec.fits already present in current directory
-> Standard Output From FTOOL sec2time:
 Offset of   195854444.182800     from 1993-01-01   00:00:00
 is date and time (including leapseconds) = 1999-03-17   20:00:40.18279
 Modified Julian Day    =   51254.833798412037140
-> Observation begins 195804316.3370 1999-03-17 06:05:12
-> Observation ends 195854444.1828 1999-03-17 20:00:40
-> Fetching the latest orbit file
-> Fetching frf.orbit.240v2

Determine nominal aspect point for the observation ( 20:12:22 )

-> Running attitude FTOOL on merged attitude file
-> Standard Output From FTOOL attitude:
ATTITUDE_V0.9j
 
   reading attitude file:./merged.tmp
   open asc  output file:out.tmp
 
 AVERAGE ASPECT AND OFFSET FOR THIS ATTITUDE FILE:
 
 Attitude file start and stop ascatime : 195804319.336900 195854447.182900
 Data     file start and stop ascatime : 195804319.336900 195854447.182900
 Aspecting run start and stop ascatime : 195804319.336993 195854447.182819
 
 Time interval averaged over (seconds) :     50127.845827
 Total pointing and manuver time (sec) :     32106.984375     18020.984375
 
 Mean boresight Euler angles :    262.908543     121.149784     356.839927
 
                                    RA             DEC         SUN ANGLE
 
 Mean solar position   (deg) :    355.87          -1.79
 Mean aberration    (arcsec) :      0.84           2.77
 
 Mean sat X-axis       (deg) :     89.000732     -58.706371      90.10
 Mean sat Y-axis       (deg) :    354.544383      -2.704080       1.61
 Mean sat Z-axis       (deg) :    262.908543     -31.149785      91.61
 
                      RA            DEC            ROLL          OFFSET
                    (deg)          (deg)          (deg)         (arcmin)
 
 Average           263.210144     -31.031063     266.995605       0.129131
 Minimum           263.167419     -31.183161     266.917358       0.000000
 Maximum           263.215607     -31.027184     267.068939       9.385928
 Sigma (RMS)         0.000396       0.000247       0.002986       0.140475
 
 Number of ASPECT records processed =      61006
 
 Aspecting to RA/DEC                   :     263.21014404     -31.03106308
    closing output   file...
    closing attitude file...
-> Standard Output From STOOL checkatt:
  
 Opening file: ./out.tmp                                                       
  
  ***************** Observation Info ******************
  
  RA (J2000 deg):  263.210 DEC:  -31.031
  
  START TIME: SC 195804319.3370 = UT 1999-03-17 06:05:19    
  
  ****** Definition of Attitude SENSOR Bit Flags ******
  
 Sensors used in the attitude determination and attitude control mode  
                                 1: USED,   0: NOT USED                
  
 B0:STT-A, B1:STT-B, B2:NSAS,  B3:GAS,    B4:SSAS-SA, B5:SSAS-SB,      
 B6:IRU-X, B7:IRU-Y, B8:IRU-Z, B9:IRU-S1, B10:IRU-S2,                  
 B11: Attitude control mode    1: coarse, 0: fine                      
 B12: Sun presence             1: day,    0: night                     
 B13: STT-A earth occultation  1: earth occultation, 0: no occultation 
 B14: STT-B earth occultation  1: earth occultation, 0: no occultation 
 B16,17,18: STT-A track stars no.1,2,3,     1: USED, 0: NOT USED       
 B19,20,21: STT-B track stars no.1,2,3,     1: USED, 0: NOT USED       
 B22,23: always 0                                                      
  
  ******** Attitude File Reconstruction Summary *******
  
                                    S S N G S S I I I I I A S S S S S
                                    T T S A S S R R R R R C U T T T T
                                    T T A S A A U U U U U M N T T T T
                                    - - S . A A - - - - - . . - - - -
                                    A B . . - - X Y Z S S . . A B A B
                                    . . . . S S . . . 1 2 . . O O S S
     offset_time separation sensor  . . . . A B . . . . . . . C C T T
        (sec)     (arcmin)          . . . . . . . . . . . . . C C R R
  
                             BIT:   0 1 2 3 4 5 6 7 8 9 A B C D E
  
       4.000111      2.031   8803   1 1 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0
     315.999115      1.008   8803   1 1 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0
    1583.995361      0.393   8203   1 1 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0
    5127.984375      0.546 1C8C43   1 1 0 0 0 0 1 0 0 0 1 1 0 0 0 4 3
    7325.977539      0.075   8203   1 1 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0
   10855.966797      0.183 188C43   1 1 0 0 0 0 1 0 0 0 1 1 0 0 0 0 3
   13504.958984      0.141   8203   1 1 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0
   16567.949219      0.194   8C03   1 1 0 0 0 0 0 0 0 0 1 1 0 0 0 0 0
   19261.941406      0.107   8603   1 1 0 0 0 0 0 0 0 1 1 0 0 0 0 0 0
   22311.931641      0.125   8803   1 1 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0
   24463.925781      0.097   8203   1 1 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0
   28007.914062      0.130 188C43   1 1 0 0 0 0 1 0 0 0 1 1 0 0 0 0 3
   30181.908203      0.109   8203   1 1 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0
   33727.894531      0.153   8C03   1 1 0 0 0 0 0 0 0 0 1 1 0 0 0 0 0
   35901.890625      0.081   8203   1 1 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0
   39447.878906      0.126   8C03   1 1 0 0 0 0 0 0 0 0 1 1 0 0 0 0 0
   41621.871094      0.047   8203   1 1 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0
   45167.859375      0.071   8C03   1 1 0 0 0 0 0 0 0 0 1 1 0 0 0 0 0
   47341.855469      0.022   8203   1 1 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0
   50123.847656      4.987   9603   1 1 0 0 0 0 0 0 0 1 1 0 1 0 0 0 0
   50127.847656      9.386   9603   1 1 0 0 0 0 0 0 0 1 1 0 1 0 0 0 0
  
  Attitude  Records:   61006
  Attitude    Steps:   21
  
  Maneuver ACM time:     18021.0 sec
  Pointed  ACM time:     32107.0 sec
  
-> Calculating aspect point
-> Output from aspect:
92 116 count=1 sum1=262.865 sum2=121.302 sum3=356.761
94 109 count=1 sum1=262.889 sum2=121.231 sum3=356.788
95 101 count=6324 sum1=1.66258e+06 sum2=766134 sum3=2.25664e+06
96 100 count=12 sum1=3154.93 sum2=1453.71 sum3=4282.26
96 101 count=54512 sum1=1.43317e+07 sum2=6.60414e+06 sum3=1.94521e+07
97 100 count=23 sum1=6047.09 sum2=2786.24 sum3=8207.91
97 101 count=53 sum1=13934.4 sum2=6420.94 sum3=18912.6
98 100 count=17 sum1=4469.77 sum2=2059.33 sum3=6067.05
99 99 count=19 sum1=4995.86 sum2=2301.53 sum3=6781.29
99 100 count=41 sum1=10780.5 sum2=4966.5 sum3=14633.2
100 99 count=1 sum1=262.944 sum2=121.133 sum3=356.913
100 100 count=2 sum1=525.886 sum2=242.268 sum3=713.824
0 out of 61006 points outside bin structure
-> Euler angles: 262.909, 121.15, 356.84
-> RA=263.211 Dec=-31.0313 Roll=-93.0042
-> Galactic coordinates Lii=356.752890 Bii=1.224319
-> Running fixatt on fa990317_0605.2000
-> Standard Output From STOOL fixatt:
Interpolating 8 records in time interval 195854435.183 - 195854443.183
Interpolating 6 records in time interval 195854443.183 - 195854447.183

Running frfread on telemetry files ( 20:13:22 )

-> Running frfread on ft990317_0605.2000
-> 1% of superframes in ft990317_0605.2000 corrupted
-> Standard Output From FTOOL frfread4:
SIS1 peak error time=195804920.21015 x=141 y=189 ph0=46 ph3=64 ph8=61
597.998 second gap between superframes 43 and 44
Dropped 1st C2 read after clocking change in ft990317_0605_2000S000201H.fits
Dropped 1st C3 read after clocking change in ft990317_0605_2000S100301H.fits
Dropped 1st C3 read after clocking change in ft990317_0605_2000S000201H.fits
Dropped 1st C0 read after clocking change in ft990317_0605_2000S100301H.fits
Dropped 1st C0 read after clocking change in ft990317_0605_2000S000201H.fits
Dropped 1st C1 read after clocking change in ft990317_0605_2000S100301H.fits
Dropped 1st C1 read after clocking change in ft990317_0605_2000S000201H.fits
Dropped 1st C2 read after clocking change in ft990317_0605_2000S100301H.fits
Dropping SF 169 with corrupted frame indicator
Dropping SF 190 with invalid bit rate 0
Dropping SF 197 with synch code word 2 = 0 not 32
Dropping SF 205 with synch code word 0 = 248 not 250
SIS1 peak error time=195805980.20689 x=56 y=241 ph0=39 ph3=128 ph8=53
Dropping SF 312 with synch code word 0 = 248 not 250
SIS1 peak error time=195806144.20639 x=378 y=323 ph0=27 ph7=31 ph8=46
Dropping SF 325 with corrupted frame indicator
Dropping SF 375 with synch code word 2 = 0 not 32
Dropping SF 379 with corrupted frame indicator
Dropping SF 409 with corrupted frame indicator
Dropping SF 454 with synch code word 2 = 0 not 32
1.99999 second gap between superframes 554 and 555
SIS1 peak error time=195806628.2049 x=112 y=268 ph0=31 ph4=51 ph5=46 ph7=37
SIS0 peak error time=195806636.20488 x=308 y=124 ph0=31 ph2=33 ph6=52 ph7=40
Dropping SF 587 with synch code word 0 = 248 not 250
Dropping SF 610 with corrupted frame indicator
Dropping SF 612 with synch code word 0 = 248 not 250
Dropping SF 619 with synch code word 0 = 248 not 250
SIS1 coordinate error time=195806752.20452 x=2 y=282 pha[0]=216 chip=1
Dropping SF 640 with synch code word 2 = 0 not 32
Dropping SF 643 with corrupted frame indicator
Dropping SF 770 with synch code word 2 = 0 not 32
Dropping SF 777 with synch code word 2 = 0 not 32
SIS1 coordinate error time=195807116.20339 x=3 y=221 pha[0]=1406 chip=0
Dropping SF 827 with synch code word 0 = 248 not 250
SIS1 coordinate error time=195807164.20324 x=5 y=86 pha[0]=290 chip=0
Dropping SF 832 with inconsistent datamode 0/31
Dropping SF 869 with inconsistent datamode 0/31
Dropping SF 876 with corrupted frame indicator
Dropping SF 883 with corrupted frame indicator
Dropping SF 1095 with inconsistent SIS ID
Dropping SF 1097 with synch code word 2 = 0 not 32
SIS1 peak error time=195807764.20138 x=115 y=9 ph0=60 ph6=83
Dropping SF 1165 with corrupted frame indicator
SIS1 peak error time=195807892.20098 x=209 y=257 ph0=34 ph4=140 ph8=47
Dropping SF 1238 with synch code word 2 = 0 not 32
Dropping SF 1276 with inconsistent datamode 0/31
Dropping SF 1282 with synch code word 2 = 0 not 32
Dropping SF 1367 with synch code word 2 = 0 not 32
Dropping SF 1369 with corrupted frame indicator
Dropping SF 1389 with inconsistent SIS ID
SIS1 peak error time=195808320.19965 x=61 y=151 ph0=15 ph4=24 ph6=79 ph7=58 ph8=30
Dropping SF 1408 with inconsistent datamode 0/31
SIS1 coordinate error time=195808328.19962 x=378 y=0 pha[0]=362 chip=3
SIS1 peak error time=195808332.19961 x=388 y=380 ph0=137 ph1=391 ph2=1030 ph3=360 ph4=456 ph5=425 ph6=417 ph7=982 ph8=295
Dropping SF 1414 with corrupted frame indicator
Dropping SF 1415 with inconsistent SIS ID
SIS1 coordinate error time=195808452.19924 x=3 y=330 pha[0]=202 chip=2
SIS1 peak error time=195808548.19894 x=420 y=190 ph0=41 ph4=73 ph5=113 ph6=45 ph7=78
Dropping SF 1527 with synch code word 2 = 0 not 32
SIS0 peak error time=195808584.19884 x=277 y=364 ph0=19 ph1=185 ph2=263 ph3=166 ph4=233 ph5=199 ph6=208 ph7=236 ph8=175
SIS1 coordinate error time=195808596.19879 x=4 y=95 pha[0]=236 chip=2
Dropping SF 1568 with synch code word 2 = 0 not 32
SIS1 coordinate error time=195808760.19832 x=2 y=359 pha[0]=816 chip=3
Dropping SF 1640 with synch code word 0 = 248 not 250
SIS1 peak error time=195810044.19441 x=305 y=52 ph0=2 ph1=17 ph4=93
Dropping SF 1658 with corrupted frame indicator
SIS0 peak error time=195810472.19308 x=289 y=129 ph0=31 ph1=206 ph2=235 ph3=220 ph4=189 ph5=186 ph6=159 ph7=128 ph8=56
Dropping SF 1702 with corrupted frame indicator
SIS1 peak error time=195810524.19291 x=223 y=348 ph0=28 ph1=137 ph4=112 ph5=120 ph6=41
Dropping SF 1751 with corrupted frame indicator
Dropping SF 1777 with synch code word 2 = 0 not 32
SIS1 peak error time=195810672.19246 x=37 y=259 ph0=3101 ph7=3945
SIS1 peak error time=195810676.19245 x=280 y=351 ph0=203 ph1=667 ph2=582 ph3=207 ph4=663 ph5=345 ph6=378 ph7=498 ph8=382
Dropping SF 1845 with synch code word 0 = 248 not 250
Dropping SF 1848 with inconsistent datamode 0/31
Dropping SF 1852 with corrupted frame indicator
Dropping SF 1854 with corrupted frame indicator
Dropping SF 1878 with corrupted frame indicator
SIS1 peak error time=195810868.19187 x=339 y=341 ph0=21 ph1=29 ph3=71 ph4=33 ph5=62 ph6=82 ph8=92
Dropping SF 1913 with synch code word 0 = 248 not 250
609.998 second gap between superframes 1961 and 1962
Dropping SF 1995 with inconsistent datamode 0/31
Dropping SF 2055 with corrupted frame indicator
Dropping SF 2070 with corrupted frame indicator
Dropping SF 2254 with corrupted frame indicator
Dropping SF 2276 with corrupted frame indicator
Dropping SF 2351 with inconsistent datamode 0/31
Dropping SF 2406 with inconsistent datamode 0/31
Dropping SF 2445 with inconsistent datamode 0/31
Dropping SF 2492 with corrupted frame indicator
Dropping SF 2543 with inconsistent datamode 0/31
Dropping SF 2643 with corrupted frame indicator
Dropping SF 2671 with corrupted frame indicator
Dropping SF 2697 with inconsistent datamode 0/31
Dropping SF 3016 with inconsistent datamode 0/31
Dropping SF 3048 with synch code word 2 = 64 not 32
Dropping SF 3054 with synch code word 0 = 251 not 250
SIS1 peak error time=195813824.1828 x=418 y=386 ph0=610 ph1=614
SIS1 coordinate error time=195813912.18253 x=0 y=0 pha[0]=0 chip=2
Dropping SF 3101 with synch code word 0 = 202 not 250
Dropping SF 3102 with synch code word 0 = 226 not 250
Dropping SF 3103 with synch code word 2 = 35 not 32
Dropping SF 3104 with inconsistent datamode 0/31
Dropping SF 3105 with synch code word 1 = 51 not 243
Dropping SF 3106 with synch code word 1 = 195 not 243
Dropping SF 3107 with synch code word 0 = 251 not 250
Dropping SF 3108 with synch code word 2 = 38 not 32
GIS2 coordinate error time=195813983.49583 x=0 y=0 pha=24 rise=0
Dropping SF 3112 with synch code word 0 = 58 not 250
Dropping SF 3113 with inconsistent datamode 0/31
SIS0 peak error time=195814028.18217 x=349 y=358 ph0=243 ph3=3107
SIS1 peak error time=195814028.18217 x=358 y=382 ph0=1099 ph7=1127
GIS2 coordinate error time=195814046.9761 x=48 y=0 pha=0 rise=0
GIS2 coordinate error time=195814049.87453 x=12 y=0 pha=0 rise=0
GIS2 coordinate error time=195814050.01125 x=96 y=0 pha=0 rise=0
SIS0 peak error time=195814036.18215 x=136 y=111 ph0=250 ph8=793
SIS0 peak error time=195814036.18215 x=399 y=233 ph0=240 ph6=838
Dropping SF 3143 with synch code word 1 = 240 not 243
Dropping SF 3144 with synch code word 1 = 147 not 243
Dropping SF 3145 with synch code word 2 = 64 not 32
Dropping SF 3146 with synch code word 0 = 202 not 250
Dropping SF 3147 with synch code word 0 = 58 not 250
Dropping SF 3148 with synch code word 0 = 58 not 250
Dropping SF 3149 with inconsistent datamode 0/24
Dropping SF 3150 with inconsistent datamode 0/31
Dropping SF 3151 with corrupted frame indicator
Dropping SF 3152 with synch code word 1 = 195 not 243
GIS2 coordinate error time=195814112.80012 x=128 y=0 pha=1 rise=0
GIS2 coordinate error time=195814113.57746 x=24 y=0 pha=0 rise=0
SIS0 peak error time=195814100.18195 x=228 y=155 ph0=252 ph8=1662
Dropping SF 3154 with synch code word 0 = 246 not 250
Dropping SF 3191 with synch code word 1 = 195 not 243
Dropping SF 3193 with synch code word 1 = 195 not 243
Dropping SF 3194 with synch code word 0 = 202 not 250
GIS2 coordinate error time=195814197.75298 x=128 y=0 pha=1 rise=0
SIS0 peak error time=195814184.18169 x=222 y=9 ph0=225 ph1=302
SIS0 peak error time=195814184.18169 x=211 y=20 ph0=230 ph4=257
SIS0 peak error time=195814184.18169 x=278 y=43 ph0=268 ph8=2157
Dropping SF 3196 with corrupted frame indicator
Dropping SF 3197 with synch code word 2 = 44 not 32
Dropping SF 3198 with synch code word 0 = 58 not 250
Dropping SF 3199 with inconsistent CCD ID 0/3
Dropping SF 3200 with inconsistent CCD ID 1/2
Dropping SF 3201 with corrupted frame indicator
Dropping SF 3202 with synch code word 0 = 202 not 250
Dropping SF 3203 with synch code word 1 = 51 not 243
Dropping SF 3204 with synch code word 0 = 251 not 250
Dropping SF 3205 with synch code word 0 = 202 not 250
Dropping SF 3206 with synch code word 2 = 16 not 32
Dropping SF 3207 with inconsistent datamode 0/31
Dropping SF 3209 with synch code word 0 = 251 not 250
GIS2 coordinate error time=195814247.27236 x=24 y=0 pha=0 rise=0
Dropping SF 3213 with invalid bit rate 7
Dropping SF 3214 with synch code word 0 = 202 not 250
GIS2 coordinate error time=195814347.29158 x=0 y=0 pha=3 rise=0
Dropping SF 3261 with synch code word 0 = 251 not 250
Warning: GIS3 bit assignment changed between 195814346.30623 and 195814350.30622
SIS1 peak error time=195814336.18122 x=82 y=321 ph0=36 ph1=127 ph2=174 ph3=122 ph4=116 ph5=142 ph6=213 ph7=187 ph8=160
SIS1 peak error time=195814336.18122 x=321 y=330 ph0=266 ph4=916
Dropping SF 3263 with synch code word 2 = 16 not 32
Dropping SF 3264 with inconsistent datamode 0/31
Dropping SF 3265 with synch code word 1 = 242 not 243
Warning: GIS3 bit assignment changed between 195814350.30622 and 195814360.30619
Dropping SF 3620 with corrupted frame indicator
Dropping SF 3789 with corrupted frame indicator
Dropping SF 3830 with synch code word 1 = 195 not 243
Dropping SF 3831 with corrupted frame indicator
Dropping SF 3832 with inconsistent datamode 0/24
Dropping SF 3833 with synch code word 0 = 58 not 250
Dropping SF 3834 with synch code word 1 = 240 not 243
GIS2 coordinate error time=195817828.32395 x=0 y=0 pha=768 rise=0
GIS2 coordinate error time=195817828.52317 x=0 y=0 pha=384 rise=0
GIS2 coordinate error time=195817828.94114 x=0 y=0 pha=768 rise=0
GIS2 coordinate error time=195817829.99192 x=0 y=0 pha=768 rise=0
GIS2 coordinate error time=195817830.11692 x=96 y=0 pha=0 rise=0
SIS0 peak error time=195817816.17063 x=388 y=405 ph0=233 ph6=745
SIS0 coordinate error time=195817816.17063 x=0 y=24 pha[0]=0 chip=0
SIS0 coordinate error time=195817816.17063 x=0 y=0 pha[0]=48 chip=0
SIS0 coordinate error time=195817816.17063 x=384 y=0 pha[0]=0 chip=0
SIS0 coordinate error time=195817816.17063 x=0 y=0 pha[0]=1 chip=0
SIS0 peak error time=195817816.17063 x=0 y=0 ph0=1 ph1=1984
Dropping SF 3836 with corrupted frame indicator
Dropping SF 3837 with synch code word 1 = 255 not 243
Dropping SF 3838 with corrupted frame indicator
GIS2 coordinate error time=195817836.53095 x=0 y=0 pha=96 rise=0
GIS2 coordinate error time=195817836.59345 x=192 y=0 pha=0 rise=0
GIS2 coordinate error time=195817837.17158 x=128 y=0 pha=1 rise=0
GIS2 coordinate error time=195817837.28095 x=0 y=0 pha=48 rise=0
GIS2 coordinate error time=195817837.35127 x=0 y=0 pha=12 rise=0
GIS3 coordinate error time=195817837.59345 x=0 y=0 pha=512 rise=0
SIS0 peak error time=195817824.1706 x=65 y=293 ph0=236 ph3=2098
Dropping SF 3840 with synch code word 0 = 226 not 250
Dropping SF 3841 with inconsistent CCD ID 1/0
GIS2 coordinate error time=195817842.7575 x=0 y=0 pha=6 rise=0
GIS2 coordinate error time=195817843.18719 x=0 y=0 pha=48 rise=0
GIS2 coordinate error time=195817844.23797 x=0 y=0 pha=12 rise=0
SIS1 peak error time=195817828.17058 x=119 y=122 ph0=210 ph6=2060
SIS1 peak error time=195817828.17058 x=407 y=202 ph0=334 ph3=2092
SIS1 peak error time=195817828.17058 x=160 y=275 ph0=205 ph8=1472
SIS1 peak error time=195817828.17058 x=62 y=313 ph0=343 ph7=734
SIS1 coordinate error time=195817828.17058 x=384 y=0 pha[0]=0 chip=0
Dropping SF 3843 with synch code word 2 = 16 not 32
SIS1 peak error time=195817832.17057 x=118 y=191 ph0=262 ph1=3123
Dropping SF 3845 with corrupted frame indicator
SIS1 peak error time=195817836.17056 x=252 y=166 ph0=242 ph7=3050
Dropping SF 3847 with corrupted frame indicator
Dropping SF 3848 with synch code word 1 = 51 not 243
SIS1 peak error time=195817844.17054 x=274 y=44 ph0=227 ph7=1566
SIS1 peak error time=195817844.17054 x=122 y=109 ph0=262 ph8=442
SIS1 peak error time=195817844.17054 x=160 y=394 ph0=2020 ph2=3800
GIS2 coordinate error time=195817863.95666 x=0 y=0 pha=48 rise=0
SIS0 peak error time=195817852.17052 x=354 y=254 ph0=293 ph4=1525
GIS2 coordinate error time=195817868.07774 x=0 y=0 pha=12 rise=0
SIS0 peak error time=195817856.1705 x=347 y=395 ph0=205 ph8=2032
GIS2 coordinate error time=195817873.77694 x=0 y=0 pha=48 rise=0
Warning: GIS3 bit assignment changed between 195817872.29549 and 195817874.29549
Warning: GIS3 bit assignment changed between 195817874.29549 and 195817876.29548
GIS3 coordinate error time=195817878.98786 x=0 y=0 pha=512 rise=0
SIS0 coordinate error time=195817876.17044 x=6 y=0 pha[0]=0 chip=0
GIS2 coordinate error time=195817890.95657 x=24 y=0 pha=0 rise=0
GIS2 coordinate error time=195817901.12841 x=0 y=0 pha=384 rise=0
GIS2 coordinate error time=195817901.9956 x=0 y=0 pha=192 rise=0
Dropping SF 3925 with inconsistent datamode 0/3
Dropping SF 3926 with inconsistent datamode 0/12
Dropping SF 3956 with inconsistent datamode 0/31
Dropped 1st C1 read after clocking change in ft990317_0605_2000S001901M.fits
Dropped 1st C2 read after clocking change in ft990317_0605_2000S001901M.fits
Dropped 1st C1 read after clocking change in ft990317_0605_2000S101101M.fits
Dropped 1st C2 read after clocking change in ft990317_0605_2000S101101M.fits
Dropped 1st C0 read after clocking change in ft990317_0605_2000S002501H.fits
Dropped 1st C1 read after clocking change in ft990317_0605_2000S002501H.fits
Dropped 1st C2 read after clocking change in ft990317_0605_2000S101701H.fits
Dropped 1st C2 read after clocking change in ft990317_0605_2000S002501H.fits
Dropped 1st C3 read after clocking change in ft990317_0605_2000S101701H.fits
Dropped 1st C3 read after clocking change in ft990317_0605_2000S002501H.fits
Dropped 1st C0 read after clocking change in ft990317_0605_2000S101701H.fits
Dropped 1st C1 read after clocking change in ft990317_0605_2000S101701H.fits
1.99999 second gap between superframes 4437 and 4438
Dropping SF 4677 with inconsistent datamode 0/31
Dropping SF 4837 with invalid bit rate 7
Dropping SF 4889 with inconsistent datamode 0/31
SIS1 peak error time=195822052.1576 x=411 y=175 ph0=267 ph7=2269
SIS1 peak error time=195822052.1576 x=341 y=384 ph0=206 ph3=3109
SIS0 peak error time=195822056.15759 x=49 y=412 ph0=1740 ph1=2204
Dropping SF 4919 with synch code word 2 = 64 not 32
Dropping SF 4920 with synch code word 0 = 252 not 250
Dropping SF 4921 with synch code word 1 = 244 not 243
Dropping SF 4922 with inconsistent datamode 0/31
Dropping SF 4966 with synch code word 0 = 1 not 250
Dropping SF 4967 with inconsistent datamode 0/6
Dropping SF 5016 with corrupted frame indicator
GIS2 coordinate error time=195822492.93853 x=0 y=0 pha=192 rise=0
SIS0 peak error time=195822480.1563 x=184 y=335 ph0=225 ph6=1528
Dropping SF 5022 with synch code word 1 = 235 not 243
SIS0 peak error time=195822484.15629 x=147 y=46 ph0=275 ph6=3071
GIS2 coordinate error time=195822501.78616 x=0 y=0 pha=48 rise=0
GIS2 coordinate error time=195822503.76662 x=0 y=0 pha=48 rise=0
SIS1 peak error time=195822488.15627 x=230 y=16 ph0=248 ph1=2125
Dropping SF 5027 with inconsistent SIS ID
Dropping SF 5028 with synch code word 0 = 249 not 250
1.99999 second gap between superframes 5172 and 5173
Dropping SF 5251 with inconsistent datamode 0/31
609.998 second gap between superframes 5261 and 5262
SIS1 peak error time=195826876.14291 x=419 y=14 ph0=257 ph7=768 ph8=720
47.9997 second gap between superframes 7209 and 7210
Dropping SF 7490 with inconsistent datamode 0/31
Dropping SF 7492 with inconsistent datamode 0/31
Dropped 1st C1 read after clocking change in ft990317_0605_2000S004101M.fits
Dropped 1st C2 read after clocking change in ft990317_0605_2000S004101M.fits
Dropped 1st C1 read after clocking change in ft990317_0605_2000S103101M.fits
Dropped 1st C2 read after clocking change in ft990317_0605_2000S103101M.fits
Dropped 1st C0 read after clocking change in ft990317_0605_2000S004701H.fits
Dropped 1st C1 read after clocking change in ft990317_0605_2000S004701H.fits
Dropped 1st C2 read after clocking change in ft990317_0605_2000S103701H.fits
Dropped 1st C2 read after clocking change in ft990317_0605_2000S004701H.fits
Dropped 1st C3 read after clocking change in ft990317_0605_2000S103701H.fits
Dropped 1st C3 read after clocking change in ft990317_0605_2000S004701H.fits
Dropped 1st C0 read after clocking change in ft990317_0605_2000S103701H.fits
Dropped 1st C1 read after clocking change in ft990317_0605_2000S103701H.fits
91.9997 second gap between superframes 9462 and 9463
Dropping SF 9790 with inconsistent datamode 0/31
1.99999 second gap between superframes 10702 and 10703
Dropped 1st C1 read after clocking change in ft990317_0605_2000S005001M.fits
Dropped 1st C2 read after clocking change in ft990317_0605_2000S005001M.fits
Dropped 1st C1 read after clocking change in ft990317_0605_2000S104001M.fits
Dropped 1st C2 read after clocking change in ft990317_0605_2000S104001M.fits
Dropped 1st C0 read after clocking change in ft990317_0605_2000S005601H.fits
Dropped 1st C1 read after clocking change in ft990317_0605_2000S005601H.fits
Dropped 1st C2 read after clocking change in ft990317_0605_2000S104501H.fits
Dropped 1st C2 read after clocking change in ft990317_0605_2000S005601H.fits
Dropped 1st C3 read after clocking change in ft990317_0605_2000S104501H.fits
Dropped 1st C3 read after clocking change in ft990317_0605_2000S005601H.fits
Dropped 1st C0 read after clocking change in ft990317_0605_2000S104501H.fits
Dropped 1st C1 read after clocking change in ft990317_0605_2000S104501H.fits
95.9997 second gap between superframes 11727 and 11728
Dropping SF 11874 with corrupted frame indicator
Dropping SF 11877 with invalid bit rate 7
Dropping SF 11883 with inconsistent SIS mode 1/2
SIS1 coordinate error time=195845448.08558 x=455 y=384 pha[0]=1793 chip=1
SIS1 peak error time=195845448.08558 x=455 y=384 ph0=1793 ph2=2271
Dropping SF 12065 with corrupted frame indicator
Dropping SF 12067 with inconsistent datamode 0/31
Dropping SF 12068 with invalid bit rate 7
Dropping SF 12072 with inconsistent datamode 0/31
1.99999 second gap between superframes 12968 and 12969
Dropped 1st C1 read after clocking change in ft990317_0605_2000S005701M.fits
Dropped 1st C2 read after clocking change in ft990317_0605_2000S005701M.fits
Dropped 1st C1 read after clocking change in ft990317_0605_2000S104701M.fits
Dropped 1st C2 read after clocking change in ft990317_0605_2000S104701M.fits
Dropped 1st C0 read after clocking change in ft990317_0605_2000S006401H.fits
Dropped 1st C1 read after clocking change in ft990317_0605_2000S006401H.fits
Dropped 1st C2 read after clocking change in ft990317_0605_2000S105301H.fits
Dropped 1st C2 read after clocking change in ft990317_0605_2000S006401H.fits
Dropped 1st C3 read after clocking change in ft990317_0605_2000S105301H.fits
Dropped 1st C3 read after clocking change in ft990317_0605_2000S006401H.fits
Dropped 1st C0 read after clocking change in ft990317_0605_2000S105301H.fits
Dropped 1st C1 read after clocking change in ft990317_0605_2000S105301H.fits
108 second gap between superframes 14023 and 14024
Warning: GIS2 bit assignment changed between 195851254.1927 and 195851256.19269
Warning: GIS3 bit assignment changed between 195851262.19268 and 195851264.19267
Warning: GIS2 bit assignment changed between 195851272.19264 and 195851274.19264
Warning: GIS3 bit assignment changed between 195851280.19262 and 195851282.19261
Dropping SF 14370 with synch code word 0 = 241 not 250
Dropping SF 14371 with inconsistent datamode 0/31
Dropped 1st C1 read after clocking change in ft990317_0605_2000S006601M.fits
Dropped 1st C2 read after clocking change in ft990317_0605_2000S006601M.fits
Dropped 1st C1 read after clocking change in ft990317_0605_2000S105501M.fits
Dropped 1st C2 read after clocking change in ft990317_0605_2000S105501M.fits
15261 of 15413 super frames processed
-> Removing the following files with NEVENTS=0
ft990317_0605_2000G200370H.fits[0]
ft990317_0605_2000G201770H.fits[0]
ft990317_0605_2000G201870H.fits[0]
ft990317_0605_2000G201970M.fits[0]
ft990317_0605_2000G202070H.fits[0]
ft990317_0605_2000G203170H.fits[0]
ft990317_0605_2000G203270H.fits[0]
ft990317_0605_2000G203370L.fits[0]
ft990317_0605_2000G203870H.fits[0]
ft990317_0605_2000G204370H.fits[0]
ft990317_0605_2000G204470H.fits[0]
ft990317_0605_2000G204570M.fits[0]
ft990317_0605_2000G204670H.fits[0]
ft990317_0605_2000G204870H.fits[0]
ft990317_0605_2000G205370H.fits[0]
ft990317_0605_2000G205470M.fits[0]
ft990317_0605_2000G205570H.fits[0]
ft990317_0605_2000G206170H.fits[0]
ft990317_0605_2000G206270H.fits[0]
ft990317_0605_2000G206370M.fits[0]
ft990317_0605_2000G206470H.fits[0]
ft990317_0605_2000G206570H.fits[0]
ft990317_0605_2000G206670H.fits[0]
ft990317_0605_2000G206770H.fits[0]
ft990317_0605_2000G206970H.fits[0]
ft990317_0605_2000G207070H.fits[0]
ft990317_0605_2000G207170H.fits[0]
ft990317_0605_2000G207270H.fits[0]
ft990317_0605_2000G207970H.fits[0]
ft990317_0605_2000G208070H.fits[0]
ft990317_0605_2000G208170M.fits[0]
ft990317_0605_2000G302770H.fits[0]
ft990317_0605_2000G302870H.fits[0]
ft990317_0605_2000G302970M.fits[0]
ft990317_0605_2000G303070H.fits[0]
ft990317_0605_2000G303170H.fits[0]
ft990317_0605_2000G303770H.fits[0]
ft990317_0605_2000G303870H.fits[0]
ft990317_0605_2000G303970L.fits[0]
ft990317_0605_2000G304370H.fits[0]
ft990317_0605_2000G304470H.fits[0]
ft990317_0605_2000G304970H.fits[0]
ft990317_0605_2000G305070H.fits[0]
ft990317_0605_2000G305170M.fits[0]
ft990317_0605_2000G305270H.fits[0]
ft990317_0605_2000G305470H.fits[0]
ft990317_0605_2000G305870H.fits[0]
ft990317_0605_2000G305970H.fits[0]
ft990317_0605_2000G306070M.fits[0]
ft990317_0605_2000G306170H.fits[0]
ft990317_0605_2000G306770H.fits[0]
ft990317_0605_2000G306870H.fits[0]
ft990317_0605_2000G306970M.fits[0]
ft990317_0605_2000G307070H.fits[0]
ft990317_0605_2000G307170H.fits[0]
ft990317_0605_2000G307770H.fits[0]
ft990317_0605_2000G307870H.fits[0]
ft990317_0605_2000G307970H.fits[0]
ft990317_0605_2000G308070H.fits[0]
ft990317_0605_2000G308570H.fits[0]
ft990317_0605_2000G308670M.fits[0]
ft990317_0605_2000S003001L.fits[0]
ft990317_0605_2000S003601L.fits[0]
ft990317_0605_2000S004301M.fits[0]
ft990317_0605_2000S004401M.fits[0]
ft990317_0605_2000S005101M.fits[0]
ft990317_0605_2000S005201M.fits[0]
ft990317_0605_2000S006001M.fits[0]
ft990317_0605_2000S006801M.fits[0]
ft990317_0605_2000S103301M.fits[0]
ft990317_0605_2000S104101M.fits[0]
ft990317_0605_2000S105701M.fits[0]
-> Checking for empty GTI extensions
-> Appending ALLGTI extensions to housekeeping files
-> Merging GTIs from the following files:
ft990317_0605_2000S000101M.fits[2]
ft990317_0605_2000S000201H.fits[2]
ft990317_0605_2000S000301H.fits[2]
ft990317_0605_2000S000401M.fits[2]
ft990317_0605_2000S000501M.fits[2]
ft990317_0605_2000S000601H.fits[2]
ft990317_0605_2000S000701H.fits[2]
ft990317_0605_2000S000801H.fits[2]
ft990317_0605_2000S000901H.fits[2]
ft990317_0605_2000S001001H.fits[2]
ft990317_0605_2000S001101H.fits[2]
ft990317_0605_2000S001201H.fits[2]
ft990317_0605_2000S001301H.fits[2]
ft990317_0605_2000S001401M.fits[2]
ft990317_0605_2000S001501M.fits[2]
ft990317_0605_2000S001601H.fits[2]
ft990317_0605_2000S001701H.fits[2]
ft990317_0605_2000S001801H.fits[2]
ft990317_0605_2000S001901M.fits[2]
ft990317_0605_2000S002001M.fits[2]
ft990317_0605_2000S002101M.fits[2]
ft990317_0605_2000S002201M.fits[2]
ft990317_0605_2000S002301M.fits[2]
ft990317_0605_2000S002401M.fits[2]
ft990317_0605_2000S002501H.fits[2]
ft990317_0605_2000S002601M.fits[2]
ft990317_0605_2000S002701M.fits[2]
ft990317_0605_2000S002801H.fits[2]
ft990317_0605_2000S002901L.fits[2]
ft990317_0605_2000S003101L.fits[2]
ft990317_0605_2000S003201L.fits[2]
ft990317_0605_2000S003301L.fits[2]
ft990317_0605_2000S003401H.fits[2]
ft990317_0605_2000S003501L.fits[2]
ft990317_0605_2000S003701L.fits[2]
ft990317_0605_2000S003801L.fits[2]
ft990317_0605_2000S003901L.fits[2]
ft990317_0605_2000S004001H.fits[2]
ft990317_0605_2000S004101M.fits[2]
ft990317_0605_2000S004201M.fits[2]
ft990317_0605_2000S004501M.fits[2]
ft990317_0605_2000S004601M.fits[2]
ft990317_0605_2000S004701H.fits[2]
ft990317_0605_2000S004801H.fits[2]
ft990317_0605_2000S004901H.fits[2]
ft990317_0605_2000S005001M.fits[2]
ft990317_0605_2000S005301M.fits[2]
ft990317_0605_2000S005401M.fits[2]
ft990317_0605_2000S005501M.fits[2]
ft990317_0605_2000S005601H.fits[2]
ft990317_0605_2000S005701M.fits[2]
ft990317_0605_2000S005801M.fits[2]
ft990317_0605_2000S005901M.fits[2]
ft990317_0605_2000S006101M.fits[2]
ft990317_0605_2000S006201M.fits[2]
ft990317_0605_2000S006301M.fits[2]
ft990317_0605_2000S006401H.fits[2]
ft990317_0605_2000S006501H.fits[2]
ft990317_0605_2000S006601M.fits[2]
ft990317_0605_2000S006701M.fits[2]
-> Merging GTIs from the following files:
ft990317_0605_2000S100101M.fits[2]
ft990317_0605_2000S100201H.fits[2]
ft990317_0605_2000S100301H.fits[2]
ft990317_0605_2000S100401M.fits[2]
ft990317_0605_2000S100501H.fits[2]
ft990317_0605_2000S100601H.fits[2]
ft990317_0605_2000S100701H.fits[2]
ft990317_0605_2000S100801M.fits[2]
ft990317_0605_2000S100901H.fits[2]
ft990317_0605_2000S101001M.fits[2]
ft990317_0605_2000S101101M.fits[2]
ft990317_0605_2000S101201M.fits[2]
ft990317_0605_2000S101301M.fits[2]
ft990317_0605_2000S101401M.fits[2]
ft990317_0605_2000S101501M.fits[2]
ft990317_0605_2000S101601H.fits[2]
ft990317_0605_2000S101701H.fits[2]
ft990317_0605_2000S101801M.fits[2]
ft990317_0605_2000S101901H.fits[2]
ft990317_0605_2000S102001H.fits[2]
ft990317_0605_2000S102101H.fits[2]
ft990317_0605_2000S102201L.fits[2]
ft990317_0605_2000S102301L.fits[2]
ft990317_0605_2000S102401L.fits[2]
ft990317_0605_2000S102501H.fits[2]
ft990317_0605_2000S102601L.fits[2]
ft990317_0605_2000S102701L.fits[2]
ft990317_0605_2000S102801L.fits[2]
ft990317_0605_2000S102901H.fits[2]
ft990317_0605_2000S103001M.fits[2]
ft990317_0605_2000S103101M.fits[2]
ft990317_0605_2000S103201M.fits[2]
ft990317_0605_2000S103401M.fits[2]
ft990317_0605_2000S103501M.fits[2]
ft990317_0605_2000S103601H.fits[2]
ft990317_0605_2000S103701H.fits[2]
ft990317_0605_2000S103801H.fits[2]
ft990317_0605_2000S103901M.fits[2]
ft990317_0605_2000S104001M.fits[2]
ft990317_0605_2000S104201M.fits[2]
ft990317_0605_2000S104301M.fits[2]
ft990317_0605_2000S104401H.fits[2]
ft990317_0605_2000S104501H.fits[2]
ft990317_0605_2000S104601M.fits[2]
ft990317_0605_2000S104701M.fits[2]
ft990317_0605_2000S104801M.fits[2]
ft990317_0605_2000S104901M.fits[2]
ft990317_0605_2000S105001M.fits[2]
ft990317_0605_2000S105101M.fits[2]
ft990317_0605_2000S105201H.fits[2]
ft990317_0605_2000S105301H.fits[2]
ft990317_0605_2000S105401M.fits[2]
ft990317_0605_2000S105501M.fits[2]
ft990317_0605_2000S105601M.fits[2]
-> Merging GTIs from the following files:
ft990317_0605_2000G200170M.fits[2]
ft990317_0605_2000G200270H.fits[2]
ft990317_0605_2000G200470H.fits[2]
ft990317_0605_2000G200570H.fits[2]
ft990317_0605_2000G200670H.fits[2]
ft990317_0605_2000G200770M.fits[2]
ft990317_0605_2000G200870H.fits[2]
ft990317_0605_2000G200970H.fits[2]
ft990317_0605_2000G201070H.fits[2]
ft990317_0605_2000G201170M.fits[2]
ft990317_0605_2000G201270M.fits[2]
ft990317_0605_2000G201370M.fits[2]
ft990317_0605_2000G201470H.fits[2]
ft990317_0605_2000G201570H.fits[2]
ft990317_0605_2000G201670H.fits[2]
ft990317_0605_2000G202170H.fits[2]
ft990317_0605_2000G202270H.fits[2]
ft990317_0605_2000G202370H.fits[2]
ft990317_0605_2000G202470H.fits[2]
ft990317_0605_2000G202570M.fits[2]
ft990317_0605_2000G202670H.fits[2]
ft990317_0605_2000G202770H.fits[2]
ft990317_0605_2000G202870H.fits[2]
ft990317_0605_2000G202970H.fits[2]
ft990317_0605_2000G203070H.fits[2]
ft990317_0605_2000G203470L.fits[2]
ft990317_0605_2000G203570L.fits[2]
ft990317_0605_2000G203670H.fits[2]
ft990317_0605_2000G203770H.fits[2]
ft990317_0605_2000G203970L.fits[2]
ft990317_0605_2000G204070L.fits[2]
ft990317_0605_2000G204170H.fits[2]
ft990317_0605_2000G204270H.fits[2]
ft990317_0605_2000G204770H.fits[2]
ft990317_0605_2000G204970H.fits[2]
ft990317_0605_2000G205070H.fits[2]
ft990317_0605_2000G205170H.fits[2]
ft990317_0605_2000G205270H.fits[2]
ft990317_0605_2000G205670H.fits[2]
ft990317_0605_2000G205770H.fits[2]
ft990317_0605_2000G205870H.fits[2]
ft990317_0605_2000G205970H.fits[2]
ft990317_0605_2000G206070H.fits[2]
ft990317_0605_2000G206870H.fits[2]
ft990317_0605_2000G207370H.fits[2]
ft990317_0605_2000G207470H.fits[2]
ft990317_0605_2000G207570H.fits[2]
ft990317_0605_2000G207670H.fits[2]
ft990317_0605_2000G207770H.fits[2]
ft990317_0605_2000G207870H.fits[2]
-> Merging GTIs from the following files:
ft990317_0605_2000G300170M.fits[2]
ft990317_0605_2000G300270H.fits[2]
ft990317_0605_2000G300370H.fits[2]
ft990317_0605_2000G300470H.fits[2]
ft990317_0605_2000G300570H.fits[2]
ft990317_0605_2000G300670H.fits[2]
ft990317_0605_2000G300770H.fits[2]
ft990317_0605_2000G300870H.fits[2]
ft990317_0605_2000G300970H.fits[2]
ft990317_0605_2000G301070H.fits[2]
ft990317_0605_2000G301170M.fits[2]
ft990317_0605_2000G301270M.fits[2]
ft990317_0605_2000G301370M.fits[2]
ft990317_0605_2000G301470H.fits[2]
ft990317_0605_2000G301570H.fits[2]
ft990317_0605_2000G301670H.fits[2]
ft990317_0605_2000G301770H.fits[2]
ft990317_0605_2000G301870H.fits[2]
ft990317_0605_2000G301970M.fits[2]
ft990317_0605_2000G302070H.fits[2]
ft990317_0605_2000G302170H.fits[2]
ft990317_0605_2000G302270H.fits[2]
ft990317_0605_2000G302370H.fits[2]
ft990317_0605_2000G302470H.fits[2]
ft990317_0605_2000G302570H.fits[2]
ft990317_0605_2000G302670H.fits[2]
ft990317_0605_2000G303270H.fits[2]
ft990317_0605_2000G303370H.fits[2]
ft990317_0605_2000G303470H.fits[2]
ft990317_0605_2000G303570M.fits[2]
ft990317_0605_2000G303670H.fits[2]
ft990317_0605_2000G304070L.fits[2]
ft990317_0605_2000G304170L.fits[2]
ft990317_0605_2000G304270H.fits[2]
ft990317_0605_2000G304570L.fits[2]
ft990317_0605_2000G304670L.fits[2]
ft990317_0605_2000G304770H.fits[2]
ft990317_0605_2000G304870H.fits[2]
ft990317_0605_2000G305370H.fits[2]
ft990317_0605_2000G305570H.fits[2]
ft990317_0605_2000G305670H.fits[2]
ft990317_0605_2000G305770H.fits[2]
ft990317_0605_2000G306270H.fits[2]
ft990317_0605_2000G306370H.fits[2]
ft990317_0605_2000G306470H.fits[2]
ft990317_0605_2000G306570H.fits[2]
ft990317_0605_2000G306670H.fits[2]
ft990317_0605_2000G307270H.fits[2]
ft990317_0605_2000G307370H.fits[2]
ft990317_0605_2000G307470H.fits[2]
ft990317_0605_2000G307570H.fits[2]
ft990317_0605_2000G307670H.fits[2]
ft990317_0605_2000G308170H.fits[2]
ft990317_0605_2000G308270H.fits[2]
ft990317_0605_2000G308370H.fits[2]
ft990317_0605_2000G308470H.fits[2]

Merging event files from frfread ( 20:26:34 )

-> Collecting GIS2 event files by mode
-> Standard Error Output From STOOL gissortcode:
GISSORTCODE:LO:Start program
GISSORTCODE:LO:End program
-> Standard Error Output From STOOL gissortsplit:
GISSORTSPLIT:LO:Start program
GISSORTSPLIT:LO:g200170h.prelist merge count = 1 photon cnt = 1
GISSORTSPLIT:LO:g200270h.prelist merge count = 2 photon cnt = 2
GISSORTSPLIT:LO:g200370h.prelist merge count = 3 photon cnt = 5
GISSORTSPLIT:LO:g200470h.prelist merge count = 2 photon cnt = 4
GISSORTSPLIT:LO:g200570h.prelist merge count = 3 photon cnt = 9
GISSORTSPLIT:LO:g200670h.prelist merge count = 1 photon cnt = 5
GISSORTSPLIT:LO:g200770h.prelist merge count = 1 photon cnt = 9
GISSORTSPLIT:LO:g200870h.prelist merge count = 1 photon cnt = 4
GISSORTSPLIT:LO:g200970h.prelist merge count = 21 photon cnt = 32204
GISSORTSPLIT:LO:g201070h.prelist merge count = 1 photon cnt = 4
GISSORTSPLIT:LO:g201170h.prelist merge count = 1 photon cnt = 5
GISSORTSPLIT:LO:g201270h.prelist merge count = 1 photon cnt = 5
GISSORTSPLIT:LO:g201370h.prelist merge count = 1 photon cnt = 6
GISSORTSPLIT:LO:g201470h.prelist merge count = 1 photon cnt = 1
GISSORTSPLIT:LO:g200170l.prelist merge count = 2 photon cnt = 34
GISSORTSPLIT:LO:g200270l.prelist merge count = 2 photon cnt = 1826
GISSORTSPLIT:LO:g200170m.prelist merge count = 1 photon cnt = 177
GISSORTSPLIT:LO:g200270m.prelist merge count = 5 photon cnt = 7304
GISSORTSPLIT:LO:Total filenames split = 50
GISSORTSPLIT:LO:Total split file cnt = 18
GISSORTSPLIT:LO:End program
-> Creating ad27009000g200170h.unf
-> Standard Output From STOOL cmerge:
---- cmerge:  version 1.6 ----

A total of  21  fits files ...... 
Sorting files using KEY: TSTART ... 
Checking GTI overlap in input files ... 
Merging binary extension #: 1 
 1 -- ft990317_0605_2000G200270H.fits 
 2 -- ft990317_0605_2000G200470H.fits 
 3 -- ft990317_0605_2000G200670H.fits 
 4 -- ft990317_0605_2000G200870H.fits 
 5 -- ft990317_0605_2000G201070H.fits 
 6 -- ft990317_0605_2000G201470H.fits 
 7 -- ft990317_0605_2000G201670H.fits 
 8 -- ft990317_0605_2000G202470H.fits 
 9 -- ft990317_0605_2000G202670H.fits 
 10 -- ft990317_0605_2000G202870H.fits 
 11 -- ft990317_0605_2000G203070H.fits 
 12 -- ft990317_0605_2000G203670H.fits 
 13 -- ft990317_0605_2000G204170H.fits 
 14 -- ft990317_0605_2000G204270H.fits 
 15 -- ft990317_0605_2000G205070H.fits 
 16 -- ft990317_0605_2000G205170H.fits 
 17 -- ft990317_0605_2000G205970H.fits 
 18 -- ft990317_0605_2000G206070H.fits 
 19 -- ft990317_0605_2000G206870H.fits 
 20 -- ft990317_0605_2000G207770H.fits 
 21 -- ft990317_0605_2000G207870H.fits 
Merging binary extension #: 2 
 1 -- ft990317_0605_2000G200270H.fits 
 2 -- ft990317_0605_2000G200470H.fits 
 3 -- ft990317_0605_2000G200670H.fits 
 4 -- ft990317_0605_2000G200870H.fits 
 5 -- ft990317_0605_2000G201070H.fits 
 6 -- ft990317_0605_2000G201470H.fits 
 7 -- ft990317_0605_2000G201670H.fits 
 8 -- ft990317_0605_2000G202470H.fits 
 9 -- ft990317_0605_2000G202670H.fits 
 10 -- ft990317_0605_2000G202870H.fits 
 11 -- ft990317_0605_2000G203070H.fits 
 12 -- ft990317_0605_2000G203670H.fits 
 13 -- ft990317_0605_2000G204170H.fits 
 14 -- ft990317_0605_2000G204270H.fits 
 15 -- ft990317_0605_2000G205070H.fits 
 16 -- ft990317_0605_2000G205170H.fits 
 17 -- ft990317_0605_2000G205970H.fits 
 18 -- ft990317_0605_2000G206070H.fits 
 19 -- ft990317_0605_2000G206870H.fits 
 20 -- ft990317_0605_2000G207770H.fits 
 21 -- ft990317_0605_2000G207870H.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Creating ad27009000g200270m.unf
-> Standard Output From STOOL cmerge:
---- cmerge:  version 1.6 ----

A total of  5  fits files ...... 
Sorting files using KEY: TSTART ... 
Checking GTI overlap in input files ... 
Merging binary extension #: 1 
 1 -- ft990317_0605_2000G200170M.fits 
 2 -- ft990317_0605_2000G200770M.fits 
 3 -- ft990317_0605_2000G201170M.fits 
 4 -- ft990317_0605_2000G201370M.fits 
 5 -- ft990317_0605_2000G202570M.fits 
Merging binary extension #: 2 
 1 -- ft990317_0605_2000G200170M.fits 
 2 -- ft990317_0605_2000G200770M.fits 
 3 -- ft990317_0605_2000G201170M.fits 
 4 -- ft990317_0605_2000G201370M.fits 
 5 -- ft990317_0605_2000G202570M.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Creating ad27009000g200370l.unf
-> Standard Output From STOOL cmerge:
---- cmerge:  version 1.6 ----

A total of  2  fits files ...... 
Sorting files using KEY: TSTART ... 
Checking GTI overlap in input files ... 
Merging binary extension #: 1 
 1 -- ft990317_0605_2000G203570L.fits 
 2 -- ft990317_0605_2000G204070L.fits 
Merging binary extension #: 2 
 1 -- ft990317_0605_2000G203570L.fits 
 2 -- ft990317_0605_2000G204070L.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Ignoring the following files containing 000000177 events
ft990317_0605_2000G201270M.fits
-> Ignoring the following files containing 000000034 events
ft990317_0605_2000G203470L.fits
ft990317_0605_2000G203970L.fits
-> Ignoring the following files containing 000000009 events
ft990317_0605_2000G201570H.fits
-> Ignoring the following files containing 000000009 events
ft990317_0605_2000G202370H.fits
ft990317_0605_2000G204970H.fits
ft990317_0605_2000G205870H.fits
-> Ignoring the following files containing 000000006 events
ft990317_0605_2000G207570H.fits
-> Ignoring the following files containing 000000005 events
ft990317_0605_2000G207470H.fits
-> Ignoring the following files containing 000000005 events
ft990317_0605_2000G200570H.fits
-> Ignoring the following files containing 000000005 events
ft990317_0605_2000G200970H.fits
-> Ignoring the following files containing 000000005 events
ft990317_0605_2000G202170H.fits
ft990317_0605_2000G204770H.fits
ft990317_0605_2000G205670H.fits
-> Ignoring the following files containing 000000004 events
ft990317_0605_2000G202770H.fits
-> Ignoring the following files containing 000000004 events
ft990317_0605_2000G202970H.fits
-> Ignoring the following files containing 000000004 events
ft990317_0605_2000G202270H.fits
ft990317_0605_2000G205770H.fits
-> Ignoring the following files containing 000000002 events
ft990317_0605_2000G203770H.fits
ft990317_0605_2000G205270H.fits
-> Ignoring the following files containing 000000001 events
ft990317_0605_2000G207670H.fits
-> Ignoring the following files containing 000000001 events
ft990317_0605_2000G207370H.fits
-> Collecting GIS3 event files by mode
-> Standard Error Output From STOOL gissortcode:
GISSORTCODE:LO:Start program
GISSORTCODE:LO:End program
-> Standard Error Output From STOOL gissortsplit:
GISSORTSPLIT:LO:Start program
GISSORTSPLIT:LO:g300170h.prelist merge count = 1 photon cnt = 4
GISSORTSPLIT:LO:g300270h.prelist merge count = 1 photon cnt = 1
GISSORTSPLIT:LO:g300370h.prelist merge count = 2 photon cnt = 4
GISSORTSPLIT:LO:g300470h.prelist merge count = 3 photon cnt = 9
GISSORTSPLIT:LO:g300570h.prelist merge count = 4 photon cnt = 12
GISSORTSPLIT:LO:g300670h.prelist merge count = 2 photon cnt = 16
GISSORTSPLIT:LO:g300770h.prelist merge count = 1 photon cnt = 1
GISSORTSPLIT:LO:g300870h.prelist merge count = 1 photon cnt = 3
GISSORTSPLIT:LO:g300970h.prelist merge count = 1 photon cnt = 26
GISSORTSPLIT:LO:g301070h.prelist merge count = 1 photon cnt = 3
GISSORTSPLIT:LO:g301170h.prelist merge count = 24 photon cnt = 30472
GISSORTSPLIT:LO:g301270h.prelist merge count = 1 photon cnt = 3
GISSORTSPLIT:LO:g301370h.prelist merge count = 1 photon cnt = 4
GISSORTSPLIT:LO:g301470h.prelist merge count = 1 photon cnt = 3
GISSORTSPLIT:LO:g301570h.prelist merge count = 2 photon cnt = 15
GISSORTSPLIT:LO:g300170l.prelist merge count = 2 photon cnt = 25
GISSORTSPLIT:LO:g300270l.prelist merge count = 2 photon cnt = 1849
GISSORTSPLIT:LO:g300170m.prelist merge count = 5 photon cnt = 7448
GISSORTSPLIT:LO:g300270m.prelist merge count = 1 photon cnt = 61
GISSORTSPLIT:LO:Total filenames split = 56
GISSORTSPLIT:LO:Total split file cnt = 19
GISSORTSPLIT:LO:End program
-> Creating ad27009000g300170h.unf
-> Standard Output From STOOL cmerge:
---- cmerge:  version 1.6 ----

A total of  24  fits files ...... 
Sorting files using KEY: TSTART ... 
Checking GTI overlap in input files ... 
Merging binary extension #: 1 
 1 -- ft990317_0605_2000G300270H.fits 
 2 -- ft990317_0605_2000G300470H.fits 
 3 -- ft990317_0605_2000G300670H.fits 
 4 -- ft990317_0605_2000G300870H.fits 
 5 -- ft990317_0605_2000G301070H.fits 
 6 -- ft990317_0605_2000G301470H.fits 
 7 -- ft990317_0605_2000G301670H.fits 
 8 -- ft990317_0605_2000G301870H.fits 
 9 -- ft990317_0605_2000G302070H.fits 
 10 -- ft990317_0605_2000G302270H.fits 
 11 -- ft990317_0605_2000G302470H.fits 
 12 -- ft990317_0605_2000G302670H.fits 
 13 -- ft990317_0605_2000G303470H.fits 
 14 -- ft990317_0605_2000G303670H.fits 
 15 -- ft990317_0605_2000G304270H.fits 
 16 -- ft990317_0605_2000G304770H.fits 
 17 -- ft990317_0605_2000G304870H.fits 
 18 -- ft990317_0605_2000G305670H.fits 
 19 -- ft990317_0605_2000G305770H.fits 
 20 -- ft990317_0605_2000G306570H.fits 
 21 -- ft990317_0605_2000G306670H.fits 
 22 -- ft990317_0605_2000G307470H.fits 
 23 -- ft990317_0605_2000G308270H.fits 
 24 -- ft990317_0605_2000G308370H.fits 
Merging binary extension #: 2 
 1 -- ft990317_0605_2000G300270H.fits 
 2 -- ft990317_0605_2000G300470H.fits 
 3 -- ft990317_0605_2000G300670H.fits 
 4 -- ft990317_0605_2000G300870H.fits 
 5 -- ft990317_0605_2000G301070H.fits 
 6 -- ft990317_0605_2000G301470H.fits 
 7 -- ft990317_0605_2000G301670H.fits 
 8 -- ft990317_0605_2000G301870H.fits 
 9 -- ft990317_0605_2000G302070H.fits 
 10 -- ft990317_0605_2000G302270H.fits 
 11 -- ft990317_0605_2000G302470H.fits 
 12 -- ft990317_0605_2000G302670H.fits 
 13 -- ft990317_0605_2000G303470H.fits 
 14 -- ft990317_0605_2000G303670H.fits 
 15 -- ft990317_0605_2000G304270H.fits 
 16 -- ft990317_0605_2000G304770H.fits 
 17 -- ft990317_0605_2000G304870H.fits 
 18 -- ft990317_0605_2000G305670H.fits 
 19 -- ft990317_0605_2000G305770H.fits 
 20 -- ft990317_0605_2000G306570H.fits 
 21 -- ft990317_0605_2000G306670H.fits 
 22 -- ft990317_0605_2000G307470H.fits 
 23 -- ft990317_0605_2000G308270H.fits 
 24 -- ft990317_0605_2000G308370H.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Creating ad27009000g300270m.unf
-> Standard Output From STOOL cmerge:
---- cmerge:  version 1.6 ----

A total of  5  fits files ...... 
Sorting files using KEY: TSTART ... 
Checking GTI overlap in input files ... 
Merging binary extension #: 1 
 1 -- ft990317_0605_2000G300170M.fits 
 2 -- ft990317_0605_2000G301170M.fits 
 3 -- ft990317_0605_2000G301370M.fits 
 4 -- ft990317_0605_2000G301970M.fits 
 5 -- ft990317_0605_2000G303570M.fits 
Merging binary extension #: 2 
 1 -- ft990317_0605_2000G300170M.fits 
 2 -- ft990317_0605_2000G301170M.fits 
 3 -- ft990317_0605_2000G301370M.fits 
 4 -- ft990317_0605_2000G301970M.fits 
 5 -- ft990317_0605_2000G303570M.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Creating ad27009000g300370l.unf
-> Standard Output From STOOL cmerge:
---- cmerge:  version 1.6 ----

A total of  2  fits files ...... 
Sorting files using KEY: TSTART ... 
Checking GTI overlap in input files ... 
Merging binary extension #: 1 
 1 -- ft990317_0605_2000G304170L.fits 
 2 -- ft990317_0605_2000G304670L.fits 
Merging binary extension #: 2 
 1 -- ft990317_0605_2000G304170L.fits 
 2 -- ft990317_0605_2000G304670L.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Ignoring the following files containing 000000061 events
ft990317_0605_2000G301270M.fits
-> Ignoring the following files containing 000000026 events
ft990317_0605_2000G301770H.fits
-> Ignoring the following files containing 000000025 events
ft990317_0605_2000G304070L.fits
ft990317_0605_2000G304570L.fits
-> Ignoring the following files containing 000000016 events
ft990317_0605_2000G300770H.fits
ft990317_0605_2000G300970H.fits
-> Ignoring the following files containing 000000015 events
ft990317_0605_2000G301570H.fits
ft990317_0605_2000G302570H.fits
-> Ignoring the following files containing 000000012 events
ft990317_0605_2000G303370H.fits
ft990317_0605_2000G305570H.fits
ft990317_0605_2000G306470H.fits
ft990317_0605_2000G307370H.fits
-> Ignoring the following files containing 000000009 events
ft990317_0605_2000G303270H.fits
ft990317_0605_2000G306370H.fits
ft990317_0605_2000G307270H.fits
-> Ignoring the following files containing 000000004 events
ft990317_0605_2000G307670H.fits
-> Ignoring the following files containing 000000004 events
ft990317_0605_2000G305370H.fits
ft990317_0605_2000G306270H.fits
-> Ignoring the following files containing 000000004 events
ft990317_0605_2000G308170H.fits
-> Ignoring the following files containing 000000003 events
ft990317_0605_2000G300370H.fits
-> Ignoring the following files containing 000000003 events
ft990317_0605_2000G300570H.fits
-> Ignoring the following files containing 000000003 events
ft990317_0605_2000G307570H.fits
-> Ignoring the following files containing 000000003 events
ft990317_0605_2000G302370H.fits
-> Ignoring the following files containing 000000001 events
ft990317_0605_2000G302170H.fits
-> Ignoring the following files containing 000000001 events
ft990317_0605_2000G308470H.fits
-> Collecting SIS0 event files by mode
-> Standard Error Output From STOOL sis0sortcode:
SIS0SORTCODE:LO:Start program
SIS0SORTCODE:LO:End program
-> Standard Error Output From STOOL sis0sortsplit:
SIS0SORTSPLIT:LO:Start program
SIS0SORTSPLIT:LO:s000101h.prelist merge count = 1 photon cnt = 198
SIS0SORTSPLIT:LO:s000201h.prelist merge count = 1 photon cnt = 2304
SIS0SORTSPLIT:LO:s000301h.prelist merge count = 1 photon cnt = 226
SIS0SORTSPLIT:LO:s000401h.prelist merge count = 11 photon cnt = 810563
SIS0SORTSPLIT:LO:s000501h.prelist merge count = 6 photon cnt = 97150
SIS0SORTSPLIT:LO:s000601h.prelist merge count = 1 photon cnt = 255
SIS0SORTSPLIT:LO:s000701h.prelist merge count = 1 photon cnt = 256
SIS0SORTSPLIT:LO:s000801h.prelist merge count = 1 photon cnt = 256
SIS0SORTSPLIT:LO:s000901l.prelist merge count = 4 photon cnt = 2752
SIS0SORTSPLIT:LO:s001001l.prelist merge count = 2 photon cnt = 2967
SIS0SORTSPLIT:LO:s001101l.prelist merge count = 2 photon cnt = 112
SIS0SORTSPLIT:LO:s001201m.prelist merge count = 8 photon cnt = 5009
SIS0SORTSPLIT:LO:s001301m.prelist merge count = 5 photon cnt = 464
SIS0SORTSPLIT:LO:s001401m.prelist merge count = 3 photon cnt = 28160
SIS0SORTSPLIT:LO:s001501m.prelist merge count = 5 photon cnt = 3425
SIS0SORTSPLIT:LO:s001601m.prelist merge count = 3 photon cnt = 475
SIS0SORTSPLIT:LO:s001701m.prelist merge count = 3 photon cnt = 13064
SIS0SORTSPLIT:LO:s001801m.prelist merge count = 2 photon cnt = 35
SIS0SORTSPLIT:LO:Total filenames split = 60
SIS0SORTSPLIT:LO:Total split file cnt = 18
SIS0SORTSPLIT:LO:End program
-> Creating ad27009000s000101h.unf
-> Standard Output From STOOL cmerge:
---- cmerge:  version 1.6 ----

A total of  11  fits files ...... 
Sorting files using KEY: TSTART ... 
Checking GTI overlap in input files ... 
Merging binary extension #: 1 
 1 -- ft990317_0605_2000S000201H.fits 
 2 -- ft990317_0605_2000S000601H.fits 
 3 -- ft990317_0605_2000S000801H.fits 
 4 -- ft990317_0605_2000S001601H.fits 
 5 -- ft990317_0605_2000S001801H.fits 
 6 -- ft990317_0605_2000S002801H.fits 
 7 -- ft990317_0605_2000S003401H.fits 
 8 -- ft990317_0605_2000S004001H.fits 
 9 -- ft990317_0605_2000S004801H.fits 
 10 -- ft990317_0605_2000S005601H.fits 
 11 -- ft990317_0605_2000S006401H.fits 
Merging binary extension #: 2 
 1 -- ft990317_0605_2000S000201H.fits 
 2 -- ft990317_0605_2000S000601H.fits 
 3 -- ft990317_0605_2000S000801H.fits 
 4 -- ft990317_0605_2000S001601H.fits 
 5 -- ft990317_0605_2000S001801H.fits 
 6 -- ft990317_0605_2000S002801H.fits 
 7 -- ft990317_0605_2000S003401H.fits 
 8 -- ft990317_0605_2000S004001H.fits 
 9 -- ft990317_0605_2000S004801H.fits 
 10 -- ft990317_0605_2000S005601H.fits 
 11 -- ft990317_0605_2000S006401H.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Creating ad27009000s000201h.unf
-> Standard Output From STOOL cmerge:
---- cmerge:  version 1.6 ----

A total of  6  fits files ...... 
Sorting files using KEY: TSTART ... 
Checking GTI overlap in input files ... 
Merging binary extension #: 1 
 1 -- ft990317_0605_2000S000301H.fits 
 2 -- ft990317_0605_2000S000901H.fits 
 3 -- ft990317_0605_2000S001301H.fits 
 4 -- ft990317_0605_2000S002501H.fits 
 5 -- ft990317_0605_2000S004701H.fits 
 6 -- ft990317_0605_2000S006501H.fits 
Merging binary extension #: 2 
 1 -- ft990317_0605_2000S000301H.fits 
 2 -- ft990317_0605_2000S000901H.fits 
 3 -- ft990317_0605_2000S001301H.fits 
 4 -- ft990317_0605_2000S002501H.fits 
 5 -- ft990317_0605_2000S004701H.fits 
 6 -- ft990317_0605_2000S006501H.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Creating ad27009000s000301m.unf
-> Standard Output From STOOL cmerge:
---- cmerge:  version 1.6 ----

A total of  3  fits files ...... 
Sorting files using KEY: TSTART ... 
Checking GTI overlap in input files ... 
Merging binary extension #: 1 
 1 -- ft990317_0605_2000S000501M.fits 
 2 -- ft990317_0605_2000S001501M.fits 
 3 -- ft990317_0605_2000S002701M.fits 
Merging binary extension #: 2 
 1 -- ft990317_0605_2000S000501M.fits 
 2 -- ft990317_0605_2000S001501M.fits 
 3 -- ft990317_0605_2000S002701M.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Creating ad27009000s000401m.unf
-> Standard Output From STOOL cmerge:
---- cmerge:  version 1.6 ----

A total of  3  fits files ...... 
Sorting files using KEY: TSTART ... 
Checking GTI overlap in input files ... 
Merging binary extension #: 1 
 1 -- ft990317_0605_2000S000401M.fits 
 2 -- ft990317_0605_2000S001401M.fits 
 3 -- ft990317_0605_2000S002601M.fits 
Merging binary extension #: 2 
 1 -- ft990317_0605_2000S000401M.fits 
 2 -- ft990317_0605_2000S001401M.fits 
 3 -- ft990317_0605_2000S002601M.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Creating ad27009000s000501m.unf
-> Standard Output From STOOL cmerge:
---- cmerge:  version 1.6 ----

A total of  8  fits files ...... 
Sorting files using KEY: TSTART ... 
Checking GTI overlap in input files ... 
Merging binary extension #: 1 
 1 -- ft990317_0605_2000S000101M.fits 
 2 -- ft990317_0605_2000S002001M.fits 
 3 -- ft990317_0605_2000S002201M.fits 
 4 -- ft990317_0605_2000S004201M.fits 
 5 -- ft990317_0605_2000S005001M.fits 
 6 -- ft990317_0605_2000S005401M.fits 
 7 -- ft990317_0605_2000S005801M.fits 
 8 -- ft990317_0605_2000S006201M.fits 
Merging binary extension #: 2 
 1 -- ft990317_0605_2000S000101M.fits 
 2 -- ft990317_0605_2000S002001M.fits 
 3 -- ft990317_0605_2000S002201M.fits 
 4 -- ft990317_0605_2000S004201M.fits 
 5 -- ft990317_0605_2000S005001M.fits 
 6 -- ft990317_0605_2000S005401M.fits 
 7 -- ft990317_0605_2000S005801M.fits 
 8 -- ft990317_0605_2000S006201M.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Creating ad27009000s000601m.unf
-> Standard Output From STOOL cmerge:
---- cmerge:  version 1.6 ----

A total of  5  fits files ...... 
Sorting files using KEY: TSTART ... 
Checking GTI overlap in input files ... 
Merging binary extension #: 1 
 1 -- ft990317_0605_2000S002301M.fits 
 2 -- ft990317_0605_2000S004501M.fits 
 3 -- ft990317_0605_2000S005301M.fits 
 4 -- ft990317_0605_2000S006101M.fits 
 5 -- ft990317_0605_2000S006701M.fits 
Merging binary extension #: 2 
 1 -- ft990317_0605_2000S002301M.fits 
 2 -- ft990317_0605_2000S004501M.fits 
 3 -- ft990317_0605_2000S005301M.fits 
 4 -- ft990317_0605_2000S006101M.fits 
 5 -- ft990317_0605_2000S006701M.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Creating ad27009000s000701l.unf
-> Standard Output From STOOL cmerge:
---- cmerge:  version 1.6 ----

A total of  2  fits files ...... 
Sorting files using KEY: TSTART ... 
Checking GTI overlap in input files ... 
Merging binary extension #: 1 
 1 -- ft990317_0605_2000S003201L.fits 
 2 -- ft990317_0605_2000S003801L.fits 
Merging binary extension #: 2 
 1 -- ft990317_0605_2000S003201L.fits 
 2 -- ft990317_0605_2000S003801L.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Creating ad27009000s000801l.unf
-> Standard Output From STOOL cmerge:
---- cmerge:  version 1.6 ----

A total of  4  fits files ...... 
Sorting files using KEY: TSTART ... 
Checking GTI overlap in input files ... 
Merging binary extension #: 1 
 1 -- ft990317_0605_2000S002901L.fits 
 2 -- ft990317_0605_2000S003301L.fits 
 3 -- ft990317_0605_2000S003501L.fits 
 4 -- ft990317_0605_2000S003901L.fits 
Merging binary extension #: 2 
 1 -- ft990317_0605_2000S002901L.fits 
 2 -- ft990317_0605_2000S003301L.fits 
 3 -- ft990317_0605_2000S003501L.fits 
 4 -- ft990317_0605_2000S003901L.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Checking ft990317_0605_2000S004901H.fits
-> Creating ad27009000s000901h.unf
-> Standard Output From STOOL cmerge:
---- cmerge:  version 1.6 ----

A total of  1  fits files ...... 
Sorting files using KEY: TSTART ... 
Checking GTI overlap in input files ... 
Merging binary extension #: 1 
 1 -- ft990317_0605_2000S004901H.fits 
Merging binary extension #: 2 
 1 -- ft990317_0605_2000S004901H.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Ignoring the following files containing 000000475 events
ft990317_0605_2000S002401M.fits
ft990317_0605_2000S004601M.fits
ft990317_0605_2000S006601M.fits
-> Ignoring the following files containing 000000464 events
ft990317_0605_2000S001901M.fits
ft990317_0605_2000S004101M.fits
ft990317_0605_2000S005501M.fits
ft990317_0605_2000S005701M.fits
ft990317_0605_2000S006301M.fits
-> Ignoring the following files containing 000000256 events
ft990317_0605_2000S001101H.fits
-> Ignoring the following files containing 000000256 events
ft990317_0605_2000S001201H.fits
-> Ignoring the following files containing 000000255 events
ft990317_0605_2000S001001H.fits
-> Ignoring the following files containing 000000226 events
ft990317_0605_2000S000701H.fits
-> Ignoring the following files containing 000000198 events
ft990317_0605_2000S001701H.fits
-> Ignoring the following files containing 000000112 events
ft990317_0605_2000S003101L.fits
ft990317_0605_2000S003701L.fits
-> Ignoring the following files containing 000000035 events
ft990317_0605_2000S002101M.fits
ft990317_0605_2000S005901M.fits
-> Collecting SIS1 event files by mode
-> Standard Error Output From STOOL sis1sortcode:
SIS1SORTCODE:LO:Start program
SIS1SORTCODE:LO:End program
-> Standard Error Output From STOOL sis1sortsplit:
SIS1SORTSPLIT:LO:Start program
SIS1SORTSPLIT:LO:s100101h.prelist merge count = 1 photon cnt = 246
SIS1SORTSPLIT:LO:s100201h.prelist merge count = 1 photon cnt = 2304
SIS1SORTSPLIT:LO:s100301h.prelist merge count = 5 photon cnt = 284
SIS1SORTSPLIT:LO:s100401h.prelist merge count = 12 photon cnt = 1492301
SIS1SORTSPLIT:LO:s100501h.prelist merge count = 1 photon cnt = 389
SIS1SORTSPLIT:LO:s100601l.prelist merge count = 4 photon cnt = 5823
SIS1SORTSPLIT:LO:s100701l.prelist merge count = 2 photon cnt = 112
SIS1SORTSPLIT:LO:s100801m.prelist merge count = 10 photon cnt = 11557
SIS1SORTSPLIT:LO:s100901m.prelist merge count = 1 photon cnt = 32
SIS1SORTSPLIT:LO:s101001m.prelist merge count = 8 photon cnt = 1163
SIS1SORTSPLIT:LO:s101101m.prelist merge count = 7 photon cnt = 41854
SIS1SORTSPLIT:LO:s101201m.prelist merge count = 2 photon cnt = 48
SIS1SORTSPLIT:LO:Total filenames split = 54
SIS1SORTSPLIT:LO:Total split file cnt = 12
SIS1SORTSPLIT:LO:End program
-> Creating ad27009000s100101h.unf
-> Standard Output From STOOL cmerge:
---- cmerge:  version 1.6 ----

A total of  12  fits files ...... 
Sorting files using KEY: TSTART ... 
Checking GTI overlap in input files ... 
Merging binary extension #: 1 
 1 -- ft990317_0605_2000S100301H.fits 
 2 -- ft990317_0605_2000S100501H.fits 
 3 -- ft990317_0605_2000S100701H.fits 
 4 -- ft990317_0605_2000S100901H.fits 
 5 -- ft990317_0605_2000S101701H.fits 
 6 -- ft990317_0605_2000S101901H.fits 
 7 -- ft990317_0605_2000S102101H.fits 
 8 -- ft990317_0605_2000S102501H.fits 
 9 -- ft990317_0605_2000S102901H.fits 
 10 -- ft990317_0605_2000S103701H.fits 
 11 -- ft990317_0605_2000S104501H.fits 
 12 -- ft990317_0605_2000S105301H.fits 
Merging binary extension #: 2 
 1 -- ft990317_0605_2000S100301H.fits 
 2 -- ft990317_0605_2000S100501H.fits 
 3 -- ft990317_0605_2000S100701H.fits 
 4 -- ft990317_0605_2000S100901H.fits 
 5 -- ft990317_0605_2000S101701H.fits 
 6 -- ft990317_0605_2000S101901H.fits 
 7 -- ft990317_0605_2000S102101H.fits 
 8 -- ft990317_0605_2000S102501H.fits 
 9 -- ft990317_0605_2000S102901H.fits 
 10 -- ft990317_0605_2000S103701H.fits 
 11 -- ft990317_0605_2000S104501H.fits 
 12 -- ft990317_0605_2000S105301H.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Creating ad27009000s100201m.unf
-> Standard Output From STOOL cmerge:
---- cmerge:  version 1.6 ----

A total of  7  fits files ...... 
Sorting files using KEY: TSTART ... 
Checking GTI overlap in input files ... 
Merging binary extension #: 1 
 1 -- ft990317_0605_2000S100401M.fits 
 2 -- ft990317_0605_2000S100801M.fits 
 3 -- ft990317_0605_2000S101001M.fits 
 4 -- ft990317_0605_2000S101801M.fits 
 5 -- ft990317_0605_2000S103001M.fits 
 6 -- ft990317_0605_2000S104601M.fits 
 7 -- ft990317_0605_2000S105401M.fits 
Merging binary extension #: 2 
 1 -- ft990317_0605_2000S100401M.fits 
 2 -- ft990317_0605_2000S100801M.fits 
 3 -- ft990317_0605_2000S101001M.fits 
 4 -- ft990317_0605_2000S101801M.fits 
 5 -- ft990317_0605_2000S103001M.fits 
 6 -- ft990317_0605_2000S104601M.fits 
 7 -- ft990317_0605_2000S105401M.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Creating ad27009000s100301m.unf
-> Standard Output From STOOL cmerge:
---- cmerge:  version 1.6 ----

A total of  10  fits files ...... 
Sorting files using KEY: TSTART ... 
Checking GTI overlap in input files ... 
Merging binary extension #: 1 
 1 -- ft990317_0605_2000S100101M.fits 
 2 -- ft990317_0605_2000S101201M.fits 
 3 -- ft990317_0605_2000S101401M.fits 
 4 -- ft990317_0605_2000S103201M.fits 
 5 -- ft990317_0605_2000S103401M.fits 
 6 -- ft990317_0605_2000S104001M.fits 
 7 -- ft990317_0605_2000S104201M.fits 
 8 -- ft990317_0605_2000S104801M.fits 
 9 -- ft990317_0605_2000S105001M.fits 
 10 -- ft990317_0605_2000S105601M.fits 
Merging binary extension #: 2 
 1 -- ft990317_0605_2000S100101M.fits 
 2 -- ft990317_0605_2000S101201M.fits 
 3 -- ft990317_0605_2000S101401M.fits 
 4 -- ft990317_0605_2000S103201M.fits 
 5 -- ft990317_0605_2000S103401M.fits 
 6 -- ft990317_0605_2000S104001M.fits 
 7 -- ft990317_0605_2000S104201M.fits 
 8 -- ft990317_0605_2000S104801M.fits 
 9 -- ft990317_0605_2000S105001M.fits 
 10 -- ft990317_0605_2000S105601M.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Creating ad27009000s100401l.unf
-> Standard Output From STOOL cmerge:
---- cmerge:  version 1.6 ----

A total of  4  fits files ...... 
Sorting files using KEY: TSTART ... 
Checking GTI overlap in input files ... 
Merging binary extension #: 1 
 1 -- ft990317_0605_2000S102201L.fits 
 2 -- ft990317_0605_2000S102401L.fits 
 3 -- ft990317_0605_2000S102601L.fits 
 4 -- ft990317_0605_2000S102801L.fits 
Merging binary extension #: 2 
 1 -- ft990317_0605_2000S102201L.fits 
 2 -- ft990317_0605_2000S102401L.fits 
 3 -- ft990317_0605_2000S102601L.fits 
 4 -- ft990317_0605_2000S102801L.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Checking ft990317_0605_2000S103801H.fits
-> Creating ad27009000s100501h.unf
-> Standard Output From STOOL cmerge:
---- cmerge:  version 1.6 ----

A total of  1  fits files ...... 
Sorting files using KEY: TSTART ... 
Checking GTI overlap in input files ... 
Merging binary extension #: 1 
 1 -- ft990317_0605_2000S103801H.fits 
Merging binary extension #: 2 
 1 -- ft990317_0605_2000S103801H.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Creating ad27009000s100601m.unf
-> Standard Output From STOOL cmerge:
---- cmerge:  version 1.6 ----

A total of  8  fits files ...... 
Sorting files using KEY: TSTART ... 
Checking GTI overlap in input files ... 
Merging binary extension #: 1 
 1 -- ft990317_0605_2000S101101M.fits 
 2 -- ft990317_0605_2000S101501M.fits 
 3 -- ft990317_0605_2000S103101M.fits 
 4 -- ft990317_0605_2000S103501M.fits 
 5 -- ft990317_0605_2000S104301M.fits 
 6 -- ft990317_0605_2000S104701M.fits 
 7 -- ft990317_0605_2000S105101M.fits 
 8 -- ft990317_0605_2000S105501M.fits 
Merging binary extension #: 2 
 1 -- ft990317_0605_2000S101101M.fits 
 2 -- ft990317_0605_2000S101501M.fits 
 3 -- ft990317_0605_2000S103101M.fits 
 4 -- ft990317_0605_2000S103501M.fits 
 5 -- ft990317_0605_2000S104301M.fits 
 6 -- ft990317_0605_2000S104701M.fits 
 7 -- ft990317_0605_2000S105101M.fits 
 8 -- ft990317_0605_2000S105501M.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Ignoring the following files containing 000000389 events
ft990317_0605_2000S100601H.fits
-> Ignoring the following files containing 000000284 events
ft990317_0605_2000S100201H.fits
ft990317_0605_2000S101601H.fits
ft990317_0605_2000S103601H.fits
ft990317_0605_2000S104401H.fits
ft990317_0605_2000S105201H.fits
-> Ignoring the following files containing 000000246 events
ft990317_0605_2000S102001H.fits
-> Ignoring the following files containing 000000112 events
ft990317_0605_2000S102301L.fits
ft990317_0605_2000S102701L.fits
-> Ignoring the following files containing 000000048 events
ft990317_0605_2000S101301M.fits
ft990317_0605_2000S104901M.fits
-> Ignoring the following files containing 000000032 events
ft990317_0605_2000S103901M.fits
-> Tar-ing together the leftover raw files
a ft990317_0605_2000G200570H.fits 31K
a ft990317_0605_2000G200970H.fits 31K
a ft990317_0605_2000G201270M.fits 34K
a ft990317_0605_2000G201570H.fits 31K
a ft990317_0605_2000G202170H.fits 31K
a ft990317_0605_2000G202270H.fits 31K
a ft990317_0605_2000G202370H.fits 31K
a ft990317_0605_2000G202770H.fits 31K
a ft990317_0605_2000G202970H.fits 31K
a ft990317_0605_2000G203470L.fits 31K
a ft990317_0605_2000G203770H.fits 31K
a ft990317_0605_2000G203970L.fits 31K
a ft990317_0605_2000G204770H.fits 31K
a ft990317_0605_2000G204970H.fits 31K
a ft990317_0605_2000G205270H.fits 31K
a ft990317_0605_2000G205670H.fits 31K
a ft990317_0605_2000G205770H.fits 31K
a ft990317_0605_2000G205870H.fits 31K
a ft990317_0605_2000G207370H.fits 31K
a ft990317_0605_2000G207470H.fits 31K
a ft990317_0605_2000G207570H.fits 31K
a ft990317_0605_2000G207670H.fits 31K
a ft990317_0605_2000G300370H.fits 31K
a ft990317_0605_2000G300570H.fits 31K
a ft990317_0605_2000G300770H.fits 31K
a ft990317_0605_2000G300970H.fits 31K
a ft990317_0605_2000G301270M.fits 31K
a ft990317_0605_2000G301570H.fits 31K
a ft990317_0605_2000G301770H.fits 31K
a ft990317_0605_2000G302170H.fits 31K
a ft990317_0605_2000G302370H.fits 31K
a ft990317_0605_2000G302570H.fits 31K
a ft990317_0605_2000G303270H.fits 31K
a ft990317_0605_2000G303370H.fits 31K
a ft990317_0605_2000G304070L.fits 31K
a ft990317_0605_2000G304570L.fits 31K
a ft990317_0605_2000G305370H.fits 31K
a ft990317_0605_2000G305570H.fits 31K
a ft990317_0605_2000G306270H.fits 31K
a ft990317_0605_2000G306370H.fits 31K
a ft990317_0605_2000G306470H.fits 31K
a ft990317_0605_2000G307270H.fits 31K
a ft990317_0605_2000G307370H.fits 31K
a ft990317_0605_2000G307570H.fits 31K
a ft990317_0605_2000G307670H.fits 31K
a ft990317_0605_2000G308170H.fits 31K
a ft990317_0605_2000G308470H.fits 31K
a ft990317_0605_2000S000701H.fits 37K
a ft990317_0605_2000S001001H.fits 37K
a ft990317_0605_2000S001101H.fits 37K
a ft990317_0605_2000S001201H.fits 37K
a ft990317_0605_2000S001701H.fits 34K
a ft990317_0605_2000S001901M.fits 29K
a ft990317_0605_2000S002101M.fits 29K
a ft990317_0605_2000S002401M.fits 34K
a ft990317_0605_2000S003101L.fits 29K
a ft990317_0605_2000S003701L.fits 29K
a ft990317_0605_2000S004101M.fits 34K
a ft990317_0605_2000S004601M.fits 37K
a ft990317_0605_2000S005501M.fits 29K
a ft990317_0605_2000S005701M.fits 31K
a ft990317_0605_2000S005901M.fits 29K
a ft990317_0605_2000S006301M.fits 31K
a ft990317_0605_2000S006601M.fits 29K
a ft990317_0605_2000S100201H.fits 34K
a ft990317_0605_2000S100601H.fits 43K
a ft990317_0605_2000S101301M.fits 29K
a ft990317_0605_2000S101601H.fits 29K
a ft990317_0605_2000S102001H.fits 37K
a ft990317_0605_2000S102301L.fits 29K
a ft990317_0605_2000S102701L.fits 29K
a ft990317_0605_2000S103601H.fits 29K
a ft990317_0605_2000S103901M.fits 29K
a ft990317_0605_2000S104401H.fits 29K
a ft990317_0605_2000S104901M.fits 29K
a ft990317_0605_2000S105201H.fits 29K
-> Checking OBJECT keywords in HK and event files

Converting FAINT mode files to BRIGHT and BRIGHT2 modes ( 20:34:54 )

-> Split threshold for SIS0=40, and SIS1=40
-> Fetching faintdfe.tbl
-> Calculating DFE values for ad27009000s000101h.unf with zerodef=1
-> Converting ad27009000s000101h.unf to ad27009000s000112h.unf
-> Calculating DFE values for ad27009000s000101h.unf with zerodef=2
-> Converting ad27009000s000101h.unf to ad27009000s000102h.unf
-> Calculating DFE values for ad27009000s000201h.unf with zerodef=1
-> Converting ad27009000s000201h.unf to ad27009000s000212h.unf
-> Calculating DFE values for ad27009000s000201h.unf with zerodef=2
-> Converting ad27009000s000201h.unf to ad27009000s000202h.unf
-> Calculating DFE values for ad27009000s000301m.unf with zerodef=1
-> Converting ad27009000s000301m.unf to ad27009000s000312m.unf
-> Calculating DFE values for ad27009000s000301m.unf with zerodef=2
-> Converting ad27009000s000301m.unf to ad27009000s000302m.unf
-> Calculating DFE values for ad27009000s000401m.unf with zerodef=1
-> Converting ad27009000s000401m.unf to ad27009000s000412m.unf
-> Calculating DFE values for ad27009000s000401m.unf with zerodef=2
-> Converting ad27009000s000401m.unf to ad27009000s000402m.unf
-> Calculating DFE values for ad27009000s000501m.unf with zerodef=1
-> Converting ad27009000s000501m.unf to ad27009000s000512m.unf
-> Calculating DFE values for ad27009000s000501m.unf with zerodef=2
-> Converting ad27009000s000501m.unf to ad27009000s000502m.unf
-> Calculating DFE values for ad27009000s000601m.unf with zerodef=1
-> Converting ad27009000s000601m.unf to ad27009000s000612m.unf
-> Removing ad27009000s000612m.unf since it only has 950 events
-> Calculating DFE values for ad27009000s000601m.unf with zerodef=2
-> Converting ad27009000s000601m.unf to ad27009000s000602m.unf
-> Removing ad27009000s000602m.unf since it only has 928 events
-> Calculating DFE values for ad27009000s000701l.unf with zerodef=1
-> Converting ad27009000s000701l.unf to ad27009000s000712l.unf
-> Removing ad27009000s000712l.unf since it only has 462 events
-> Calculating DFE values for ad27009000s000701l.unf with zerodef=2
-> Converting ad27009000s000701l.unf to ad27009000s000702l.unf
-> Removing ad27009000s000702l.unf since it only has 400 events
-> Calculating DFE values for ad27009000s000801l.unf with zerodef=1
-> Converting ad27009000s000801l.unf to ad27009000s000812l.unf
-> Calculating DFE values for ad27009000s000801l.unf with zerodef=2
-> Converting ad27009000s000801l.unf to ad27009000s000802l.unf
-> Calculating DFE values for ad27009000s000901h.unf with zerodef=1
-> Converting ad27009000s000901h.unf to ad27009000s000912h.unf
-> Removing ad27009000s000912h.unf since it only has 16 events
-> Calculating DFE values for ad27009000s000901h.unf with zerodef=2
-> Converting ad27009000s000901h.unf to ad27009000s000902h.unf
-> Removing ad27009000s000902h.unf since it only has 16 events
-> Calculating DFE values for ad27009000s100101h.unf with zerodef=1
-> Converting ad27009000s100101h.unf to ad27009000s100112h.unf
-> Calculating DFE values for ad27009000s100101h.unf with zerodef=2
-> Converting ad27009000s100101h.unf to ad27009000s100102h.unf
-> Calculating DFE values for ad27009000s100201m.unf with zerodef=1
-> Converting ad27009000s100201m.unf to ad27009000s100212m.unf
-> Calculating DFE values for ad27009000s100201m.unf with zerodef=2
-> Converting ad27009000s100201m.unf to ad27009000s100202m.unf
-> Calculating DFE values for ad27009000s100301m.unf with zerodef=1
-> Converting ad27009000s100301m.unf to ad27009000s100312m.unf
-> Calculating DFE values for ad27009000s100301m.unf with zerodef=2
-> Converting ad27009000s100301m.unf to ad27009000s100302m.unf
-> Calculating DFE values for ad27009000s100401l.unf with zerodef=1
-> Converting ad27009000s100401l.unf to ad27009000s100412l.unf
-> Calculating DFE values for ad27009000s100401l.unf with zerodef=2
-> Converting ad27009000s100401l.unf to ad27009000s100402l.unf
-> Calculating DFE values for ad27009000s100501h.unf with zerodef=1
-> Converting ad27009000s100501h.unf to ad27009000s100512h.unf
-> Removing ad27009000s100512h.unf since it only has 44 events
-> Calculating DFE values for ad27009000s100501h.unf with zerodef=2
-> Converting ad27009000s100501h.unf to ad27009000s100502h.unf
-> Removing ad27009000s100502h.unf since it only has 43 events
-> Calculating DFE values for ad27009000s100601m.unf with zerodef=1
-> Converting ad27009000s100601m.unf to ad27009000s100612m.unf
-> Removing ad27009000s100612m.unf since it only has 474 events
-> Calculating DFE values for ad27009000s100601m.unf with zerodef=2
-> Converting ad27009000s100601m.unf to ad27009000s100602m.unf
-> Removing ad27009000s100602m.unf since it only has 460 events

Creating GIS gain history file ( 20:54:21 )

-> Fetching gis_temp2gain.fits
-> leapsec.fits already present in current directory
-> Creating gain history file ft990317_0605_2000.ghf
-> Output from ISAS program temp2gain
temp2gain v4.3
'ft990317_0605.2000' is successfully opened
Data Start Time is 195804314.34 (19990317 060510)
Time Margin 2.0 sec included
Sync error detected in 192 th SF
Sync error detected in 200 th SF
Sync error detected in 306 th SF
Sync error detected in 368 th SF
Sync error detected in 445 th SF
Sync error detected in 577 th SF
Sync error detected in 601 th SF
Sync error detected in 608 th SF
Sync error detected in 628 th SF
Sync error detected in 756 th SF
Sync error detected in 763 th SF
Sync error detected in 813 th SF
Sync error detected in 1078 th SF
Sync error detected in 1217 th SF
Sync error detected in 1260 th SF
Sync error detected in 1345 th SF
Sync error detected in 1502 th SF
Sync error detected in 1543 th SF
Sync error detected in 1614 th SF
Sync error detected in 1746 th SF
Sync error detected in 1813 th SF
Sync error detected in 1877 th SF
Sync error detected in 2998 th SF
Sync error detected in 3004 th SF
Sync error detected in 3051 th SF
Sync error detected in 3052 th SF
Sync error detected in 3053 th SF
Sync error detected in 3054 th SF
Sync error detected in 3055 th SF
Sync error detected in 3056 th SF
Sync error detected in 3057 th SF
Sync error detected in 3061 th SF
Sync error detected in 3091 th SF
Sync error detected in 3092 th SF
Sync error detected in 3093 th SF
Sync error detected in 3095 th SF
Sync error detected in 3132 th SF
Sync error detected in 3134 th SF
Sync error detected in 3135 th SF
Sync error detected in 3137 th SF
Sync error detected in 3140 th SF
Sync error detected in 3141 th SF
Sync error detected in 3143 th SF
Sync error detected in 3147 th SF
Sync error detected in 3194 th SF
Sync error detected in 3196 th SF
Sync error detected in 3759 th SF
Sync error detected in 3760 th SF
Sync error detected in 3765 th SF
Sync error detected in 3768 th SF
Sync error detected in 4832 th SF
Sync error detected in 4876 th SF
Sync error detected in 4930 th SF
Sync error detected in 4936 th SF
Sync error detected in 14268 th SF
'ft990317_0605.2000' EOF detected, sf=15413
Data End Time is 195854446.18 (19990317 200042)
Gain History is written in ft990317_0605_2000.ghf
-> Stdout output from ISAS program temp2gain
leapsec FITS data was successfully read
-> Checking if column CAL_START in ft990317_0605_2000.ghf[1] is in order
-> Standard Output From FTOOL cktime:
 
Time column is TIME ORDERED
-> Checking if column CAL_STOP in ft990317_0605_2000.ghf[1] is in order
-> Standard Output From FTOOL cktime:
 
Time column is TIME ORDERED
-> Calculating attitude correction from ft990317_0605_2000CMHK.fits
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   50581.000
 The mean of the selected column is                  99.178431
 The standard deviation of the selected column is    2.0670313
 The minimum of selected column is                   96.000000
 The maximum of selected column is                   108.00000
 The number of points used in calculation is              510
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   50260.000
 The mean of the selected column is                  99.132150
 The standard deviation of the selected column is    1.9822064
 The minimum of selected column is                   96.000000
 The maximum of selected column is                   105.00000
 The number of points used in calculation is              507

Running ASCALIN on unfiltered event files ( 20:56:52 )

-> Checking if ad27009000g200170h.unf is covered by attitude file
-> Running ascalin on ad27009000g200170h.unf
-> Fetching gis2_ano_on_flf_180295.fits
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000g200270m.unf is covered by attitude file
-> Running ascalin on ad27009000g200270m.unf
-> gis2_ano_on_flf_180295.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000g200370l.unf is covered by attitude file
-> Running ascalin on ad27009000g200370l.unf
-> gis2_ano_on_flf_180295.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000g300170h.unf is covered by attitude file
-> Running ascalin on ad27009000g300170h.unf
-> Fetching gis3_ano_on_flf_180295.fits
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000g300270m.unf is covered by attitude file
-> Running ascalin on ad27009000g300270m.unf
-> gis3_ano_on_flf_180295.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000g300370l.unf is covered by attitude file
-> Running ascalin on ad27009000g300370l.unf
-> gis3_ano_on_flf_180295.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000s000101h.unf is covered by attitude file
-> Running ascalin on ad27009000s000101h.unf
-> Fetching sisph2pi_110397.fits
-> Fetching s0_teldef_ascalin.fits
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000s000102h.unf is covered by attitude file
-> Running ascalin on ad27009000s000102h.unf
-> sisph2pi_110397.fits already present in current directory
-> s0_teldef_ascalin.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000s000112h.unf is covered by attitude file
-> Running ascalin on ad27009000s000112h.unf
-> sisph2pi_110397.fits already present in current directory
-> s0_teldef_ascalin.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000s000201h.unf is covered by attitude file
-> Running ascalin on ad27009000s000201h.unf
-> sisph2pi_110397.fits already present in current directory
-> s0_teldef_ascalin.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000s000202h.unf is covered by attitude file
-> Running ascalin on ad27009000s000202h.unf
-> sisph2pi_110397.fits already present in current directory
-> s0_teldef_ascalin.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000s000212h.unf is covered by attitude file
-> Running ascalin on ad27009000s000212h.unf
-> sisph2pi_110397.fits already present in current directory
-> s0_teldef_ascalin.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000s000301m.unf is covered by attitude file
-> Running ascalin on ad27009000s000301m.unf
-> sisph2pi_110397.fits already present in current directory
-> s0_teldef_ascalin.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000s000302m.unf is covered by attitude file
-> Running ascalin on ad27009000s000302m.unf
-> sisph2pi_110397.fits already present in current directory
-> s0_teldef_ascalin.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000s000312m.unf is covered by attitude file
-> Running ascalin on ad27009000s000312m.unf
-> sisph2pi_110397.fits already present in current directory
-> s0_teldef_ascalin.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000s000401m.unf is covered by attitude file
-> Running ascalin on ad27009000s000401m.unf
-> sisph2pi_110397.fits already present in current directory
-> s0_teldef_ascalin.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000s000402m.unf is covered by attitude file
-> Running ascalin on ad27009000s000402m.unf
-> sisph2pi_110397.fits already present in current directory
-> s0_teldef_ascalin.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000s000412m.unf is covered by attitude file
-> Running ascalin on ad27009000s000412m.unf
-> sisph2pi_110397.fits already present in current directory
-> s0_teldef_ascalin.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000s000501m.unf is covered by attitude file
-> Running ascalin on ad27009000s000501m.unf
-> sisph2pi_110397.fits already present in current directory
-> s0_teldef_ascalin.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000s000502m.unf is covered by attitude file
-> Running ascalin on ad27009000s000502m.unf
-> sisph2pi_110397.fits already present in current directory
-> s0_teldef_ascalin.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000s000512m.unf is covered by attitude file
-> Running ascalin on ad27009000s000512m.unf
-> sisph2pi_110397.fits already present in current directory
-> s0_teldef_ascalin.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000s000601m.unf is covered by attitude file
-> Running ascalin on ad27009000s000601m.unf
-> sisph2pi_110397.fits already present in current directory
-> s0_teldef_ascalin.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000s000701l.unf is covered by attitude file
-> Running ascalin on ad27009000s000701l.unf
-> sisph2pi_110397.fits already present in current directory
-> s0_teldef_ascalin.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000s000801l.unf is covered by attitude file
-> Running ascalin on ad27009000s000801l.unf
-> sisph2pi_110397.fits already present in current directory
-> s0_teldef_ascalin.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000s000802l.unf is covered by attitude file
-> Running ascalin on ad27009000s000802l.unf
-> sisph2pi_110397.fits already present in current directory
-> s0_teldef_ascalin.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000s000812l.unf is covered by attitude file
-> Running ascalin on ad27009000s000812l.unf
-> sisph2pi_110397.fits already present in current directory
-> s0_teldef_ascalin.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000s000901h.unf is covered by attitude file
-> Running ascalin on ad27009000s000901h.unf
-> sisph2pi_110397.fits already present in current directory
-> s0_teldef_ascalin.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000s100101h.unf is covered by attitude file
-> Running ascalin on ad27009000s100101h.unf
-> sisph2pi_110397.fits already present in current directory
-> Fetching s1_teldef_ascalin.fits
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000s100102h.unf is covered by attitude file
-> Running ascalin on ad27009000s100102h.unf
-> sisph2pi_110397.fits already present in current directory
-> s1_teldef_ascalin.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000s100112h.unf is covered by attitude file
-> Running ascalin on ad27009000s100112h.unf
-> sisph2pi_110397.fits already present in current directory
-> s1_teldef_ascalin.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000s100201m.unf is covered by attitude file
-> Running ascalin on ad27009000s100201m.unf
-> sisph2pi_110397.fits already present in current directory
-> s1_teldef_ascalin.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000s100202m.unf is covered by attitude file
-> Running ascalin on ad27009000s100202m.unf
-> sisph2pi_110397.fits already present in current directory
-> s1_teldef_ascalin.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000s100212m.unf is covered by attitude file
-> Running ascalin on ad27009000s100212m.unf
-> sisph2pi_110397.fits already present in current directory
-> s1_teldef_ascalin.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000s100301m.unf is covered by attitude file
-> Running ascalin on ad27009000s100301m.unf
-> sisph2pi_110397.fits already present in current directory
-> s1_teldef_ascalin.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000s100302m.unf is covered by attitude file
-> Running ascalin on ad27009000s100302m.unf
-> sisph2pi_110397.fits already present in current directory
-> s1_teldef_ascalin.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000s100312m.unf is covered by attitude file
-> Running ascalin on ad27009000s100312m.unf
-> sisph2pi_110397.fits already present in current directory
-> s1_teldef_ascalin.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000s100401l.unf is covered by attitude file
-> Running ascalin on ad27009000s100401l.unf
-> sisph2pi_110397.fits already present in current directory
-> s1_teldef_ascalin.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000s100402l.unf is covered by attitude file
-> Running ascalin on ad27009000s100402l.unf
-> sisph2pi_110397.fits already present in current directory
-> s1_teldef_ascalin.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000s100412l.unf is covered by attitude file
-> Running ascalin on ad27009000s100412l.unf
-> sisph2pi_110397.fits already present in current directory
-> s1_teldef_ascalin.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000s100501h.unf is covered by attitude file
-> Running ascalin on ad27009000s100501h.unf
-> sisph2pi_110397.fits already present in current directory
-> s1_teldef_ascalin.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad27009000s100601m.unf is covered by attitude file
-> Running ascalin on ad27009000s100601m.unf
-> sisph2pi_110397.fits already present in current directory
-> s1_teldef_ascalin.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)

Creating filter files ( 21:34:29 )

-> Fetching rigidity.data.1.23
-> leapsec.fits already present in current directory
-> Making filter file ft990317_0605_2000.mkf
-> Standard Output From FTOOL mkfilter2:
 
S0-HK file: ft990317_0605_2000S0HK.fits

S1-HK file: ft990317_0605_2000S1HK.fits

G2-HK file: ft990317_0605_2000G2HK.fits

G3-HK file: ft990317_0605_2000G3HK.fits

Date and time are: 1999-03-17 06:03:56  mjd=51254.252735

Orbit file name is ./frf.orbit.240v2

Epoch of Orbital Elements: 1999-03-15 21:59:59

Rigidity Data File: ./rigidity.data.1.23

Attitude FRF: fa990317_0605.2000

output FITS File: ft990317_0605_2000.mkf

mkfilter2: Warning, faQparam error: time= 1.958042523370e+08 outside range of attitude file

           Euler angles undefined for this bin

mkfilter2: Warning, faQparam error: time= 1.958042843370e+08 outside range of attitude file

           Euler angles undefined for this bin

Total 1569 Data bins were processed.

-> Checking if column TIME in ft990317_0605_2000.mkf is in order
-> Standard Output From FTOOL cktime:
 
Time column is TIME ORDERED
-> Calculating dead time values for filter file
-> Putting dark frame errors into filter files
-> Plotting quantities from ft990317_0605_2000.mkf

Cleaning and filtering the unfiltered event files ( 21:50:56 )

-> Skipping ad27009000s000101h.unf because of mode
-> Filtering ad27009000s000102h.unf into ad27009000s000102h.evt
-> Calculating statistics for S0_PIXL0
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   70011.169
 The mean of the selected column is                  117.66583
 The standard deviation of the selected column is    26.426021
 The minimum of selected column is                   34.421978
 The maximum of selected column is                   371.71991
 The number of points used in calculation is              595
-> Calculating statistics for S0_PIXL1
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   55339.034
 The mean of the selected column is                  92.850728
 The standard deviation of the selected column is    25.690333
 The minimum of selected column is                   23.766354
 The maximum of selected column is                   407.62628
 The number of points used in calculation is              596
-> Calculating statistics for S0_PIXL2
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   63105.782
 The mean of the selected column is                  106.41785
 The standard deviation of the selected column is    46.002696
 The minimum of selected column is                   19.550060
 The maximum of selected column is                   561.00177
 The number of points used in calculation is              593
-> Calculating statistics for S0_PIXL3
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   61082.417
 The mean of the selected column is                  102.48728
 The standard deviation of the selected column is    34.445688
 The minimum of selected column is                   27.386141
 The maximum of selected column is                   543.50171
 The number of points used in calculation is              596
-> Using the following selection criteria:
(SAA==0)
&&(BR_EARTH>20)
&&(ELV>10)
&&(COR>6)
&&(ACS==0)
&&(ANG_DIST>0)&& (ANG_DIST<0.01)
&&(FOV==0)
&&
(
(S0_PIXL0>38.3 && S0_PIXL0<196.9 )&&
(S0_PIXL1>15.7 && S0_PIXL1<169.9 )&&
(S0_PIXL2>0 && S0_PIXL2<244.4 )&&
(S0_PIXL3>0 && S0_PIXL3<205.8 )  )
&&(  (S0_SATF0<1)
   ||(S0_SATF0>1))
&&(  (S0_SATF1<1)
   ||(S0_SATF1>1))
&&(  (S0_SATF2<1)
   ||(S0_SATF2>1))
&&(  (S0_SATF3<1)
   ||(S0_SATF3>1))
&&((T_DY_NT<0)||(T_DY_NT>64))
&&((T_SAA  <0)||(T_SAA  >64))
-> Filtering ad27009000s000112h.unf into ad27009000s000112h.evt
-> Calculating statistics for S0_PIXL0
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   70011.169
 The mean of the selected column is                  117.66583
 The standard deviation of the selected column is    26.426021
 The minimum of selected column is                   34.421978
 The maximum of selected column is                   371.71991
 The number of points used in calculation is              595
-> Calculating statistics for S0_PIXL1
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   55339.034
 The mean of the selected column is                  92.850728
 The standard deviation of the selected column is    25.690333
 The minimum of selected column is                   23.766354
 The maximum of selected column is                   407.62628
 The number of points used in calculation is              596
-> Calculating statistics for S0_PIXL2
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   63105.782
 The mean of the selected column is                  106.41785
 The standard deviation of the selected column is    46.002696
 The minimum of selected column is                   19.550060
 The maximum of selected column is                   561.00177
 The number of points used in calculation is              593
-> Calculating statistics for S0_PIXL3
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   61082.417
 The mean of the selected column is                  102.48728
 The standard deviation of the selected column is    34.445688
 The minimum of selected column is                   27.386141
 The maximum of selected column is                   543.50171
 The number of points used in calculation is              596
-> Using the following selection criteria:
(SAA==0)
&&(BR_EARTH>20)
&&(ELV>10)
&&(COR>6)
&&(ACS==0)
&&(ANG_DIST>0)&& (ANG_DIST<0.01)
&&(FOV==0)
&&
(
(S0_PIXL0>38.3 && S0_PIXL0<196.9 )&&
(S0_PIXL1>15.7 && S0_PIXL1<169.9 )&&
(S0_PIXL2>0 && S0_PIXL2<244.4 )&&
(S0_PIXL3>0 && S0_PIXL3<205.8 )  )
&&(  (S0_SATF0<1)
   ||(S0_SATF0>1))
&&(  (S0_SATF1<1)
   ||(S0_SATF1>1))
&&(  (S0_SATF2<1)
   ||(S0_SATF2>1))
&&(  (S0_SATF3<1)
   ||(S0_SATF3>1))
&&((T_DY_NT<0)||(T_DY_NT>64))
&&((T_SAA  <0)||(T_SAA  >64))
-> Skipping ad27009000s000201h.unf because of mode
-> Filtering ad27009000s000202h.unf into ad27009000s000202h.evt
-> Calculating statistics for S0_PIXL0
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   757.43990
 The mean of the selected column is                  189.35997
 The standard deviation of the selected column is    26.635310
 The minimum of selected column is                   149.84422
 The maximum of selected column is                   207.37566
 The number of points used in calculation is                4
-> Calculating statistics for S0_PIXL1
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   516.15788
 The mean of the selected column is                  129.03947
 The standard deviation of the selected column is    18.188762
 The minimum of selected column is                   115.03162
 The maximum of selected column is                   155.18799
 The number of points used in calculation is                4
-> Calculating statistics for S0_PIXL2
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   876.19026
 The mean of the selected column is                  219.04757
 The standard deviation of the selected column is    40.327179
 The minimum of selected column is                   164.34427
 The maximum of selected column is                   250.50079
 The number of points used in calculation is                4
-> Calculating statistics for S0_PIXL3
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   584.47061
 The mean of the selected column is                  146.11765
 The standard deviation of the selected column is    21.592882
 The minimum of selected column is                   128.90666
 The maximum of selected column is                   176.59431
 The number of points used in calculation is                4
-> Using the following selection criteria:
(SAA==0)
&&(BR_EARTH>20)
&&(ELV>10)
&&(COR>6)
&&(ACS==0)
&&(ANG_DIST>0)&& (ANG_DIST<0.01)
&&(FOV==0)
&&
(
(S0_PIXL0>109.4 && S0_PIXL0<269.2 )&&
(S0_PIXL1>74.4 && S0_PIXL1<183.6 )&&
(S0_PIXL2>98 && S0_PIXL2<340 )&&
(S0_PIXL3>81.3 && S0_PIXL3<210.8 )  )
&&(  (S0_SATF0<1)
   ||(S0_SATF0>1))
&&(  (S0_SATF1<1)
   ||(S0_SATF1>1))
&&(  (S0_SATF2<1)
   ||(S0_SATF2>1))
&&(  (S0_SATF3<1)
   ||(S0_SATF3>1))
&&((T_DY_NT<0)||(T_DY_NT>64))
&&((T_SAA  <0)||(T_SAA  >64))
-> Filtering ad27009000s000212h.unf into ad27009000s000212h.evt
-> Calculating statistics for S0_PIXL0
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   757.43990
 The mean of the selected column is                  189.35997
 The standard deviation of the selected column is    26.635310
 The minimum of selected column is                   149.84422
 The maximum of selected column is                   207.37566
 The number of points used in calculation is                4
-> Calculating statistics for S0_PIXL1
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   516.15788
 The mean of the selected column is                  129.03947
 The standard deviation of the selected column is    18.188762
 The minimum of selected column is                   115.03162
 The maximum of selected column is                   155.18799
 The number of points used in calculation is                4
-> Calculating statistics for S0_PIXL2
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   876.19026
 The mean of the selected column is                  219.04757
 The standard deviation of the selected column is    40.327179
 The minimum of selected column is                   164.34427
 The maximum of selected column is                   250.50079
 The number of points used in calculation is                4
-> Calculating statistics for S0_PIXL3
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   584.47061
 The mean of the selected column is                  146.11765
 The standard deviation of the selected column is    21.592882
 The minimum of selected column is                   128.90666
 The maximum of selected column is                   176.59431
 The number of points used in calculation is                4
-> Using the following selection criteria:
(SAA==0)
&&(BR_EARTH>20)
&&(ELV>10)
&&(COR>6)
&&(ACS==0)
&&(ANG_DIST>0)&& (ANG_DIST<0.01)
&&(FOV==0)
&&
(
(S0_PIXL0>109.4 && S0_PIXL0<269.2 )&&
(S0_PIXL1>74.4 && S0_PIXL1<183.6 )&&
(S0_PIXL2>98 && S0_PIXL2<340 )&&
(S0_PIXL3>81.3 && S0_PIXL3<210.8 )  )
&&(  (S0_SATF0<1)
   ||(S0_SATF0>1))
&&(  (S0_SATF1<1)
   ||(S0_SATF1>1))
&&(  (S0_SATF2<1)
   ||(S0_SATF2>1))
&&(  (S0_SATF3<1)
   ||(S0_SATF3>1))
&&((T_DY_NT<0)||(T_DY_NT>64))
&&((T_SAA  <0)||(T_SAA  >64))
-> Skipping ad27009000s000301m.unf because of mode
-> Filtering ad27009000s000302m.unf into ad27009000s000302m.evt
-> Using the following selection criteria:
(SAA==0)
&&(BR_EARTH>20)
&&(ELV>10)
&&(COR>6)
&&(ACS==0)
&&(ANG_DIST>0)&& (ANG_DIST<0.01)
&&(FOV==0)
&&
(
(S0_PIXL0>0)&&(S0_PIXL1>0)&&(S0_PIXL2>0)&&(S0_PIXL3>0)  )&&(  (S0_SATF0<1)
   ||(S0_SATF0>1))
&&(  (S0_SATF1<1)
   ||(S0_SATF1>1))
&&(  (S0_SATF2<1)
   ||(S0_SATF2>1))
&&(  (S0_SATF3<1)
   ||(S0_SATF3>1))
&&((T_DY_NT<0)||(T_DY_NT>64))
&&((T_SAA  <0)||(T_SAA  >64))
-> Deleting ad27009000s000302m.evt since it contains 0 events
-> Filtering ad27009000s000312m.unf into ad27009000s000312m.evt
-> Using the following selection criteria:
(SAA==0)
&&(BR_EARTH>20)
&&(ELV>10)
&&(COR>6)
&&(ACS==0)
&&(ANG_DIST>0)&& (ANG_DIST<0.01)
&&(FOV==0)
&&
(
(S0_PIXL0>0)&&(S0_PIXL1>0)&&(S0_PIXL2>0)&&(S0_PIXL3>0)  )&&(  (S0_SATF0<1)
   ||(S0_SATF0>1))
&&(  (S0_SATF1<1)
   ||(S0_SATF1>1))
&&(  (S0_SATF2<1)
   ||(S0_SATF2>1))
&&(  (S0_SATF3<1)
   ||(S0_SATF3>1))
&&((T_DY_NT<0)||(T_DY_NT>64))
&&((T_SAA  <0)||(T_SAA  >64))
-> Deleting ad27009000s000312m.evt since it contains 0 events
-> Skipping ad27009000s000401m.unf because of mode
-> Filtering ad27009000s000402m.unf into ad27009000s000402m.evt
-> Using the following selection criteria:
(SAA==0)
&&(BR_EARTH>20)
&&(ELV>10)
&&(COR>6)
&&(ACS==0)
&&(ANG_DIST>0)&& (ANG_DIST<0.01)
&&(FOV==0)
&&
(
(S0_PIXL0>0)&&(S0_PIXL1>0)&&(S0_PIXL2>0)&&(S0_PIXL3>0)  )&&(  (S0_SATF0<1)
   ||(S0_SATF0>1))
&&(  (S0_SATF1<1)
   ||(S0_SATF1>1))
&&(  (S0_SATF2<1)
   ||(S0_SATF2>1))
&&(  (S0_SATF3<1)
   ||(S0_SATF3>1))
&&((T_DY_NT<0)||(T_DY_NT>64))
&&((T_SAA  <0)||(T_SAA  >64))
-> Deleting ad27009000s000402m.evt since it contains 0 events
-> Filtering ad27009000s000412m.unf into ad27009000s000412m.evt
-> Using the following selection criteria:
(SAA==0)
&&(BR_EARTH>20)
&&(ELV>10)
&&(COR>6)
&&(ACS==0)
&&(ANG_DIST>0)&& (ANG_DIST<0.01)
&&(FOV==0)
&&
(
(S0_PIXL0>0)&&(S0_PIXL1>0)&&(S0_PIXL2>0)&&(S0_PIXL3>0)  )&&(  (S0_SATF0<1)
   ||(S0_SATF0>1))
&&(  (S0_SATF1<1)
   ||(S0_SATF1>1))
&&(  (S0_SATF2<1)
   ||(S0_SATF2>1))
&&(  (S0_SATF3<1)
   ||(S0_SATF3>1))
&&((T_DY_NT<0)||(T_DY_NT>64))
&&((T_SAA  <0)||(T_SAA  >64))
-> Deleting ad27009000s000412m.evt since it contains 0 events
-> Skipping ad27009000s000501m.unf because of mode
-> Filtering ad27009000s000502m.unf into ad27009000s000502m.evt
-> Calculating statistics for S0_PIXL1
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   112.28159
 The mean of the selected column is                  28.070398
 The standard deviation of the selected column is    7.1743026
 The minimum of selected column is                   22.250067
 The maximum of selected column is                   37.406364
 The number of points used in calculation is                4
-> Calculating statistics for S0_PIXL2
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   88.437771
 The mean of the selected column is                  29.479257
 The standard deviation of the selected column is    7.6421877
 The minimum of selected column is                   21.750067
 The maximum of selected column is                   37.031364
 The number of points used in calculation is                3
-> Using the following selection criteria:
(SAA==0)
&&(BR_EARTH>20)
&&(ELV>10)
&&(COR>6)
&&(ACS==0)
&&(ANG_DIST>0)&& (ANG_DIST<0.01)
&&(FOV==0)
&&
(
(S0_PIXL1>6.5 && S0_PIXL1<49.5 )&&
(S0_PIXL2>6.5 && S0_PIXL2<52.4 )  )
&&(  (S0_SATF1<1)
   ||(S0_SATF1>1))
&&(  (S0_SATF2<1)
   ||(S0_SATF2>1))
&&(  (S0_SATF1<1)
   ||(S0_SATF1>1))
&&(  (S0_SATF2<1)
   ||(S0_SATF2>1))
&&((T_DY_NT<0)||(T_DY_NT>32))
&&((T_SAA  <0)||(T_SAA  >32))
-> Filtering ad27009000s000512m.unf into ad27009000s000512m.evt
-> Calculating statistics for S0_PIXL1
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   112.28159
 The mean of the selected column is                  28.070398
 The standard deviation of the selected column is    7.1743026
 The minimum of selected column is                   22.250067
 The maximum of selected column is                   37.406364
 The number of points used in calculation is                4
-> Calculating statistics for S0_PIXL2
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   88.437771
 The mean of the selected column is                  29.479257
 The standard deviation of the selected column is    7.6421877
 The minimum of selected column is                   21.750067
 The maximum of selected column is                   37.031364
 The number of points used in calculation is                3
-> Using the following selection criteria:
(SAA==0)
&&(BR_EARTH>20)
&&(ELV>10)
&&(COR>6)
&&(ACS==0)
&&(ANG_DIST>0)&& (ANG_DIST<0.01)
&&(FOV==0)
&&
(
(S0_PIXL1>6.5 && S0_PIXL1<49.5 )&&
(S0_PIXL2>6.5 && S0_PIXL2<52.4 )  )
&&(  (S0_SATF1<1)
   ||(S0_SATF1>1))
&&(  (S0_SATF2<1)
   ||(S0_SATF2>1))
&&(  (S0_SATF1<1)
   ||(S0_SATF1>1))
&&(  (S0_SATF2<1)
   ||(S0_SATF2>1))
&&((T_DY_NT<0)||(T_DY_NT>32))
&&((T_SAA  <0)||(T_SAA  >32))
-> Skipping ad27009000s000601m.unf because of mode
-> Skipping ad27009000s000701l.unf because of mode
-> Skipping ad27009000s000801l.unf because of mode
-> Filtering ad27009000s000802l.unf into ad27009000s000802l.evt
-> Using the following selection criteria:
(SAA==0)
&&(BR_EARTH>20)
&&(ELV>10)
&&(COR>6)
&&(ACS==0)
&&(ANG_DIST>0)&& (ANG_DIST<0.01)
&&(FOV==0)
&&
(
(S0_PIXL0>0)&&(S0_PIXL1>0)&&(S0_PIXL2>0)&&(S0_PIXL3>0)  )&&(  (S0_SATF0<1)
   ||(S0_SATF0>1))
&&(  (S0_SATF1<1)
   ||(S0_SATF1>1))
&&(  (S0_SATF2<1)
   ||(S0_SATF2>1))
&&(  (S0_SATF3<1)
   ||(S0_SATF3>1))
&&((T_DY_NT<0)||(T_DY_NT>64))
&&((T_SAA  <0)||(T_SAA  >64))
-> Deleting ad27009000s000802l.evt since it contains 0 events
-> Filtering ad27009000s000812l.unf into ad27009000s000812l.evt
-> Using the following selection criteria:
(SAA==0)
&&(BR_EARTH>20)
&&(ELV>10)
&&(COR>6)
&&(ACS==0)
&&(ANG_DIST>0)&& (ANG_DIST<0.01)
&&(FOV==0)
&&
(
(S0_PIXL0>0)&&(S0_PIXL1>0)&&(S0_PIXL2>0)&&(S0_PIXL3>0)  )&&(  (S0_SATF0<1)
   ||(S0_SATF0>1))
&&(  (S0_SATF1<1)
   ||(S0_SATF1>1))
&&(  (S0_SATF2<1)
   ||(S0_SATF2>1))
&&(  (S0_SATF3<1)
   ||(S0_SATF3>1))
&&((T_DY_NT<0)||(T_DY_NT>64))
&&((T_SAA  <0)||(T_SAA  >64))
-> Deleting ad27009000s000812l.evt since it contains 0 events
-> Skipping ad27009000s000901h.unf because of mode
-> Skipping ad27009000s100101h.unf because of mode
-> Filtering ad27009000s100102h.unf into ad27009000s100102h.evt
-> Calculating statistics for S1_PIXL0
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   91795.285
 The mean of the selected column is                  165.69546
 The standard deviation of the selected column is    24.928679
 The minimum of selected column is                   81.958588
 The maximum of selected column is                   388.03244
 The number of points used in calculation is              554
-> Calculating statistics for S1_PIXL1
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   95316.614
 The mean of the selected column is                  165.76802
 The standard deviation of the selected column is    27.234106
 The minimum of selected column is                   29.988432
 The maximum of selected column is                   247.31328
 The number of points used in calculation is              575
-> Calculating statistics for S1_PIXL2
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   95843.134
 The mean of the selected column is                  162.44599
 The standard deviation of the selected column is    32.402943
 The minimum of selected column is                   33.737602
 The maximum of selected column is                   536.25122
 The number of points used in calculation is              590
-> Calculating statistics for S1_PIXL3
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   91763.338
 The mean of the selected column is                  154.74425
 The standard deviation of the selected column is    26.455892
 The minimum of selected column is                   36.062611
 The maximum of selected column is                   317.43848
 The number of points used in calculation is              593
-> Using the following selection criteria:
(SAA==0)
&&(BR_EARTH>20)
&&(ELV>10)
&&(COR>6)
&&(ACS==0)
&&(ANG_DIST>0)&& (ANG_DIST<0.01)
&&(FOV==0)
&&
(
(S1_PIXL0>90.9 && S1_PIXL0<240.4 )&&
(S1_PIXL1>84 && S1_PIXL1<247.4 )&&
(S1_PIXL2>65.2 && S1_PIXL2<259.6 )&&
(S1_PIXL3>75.3 && S1_PIXL3<234.1 )  )
&&(  (S1_SATF2<1)
   ||(S1_SATF2>1))
&&(  (S1_SATF3<1)
   ||(S1_SATF3>1))
&&(  (S1_SATF0<1)
   ||(S1_SATF0>1))
&&(  (S1_SATF1<1)
   ||(S1_SATF1>1))
&&((T_DY_NT<0)||(T_DY_NT>64))
&&((T_SAA  <0)||(T_SAA  >64))
-> Filtering ad27009000s100112h.unf into ad27009000s100112h.evt
-> Calculating statistics for S1_PIXL0
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   91795.285
 The mean of the selected column is                  165.69546
 The standard deviation of the selected column is    24.928679
 The minimum of selected column is                   81.958588
 The maximum of selected column is                   388.03244
 The number of points used in calculation is              554
-> Calculating statistics for S1_PIXL1
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   95316.614
 The mean of the selected column is                  165.76802
 The standard deviation of the selected column is    27.234106
 The minimum of selected column is                   29.988432
 The maximum of selected column is                   247.31328
 The number of points used in calculation is              575
-> Calculating statistics for S1_PIXL2
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   95843.134
 The mean of the selected column is                  162.44599
 The standard deviation of the selected column is    32.402943
 The minimum of selected column is                   33.737602
 The maximum of selected column is                   536.25122
 The number of points used in calculation is              590
-> Calculating statistics for S1_PIXL3
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   91763.338
 The mean of the selected column is                  154.74425
 The standard deviation of the selected column is    26.455892
 The minimum of selected column is                   36.062611
 The maximum of selected column is                   317.43848
 The number of points used in calculation is              593
-> Using the following selection criteria:
(SAA==0)
&&(BR_EARTH>20)
&&(ELV>10)
&&(COR>6)
&&(ACS==0)
&&(ANG_DIST>0)&& (ANG_DIST<0.01)
&&(FOV==0)
&&
(
(S1_PIXL0>90.9 && S1_PIXL0<240.4 )&&
(S1_PIXL1>84 && S1_PIXL1<247.4 )&&
(S1_PIXL2>65.2 && S1_PIXL2<259.6 )&&
(S1_PIXL3>75.3 && S1_PIXL3<234.1 )  )
&&(  (S1_SATF2<1)
   ||(S1_SATF2>1))
&&(  (S1_SATF3<1)
   ||(S1_SATF3>1))
&&(  (S1_SATF0<1)
   ||(S1_SATF0>1))
&&(  (S1_SATF1<1)
   ||(S1_SATF1>1))
&&((T_DY_NT<0)||(T_DY_NT>64))
&&((T_SAA  <0)||(T_SAA  >64))
-> Skipping ad27009000s100201m.unf because of mode
-> Filtering ad27009000s100202m.unf into ad27009000s100202m.evt
-> Using the following selection criteria:
(SAA==0)
&&(BR_EARTH>20)
&&(ELV>10)
&&(COR>6)
&&(ACS==0)
&&(ANG_DIST>0)&& (ANG_DIST<0.01)
&&(FOV==0)
&&
(
(S1_PIXL0>0)&&(S1_PIXL1>0)&&(S1_PIXL2>0)&&(S1_PIXL3>0)  )&&(  (S1_SATF2<1)
   ||(S1_SATF2>1))
&&(  (S1_SATF3<1)
   ||(S1_SATF3>1))
&&(  (S1_SATF0<1)
   ||(S1_SATF0>1))
&&(  (S1_SATF1<1)
   ||(S1_SATF1>1))
&&((T_DY_NT<0)||(T_DY_NT>64))
&&((T_SAA  <0)||(T_SAA  >64))
-> Deleting ad27009000s100202m.evt since it contains 0 events
-> Filtering ad27009000s100212m.unf into ad27009000s100212m.evt
-> Using the following selection criteria:
(SAA==0)
&&(BR_EARTH>20)
&&(ELV>10)
&&(COR>6)
&&(ACS==0)
&&(ANG_DIST>0)&& (ANG_DIST<0.01)
&&(FOV==0)
&&
(
(S1_PIXL0>0)&&(S1_PIXL1>0)&&(S1_PIXL2>0)&&(S1_PIXL3>0)  )&&(  (S1_SATF2<1)
   ||(S1_SATF2>1))
&&(  (S1_SATF3<1)
   ||(S1_SATF3>1))
&&(  (S1_SATF0<1)
   ||(S1_SATF0>1))
&&(  (S1_SATF1<1)
   ||(S1_SATF1>1))
&&((T_DY_NT<0)||(T_DY_NT>64))
&&((T_SAA  <0)||(T_SAA  >64))
-> Deleting ad27009000s100212m.evt since it contains 0 events
-> Skipping ad27009000s100301m.unf because of mode
-> Filtering ad27009000s100302m.unf into ad27009000s100302m.evt
-> Calculating statistics for S1_PIXL1
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   187.12557
 The mean of the selected column is                  46.781392
 The standard deviation of the selected column is    16.572001
 The minimum of selected column is                   31.031343
 The maximum of selected column is                   65.875198
 The number of points used in calculation is                4
-> Calculating statistics for S1_PIXL2
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   148.34420
 The mean of the selected column is                  49.448067
 The standard deviation of the selected column is    7.3414664
 The minimum of selected column is                   41.281376
 The maximum of selected column is                   55.500168
 The number of points used in calculation is                3
-> Using the following selection criteria:
(SAA==0)
&&(BR_EARTH>20)
&&(ELV>10)
&&(COR>6)
&&(ACS==0)
&&(ANG_DIST>0)&& (ANG_DIST<0.01)
&&(FOV==0)
&&
(
(S1_PIXL1>0 && S1_PIXL1<96.4 )&&
(S1_PIXL2>27.4 && S1_PIXL2<71.4 )  )
&&(  (S1_SATF1<1)
   ||(S1_SATF1>1))
&&(  (S1_SATF2<1)
   ||(S1_SATF2>1))
&&(  (S1_SATF1<1)
   ||(S1_SATF1>1))
&&(  (S1_SATF2<1)
   ||(S1_SATF2>1))
&&((T_DY_NT<0)||(T_DY_NT>32))
&&((T_SAA  <0)||(T_SAA  >32))
-> Filtering ad27009000s100312m.unf into ad27009000s100312m.evt
-> Calculating statistics for S1_PIXL1
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   187.12557
 The mean of the selected column is                  46.781392
 The standard deviation of the selected column is    16.572001
 The minimum of selected column is                   31.031343
 The maximum of selected column is                   65.875198
 The number of points used in calculation is                4
-> Calculating statistics for S1_PIXL2
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   148.34420
 The mean of the selected column is                  49.448067
 The standard deviation of the selected column is    7.3414664
 The minimum of selected column is                   41.281376
 The maximum of selected column is                   55.500168
 The number of points used in calculation is                3
-> Using the following selection criteria:
(SAA==0)
&&(BR_EARTH>20)
&&(ELV>10)
&&(COR>6)
&&(ACS==0)
&&(ANG_DIST>0)&& (ANG_DIST<0.01)
&&(FOV==0)
&&
(
(S1_PIXL1>0 && S1_PIXL1<96.4 )&&
(S1_PIXL2>27.4 && S1_PIXL2<71.4 )  )
&&(  (S1_SATF1<1)
   ||(S1_SATF1>1))
&&(  (S1_SATF2<1)
   ||(S1_SATF2>1))
&&(  (S1_SATF1<1)
   ||(S1_SATF1>1))
&&(  (S1_SATF2<1)
   ||(S1_SATF2>1))
&&((T_DY_NT<0)||(T_DY_NT>32))
&&((T_SAA  <0)||(T_SAA  >32))
-> Skipping ad27009000s100401l.unf because of mode
-> Filtering ad27009000s100402l.unf into ad27009000s100402l.evt
-> Using the following selection criteria:
(SAA==0)
&&(BR_EARTH>20)
&&(ELV>10)
&&(COR>6)
&&(ACS==0)
&&(ANG_DIST>0)&& (ANG_DIST<0.01)
&&(FOV==0)
&&
(
(S1_PIXL0>0)&&(S1_PIXL1>0)&&(S1_PIXL2>0)&&(S1_PIXL3>0)  )&&(  (S1_SATF2<1)
   ||(S1_SATF2>1))
&&(  (S1_SATF3<1)
   ||(S1_SATF3>1))
&&(  (S1_SATF0<1)
   ||(S1_SATF0>1))
&&(  (S1_SATF1<1)
   ||(S1_SATF1>1))
&&((T_DY_NT<0)||(T_DY_NT>64))
&&((T_SAA  <0)||(T_SAA  >64))
-> Deleting ad27009000s100402l.evt since it contains 0 events
-> Filtering ad27009000s100412l.unf into ad27009000s100412l.evt
-> Using the following selection criteria:
(SAA==0)
&&(BR_EARTH>20)
&&(ELV>10)
&&(COR>6)
&&(ACS==0)
&&(ANG_DIST>0)&& (ANG_DIST<0.01)
&&(FOV==0)
&&
(
(S1_PIXL0>0)&&(S1_PIXL1>0)&&(S1_PIXL2>0)&&(S1_PIXL3>0)  )&&(  (S1_SATF2<1)
   ||(S1_SATF2>1))
&&(  (S1_SATF3<1)
   ||(S1_SATF3>1))
&&(  (S1_SATF0<1)
   ||(S1_SATF0>1))
&&(  (S1_SATF1<1)
   ||(S1_SATF1>1))
&&((T_DY_NT<0)||(T_DY_NT>64))
&&((T_SAA  <0)||(T_SAA  >64))
-> Deleting ad27009000s100412l.evt since it contains 0 events
-> Skipping ad27009000s100501h.unf because of mode
-> Skipping ad27009000s100601m.unf because of mode
-> Filtering ad27009000g200170h.unf into ad27009000g200170h.evt
-> Fetching GIS2_REGION256.4
-> Using the following selection criteria:
(SAA==0)&&
(COR>4)&&
(G2_H0+G2_H2+G3_H0+G3_H2<45)&&
(G2_H0+G2_H2+G3_H0+G3_H2<0.45*COR**2-13*COR+125)&&
(RBM_CONT<100)&&
(ELV>5)&&
(ACS==0)&&
(ANG_DIST>0)&& (ANG_DIST<0.01)&&
(G2_L1>0)
-> Filtering ad27009000g200270m.unf into ad27009000g200270m.evt
-> GIS2_REGION256.4 already present in current directory
-> Using the following selection criteria:
(SAA==0)&&
(COR>4)&&
(G2_H0+G2_H2+G3_H0+G3_H2<45)&&
(G2_H0+G2_H2+G3_H0+G3_H2<0.45*COR**2-13*COR+125)&&
(RBM_CONT<100)&&
(ELV>5)&&
(ACS==0)&&
(ANG_DIST>0)&& (ANG_DIST<0.01)&&
(G2_L1>0)
-> Filtering ad27009000g200370l.unf into ad27009000g200370l.evt
-> GIS2_REGION256.4 already present in current directory
-> Using the following selection criteria:
(SAA==0)&&
(COR>4)&&
(G2_H0+G2_H2+G3_H0+G3_H2<45)&&
(G2_H0+G2_H2+G3_H0+G3_H2<0.45*COR**2-13*COR+125)&&
(RBM_CONT<100)&&
(ELV>5)&&
(ACS==0)&&
(ANG_DIST>0)&& (ANG_DIST<0.01)&&
(G2_L1>0)
-> Deleting ad27009000g200370l.evt since it contains 0 events
-> Filtering ad27009000g300170h.unf into ad27009000g300170h.evt
-> Fetching GIS3_REGION256.4
-> Using the following selection criteria:
(SAA==0)&&
(COR>4)&&
(G2_H0+G2_H2+G3_H0+G3_H2<45)&&
(G2_H0+G2_H2+G3_H0+G3_H2<0.45*COR**2-13*COR+125)&&
(RBM_CONT<100)&&
(ELV>5)&&
(ACS==0)&&
(ANG_DIST>0)&& (ANG_DIST<0.01)&&
(G3_L1>0)
-> Filtering ad27009000g300270m.unf into ad27009000g300270m.evt
-> GIS3_REGION256.4 already present in current directory
-> Using the following selection criteria:
(SAA==0)&&
(COR>4)&&
(G2_H0+G2_H2+G3_H0+G3_H2<45)&&
(G2_H0+G2_H2+G3_H0+G3_H2<0.45*COR**2-13*COR+125)&&
(RBM_CONT<100)&&
(ELV>5)&&
(ACS==0)&&
(ANG_DIST>0)&& (ANG_DIST<0.01)&&
(G3_L1>0)
-> Filtering ad27009000g300370l.unf into ad27009000g300370l.evt
-> GIS3_REGION256.4 already present in current directory
-> Using the following selection criteria:
(SAA==0)&&
(COR>4)&&
(G2_H0+G2_H2+G3_H0+G3_H2<45)&&
(G2_H0+G2_H2+G3_H0+G3_H2<0.45*COR**2-13*COR+125)&&
(RBM_CONT<100)&&
(ELV>5)&&
(ACS==0)&&
(ANG_DIST>0)&& (ANG_DIST<0.01)&&
(G3_L1>0)
-> Deleting ad27009000g300370l.evt since it contains 0 events

Generating images and exposure maps ( 22:23:13 )

-> Generating exposure map ad27009000g200170h.expo
-> GIS2_REGION256.4 already present in current directory
-> Standard Output From STOOL regionmap:
-ANNULUS(128.5,128.5,192,88)
-ELLIPSE(167.5,220,24.66,28.95,245.298)
-> gis2_ano_on_flf_180295.fits already present in current directory
-> Running ascaexpo for ad27009000g200170h.evt
-> Standard Output From FTOOL ascaexpo:
ASCAEXPO_V0.9b
 
    reading data file: ad27009000g200170h.evt
    reading   gti ext: STDGTI
    reading  cal file: gis2_ano_on_flf_180295.fits
    reading inst file: GIS2_REGION256.4_regionmap.tmp
 
    making an inst map...
 rebin gis:  1
     multiply inst map...
 
    reading att  file: ./fa990317_0605.2000
 
    making an exposure map...
 
 Aspect RA/DEC/ROLL :      263.2110     -31.0313     267.0006
 Mean   RA/DEC/ROLL :      263.2023     -31.0525     267.0006
 Pnt    RA/DEC/ROLL :      263.2131     -31.0068     267.0006
 
 Image rebin factor :             1
 Attitude Records   :         61021
 GTI intervals      :           103
 Total GTI (secs)   :     19339.754
 
 Max attitude excursion (arcsecs) :         5.000
 
   0 Percent Complete: Total/live time:          0.00         0.00
  10 Percent Complete: Total/live time:       2206.02      2206.02
  20 Percent Complete: Total/live time:       4075.52      4075.52
  30 Percent Complete: Total/live time:       6408.10      6408.10
  40 Percent Complete: Total/live time:       8572.03      8572.03
  50 Percent Complete: Total/live time:       9865.43      9865.43
  60 Percent Complete: Total/live time:      12302.93     12302.93
  70 Percent Complete: Total/live time:      16183.90     16183.90
  80 Percent Complete: Total/live time:      16183.90     16183.90
  90 Percent Complete: Total/live time:      19339.75     19339.75
 100 Percent Complete: Total/live time:      19339.75     19339.75
 
 Number of attitude steps  used:           39
 Number of attitude steps avail:        52335
 Mean RA/DEC pixel offset:      -10.1086      -3.2657
 
    writing expo file: ad27009000g200170h.expo
    closing attitude file...
    closing data file...
-> Generating low and high energy images for ad27009000g200170h.evt
-> Generating exposure map ad27009000g200270m.expo
-> GIS2_REGION256.4 already present in current directory
-> gis2_ano_on_flf_180295.fits already present in current directory
-> Running ascaexpo for ad27009000g200270m.evt
-> Standard Output From FTOOL ascaexpo:
ASCAEXPO_V0.9b
 
    reading data file: ad27009000g200270m.evt
    reading   gti ext: STDGTI
    reading  cal file: gis2_ano_on_flf_180295.fits
    reading inst file: GIS2_REGION256.4_regionmap.tmp
 
    making an inst map...
 rebin gis:  1
     multiply inst map...
 
    reading att  file: ./fa990317_0605.2000
 
    making an exposure map...
 
 Aspect RA/DEC/ROLL :      263.2110     -31.0313     267.0011
 Mean   RA/DEC/ROLL :      263.2022     -31.0535     267.0011
 Pnt    RA/DEC/ROLL :      263.2532     -30.9939     267.0011
 
 Image rebin factor :             1
 Attitude Records   :         61021
 GTI intervals      :             2
 Total GTI (secs)   :       319.979
 
 Max attitude excursion (arcsecs) :         5.000
 
   0 Percent Complete: Total/live time:          0.00         0.00
  10 Percent Complete: Total/live time:         51.00        51.00
  20 Percent Complete: Total/live time:         71.00        71.00
  30 Percent Complete: Total/live time:        103.00       103.00
  40 Percent Complete: Total/live time:        151.00       151.00
  50 Percent Complete: Total/live time:        207.00       207.00
  60 Percent Complete: Total/live time:        207.00       207.00
  70 Percent Complete: Total/live time:        288.00       288.00
  80 Percent Complete: Total/live time:        288.00       288.00
  90 Percent Complete: Total/live time:        319.98       319.98
 100 Percent Complete: Total/live time:        319.98       319.98
 
 Number of attitude steps  used:           10
 Number of attitude steps avail:          252
 Mean RA/DEC pixel offset:      -11.5145      -2.0801
 
    writing expo file: ad27009000g200270m.expo
    closing attitude file...
    closing data file...
-> Generating low and high energy images for ad27009000g200270m.evt
-> Generating exposure map ad27009000g300170h.expo
-> GIS3_REGION256.4 already present in current directory
-> Standard Output From STOOL regionmap:
-ANNULUS(128.5,128.5,192,88)
-ELLIPSE(217,95,21.56,25.92,169.216)
-> gis3_ano_on_flf_180295.fits already present in current directory
-> Running ascaexpo for ad27009000g300170h.evt
-> Standard Output From FTOOL ascaexpo:
ASCAEXPO_V0.9b
 
    reading data file: ad27009000g300170h.evt
    reading   gti ext: STDGTI
    reading  cal file: gis3_ano_on_flf_180295.fits
    reading inst file: GIS3_REGION256.4_regionmap.tmp
 
    making an inst map...
 rebin gis:  1
     multiply inst map...
 
    reading att  file: ./fa990317_0605.2000
 
    making an exposure map...
 
 Aspect RA/DEC/ROLL :      263.2110     -31.0313     266.9984
 Mean   RA/DEC/ROLL :      263.2067     -31.0279     266.9984
 Pnt    RA/DEC/ROLL :      263.2088     -31.0314     266.9984
 
 Image rebin factor :             1
 Attitude Records   :         61021
 GTI intervals      :           105
 Total GTI (secs)   :     19333.836
 
 Max attitude excursion (arcsecs) :         5.000
 
   0 Percent Complete: Total/live time:          0.00         0.00
  10 Percent Complete: Total/live time:       2206.02      2206.02
  20 Percent Complete: Total/live time:       4075.52      4075.52
  30 Percent Complete: Total/live time:       6402.19      6402.19
  40 Percent Complete: Total/live time:       8566.11      8566.11
  50 Percent Complete: Total/live time:       9870.52      9870.52
  60 Percent Complete: Total/live time:      12297.01     12297.01
  70 Percent Complete: Total/live time:      16177.99     16177.99
  80 Percent Complete: Total/live time:      16177.99     16177.99
  90 Percent Complete: Total/live time:      19333.84     19333.84
 100 Percent Complete: Total/live time:      19333.84     19333.84
 
 Number of attitude steps  used:           39
 Number of attitude steps avail:        52379
 Mean RA/DEC pixel offset:        1.6604      -2.0966
 
    writing expo file: ad27009000g300170h.expo
    closing attitude file...
    closing data file...
-> Generating low and high energy images for ad27009000g300170h.evt
-> Generating exposure map ad27009000g300270m.expo
-> GIS3_REGION256.4 already present in current directory
-> gis3_ano_on_flf_180295.fits already present in current directory
-> Running ascaexpo for ad27009000g300270m.evt
-> Standard Output From FTOOL ascaexpo:
ASCAEXPO_V0.9b
 
    reading data file: ad27009000g300270m.evt
    reading   gti ext: STDGTI
    reading  cal file: gis3_ano_on_flf_180295.fits
    reading inst file: GIS3_REGION256.4_regionmap.tmp
 
    making an inst map...
 rebin gis:  1
     multiply inst map...
 
    reading att  file: ./fa990317_0605.2000
 
    making an exposure map...
 
 Aspect RA/DEC/ROLL :      263.2110     -31.0313     266.9989
 Mean   RA/DEC/ROLL :      263.2062     -31.0289     266.9989
 Pnt    RA/DEC/ROLL :      263.2489     -31.0185     266.9989
 
 Image rebin factor :             1
 Attitude Records   :         61021
 GTI intervals      :             2
 Total GTI (secs)   :       319.979
 
 Max attitude excursion (arcsecs) :         5.000
 
   0 Percent Complete: Total/live time:          0.00         0.00
  10 Percent Complete: Total/live time:         51.00        51.00
  20 Percent Complete: Total/live time:         71.00        71.00
  30 Percent Complete: Total/live time:        103.00       103.00
  40 Percent Complete: Total/live time:        151.00       151.00
  50 Percent Complete: Total/live time:        207.00       207.00
  60 Percent Complete: Total/live time:        207.00       207.00
  70 Percent Complete: Total/live time:        288.00       288.00
  80 Percent Complete: Total/live time:        288.00       288.00
  90 Percent Complete: Total/live time:        319.98       319.98
 100 Percent Complete: Total/live time:        319.98       319.98
 
 Number of attitude steps  used:           10
 Number of attitude steps avail:          252
 Mean RA/DEC pixel offset:       -0.6437      -1.0002
 
    writing expo file: ad27009000g300270m.expo
    closing attitude file...
    closing data file...
-> Generating low and high energy images for ad27009000g300270m.evt
-> Generating exposure map ad27009000s000102h.expo
-> s0_teldef_ascalin.fits already present in current directory
-> Running ascaexpo for ad27009000s000102h.evt
-> Standard Output From FTOOL ascaexpo:
ASCAEXPO_V0.9b
 
    reading data file: ad27009000s000102h.evt
    reading   gti ext: STDGTI
    reading    hp ext: HOT_PIXELS
    reading  cal file: s0_teldef_ascalin.fits
 
    making an inst map...
  
 SIS AREA DISC ENABL         OFF
  
              CHIP:            0           1           2           3
  
 CCD POWER  ON/OFF:           ON          ON          ON          ON
 AREA DISC  IN/OUT:          OUT         OUT          IN          IN
 AREA DISC H START:            6           6           6         316
 AREA DISC H  STOP:          425         425         200         425
 AREA DISC V START:            2           2           2           2
 AREA DISC V  STOP:          422         422         150         112
  
    reading att  file: ./fa990317_0605.2000
 
    making an exposure map...
 
 Aspect RA/DEC/ROLL :      263.2110     -31.0313     267.0087
 Mean   RA/DEC/ROLL :      263.1863     -31.0390     267.0087
 Pnt    RA/DEC/ROLL :      263.2289     -31.0199     267.0087
 
 Image rebin factor :             4
 Attitude Records   :         61021
 Hot Pixels         :           733
 GTI intervals      :            60
 Total GTI (secs)   :     18245.857
 
 Max attitude excursion (arcsecs) :         5.000
 
   0 Percent Complete: Total/live time:          0.00         0.00
  10 Percent Complete: Total/live time:       2008.00      2008.00
  20 Percent Complete: Total/live time:       4076.00      4076.00
  30 Percent Complete: Total/live time:       6309.81      6309.81
  40 Percent Complete: Total/live time:       8357.81      8357.81
  50 Percent Complete: Total/live time:       9576.71      9576.71
  60 Percent Complete: Total/live time:      12863.57     12863.57
  70 Percent Complete: Total/live time:      15573.31     15573.31
  80 Percent Complete: Total/live time:      15573.31     15573.31
  90 Percent Complete: Total/live time:      18245.86     18245.86
 100 Percent Complete: Total/live time:      18245.86     18245.86
 
 Number of attitude steps  used:           35
 Number of attitude steps avail:        46245
 Mean RA/DEC pixel offset:      -39.6057     -92.0821
 
    writing expo file: ad27009000s000102h.expo
    closing attitude file...
    closing data file...
-> Generating low and high energy images for ad27009000s000102h.evt
-> Generating exposure map ad27009000s000202h.expo
-> s0_teldef_ascalin.fits already present in current directory
-> Running ascaexpo for ad27009000s000202h.evt
-> Standard Output From FTOOL ascaexpo:
ASCAEXPO_V0.9b
 
    reading data file: ad27009000s000202h.evt
    reading   gti ext: STDGTI
    reading    hp ext: HOT_PIXELS
    reading  cal file: s0_teldef_ascalin.fits
 
    making an inst map...
  
 SIS AREA DISC ENABL          ON
  
              CHIP:            0           1           2           3
  
 CCD POWER  ON/OFF:           ON          ON          ON          ON
 AREA DISC  IN/OUT:          OUT         OUT          IN          IN
 AREA DISC H START:            6           6           6         316
 AREA DISC H  STOP:          425         425         200         425
 AREA DISC V START:            2           2           2           2
 AREA DISC V  STOP:          422         422         150         112
  
    reading att  file: ./fa990317_0605.2000
 
    making an exposure map...
 
 Aspect RA/DEC/ROLL :      263.2110     -31.0313     267.0089
 Mean   RA/DEC/ROLL :      263.1873     -31.0400     267.0089
 Pnt    RA/DEC/ROLL :      263.2268     -31.0203     267.0089
 
 Image rebin factor :             4
 Attitude Records   :         61021
 Hot Pixels         :           303
 GTI intervals      :             1
 Total GTI (secs)   :       114.277
 
 Max attitude excursion (arcsecs) :         5.000
 
   0 Percent Complete: Total/live time:          0.00         0.00
  10 Percent Complete: Total/live time:        114.28       114.28
 100 Percent Complete: Total/live time:        114.28       114.28
 
 Number of attitude steps  used:            2
 Number of attitude steps avail:          350
 Mean RA/DEC pixel offset:      -21.5360     -45.3144
 
    writing expo file: ad27009000s000202h.expo
    closing attitude file...
    closing data file...
-> Generating low and high energy images for ad27009000s000202h.evt
-> Generating exposure map ad27009000s000502m.expo
-> s0_teldef_ascalin.fits already present in current directory
-> Running ascaexpo for ad27009000s000502m.evt
-> Standard Output From FTOOL ascaexpo:
ASCAEXPO_V0.9b
 
    reading data file: ad27009000s000502m.evt
    reading   gti ext: STDGTI
    reading    hp ext: HOT_PIXELS
    reading  cal file: s0_teldef_ascalin.fits
 
    making an inst map...
  
 SIS AREA DISC ENABL         OFF
  
              CHIP:            0           1           2           3
  
 CCD POWER  ON/OFF:          OFF          ON          ON         OFF
 AREA DISC  IN/OUT:          OUT         OUT          IN          IN
 AREA DISC H START:            6           6           6         316
 AREA DISC H  STOP:          425         425         200         425
 AREA DISC V START:            2           2           2           2
 AREA DISC V  STOP:          422         422         150         112
  
    reading att  file: ./fa990317_0605.2000
 
    making an exposure map...
 
 Aspect RA/DEC/ROLL :      263.2110     -31.0313     267.0089
 Mean   RA/DEC/ROLL :      263.1790     -31.0442     267.0089
 Pnt    RA/DEC/ROLL :      263.2689     -31.0071     267.0089
 
 Image rebin factor :             4
 Attitude Records   :         61021
 Hot Pixels         :            11
 GTI intervals      :             2
 Total GTI (secs)   :        96.000
 
 Max attitude excursion (arcsecs) :         5.000
 
   0 Percent Complete: Total/live time:          0.00         0.00
  10 Percent Complete: Total/live time:         32.00        32.00
  20 Percent Complete: Total/live time:         32.00        32.00
  30 Percent Complete: Total/live time:         96.00        96.00
 100 Percent Complete: Total/live time:         96.00        96.00
 
 Number of attitude steps  used:            3
 Number of attitude steps avail:           37
 Mean RA/DEC pixel offset:      -38.8293     -49.3990
 
    writing expo file: ad27009000s000502m.expo
    closing attitude file...
    closing data file...
-> Generating low and high energy images for ad27009000s000502m.evt
-> Generating exposure map ad27009000s100102h.expo
-> s1_teldef_ascalin.fits already present in current directory
-> Running ascaexpo for ad27009000s100102h.evt
-> Standard Output From FTOOL ascaexpo:
ASCAEXPO_V0.9b
 
    reading data file: ad27009000s100102h.evt
    reading   gti ext: STDGTI
    reading    hp ext: HOT_PIXELS
    reading  cal file: s1_teldef_ascalin.fits
 
    making an inst map...
  
 SIS AREA DISC ENABL         OFF
  
              CHIP:            0           1           2           3
  
 CCD POWER  ON/OFF:           ON          ON          ON          ON
 AREA DISC  IN/OUT:          OUT         OUT         OUT         OUT
 AREA DISC H START:            6           6           6           6
 AREA DISC H  STOP:          425         425         425         425
 AREA DISC V START:            2           2           2           2
 AREA DISC V  STOP:          422         422         422         422
  
    reading att  file: ./fa990317_0605.2000
 
    making an exposure map...
 
 Aspect RA/DEC/ROLL :      263.2110     -31.0313     266.9991
 Mean   RA/DEC/ROLL :      263.2048     -31.0408     266.9991
 Pnt    RA/DEC/ROLL :      263.2104     -31.0181     266.9991
 
 Image rebin factor :             4
 Attitude Records   :         61021
 Hot Pixels         :          1291
 GTI intervals      :            98
 Total GTI (secs)   :     15902.845
 
 Max attitude excursion (arcsecs) :         5.000
 
   0 Percent Complete: Total/live time:          0.00         0.00
  10 Percent Complete: Total/live time:       1857.87      1857.87
  20 Percent Complete: Total/live time:       3892.84      3892.84
  30 Percent Complete: Total/live time:       5089.87      5089.87
  40 Percent Complete: Total/live time:       7271.33      7271.33
  50 Percent Complete: Total/live time:       8294.24      8294.24
  60 Percent Complete: Total/live time:      11229.10     11229.10
  70 Percent Complete: Total/live time:      13438.85     13438.85
  80 Percent Complete: Total/live time:      13438.85     13438.85
  90 Percent Complete: Total/live time:      15902.85     15902.85
 100 Percent Complete: Total/live time:      15902.85     15902.85
 
 Number of attitude steps  used:           32
 Number of attitude steps avail:        46689
 Mean RA/DEC pixel offset:      -43.7369     -21.8836
 
    writing expo file: ad27009000s100102h.expo
    closing attitude file...
    closing data file...
-> Generating low and high energy images for ad27009000s100102h.evt
-> Generating exposure map ad27009000s100302m.expo
-> s1_teldef_ascalin.fits already present in current directory
-> Running ascaexpo for ad27009000s100302m.evt
-> Standard Output From FTOOL ascaexpo:
ASCAEXPO_V0.9b
 
    reading data file: ad27009000s100302m.evt
    reading   gti ext: STDGTI
    reading    hp ext: HOT_PIXELS
    reading  cal file: s1_teldef_ascalin.fits
 
    making an inst map...
  
 SIS AREA DISC ENABL         OFF
  
              CHIP:            0           1           2           3
  
 CCD POWER  ON/OFF:          OFF          ON          ON         OFF
 AREA DISC  IN/OUT:          OUT         OUT         OUT         OUT
 AREA DISC H START:            6           6           6           6
 AREA DISC H  STOP:          425         425         425         425
 AREA DISC V START:            2           2           2           2
 AREA DISC V  STOP:          422         422         422         422
  
    reading att  file: ./fa990317_0605.2000
 
    making an exposure map...
 
 Aspect RA/DEC/ROLL :      263.2110     -31.0313     266.9993
 Mean   RA/DEC/ROLL :      263.1990     -31.0447     266.9993
 Pnt    RA/DEC/ROLL :      263.2504     -31.0053     266.9993
 
 Image rebin factor :             4
 Attitude Records   :         61021
 Hot Pixels         :            24
 GTI intervals      :             1
 Total GTI (secs)   :        96.000
 
 Max attitude excursion (arcsecs) :         5.000
 
   0 Percent Complete: Total/live time:          0.00         0.00
  10 Percent Complete: Total/live time:         55.00        55.00
  20 Percent Complete: Total/live time:         55.00        55.00
  30 Percent Complete: Total/live time:         96.00        96.00
 100 Percent Complete: Total/live time:         96.00        96.00
 
 Number of attitude steps  used:            3
 Number of attitude steps avail:           39
 Mean RA/DEC pixel offset:      -41.7922      -1.4983
 
    writing expo file: ad27009000s100302m.expo
    closing attitude file...
    closing data file...
-> Generating low and high energy images for ad27009000s100302m.evt
-> Summing sis images
-> Summing the following images to produce ad27009000sis32002.totexpo
ad27009000s000102h.expo
ad27009000s000202h.expo
ad27009000s000502m.expo
ad27009000s100102h.expo
ad27009000s100302m.expo
-> Summing the following images to produce ad27009000sis32002_all.totsky
ad27009000s000102h.img
ad27009000s000202h.img
ad27009000s000502m.img
ad27009000s100102h.img
ad27009000s100302m.img
-> Summing the following images to produce ad27009000sis32002_lo.totsky
ad27009000s000102h_lo.img
ad27009000s000202h_lo.img
ad27009000s000502m_lo.img
ad27009000s100102h_lo.img
ad27009000s100302m_lo.img
-> Summing the following images to produce ad27009000sis32002_hi.totsky
ad27009000s000102h_hi.img
ad27009000s000202h_hi.img
ad27009000s000502m_hi.img
ad27009000s100102h_hi.img
ad27009000s100302m_hi.img
-> Running XIMAGE to create ad27009000sis32002.gif
-> Standard Output From STOOL ximage:
 No of detectors read in:   20
![1]XIMAGE> read/fits ad27009000sis32002_all.totsky
 Reading an image
 Telescope ASCA SIS0
  Image display size =  320
 Done, closing file
  Largest, Smallest    4.00000  0.
  Bscale, Bzero from file     1.0000000000000  0.
After internal scaling
  Bscale and Bzero    1.0000000000000  0.
 Image level, max:  4 min:  0
![2]XIMAGE> read/exp_map ad27009000sis32002.totexpo
 Reading an image
 Telescope ASCA SIS0
  Image display size =  320
 Done, closing file
  Largest, Smallest    572.650  0.
  Bscale, Bzero from file     1.0000000000000  0.
After internal scaling
  Bscale and Bzero    1.0000000000000  0.
 Image level, max:  572 min:  0
![3]XIMAGE> smooth
![4]XIMAGE> cpd /ppm
![5]XIMAGE> cey 2000
![6]XIMAGE> title "GEV1732-3130_NORTH"
![7]XIMAGE> title/lower "ASCA SIS0,SIS1 March 17, 1999 Exposure: 34454.9 s"
![8]XIMAGE> disp/correct/noframe
 Displaying image
 The image is exposure corrected
  Min =  0 max =   32767
![9]XIMAGE> grid
![10]XIMAGE> scale
 scal_f, min_inten    1.00000  0.
 i,inten,mm,pp  1  0.  0  0
 i,inten,mm,pp  2    4.00000  40  -1
 i,inten,mm,pp  3    9.00000  90  -1
 i,inten,mm,pp  4    18.0000  18  0
![11]XIMAGE> exit
-> Summing gis images
-> Summing the following images to produce ad27009000gis25670.totexpo
ad27009000g200170h.expo
ad27009000g200270m.expo
ad27009000g300170h.expo
ad27009000g300270m.expo
-> Summing the following images to produce ad27009000gis25670_all.totsky
ad27009000g200170h.img
ad27009000g200270m.img
ad27009000g300170h.img
ad27009000g300270m.img
-> Summing the following images to produce ad27009000gis25670_lo.totsky
ad27009000g200170h_lo.img
ad27009000g200270m_lo.img
ad27009000g300170h_lo.img
ad27009000g300270m_lo.img
-> Summing the following images to produce ad27009000gis25670_hi.totsky
ad27009000g200170h_hi.img
ad27009000g200270m_hi.img
ad27009000g300170h_hi.img
ad27009000g300270m_hi.img
-> Running XIMAGE to create ad27009000gis25670.gif
-> Standard Output From STOOL ximage:
 No of detectors read in:   20
![1]XIMAGE> read/fits ad27009000gis25670_all.totsky
 Reading an image
 Telescope ASCA GIS2
  Image display size =  256
 Done, closing file
  Largest, Smallest    8.00000  0.
  Bscale, Bzero from file     1.0000000000000  0.
After internal scaling
  Bscale and Bzero    1.0000000000000  0.
 Image level, max:  8 min:  0
![2]XIMAGE> read/exp_map ad27009000gis25670.totexpo
 Reading an image
 Telescope ASCA GIS2
  Image display size =  256
 Done, closing file
  Largest, Smallest    655.226  0.
  Bscale, Bzero from file     1.0000000000000  0.
After internal scaling
  Bscale and Bzero    1.0000000000000  0.
 Image level, max:  655 min:  0
![3]XIMAGE> smooth
![4]XIMAGE> cpd /ppm
![5]XIMAGE> cey 2000
![6]XIMAGE> title "GEV1732-3130_NORTH"
![7]XIMAGE> title/lower "ASCA GIS2,GIS3 March 17, 1999 Exposure: 39313.5 s"
![8]XIMAGE> disp/correct/noframe
 Displaying image
 The image is exposure corrected
  Min =  0 max =   32767
![9]XIMAGE> grid
![10]XIMAGE> scale
 scal_f, min_inten    1.00000  0.
 i,inten,mm,pp  1  0.  0  0
 i,inten,mm,pp  2    7.00000  70  -1
 i,inten,mm,pp  3    11.0000  11  0
 i,inten,mm,pp  4    36.0000  36  0
![11]XIMAGE> exit

Detecting sources in summed images ( 22:37:22 )

-> Smoothing ad27009000gis25670_all.totsky with ad27009000gis25670.totexpo
-> Clipping exposures below 5897.0322051 seconds
-> Detecting sources in ad27009000gis25670_all.smooth
-> Smoothing ad27009000gis25670_hi.totsky with ad27009000gis25670.totexpo
-> Clipping exposures below 5897.0322051 seconds
-> Detecting sources in ad27009000gis25670_hi.smooth
-> Smoothing ad27009000gis25670_lo.totsky with ad27009000gis25670.totexpo
-> Clipping exposures below 5897.0322051 seconds
-> Detecting sources in ad27009000gis25670_lo.smooth
-> Determining extraction radii
-> Eliminating redundant sources
-> Sources with radius >= 2

-> Standard Output From STOOL colorpic:
color plane 0
color plane 1
color plane 2
writing image
image written
-> Creating fits catalog of sources: ad27009000gis25670.src
-> Smoothing ad27009000sis32002_all.totsky with ad27009000sis32002.totexpo
-> Clipping exposures below 5168.2468839 seconds
-> Detecting sources in ad27009000sis32002_all.smooth
-> Smoothing ad27009000sis32002_hi.totsky with ad27009000sis32002.totexpo
-> Clipping exposures below 5168.2468839 seconds
-> Detecting sources in ad27009000sis32002_hi.smooth
-> Smoothing ad27009000sis32002_lo.totsky with ad27009000sis32002.totexpo
-> Clipping exposures below 5168.2468839 seconds
-> Detecting sources in ad27009000sis32002_lo.smooth
-> Determining extraction radii
-> Eliminating redundant sources
-> Sources with radius >= 2

-> Standard Output From STOOL colorpic:
color plane 0
color plane 1
color plane 2
writing image
image written
-> Creating fits catalog of sources: ad27009000sis32002.src
-> Generating region files

Extracting spectra and generating response matrices ( 22:41:11 )

-> Fetching xrt_ea_v2_0.fits
-> Fetching xrt_psf_v2_0.fits
-> sisph2pi_110397.fits already present in current directory
-> Fetching sisechos_290296.fits
-> Fetching sisrddis_290296.fits
-> Standard Output From STOOL group_event_files:
1 ad27009000s000102h.evt 3301
2 ad27009000s000202h.evt 296
3 ad27009000s000502m.evt 32
-> Fetching SIS0_OFFCHIP.2
-> Extracting ad27009000s010102_0.pi from ad27009000s032002_0.reg and:
ad27009000s000102h.evt
-> Grouping ad27009000s010102_0.pi to 40 counts/bin
-> Standard Output From FTOOL grppha:
 
  -------------------------
  MANDATORY KEYWORDS/VALUES
  -------------------------
  --------------------------------------------------------------------
  --------------------------------------------------------------------
  EXTNAME   - SPECTRUM        Name of this BINTABLE
  TELESCOP  - ASCA            Mission/Satellite name
  INSTRUME  - SIS0            Instrument/Detector
  FILTER    - NONE            Instrument filter in use
  EXPOSURE  - 18246.          Integration time (in secs) of PHA data
  AREASCAL  - 1.0000          Area scaling factor
  BACKSCAL  - 0.41846         Background scaling factor
  BACKFILE  - NONE            Associated background file
  CORRSCAL  - 1.0000          Correlation scaling factor
  CORRFILE  - none            Associated correlation file
  RESPFILE  - NONE            Associated redistribution matrix file
  ANCRFILE  - none            Associated ancillary response file
  XFLT0001  - none            XSPEC selection filter
  POISSERR  - TRUE            Whether Poissonian errors apply
  CHANTYPE  - PI              Whether channels have been corrected
  TLMIN1    - 0               First legal Detector channel
  DETCHANS  - 512             No. of legal detector channels
  NCHAN     - 512             No. of detector channels in dataset
  PHAVERSN  - 1.1.0           OGIP FITS version number
  STAT_ERR  - FALSE           Statistical Error
  SYS_ERR   - TRUE            Fractional Systematic Error
  QUALITY   - TRUE            Quality Flag
  GROUPING  - FALSE           Grouping Flag
  --------------------------------------------------------------------
  --------------------------------------------------------------------
 ...
 ...  --------
 ...  GROUPING
 ...  --------
 ...  ---------------------------------------------
 ...  Channel Grouping (Channel-Channel) :
 ...         0 -      16  of undefined grouping (Channel quality=bad)
 ...        17 -      26  are grouped by a factor       10
 ...        27 -      29  are grouped by a factor        3
 ...        30 -      31  are grouped by a factor        2
 ...        32 -      33  are single channels
 ...        34 -      37  are grouped by a factor        2
 ...        38 -      39  are single channels
 ...        40 -      51  are grouped by a factor        2
 ...        52 -      52  are single channels
 ...        53 -      54  are grouped by a factor        2
 ...        55 -      55  are single channels
 ...        56 -      65  are grouped by a factor        2
 ...        66 -      66  are single channels
 ...        67 -      84  are grouped by a factor        2
 ...        85 -      99  are grouped by a factor        3
 ...       100 -     131  are grouped by a factor        4
 ...       132 -     141  are grouped by a factor        5
 ...       142 -     149  are grouped by a factor        4
 ...       150 -     163  are grouped by a factor        7
 ...       164 -     171  are grouped by a factor        8
 ...       172 -     183  are grouped by a factor       12
 ...       184 -     194  are grouped by a factor       11
 ...       195 -     208  are grouped by a factor       14
 ...       209 -     233  are grouped by a factor       25
 ...       234 -     252  are grouped by a factor       19
 ...       253 -     278  are grouped by a factor       26
 ...       279 -     342  are grouped by a factor       64
 ...       343 -     440  are grouped by a factor       98
 ...       441 -     511  of undefined grouping (Channel quality=bad)
 ...  ---------------------------------------------
 ...
 ...... exiting, changes written to file : ad27009000s010102_0.pi
 ** grppha 2.8.1 completed successfully
-> Source occupies chip(s) 0 1 2 3
-> Fetching SIS0_NOTCHIP1.1
-> Fetching SIS0_NOTCHIP2.1
-> Fetching SIS0_NOTCHIP3.1
-> Extracting spectrum from chip 0
-> Fetching sis0c0p40_290296.fits
-> Generating RMF for chip 0
-> Standard Output From FTOOL sisrmg:
Sisrmg Version 1.1, Configured 04/97

  This version resolves *all* known keyword incompatibilities with
  other FTOOLS tasks.  If you have previously fudged *any* keywords
  in the PHA file to compensate, incorrect results will follow.
 
Setting 1st PHA channel to 0
Making v1.1 1180x512 S0C0 Bright PI RMF
Calibration data files:
  ecd = ./sis0c0p40_290296.fits
  cti = ./sisph2pi_110397.fits
 echo = ./sisechos_290296.fits
  rdd = ./sisrddis_290296.fits
Please stand by...
...Done.
-> Fetching SIS0_NOTCHIP0.1
-> SIS0_NOTCHIP2.1 already present in current directory
-> SIS0_NOTCHIP3.1 already present in current directory
-> Extracting spectrum from chip 1
-> Fetching sis0c1p40_290296.fits
-> Generating RMF for chip 1
-> Standard Output From FTOOL sisrmg:
Sisrmg Version 1.1, Configured 04/97

  This version resolves *all* known keyword incompatibilities with
  other FTOOLS tasks.  If you have previously fudged *any* keywords
  in the PHA file to compensate, incorrect results will follow.
 
Setting 1st PHA channel to 0
Making v1.1 1180x512 S0C1 Bright PI RMF
Calibration data files:
  ecd = ./sis0c1p40_290296.fits
  cti = ./sisph2pi_110397.fits
 echo = ./sisechos_290296.fits
  rdd = ./sisrddis_290296.fits
Please stand by...
...Done.
-> SIS0_NOTCHIP0.1 already present in current directory
-> SIS0_NOTCHIP1.1 already present in current directory
-> SIS0_NOTCHIP3.1 already present in current directory
-> Extracting spectrum from chip 2
-> Fetching sis0c2p40_290296.fits
-> Generating RMF for chip 2
-> Standard Output From FTOOL sisrmg:
Sisrmg Version 1.1, Configured 04/97

  This version resolves *all* known keyword incompatibilities with
  other FTOOLS tasks.  If you have previously fudged *any* keywords
  in the PHA file to compensate, incorrect results will follow.
 
Setting 1st PHA channel to 0
Making v1.1 1180x512 S0C2 Bright PI RMF
Calibration data files:
  ecd = ./sis0c2p40_290296.fits
  cti = ./sisph2pi_110397.fits
 echo = ./sisechos_290296.fits
  rdd = ./sisrddis_290296.fits
Please stand by...
...Done.
-> SIS0_NOTCHIP0.1 already present in current directory
-> SIS0_NOTCHIP1.1 already present in current directory
-> SIS0_NOTCHIP2.1 already present in current directory
-> Extracting spectrum from chip 3
-> Fetching sis0c3p40_290296.fits
-> Generating RMF for chip 3
-> Standard Output From FTOOL sisrmg:
Sisrmg Version 1.1, Configured 04/97

  This version resolves *all* known keyword incompatibilities with
  other FTOOLS tasks.  If you have previously fudged *any* keywords
  in the PHA file to compensate, incorrect results will follow.
 
Setting 1st PHA channel to 0
Making v1.1 1180x512 S0C3 Bright PI RMF
Calibration data files:
  ecd = ./sis0c3p40_290296.fits
  cti = ./sisph2pi_110397.fits
 echo = ./sisechos_290296.fits
  rdd = ./sisrddis_290296.fits
Please stand by...
...Done.
-> Chip weights:
rmf0.tmp 0.223225404732254
rmf1.tmp 0.314445828144458
rmf2.tmp 0.245641344956413
rmf3.tmp 0.216687422166874
-> Standard Output From FTOOL addrmf:
ADDRMF vers 1.11  20 February 1998.
Summing ...
 2.232E-01 * rmf0.tmp
 3.144E-01 * rmf1.tmp
 2.456E-01 * rmf2.tmp
 2.167E-01 * rmf3.tmp
 RMF #    1 : rmf0.tmp                   0.22
              ASCA       SIS0       NONE       NONE       PI
 RMF #    2 : rmf1.tmp                   0.31
              ASCA       SIS0       NONE       NONE       PI
 RMF #    3 : rmf2.tmp                   0.25
              ASCA       SIS0       NONE       NONE       PI
 RMF #    4 : rmf3.tmp                   0.22
              ASCA       SIS0       NONE       NONE       PI
-> Generating ad27009000s010102_0.arf with point=no
-> Standard Output From FTOOL ascaarf:
ASCAARF vers 2.81  28 Aug 1998.
 
 Input WMAP array has size  105 by  109 bins
               expanded to  105 by  109 bins
 First WMAP bin is at detector pixel  232  216
   8 detector pixels per WMAP bin
 WMAP bin size is   0.21600 mm
                    0.21216 arcmin
 Selected region size is   30.137     arcmin^2
 Optical axis is detector pixel 662.72 559.02
 
 1180 energies from RMF file
 Effective area fudge applied
 Arf filter applied
 
 Total counts in region = 3.19800E+03
 Weighted mean angle from optical axis  =  8.456 arcmin
 
-> Standard Output From STOOL group_event_files:
1 ad27009000s000112h.evt 5288
2 ad27009000s000212h.evt 356
3 ad27009000s000512m.evt 32
-> SIS0_OFFCHIP.2 already present in current directory
-> Extracting ad27009000s010212_0.pi from ad27009000s032002_0.reg and:
ad27009000s000112h.evt
-> Grouping ad27009000s010212_0.pi to 40 counts/bin
-> Standard Output From FTOOL grppha:
 
  -------------------------
  MANDATORY KEYWORDS/VALUES
  -------------------------
  --------------------------------------------------------------------
  --------------------------------------------------------------------
  EXTNAME   - SPECTRUM        Name of this BINTABLE
  TELESCOP  - ASCA            Mission/Satellite name
  INSTRUME  - SIS0            Instrument/Detector
  FILTER    - NONE            Instrument filter in use
  EXPOSURE  - 18246.          Integration time (in secs) of PHA data
  AREASCAL  - 1.0000          Area scaling factor
  BACKSCAL  - 0.41846         Background scaling factor
  BACKFILE  - NONE            Associated background file
  CORRSCAL  - 1.0000          Correlation scaling factor
  CORRFILE  - none            Associated correlation file
  RESPFILE  - NONE            Associated redistribution matrix file
  ANCRFILE  - none            Associated ancillary response file
  XFLT0001  - none            XSPEC selection filter
  POISSERR  - TRUE            Whether Poissonian errors apply
  CHANTYPE  - PI              Whether channels have been corrected
  TLMIN1    - 0               First legal Detector channel
  DETCHANS  - 1024            No. of legal detector channels
  NCHAN     - 1024            No. of detector channels in dataset
  PHAVERSN  - 1.1.0           OGIP FITS version number
  STAT_ERR  - FALSE           Statistical Error
  SYS_ERR   - TRUE            Fractional Systematic Error
  QUALITY   - TRUE            Quality Flag
  GROUPING  - FALSE           Grouping Flag
  --------------------------------------------------------------------
  --------------------------------------------------------------------
 ...
 ...  --------
 ...  GROUPING
 ...  --------
 ...  ---------------------------------------------
 ...  Channel Grouping (Channel-Channel) :
 ...         0 -      31  of undefined grouping (Channel quality=bad)
 ...        32 -      46  are grouped by a factor       15
 ...        47 -      50  are grouped by a factor        2
 ...        51 -      56  are grouped by a factor        3
 ...        57 -      74  are grouped by a factor        2
 ...        75 -      75  are single channels
 ...        76 -     133  are grouped by a factor        2
 ...       134 -     136  are grouped by a factor        3
 ...       137 -     142  are grouped by a factor        2
 ...       143 -     163  are grouped by a factor        3
 ...       164 -     171  are grouped by a factor        4
 ...       172 -     176  are grouped by a factor        5
 ...       177 -     188  are grouped by a factor        4
 ...       189 -     193  are grouped by a factor        5
 ...       194 -     197  are grouped by a factor        4
 ...       198 -     232  are grouped by a factor        5
 ...       233 -     236  are grouped by a factor        4
 ...       237 -     243  are grouped by a factor        7
 ...       244 -     253  are grouped by a factor        5
 ...       254 -     259  are grouped by a factor        6
 ...       260 -     264  are grouped by a factor        5
 ...       265 -     282  are grouped by a factor        6
 ...       283 -     287  are grouped by a factor        5
 ...       288 -     293  are grouped by a factor        6
 ...       294 -     304  are grouped by a factor       11
 ...       305 -     310  are grouped by a factor        6
 ...       311 -     319  are grouped by a factor        9
 ...       320 -     330  are grouped by a factor       11
 ...       331 -     342  are grouped by a factor       12
 ...       343 -     356  are grouped by a factor       14
 ...       357 -     367  are grouped by a factor       11
 ...       368 -     383  are grouped by a factor       16
 ...       384 -     395  are grouped by a factor       12
 ...       396 -     410  are grouped by a factor       15
 ...       411 -     439  are grouped by a factor       29
 ...       440 -     477  are grouped by a factor       19
 ...       478 -     506  are grouped by a factor       29
 ...       507 -     527  are grouped by a factor       21
 ...       528 -     558  are grouped by a factor       31
 ...       559 -     602  are grouped by a factor       44
 ...       603 -     674  are grouped by a factor       72
 ...       675 -     744  are grouped by a factor       70
 ...       745 -     816  are grouped by a factor       72
 ...       817 -     944  are grouped by a factor      128
 ...       945 -    1023  are grouped by a factor       79
 ...  ---------------------------------------------
 ...
 ...... exiting, changes written to file : ad27009000s010212_0.pi
 ** grppha 2.8.1 completed successfully
-> Source occupies chip(s) 0 1 2 3
-> SIS0_NOTCHIP1.1 already present in current directory
-> SIS0_NOTCHIP2.1 already present in current directory
-> SIS0_NOTCHIP3.1 already present in current directory
-> Extracting spectrum from chip 0
-> sis0c0p40_290296.fits already present in current directory
-> Generating RMF for chip 0
-> Standard Output From FTOOL sisrmg:
Sisrmg Version 1.1, Configured 04/97

  This version resolves *all* known keyword incompatibilities with
  other FTOOLS tasks.  If you have previously fudged *any* keywords
  in the PHA file to compensate, incorrect results will follow.
 
Setting 1st PHA channel to 0
Making v1.1 1180x1024 S0C0 Bright2 PI RMF
Calibration data files:
  ecd = ./sis0c0p40_290296.fits
  cti = ./sisph2pi_110397.fits
 echo = ./sisechos_290296.fits
  rdd = ./sisrddis_290296.fits
Please stand by...
...Done.
-> SIS0_NOTCHIP0.1 already present in current directory
-> SIS0_NOTCHIP2.1 already present in current directory
-> SIS0_NOTCHIP3.1 already present in current directory
-> Extracting spectrum from chip 1
-> sis0c1p40_290296.fits already present in current directory
-> Generating RMF for chip 1
-> Standard Output From FTOOL sisrmg:
Sisrmg Version 1.1, Configured 04/97

  This version resolves *all* known keyword incompatibilities with
  other FTOOLS tasks.  If you have previously fudged *any* keywords
  in the PHA file to compensate, incorrect results will follow.
 
Setting 1st PHA channel to 0
Making v1.1 1180x1024 S0C1 Bright2 PI RMF
Calibration data files:
  ecd = ./sis0c1p40_290296.fits
  cti = ./sisph2pi_110397.fits
 echo = ./sisechos_290296.fits
  rdd = ./sisrddis_290296.fits
Please stand by...
...Done.
-> SIS0_NOTCHIP0.1 already present in current directory
-> SIS0_NOTCHIP1.1 already present in current directory
-> SIS0_NOTCHIP3.1 already present in current directory
-> Extracting spectrum from chip 2
-> sis0c2p40_290296.fits already present in current directory
-> Generating RMF for chip 2
-> Standard Output From FTOOL sisrmg:
Sisrmg Version 1.1, Configured 04/97

  This version resolves *all* known keyword incompatibilities with
  other FTOOLS tasks.  If you have previously fudged *any* keywords
  in the PHA file to compensate, incorrect results will follow.
 
Setting 1st PHA channel to 0
Making v1.1 1180x1024 S0C2 Bright2 PI RMF
Calibration data files:
  ecd = ./sis0c2p40_290296.fits
  cti = ./sisph2pi_110397.fits
 echo = ./sisechos_290296.fits
  rdd = ./sisrddis_290296.fits
Please stand by...
...Done.
-> SIS0_NOTCHIP0.1 already present in current directory
-> SIS0_NOTCHIP1.1 already present in current directory
-> SIS0_NOTCHIP2.1 already present in current directory
-> Extracting spectrum from chip 3
-> sis0c3p40_290296.fits already present in current directory
-> Generating RMF for chip 3
-> Standard Output From FTOOL sisrmg:
Sisrmg Version 1.1, Configured 04/97

  This version resolves *all* known keyword incompatibilities with
  other FTOOLS tasks.  If you have previously fudged *any* keywords
  in the PHA file to compensate, incorrect results will follow.
 
Setting 1st PHA channel to 0
Making v1.1 1180x1024 S0C3 Bright2 PI RMF
Calibration data files:
  ecd = ./sis0c3p40_290296.fits
  cti = ./sisph2pi_110397.fits
 echo = ./sisechos_290296.fits
  rdd = ./sisrddis_290296.fits
Please stand by...
...Done.
-> Chip weights:
rmf0.tmp 0.235488254707824
rmf1.tmp 0.293923509998059
rmf2.tmp 0.2527664531159
rmf3.tmp 0.217821782178218
-> Standard Output From FTOOL addrmf:
ADDRMF vers 1.11  20 February 1998.
Summing ...
 2.355E-01 * rmf0.tmp
 2.939E-01 * rmf1.tmp
 2.528E-01 * rmf2.tmp
 2.178E-01 * rmf3.tmp
 RMF #    1 : rmf0.tmp                   0.24
              ASCA       SIS0       NONE       NONE       PI
 RMF #    2 : rmf1.tmp                   0.29
              ASCA       SIS0       NONE       NONE       PI
 RMF #    3 : rmf2.tmp                   0.25
              ASCA       SIS0       NONE       NONE       PI
 RMF #    4 : rmf3.tmp                   0.22
              ASCA       SIS0       NONE       NONE       PI
-> Generating ad27009000s010212_0.arf with point=no
-> Standard Output From FTOOL ascaarf:
ASCAARF vers 2.81  28 Aug 1998.
 
 Input WMAP array has size  106 by  109 bins
               expanded to  106 by  109 bins
 First WMAP bin is at detector pixel  232  216
   8 detector pixels per WMAP bin
 WMAP bin size is   0.21600 mm
                    0.21216 arcmin
 Selected region size is   30.137     arcmin^2
 Optical axis is detector pixel 662.72 559.02
 
 1180 energies from RMF file
 Effective area fudge applied
 Arf filter applied
 
 Total counts in region = 5.12000E+03
 Weighted mean angle from optical axis  =  8.530 arcmin
 
-> Standard Output From STOOL group_event_files:
1 ad27009000s100102h.evt 3045
2 ad27009000s100302m.evt 25
-> Fetching SIS1_OFFCHIP.2
-> Extracting ad27009000s110102_0.pi from ad27009000s132002_0.reg and:
ad27009000s100102h.evt
-> Grouping ad27009000s110102_0.pi to 40 counts/bin
-> Standard Output From FTOOL grppha:
 
  -------------------------
  MANDATORY KEYWORDS/VALUES
  -------------------------
  --------------------------------------------------------------------
  --------------------------------------------------------------------
  EXTNAME   - SPECTRUM        Name of this BINTABLE
  TELESCOP  - ASCA            Mission/Satellite name
  INSTRUME  - SIS1            Instrument/Detector
  FILTER    - NONE            Instrument filter in use
  EXPOSURE  - 15903.          Integration time (in secs) of PHA data
  AREASCAL  - 1.0000          Area scaling factor
  BACKSCAL  - 0.41796         Background scaling factor
  BACKFILE  - NONE            Associated background file
  CORRSCAL  - 1.0000          Correlation scaling factor
  CORRFILE  - none            Associated correlation file
  RESPFILE  - NONE            Associated redistribution matrix file
  ANCRFILE  - none            Associated ancillary response file
  XFLT0001  - none            XSPEC selection filter
  POISSERR  - TRUE            Whether Poissonian errors apply
  CHANTYPE  - PI              Whether channels have been corrected
  TLMIN1    - 0               First legal Detector channel
  DETCHANS  - 512             No. of legal detector channels
  NCHAN     - 512             No. of detector channels in dataset
  PHAVERSN  - 1.1.0           OGIP FITS version number
  STAT_ERR  - FALSE           Statistical Error
  SYS_ERR   - TRUE            Fractional Systematic Error
  QUALITY   - TRUE            Quality Flag
  GROUPING  - FALSE           Grouping Flag
  --------------------------------------------------------------------
  --------------------------------------------------------------------
 ...
 ...  --------
 ...  GROUPING
 ...  --------
 ...  ---------------------------------------------
 ...  Channel Grouping (Channel-Channel) :
 ...         0 -      16  of undefined grouping (Channel quality=bad)
 ...        17 -      24  are grouped by a factor        8
 ...        25 -      26  are single channels
 ...        27 -      30  are grouped by a factor        2
 ...        31 -      33  are single channels
 ...        34 -      35  are grouped by a factor        2
 ...        36 -      36  are single channels
 ...        37 -      46  are grouped by a factor        2
 ...        47 -      47  are single channels
 ...        48 -      49  are grouped by a factor        2
 ...        50 -      51  are single channels
 ...        52 -      65  are grouped by a factor        2
 ...        66 -      68  are grouped by a factor        3
 ...        69 -      76  are grouped by a factor        2
 ...        77 -      82  are grouped by a factor        3
 ...        83 -      90  are grouped by a factor        4
 ...        91 -      95  are grouped by a factor        5
 ...        96 -      98  are grouped by a factor        3
 ...        99 -     102  are grouped by a factor        4
 ...       103 -     109  are grouped by a factor        7
 ...       110 -     134  are grouped by a factor        5
 ...       135 -     141  are grouped by a factor        7
 ...       142 -     149  are grouped by a factor        8
 ...       150 -     156  are grouped by a factor        7
 ...       157 -     164  are grouped by a factor        8
 ...       165 -     171  are grouped by a factor        7
 ...       172 -     183  are grouped by a factor       12
 ...       184 -     199  are grouped by a factor       16
 ...       200 -     220  are grouped by a factor       21
 ...       221 -     235  are grouped by a factor       15
 ...       236 -     256  are grouped by a factor       21
 ...       257 -     281  are grouped by a factor       25
 ...       282 -     362  are grouped by a factor       81
 ...       363 -     466  are grouped by a factor      104
 ...       467 -     511  of undefined grouping (Channel quality=bad)
 ...  ---------------------------------------------
 ...
 ...... exiting, changes written to file : ad27009000s110102_0.pi
 ** grppha 2.8.1 completed successfully
-> Source occupies chip(s) 0 1 2 3
-> Fetching SIS1_NOTCHIP1.1
-> Fetching SIS1_NOTCHIP2.1
-> Fetching SIS1_NOTCHIP3.1
-> Extracting spectrum from chip 0
-> Fetching sis1c0p40_290296.fits
-> Generating RMF for chip 0
-> Standard Output From FTOOL sisrmg:
Sisrmg Version 1.1, Configured 04/97

  This version resolves *all* known keyword incompatibilities with
  other FTOOLS tasks.  If you have previously fudged *any* keywords
  in the PHA file to compensate, incorrect results will follow.
 
Setting 1st PHA channel to 0
Making v1.1 1180x512 S1C0 Bright PI RMF
Calibration data files:
  ecd = ./sis1c0p40_290296.fits
  cti = ./sisph2pi_110397.fits
 echo = ./sisechos_290296.fits
  rdd = ./sisrddis_290296.fits
Please stand by...
...Done.
-> Fetching SIS1_NOTCHIP0.1
-> SIS1_NOTCHIP2.1 already present in current directory
-> SIS1_NOTCHIP3.1 already present in current directory
-> Extracting spectrum from chip 1
-> Fetching sis1c1p40_290296.fits
-> Generating RMF for chip 1
-> Standard Output From FTOOL sisrmg:
Sisrmg Version 1.1, Configured 04/97

  This version resolves *all* known keyword incompatibilities with
  other FTOOLS tasks.  If you have previously fudged *any* keywords
  in the PHA file to compensate, incorrect results will follow.
 
Setting 1st PHA channel to 0
Making v1.1 1180x512 S1C1 Bright PI RMF
Calibration data files:
  ecd = ./sis1c1p40_290296.fits
  cti = ./sisph2pi_110397.fits
 echo = ./sisechos_290296.fits
  rdd = ./sisrddis_290296.fits
Please stand by...
...Done.
-> SIS1_NOTCHIP0.1 already present in current directory
-> SIS1_NOTCHIP1.1 already present in current directory
-> SIS1_NOTCHIP3.1 already present in current directory
-> Extracting spectrum from chip 2
-> Fetching sis1c2p40_290296.fits
-> Generating RMF for chip 2
-> Standard Output From FTOOL sisrmg:
Sisrmg Version 1.1, Configured 04/97

  This version resolves *all* known keyword incompatibilities with
  other FTOOLS tasks.  If you have previously fudged *any* keywords
  in the PHA file to compensate, incorrect results will follow.
 
Setting 1st PHA channel to 0
Making v1.1 1180x512 S1C2 Bright PI RMF
Calibration data files:
  ecd = ./sis1c2p40_290296.fits
  cti = ./sisph2pi_110397.fits
 echo = ./sisechos_290296.fits
  rdd = ./sisrddis_290296.fits
Please stand by...
...Done.
-> SIS1_NOTCHIP0.1 already present in current directory
-> SIS1_NOTCHIP1.1 already present in current directory
-> SIS1_NOTCHIP2.1 already present in current directory
-> Extracting spectrum from chip 3
-> Fetching sis1c3p40_290296.fits
-> Generating RMF for chip 3
-> Standard Output From FTOOL sisrmg:
Sisrmg Version 1.1, Configured 04/97

  This version resolves *all* known keyword incompatibilities with
  other FTOOLS tasks.  If you have previously fudged *any* keywords
  in the PHA file to compensate, incorrect results will follow.
 
Setting 1st PHA channel to 0
Making v1.1 1180x512 S1C3 Bright PI RMF
Calibration data files:
  ecd = ./sis1c3p40_290296.fits
  cti = ./sisph2pi_110397.fits
 echo = ./sisechos_290296.fits
  rdd = ./sisrddis_290296.fits
Please stand by...
...Done.
-> Chip weights:
rmf0.tmp 0.258464632919879
rmf1.tmp 0.219577606436473
rmf2.tmp 0.286624203821656
rmf3.tmp 0.235333556821991
-> Standard Output From FTOOL addrmf:
ADDRMF vers 1.11  20 February 1998.
Summing ...
 2.585E-01 * rmf0.tmp
 2.196E-01 * rmf1.tmp
 2.866E-01 * rmf2.tmp
 2.353E-01 * rmf3.tmp
 RMF #    1 : rmf0.tmp                   0.26
              ASCA       SIS1       NONE       NONE       PI
 RMF #    2 : rmf1.tmp                   0.22
              ASCA       SIS1       NONE       NONE       PI
 RMF #    3 : rmf2.tmp                   0.29
              ASCA       SIS1       NONE       NONE       PI
 RMF #    4 : rmf3.tmp                   0.24
              ASCA       SIS1       NONE       NONE       PI
-> Generating ad27009000s110102_0.arf with point=no
-> Standard Output From FTOOL ascaarf:
ASCAARF vers 2.81  28 Aug 1998.
 
 Input WMAP array has size  105 by  109 bins
               expanded to  105 by  109 bins
 First WMAP bin is at detector pixel  232  216
   8 detector pixels per WMAP bin
 WMAP bin size is   0.21600 mm
                    0.21216 arcmin
 Selected region size is   30.101     arcmin^2
 Optical axis is detector pixel 618.28 773.83
 
 1180 energies from RMF file
 Effective area fudge applied
 Arf filter applied
 
 Total counts in region = 2.96100E+03
 Weighted mean angle from optical axis  =  8.864 arcmin
 
-> Standard Output From STOOL group_event_files:
1 ad27009000s100112h.evt 5386
2 ad27009000s100312m.evt 25
-> SIS1_OFFCHIP.2 already present in current directory
-> Extracting ad27009000s110212_0.pi from ad27009000s132002_0.reg and:
ad27009000s100112h.evt
-> Grouping ad27009000s110212_0.pi to 40 counts/bin
-> Standard Output From FTOOL grppha:
 
  -------------------------
  MANDATORY KEYWORDS/VALUES
  -------------------------
  --------------------------------------------------------------------
  --------------------------------------------------------------------
  EXTNAME   - SPECTRUM        Name of this BINTABLE
  TELESCOP  - ASCA            Mission/Satellite name
  INSTRUME  - SIS1            Instrument/Detector
  FILTER    - NONE            Instrument filter in use
  EXPOSURE  - 15903.          Integration time (in secs) of PHA data
  AREASCAL  - 1.0000          Area scaling factor
  BACKSCAL  - 0.41796         Background scaling factor
  BACKFILE  - NONE            Associated background file
  CORRSCAL  - 1.0000          Correlation scaling factor
  CORRFILE  - none            Associated correlation file
  RESPFILE  - NONE            Associated redistribution matrix file
  ANCRFILE  - none            Associated ancillary response file
  XFLT0001  - none            XSPEC selection filter
  POISSERR  - TRUE            Whether Poissonian errors apply
  CHANTYPE  - PI              Whether channels have been corrected
  TLMIN1    - 0               First legal Detector channel
  DETCHANS  - 1024            No. of legal detector channels
  NCHAN     - 1024            No. of detector channels in dataset
  PHAVERSN  - 1.1.0           OGIP FITS version number
  STAT_ERR  - FALSE           Statistical Error
  SYS_ERR   - TRUE            Fractional Systematic Error
  QUALITY   - TRUE            Quality Flag
  GROUPING  - FALSE           Grouping Flag
  --------------------------------------------------------------------
  --------------------------------------------------------------------
 ...
 ...  --------
 ...  GROUPING
 ...  --------
 ...  ---------------------------------------------
 ...  Channel Grouping (Channel-Channel) :
 ...         0 -      32  of undefined grouping (Channel quality=bad)
 ...        33 -      40  are grouped by a factor        8
 ...        41 -      42  are grouped by a factor        2
 ...        43 -      46  are single channels
 ...        47 -      54  are grouped by a factor        2
 ...        55 -      55  are single channels
 ...        56 -      57  are grouped by a factor        2
 ...        58 -      59  are single channels
 ...        60 -      71  are grouped by a factor        2
 ...        72 -      72  are single channels
 ...        73 -      76  are grouped by a factor        2
 ...        77 -      77  are single channels
 ...        78 -     125  are grouped by a factor        2
 ...       126 -     146  are grouped by a factor        3
 ...       147 -     148  are grouped by a factor        2
 ...       149 -     154  are grouped by a factor        3
 ...       155 -     158  are grouped by a factor        4
 ...       159 -     161  are grouped by a factor        3
 ...       162 -     171  are grouped by a factor        5
 ...       172 -     174  are grouped by a factor        3
 ...       175 -     178  are grouped by a factor        4
 ...       179 -     198  are grouped by a factor        5
 ...       199 -     204  are grouped by a factor        6
 ...       205 -     219  are grouped by a factor        5
 ...       220 -     223  are grouped by a factor        4
 ...       224 -     235  are grouped by a factor        6
 ...       236 -     240  are grouped by a factor        5
 ...       241 -     246  are grouped by a factor        6
 ...       247 -     267  are grouped by a factor        7
 ...       268 -     275  are grouped by a factor        8
 ...       276 -     284  are grouped by a factor        9
 ...       285 -     290  are grouped by a factor        6
 ...       291 -     310  are grouped by a factor       10
 ...       311 -     317  are grouped by a factor        7
 ...       318 -     327  are grouped by a factor       10
 ...       328 -     338  are grouped by a factor       11
 ...       339 -     354  are grouped by a factor       16
 ...       355 -     382  are grouped by a factor       14
 ...       383 -     399  are grouped by a factor       17
 ...       400 -     422  are grouped by a factor       23
 ...       423 -     442  are grouped by a factor       20
 ...       443 -     458  are grouped by a factor       16
 ...       459 -     476  are grouped by a factor       18
 ...       477 -     497  are grouped by a factor       21
 ...       498 -     523  are grouped by a factor       26
 ...       524 -     557  are grouped by a factor       34
 ...       558 -     621  are grouped by a factor       64
 ...       622 -     669  are grouped by a factor       48
 ...       670 -     744  are grouped by a factor       75
 ...       745 -     808  are grouped by a factor       64
 ...       809 -     878  are grouped by a factor       70
 ...       879 -     965  are grouped by a factor       87
 ...       966 -    1023  are grouped by a factor       58
 ...  ---------------------------------------------
 ...
 ...... exiting, changes written to file : ad27009000s110212_0.pi
 ** grppha 2.8.1 completed successfully
-> Source occupies chip(s) 0 1 2 3
-> SIS1_NOTCHIP1.1 already present in current directory
-> SIS1_NOTCHIP2.1 already present in current directory
-> SIS1_NOTCHIP3.1 already present in current directory
-> Extracting spectrum from chip 0
-> sis1c0p40_290296.fits already present in current directory
-> Generating RMF for chip 0
-> Standard Output From FTOOL sisrmg:
Sisrmg Version 1.1, Configured 04/97

  This version resolves *all* known keyword incompatibilities with
  other FTOOLS tasks.  If you have previously fudged *any* keywords
  in the PHA file to compensate, incorrect results will follow.
 
Setting 1st PHA channel to 0
Making v1.1 1180x1024 S1C0 Bright2 PI RMF
Calibration data files:
  ecd = ./sis1c0p40_290296.fits
  cti = ./sisph2pi_110397.fits
 echo = ./sisechos_290296.fits
  rdd = ./sisrddis_290296.fits
Please stand by...
...Done.
-> SIS1_NOTCHIP0.1 already present in current directory
-> SIS1_NOTCHIP2.1 already present in current directory
-> SIS1_NOTCHIP3.1 already present in current directory
-> Extracting spectrum from chip 1
-> sis1c1p40_290296.fits already present in current directory
-> Generating RMF for chip 1
-> Standard Output From FTOOL sisrmg:
Sisrmg Version 1.1, Configured 04/97

  This version resolves *all* known keyword incompatibilities with
  other FTOOLS tasks.  If you have previously fudged *any* keywords
  in the PHA file to compensate, incorrect results will follow.
 
Setting 1st PHA channel to 0
Making v1.1 1180x1024 S1C1 Bright2 PI RMF
Calibration data files:
  ecd = ./sis1c1p40_290296.fits
  cti = ./sisph2pi_110397.fits
 echo = ./sisechos_290296.fits
  rdd = ./sisrddis_290296.fits
Please stand by...
...Done.
-> SIS1_NOTCHIP0.1 already present in current directory
-> SIS1_NOTCHIP1.1 already present in current directory
-> SIS1_NOTCHIP3.1 already present in current directory
-> Extracting spectrum from chip 2
-> sis1c2p40_290296.fits already present in current directory
-> Generating RMF for chip 2
-> Standard Output From FTOOL sisrmg:
Sisrmg Version 1.1, Configured 04/97

  This version resolves *all* known keyword incompatibilities with
  other FTOOLS tasks.  If you have previously fudged *any* keywords
  in the PHA file to compensate, incorrect results will follow.
 
Setting 1st PHA channel to 0
Making v1.1 1180x1024 S1C2 Bright2 PI RMF
Calibration data files:
  ecd = ./sis1c2p40_290296.fits
  cti = ./sisph2pi_110397.fits
 echo = ./sisechos_290296.fits
  rdd = ./sisrddis_290296.fits
Please stand by...
...Done.
-> SIS1_NOTCHIP0.1 already present in current directory
-> SIS1_NOTCHIP1.1 already present in current directory
-> SIS1_NOTCHIP2.1 already present in current directory
-> Extracting spectrum from chip 3
-> sis1c3p40_290296.fits already present in current directory
-> Generating RMF for chip 3
-> Standard Output From FTOOL sisrmg:
Sisrmg Version 1.1, Configured 04/97

  This version resolves *all* known keyword incompatibilities with
  other FTOOLS tasks.  If you have previously fudged *any* keywords
  in the PHA file to compensate, incorrect results will follow.
 
Setting 1st PHA channel to 0
Making v1.1 1180x1024 S1C3 Bright2 PI RMF
Calibration data files:
  ecd = ./sis1c3p40_290296.fits
  cti = ./sisph2pi_110397.fits
 echo = ./sisechos_290296.fits
  rdd = ./sisrddis_290296.fits
Please stand by...
...Done.
-> Chip weights:
rmf0.tmp 0.241608192679689
rmf1.tmp 0.239332448321639
rmf2.tmp 0.284657690119477
rmf3.tmp 0.234401668879196
-> Standard Output From FTOOL addrmf:
ADDRMF vers 1.11  20 February 1998.
Summing ...
 2.416E-01 * rmf0.tmp
 2.393E-01 * rmf1.tmp
 2.847E-01 * rmf2.tmp
 2.344E-01 * rmf3.tmp
 RMF #    1 : rmf0.tmp                   0.24
              ASCA       SIS1       NONE       NONE       PI
 RMF #    2 : rmf1.tmp                   0.24
              ASCA       SIS1       NONE       NONE       PI
 RMF #    3 : rmf2.tmp                   0.28
              ASCA       SIS1       NONE       NONE       PI
 RMF #    4 : rmf3.tmp                   0.23
              ASCA       SIS1       NONE       NONE       PI
-> Generating ad27009000s110212_0.arf with point=no
-> Standard Output From FTOOL ascaarf:
ASCAARF vers 2.81  28 Aug 1998.
 
 Input WMAP array has size  106 by  109 bins
               expanded to  106 by  109 bins
 First WMAP bin is at detector pixel  232  216
   8 detector pixels per WMAP bin
 WMAP bin size is   0.21600 mm
                    0.21216 arcmin
 Selected region size is   30.101     arcmin^2
 Optical axis is detector pixel 618.28 773.83
 
 1180 energies from RMF file
 Effective area fudge applied
 Arf filter applied
 
 Total counts in region = 5.23100E+03
 Weighted mean angle from optical axis  =  8.735 arcmin
 
-> Standard Output From STOOL group_event_files:
1 ad27009000g200170h.evt 13101
1 ad27009000g200270m.evt 13101
-> GIS2_REGION256.4 already present in current directory
-> Extracting ad27009000g210170_0.pi from ad27009000g225670_0.reg and:
ad27009000g200170h.evt
ad27009000g200270m.evt
-> Correcting ad27009000g210170_0.pi for dead time
-> Standard Output From FTOOL deadtime:
... read all the files from deadlist.tmp
-> Grouping ad27009000g210170_0.pi to 40 counts/bin
-> Standard Output From FTOOL grppha:
 
  -------------------------
  MANDATORY KEYWORDS/VALUES
  -------------------------
  --------------------------------------------------------------------
  --------------------------------------------------------------------
  EXTNAME   - SPECTRUM        Name of this BINTABLE
  TELESCOP  - ASCA            Mission/Satellite name
  INSTRUME  - GIS2            Instrument/Detector
  FILTER    - NONE            Instrument filter in use
  EXPOSURE  - 19660.          Integration time (in secs) of PHA data
  AREASCAL  - 1.0000          Area scaling factor
  BACKSCAL  - 0.36888         Background scaling factor
  BACKFILE  - NONE            Associated background file
  CORRSCAL  - 1.0000          Correlation scaling factor
  CORRFILE  - none            Associated correlation file
  RESPFILE  - NONE            Associated redistribution matrix file
  ANCRFILE  - none            Associated ancillary response file
  XFLT0001  - none            XSPEC selection filter
  POISSERR  - TRUE            Whether Poissonian errors apply
  CHANTYPE  - PI              Whether channels have been corrected
  TLMIN1    - 0               First legal Detector channel
  DETCHANS  - 1024            No. of legal detector channels
  NCHAN     - 1024            No. of detector channels in dataset
  PHAVERSN  - 1.1.0           OGIP FITS version number
  STAT_ERR  - FALSE           Statistical Error
  SYS_ERR   - TRUE            Fractional Systematic Error
  QUALITY   - TRUE            Quality Flag
  GROUPING  - TRUE            Grouping Flag
  --------------------------------------------------------------------
  --------------------------------------------------------------------
 ...
 ...  --------
 ...  GROUPING
 ...  --------
 ...  ---------------------------------------------
 ...  Channel Grouping (Channel-Channel) :
 ...         0 -      21  are grouped by a factor       22
 ...        22 -      33  are grouped by a factor        2
 ...        34 -      39  are grouped by a factor        3
 ...        40 -      47  are grouped by a factor        4
 ...        48 -      56  are grouped by a factor        3
 ...        57 -      58  are grouped by a factor        2
 ...        59 -      64  are grouped by a factor        3
 ...        65 -      74  are grouped by a factor        2
 ...        75 -      75  are single channels
 ...        76 -      81  are grouped by a factor        2
 ...        82 -      84  are single channels
 ...        85 -      88  are grouped by a factor        2
 ...        89 -      89  are single channels
 ...        90 -      91  are grouped by a factor        2
 ...        92 -     103  are single channels
 ...       104 -     105  are grouped by a factor        2
 ...       106 -     135  are single channels
 ...       136 -     137  are grouped by a factor        2
 ...       138 -     170  are single channels
 ...       171 -     174  are grouped by a factor        2
 ...       175 -     178  are single channels
 ...       179 -     180  are grouped by a factor        2
 ...       181 -     181  are single channels
 ...       182 -     183  are grouped by a factor        2
 ...       184 -     184  are single channels
 ...       185 -     250  are grouped by a factor        2
 ...       251 -     256  are grouped by a factor        3
 ...       257 -     260  are grouped by a factor        2
 ...       261 -     263  are grouped by a factor        3
 ...       264 -     265  are grouped by a factor        2
 ...       266 -     271  are grouped by a factor        3
 ...       272 -     273  are grouped by a factor        2
 ...       274 -     282  are grouped by a factor        3
 ...       283 -     284  are grouped by a factor        2
 ...       285 -     311  are grouped by a factor        3
 ...       312 -     313  are grouped by a factor        2
 ...       314 -     316  are grouped by a factor        3
 ...       317 -     320  are grouped by a factor        4
 ...       321 -     326  are grouped by a factor        3
 ...       327 -     328  are grouped by a factor        2
 ...       329 -     337  are grouped by a factor        3
 ...       338 -     345  are grouped by a factor        4
 ...       346 -     348  are grouped by a factor        3
 ...       349 -     352  are grouped by a factor        4
 ...       353 -     358  are grouped by a factor        3
 ...       359 -     366  are grouped by a factor        4
 ...       367 -     369  are grouped by a factor        3
 ...       370 -     374  are grouped by a factor        5
 ...       375 -     380  are grouped by a factor        3
 ...       381 -     384  are grouped by a factor        4
 ...       385 -     387  are grouped by a factor        3
 ...       388 -     411  are grouped by a factor        4
 ...       412 -     416  are grouped by a factor        5
 ...       417 -     428  are grouped by a factor        4
 ...       429 -     438  are grouped by a factor        5
 ...       439 -     450  are grouped by a factor        6
 ...       451 -     455  are grouped by a factor        5
 ...       456 -     461  are grouped by a factor        6
 ...       462 -     466  are grouped by a factor        5
 ...       467 -     473  are grouped by a factor        7
 ...       474 -     478  are grouped by a factor        5
 ...       479 -     485  are grouped by a factor        7
 ...       486 -     491  are grouped by a factor        6
 ...       492 -     498  are grouped by a factor        7
 ...       499 -     514  are grouped by a factor        8
 ...       515 -     520  are grouped by a factor        6
 ...       521 -     528  are grouped by a factor        8
 ...       529 -     542  are grouped by a factor        7
 ...       543 -     550  are grouped by a factor        8
 ...       551 -     557  are grouped by a factor        7
 ...       558 -     565  are grouped by a factor        8
 ...       566 -     572  are grouped by a factor        7
 ...       573 -     578  are grouped by a factor        6
 ...       579 -     588  are grouped by a factor       10
 ...       589 -     597  are grouped by a factor        9
 ...       598 -     609  are grouped by a factor       12
 ...       610 -     619  are grouped by a factor       10
 ...       620 -     631  are grouped by a factor       12
 ...       632 -     642  are grouped by a factor       11
 ...       643 -     655  are grouped by a factor       13
 ...       656 -     667  are grouped by a factor       12
 ...       668 -     677  are grouped by a factor       10
 ...       678 -     689  are grouped by a factor       12
 ...       690 -     719  are grouped by a factor       15
 ...       720 -     729  are grouped by a factor       10
 ...       730 -     750  are grouped by a factor       21
 ...       751 -     773  are grouped by a factor       23
 ...       774 -     804  are grouped by a factor       31
 ...       805 -     821  are grouped by a factor       17
 ...       822 -     850  are grouped by a factor       29
 ...       851 -     878  are grouped by a factor       28
 ...       879 -     910  are grouped by a factor       32
 ...       911 -     936  are grouped by a factor       26
 ...       937 -     964  are grouped by a factor       28
 ...       965 -     991  are grouped by a factor       27
 ...       992 -    1023  are grouped by a factor       32
 ...  ---------------------------------------------
 ...
 ...... exiting, changes written to file : ad27009000g210170_0.pi
 ** grppha 2.8.1 completed successfully
-> Fetching gis2v4_0.rmf
-> Fetching s2bev1.fits
-> Fetching s2gridv3.fits
-> Generating ad27009000g210170_0.arf with point=no
-> Standard Output From FTOOL ascaarf:
ASCAARF vers 2.81  28 Aug 1998.
 
 Input WMAP array has size  177 by  178 bins
               expanded to  256 by  256 bins
 First WMAP bin is at detector pixel    1    1
   1 detector pixels per WMAP bin
 WMAP bin size is   0.25000 mm
                    0.24555 arcmin
 Selected region size is   1458.0     arcmin^2
 Optical axis is detector pixel 133.00 130.96
 
  201 energies from RMF file
 Effective area fudge applied
 Arf filter applied
 
 Total counts in region = 1.31010E+04
 Weighted mean angle from optical axis  = 13.816 arcmin
 
-> Standard Output From STOOL group_event_files:
1 ad27009000g300170h.evt 13472
1 ad27009000g300270m.evt 13472
-> GIS3_REGION256.4 already present in current directory
-> Extracting ad27009000g310170_0.pi from ad27009000g325670_0.reg and:
ad27009000g300170h.evt
ad27009000g300270m.evt
-> Correcting ad27009000g310170_0.pi for dead time
-> Standard Output From FTOOL deadtime:
... read all the files from deadlist.tmp
-> Grouping ad27009000g310170_0.pi to 40 counts/bin
-> Standard Output From FTOOL grppha:
 
  -------------------------
  MANDATORY KEYWORDS/VALUES
  -------------------------
  --------------------------------------------------------------------
  --------------------------------------------------------------------
  EXTNAME   - SPECTRUM        Name of this BINTABLE
  TELESCOP  - ASCA            Mission/Satellite name
  INSTRUME  - GIS3            Instrument/Detector
  FILTER    - NONE            Instrument filter in use
  EXPOSURE  - 19654.          Integration time (in secs) of PHA data
  AREASCAL  - 1.0000          Area scaling factor
  BACKSCAL  - 0.36783         Background scaling factor
  BACKFILE  - NONE            Associated background file
  CORRSCAL  - 1.0000          Correlation scaling factor
  CORRFILE  - none            Associated correlation file
  RESPFILE  - NONE            Associated redistribution matrix file
  ANCRFILE  - none            Associated ancillary response file
  XFLT0001  - none            XSPEC selection filter
  POISSERR  - TRUE            Whether Poissonian errors apply
  CHANTYPE  - PI              Whether channels have been corrected
  TLMIN1    - 0               First legal Detector channel
  DETCHANS  - 1024            No. of legal detector channels
  NCHAN     - 1024            No. of detector channels in dataset
  PHAVERSN  - 1.1.0           OGIP FITS version number
  STAT_ERR  - FALSE           Statistical Error
  SYS_ERR   - TRUE            Fractional Systematic Error
  QUALITY   - TRUE            Quality Flag
  GROUPING  - TRUE            Grouping Flag
  --------------------------------------------------------------------
  --------------------------------------------------------------------
 ...
 ...  --------
 ...  GROUPING
 ...  --------
 ...  ---------------------------------------------
 ...  Channel Grouping (Channel-Channel) :
 ...         0 -      22  are grouped by a factor       23
 ...        23 -      23  are single channels
 ...        24 -      33  are grouped by a factor        2
 ...        34 -      39  are grouped by a factor        3
 ...        40 -      41  are grouped by a factor        2
 ...        42 -      59  are grouped by a factor        3
 ...        60 -      63  are grouped by a factor        2
 ...        64 -      66  are grouped by a factor        3
 ...        67 -      80  are grouped by a factor        2
 ...        81 -      83  are single channels
 ...        84 -      85  are grouped by a factor        2
 ...        86 -     131  are single channels
 ...       132 -     133  are grouped by a factor        2
 ...       134 -     171  are single channels
 ...       172 -     173  are grouped by a factor        2
 ...       174 -     174  are single channels
 ...       175 -     176  are grouped by a factor        2
 ...       177 -     178  are single channels
 ...       179 -     244  are grouped by a factor        2
 ...       245 -     250  are grouped by a factor        3
 ...       251 -     254  are grouped by a factor        2
 ...       255 -     257  are grouped by a factor        3
 ...       258 -     259  are grouped by a factor        2
 ...       260 -     265  are grouped by a factor        3
 ...       266 -     269  are grouped by a factor        2
 ...       270 -     272  are grouped by a factor        3
 ...       273 -     274  are grouped by a factor        2
 ...       275 -     280  are grouped by a factor        3
 ...       281 -     286  are grouped by a factor        2
 ...       287 -     292  are grouped by a factor        3
 ...       293 -     294  are grouped by a factor        2
 ...       295 -     306  are grouped by a factor        3
 ...       307 -     310  are grouped by a factor        2
 ...       311 -     316  are grouped by a factor        3
 ...       317 -     324  are grouped by a factor        4
 ...       325 -     333  are grouped by a factor        3
 ...       334 -     337  are grouped by a factor        4
 ...       338 -     349  are grouped by a factor        3
 ...       350 -     353  are grouped by a factor        4
 ...       354 -     356  are grouped by a factor        3
 ...       357 -     364  are grouped by a factor        4
 ...       365 -     370  are grouped by a factor        3
 ...       371 -     374  are grouped by a factor        4
 ...       375 -     380  are grouped by a factor        3
 ...       381 -     384  are grouped by a factor        4
 ...       385 -     387  are grouped by a factor        3
 ...       388 -     395  are grouped by a factor        4
 ...       396 -     400  are grouped by a factor        5
 ...       401 -     424  are grouped by a factor        4
 ...       425 -     439  are grouped by a factor        5
 ...       440 -     443  are grouped by a factor        4
 ...       444 -     449  are grouped by a factor        6
 ...       450 -     454  are grouped by a factor        5
 ...       455 -     466  are grouped by a factor        6
 ...       467 -     473  are grouped by a factor        7
 ...       474 -     479  are grouped by a factor        6
 ...       480 -     486  are grouped by a factor        7
 ...       487 -     492  are grouped by a factor        6
 ...       493 -     500  are grouped by a factor        8
 ...       501 -     505  are grouped by a factor        5
 ...       506 -     511  are grouped by a factor        6
 ...       512 -     519  are grouped by a factor        8
 ...       520 -     525  are grouped by a factor        6
 ...       526 -     533  are grouped by a factor        8
 ...       534 -     557  are grouped by a factor        6
 ...       558 -     562  are grouped by a factor        5
 ...       563 -     568  are grouped by a factor        6
 ...       569 -     592  are grouped by a factor        8
 ...       593 -     603  are grouped by a factor       11
 ...       604 -     612  are grouped by a factor        9
 ...       613 -     624  are grouped by a factor       12
 ...       625 -     639  are grouped by a factor       15
 ...       640 -     653  are grouped by a factor       14
 ...       654 -     668  are grouped by a factor       15
 ...       669 -     681  are grouped by a factor       13
 ...       682 -     693  are grouped by a factor       12
 ...       694 -     719  are grouped by a factor       13
 ...       720 -     735  are grouped by a factor       16
 ...       736 -     758  are grouped by a factor       23
 ...       759 -     782  are grouped by a factor       24
 ...       783 -     807  are grouped by a factor       25
 ...       808 -     828  are grouped by a factor       21
 ...       829 -     851  are grouped by a factor       23
 ...       852 -     919  are grouped by a factor       34
 ...       920 -     942  are grouped by a factor       23
 ...       943 -     977  are grouped by a factor       35
 ...       978 -    1013  are grouped by a factor       36
 ...      1014 -    1023  are grouped by a factor       10
 ...  ---------------------------------------------
 ...
 ...... exiting, changes written to file : ad27009000g310170_0.pi
 ** grppha 2.8.1 completed successfully
-> Fetching gis3v4_0.rmf
-> Fetching s3bev1.fits
-> Fetching s3gridv3.fits
-> Generating ad27009000g310170_0.arf with point=no
-> Standard Output From FTOOL ascaarf:
ASCAARF vers 2.81  28 Aug 1998.
 
 Input WMAP array has size  177 by  178 bins
               expanded to  256 by  256 bins
 First WMAP bin is at detector pixel    1    1
   1 detector pixels per WMAP bin
 WMAP bin size is   0.25000 mm
                    0.24555 arcmin
 Selected region size is   1453.8     arcmin^2
 Optical axis is detector pixel 119.36 134.44
 
  201 energies from RMF file
 Effective area fudge applied
 Arf filter applied
 
 Total counts in region = 1.34720E+04
 Weighted mean angle from optical axis  = 13.649 arcmin
 
-> Plotting ad27009000g210170_0_pi.ps from ad27009000g210170_0.pi
-> Standard Output From STOOL xspec:
 
               XSPEC 9.01 23:34:51 18-Nov-99
 
 Plot device not set, use "cpd" to set it
 
 Type "help" or "?" for further information
!XSPEC> data ad27009000g210170_0.pi
 Net count rate (cts/s) for file   1  0.6664    +/-  5.8220E-03
   1 data set is in use
!XSPEC> setplot energy
!XSPEC> ignore bad
!XSPEC> iplot
!PLT> log y on
!PLT> rescale y
!PLT> hard /ps
!PLT> quit
!XSPEC> exit
!Do you really want to exit (y) y
 XSPEC: quit
-> Plotting ad27009000g310170_0_pi.ps from ad27009000g310170_0.pi
-> Standard Output From STOOL xspec:
 
               XSPEC 9.01 23:35:01 18-Nov-99
 
 Plot device not set, use "cpd" to set it
 
 Type "help" or "?" for further information
!XSPEC> data ad27009000g310170_0.pi
 Net count rate (cts/s) for file   1  0.6855    +/-  5.9057E-03
   1 data set is in use
!XSPEC> setplot energy
!XSPEC> ignore bad
!XSPEC> iplot
!PLT> log y on
!PLT> rescale y
!PLT> hard /ps
!PLT> quit
!XSPEC> exit
!Do you really want to exit (y) y
 XSPEC: quit
-> Plotting ad27009000s010102_0_pi.ps from ad27009000s010102_0.pi
-> Standard Output From STOOL xspec:
 
               XSPEC 9.01 23:35:11 18-Nov-99
 
 Plot device not set, use "cpd" to set it
 
 Type "help" or "?" for further information
!XSPEC> data ad27009000s010102_0.pi
 Net count rate (cts/s) for file   1  0.1760    +/-  3.1427E-03
   1 data set is in use
!XSPEC> setplot energy
!XSPEC> ignore bad
!XSPEC> iplot
!PLT> log y on
!PLT> rescale y
!PLT> hard /ps
!PLT> quit
!XSPEC> exit
!Do you really want to exit (y) y
 XSPEC: quit
-> Plotting ad27009000s010212_0_pi.ps from ad27009000s010212_0.pi
-> Standard Output From STOOL xspec:
 
               XSPEC 9.01 23:35:21 18-Nov-99
 
 Plot device not set, use "cpd" to set it
 
 Type "help" or "?" for further information
!XSPEC> data ad27009000s010212_0.pi
 Net count rate (cts/s) for file   1  0.2823    +/-  3.9457E-03
   1 data set is in use
!XSPEC> setplot energy
!XSPEC> ignore bad
!XSPEC> iplot
!PLT> log y on
!PLT> rescale y
!PLT> hard /ps
!PLT> quit
!XSPEC> exit
!Do you really want to exit (y) y
 XSPEC: quit
-> Plotting ad27009000s110102_0_pi.ps from ad27009000s110102_0.pi
-> Standard Output From STOOL xspec:
 
               XSPEC 9.01 23:35:34 18-Nov-99
 
 Plot device not set, use "cpd" to set it
 
 Type "help" or "?" for further information
!XSPEC> data ad27009000s110102_0.pi
 Net count rate (cts/s) for file   1  0.1876    +/-  3.4659E-03
   1 data set is in use
!XSPEC> setplot energy
!XSPEC> ignore bad
!XSPEC> iplot
!PLT> log y on
!PLT> rescale y
!PLT> hard /ps
!PLT> quit
!XSPEC> exit
!Do you really want to exit (y) y
 XSPEC: quit
-> Plotting ad27009000s110212_0_pi.ps from ad27009000s110212_0.pi
-> Standard Output From STOOL xspec:
 
               XSPEC 9.01 23:35:45 18-Nov-99
 
 Plot device not set, use "cpd" to set it
 
 Type "help" or "?" for further information
!XSPEC> data ad27009000s110212_0.pi
 Net count rate (cts/s) for file   1  0.3316    +/-  4.5805E-03
   1 data set is in use
!XSPEC> setplot energy
!XSPEC> ignore bad
!XSPEC> iplot
!PLT> log y on
!PLT> rescale y
!PLT> hard /ps
!PLT> quit
!XSPEC> exit
!Do you really want to exit (y) y
 XSPEC: quit

Extracting light curves ( 23:35:54 )

-> TIMEDEL=1.6000000000E+01 for ad27009000s000102h.evt
-> TIMEDEL=1.6000000000E+01 for ad27009000s000202h.evt
-> TIMEDEL=8.0000000000E+00 for ad27009000s000502m.evt
-> Minimum bin size is 1.6000000000E+01 seconds
-> Extracting events from region ad27009000s032002_0.reg
-> ... and files: ad27009000s000102h.evt ad27009000s000202h.evt ad27009000s000502m.evt
-> Extracting ad27009000s000002_0.lc with binsize 254.286756317423
-> Plotting light curve ad27009000s000002_0_lc.ps
-> Standard Output From FTOOL xronos:

                                                     Type "help" for information


 [1]xronos>   Current User Interface is ;           command driven                          
 [2]xronos>       Enter up to  50 input filenames and options for series 1 (or rtn)    
      Ser. A filename   1 +options[.rbf]=> ad27009000s000002_0.lc                                                                                                              
 
 Selected FITS extensions: 1 - RATE TABLE;
 
 Source ............ GEV1732-3130_NOR    Start Time (d) .... 11254 06:14:04.337
 FITS Extension ....  1 - `RATE      `   Stop Time (d) ..... 11254 19:51:08.337
 No. of Rows .......           73        Bin Time (s) ......    254.3
 Right Ascension ... 2.6321E+02          Internal time sys.. Converted to TJD
 Declination ....... -3.1031E+01         Experiment ........ ASCA     SIS0
 Filter ............ NONE
 Corrections applied: Vignetting - No ; Deadtime - No ; Bkgd - No ; Clock - No
 
 Selected Columns:   1 - Time;   2 - Y-axis;   3 - Y-error;
 
 File contains binned data.
 
      Ser. A filename   2 +options[.rbf]=>                                                                                                                                     
      Enter up to  50 input filenames and options for series 2 (or rtn)    
      Ser. B filename   1 +options[.rbf]=>                                                                                                                                     
      Enter up to  50 input filenames and options for series 3 (or rtn)    
      Ser. C filename   1 +options[.rbf]=>                                                                                                                                     
 [3]xronos> 
 Maximum of      1 Intvs. with       193 Newbins of       254.287     (s) 

 
 Intv    1   Start11254  6:28:54
     Ser.1     Avg 0.1817        Chisq  77.15       Var 0.8565E-03 Newbs.    73
               Min 0.1376          Max 0.2620    expVar 0.8104E-03  Bins     73

             Results from Statistical Analysis

             Newbin Integration Time (s)..  254.29    
             Interval Duration (s)........  47806.    
             No. of Newbins ..............      73
             Average (c/s) ............... 0.18168      +/-    0.34E-02
             Standard Deviation (c/s)..... 0.29266E-01
             Minimum (c/s)................ 0.13764    
             Maximum (c/s)................ 0.26198    
             Variance ((c/s)**2).......... 0.85648E-03 +/-    0.14E-03
             Expected Variance ((c/s)**2). 0.81043E-03 +/-    0.14E-03
             Third Moment ((c/s)**3)...... 0.18883E-04
             Average Deviation (c/s)...... 0.22694E-01
             Skewness..................... 0.75335        +/-    0.29    
             Kurtosis..................... 0.20544        +/-    0.57    
             RMS fractional variation....< 0.11271     (3 sigma)
             Chi-Square...................  77.147        dof      72
             Chi-Square Prob of constancy. 0.31764     (0 means < 1.e-38)
             Kolm.-Smir. Prob of constancy 0.16395     (0 means < 1.e-38)
 [4]xronos>  [5]xronos> 
 Maximum of      1 Intvs. with       193 Newbins of       254.287     (s) 

 
 Intv    1   Start11254  6:28:54
     Ser.1     Avg 0.1817        Chisq  77.15       Var 0.8565E-03 Newbs.    73
               Min 0.1376          Max 0.2620    expVar 0.8104E-03  Bins     73
             Light curve ready !
 Frme    1  Written to output file : xronos.qlc1                                                                                                                         
PLT> LA File ad27009000s000002_0.lc
PLT> hard /ps
PLT>  [6]xronos> 
-> TIMEDEL=1.6000000000E+01 for ad27009000s100102h.evt
-> TIMEDEL=8.0000000000E+00 for ad27009000s100302m.evt
-> Minimum bin size is 1.6000000000E+01 seconds
-> Extracting events from region ad27009000s132002_0.reg
-> ... and files: ad27009000s100102h.evt ad27009000s100302m.evt
-> Extracting ad27009000s100002_0.lc with binsize 260.567509842618
-> Plotting light curve ad27009000s100002_0_lc.ps
-> Standard Output From FTOOL xronos:

                                                     Type "help" for information


 [1]xronos>   Current User Interface is ;           command driven                          
 [2]xronos>       Enter up to  50 input filenames and options for series 1 (or rtn)    
      Ser. A filename   1 +options[.rbf]=> ad27009000s100002_0.lc                                                                                                              
 
 Selected FITS extensions: 1 - RATE TABLE;
 
 Source ............ GEV1732-3130_NOR    Start Time (d) .... 11254 06:14:04.337
 FITS Extension ....  1 - `RATE      `   Stop Time (d) ..... 11254 19:51:08.337
 No. of Rows .......           66        Bin Time (s) ......    260.6
 Right Ascension ... 2.6321E+02          Internal time sys.. Converted to TJD
 Declination ....... -3.1031E+01         Experiment ........ ASCA     SIS1
 Filter ............ NONE
 Corrections applied: Vignetting - No ; Deadtime - No ; Bkgd - No ; Clock - No
 
 Selected Columns:   1 - Time;   2 - Y-axis;   3 - Y-error;
 
 File contains binned data.
 
      Ser. A filename   2 +options[.rbf]=>                                                                                                                                     
      Enter up to  50 input filenames and options for series 2 (or rtn)    
      Ser. B filename   1 +options[.rbf]=>                                                                                                                                     
      Enter up to  50 input filenames and options for series 3 (or rtn)    
      Ser. C filename   1 +options[.rbf]=>                                                                                                                                     
 [3]xronos> 
 Maximum of      1 Intvs. with       189 Newbins of       260.567     (s) 

 
 Intv    1   Start11254  6:29:16
     Ser.1     Avg 0.1938        Chisq  87.82       Var 0.1219E-02 Newbs.    66
               Min 0.1259          Max 0.2764    expVar 0.9160E-03  Bins     66

             Results from Statistical Analysis

             Newbin Integration Time (s)..  260.57    
             Interval Duration (s)........  47944.    
             No. of Newbins ..............      66
             Average (c/s) ............... 0.19384      +/-    0.38E-02
             Standard Deviation (c/s)..... 0.34913E-01
             Minimum (c/s)................ 0.12587    
             Maximum (c/s)................ 0.27638    
             Variance ((c/s)**2).......... 0.12189E-02 +/-    0.21E-03
             Expected Variance ((c/s)**2). 0.91603E-03 +/-    0.16E-03
             Third Moment ((c/s)**3)...... 0.68918E-05
             Average Deviation (c/s)...... 0.28002E-01
             Skewness..................... 0.16194        +/-    0.30    
             Kurtosis.....................-0.46700        +/-    0.60    
             RMS fractional variation....< 0.82354E-01 (3 sigma)
             Chi-Square...................  87.824        dof      65
             Chi-Square Prob of constancy. 0.31224E-01 (0 means < 1.e-38)
             Kolm.-Smir. Prob of constancy 0.33257E-01 (0 means < 1.e-38)
 [4]xronos>  [5]xronos> 
 Maximum of      1 Intvs. with       189 Newbins of       260.567     (s) 

 
 Intv    1   Start11254  6:29:16
     Ser.1     Avg 0.1938        Chisq  87.82       Var 0.1219E-02 Newbs.    66
               Min 0.1259          Max 0.2764    expVar 0.9160E-03  Bins     66
             Light curve ready !
 Frme    1  Written to output file : xronos.qlc1                                                                                                                         
PLT> LA File ad27009000s100002_0.lc
PLT> hard /ps
PLT>  [6]xronos> 
-> TIMEDEL=6.2500000000E-02 for ad27009000g200170h.evt
-> TIMEDEL=5.0000000000E-01 for ad27009000g200270m.evt
-> Minimum bin size is 5.0000000000E-01 seconds
-> Extracting events from region ad27009000g225670_0.reg
-> ... and files: ad27009000g200170h.evt ad27009000g200270m.evt
-> Extracting ad27009000g200070_0.lc with binsize 75.0314141235891
-> Plotting light curve ad27009000g200070_0_lc.ps
-> Standard Output From FTOOL xronos:

                                                     Type "help" for information


 [1]xronos>   Current User Interface is ;           command driven                          
 [2]xronos>       Enter up to  50 input filenames and options for series 1 (or rtn)    
      Ser. A filename   1 +options[.rbf]=> ad27009000g200070_0.lc                                                                                                              
 
 Selected FITS extensions: 1 - RATE TABLE;
 
 Source ............ GEV1732-3130_NOR    Start Time (d) .... 11254 06:11:56.337
 FITS Extension ....  1 - `RATE      `   Stop Time (d) ..... 11254 19:51:02.185
 No. of Rows .......          269        Bin Time (s) ......    75.03
 Right Ascension ... 2.6321E+02          Internal time sys.. Converted to TJD
 Declination ....... -3.1031E+01         Experiment ........ ASCA     GIS2
 Filter ............ NONE
 Corrections applied: Vignetting - No ; Deadtime - No ; Bkgd - No ; Clock - No
 
 Selected Columns:   1 - Time;   2 - Y-axis;   3 - Y-error;
 
 File contains binned data.
 
      Ser. A filename   2 +options[.rbf]=>                                                                                                                                     
      Enter up to  50 input filenames and options for series 2 (or rtn)    
      Ser. B filename   1 +options[.rbf]=>                                                                                                                                     
      Enter up to  50 input filenames and options for series 3 (or rtn)    
      Ser. C filename   1 +options[.rbf]=>                                                                                                                                     
 [3]xronos> 
 Maximum of      1 Intvs. with       512 Newbins of       96.1006     (s) 

 
 Intv    1   Start11254  6:12:44
     Ser.1     Avg 0.6652        Chisq  214.6       Var 0.9299E-02 Newbs.   214
               Min 0.4028          Max 0.8930    expVar 0.8371E-02  Bins    269

             Results from Statistical Analysis

             Newbin Integration Time (s)..  96.101    
             Interval Duration (s)........  49107.    
             No. of Newbins ..............     214
             Average (c/s) ............... 0.66522      +/-    0.63E-02
             Standard Deviation (c/s)..... 0.96430E-01
             Minimum (c/s)................ 0.40280    
             Maximum (c/s)................ 0.89296    
             Variance ((c/s)**2).......... 0.92987E-02 +/-    0.90E-03
             Expected Variance ((c/s)**2). 0.83711E-02 +/-    0.81E-03
             Third Moment ((c/s)**3)......-0.23445E-04
             Average Deviation (c/s)...... 0.77279E-01
             Skewness.....................-0.26146E-01    +/-    0.17    
             Kurtosis.....................-0.27706        +/-    0.33    
             RMS fractional variation....< 0.62259E-01 (3 sigma)
             Chi-Square...................  214.60        dof     213
             Chi-Square Prob of constancy. 0.45627     (0 means < 1.e-38)
             Kolm.-Smir. Prob of constancy 0.14899E-01 (0 means < 1.e-38)
 [4]xronos>  [5]xronos> 
 Maximum of      1 Intvs. with       512 Newbins of       96.1006     (s) 

 
 Intv    1   Start11254  6:12:44
     Ser.1     Avg 0.6652        Chisq  214.6       Var 0.9299E-02 Newbs.   214
               Min 0.4028          Max 0.8930    expVar 0.8371E-02  Bins    269
             Light curve ready !
 Frme    1  Written to output file : xronos.qlc1                                                                                                                         
PLT> LA File ad27009000g200070_0.lc
PLT> hard /ps
PLT>  [6]xronos> 
-> TIMEDEL=6.2500000000E-02 for ad27009000g300170h.evt
-> TIMEDEL=5.0000000000E-01 for ad27009000g300270m.evt
-> Minimum bin size is 5.0000000000E-01 seconds
-> Extracting events from region ad27009000g325670_0.reg
-> ... and files: ad27009000g300170h.evt ad27009000g300270m.evt
-> Extracting ad27009000g300070_0.lc with binsize 72.9431934601621
-> Plotting light curve ad27009000g300070_0_lc.ps
-> Standard Output From FTOOL xronos:

                                                     Type "help" for information


 [1]xronos>   Current User Interface is ;           command driven                          
 [2]xronos>       Enter up to  50 input filenames and options for series 1 (or rtn)    
      Ser. A filename   1 +options[.rbf]=> ad27009000g300070_0.lc                                                                                                              
 
 Selected FITS extensions: 1 - RATE TABLE;
 
 Source ............ GEV1732-3130_NOR    Start Time (d) .... 11254 06:11:56.337
 FITS Extension ....  1 - `RATE      `   Stop Time (d) ..... 11254 19:51:02.185
 No. of Rows .......          274        Bin Time (s) ......    72.94
 Right Ascension ... 2.6321E+02          Internal time sys.. Converted to TJD
 Declination ....... -3.1031E+01         Experiment ........ ASCA     GIS3
 Filter ............ NONE
 Corrections applied: Vignetting - No ; Deadtime - No ; Bkgd - No ; Clock - No
 
 Selected Columns:   1 - Time;   2 - Y-axis;   3 - Y-error;
 
 File contains binned data.
 
      Ser. A filename   2 +options[.rbf]=>                                                                                                                                     
      Enter up to  50 input filenames and options for series 2 (or rtn)    
      Ser. B filename   1 +options[.rbf]=>                                                                                                                                     
      Enter up to  50 input filenames and options for series 3 (or rtn)    
      Ser. C filename   1 +options[.rbf]=>                                                                                                                                     
 [3]xronos> 
 Maximum of      1 Intvs. with       512 Newbins of       96.1006     (s) 

 
 Intv    1   Start11254  6:12:44
     Ser.1     Avg 0.6854        Chisq  204.2       Var 0.9061E-02 Newbs.   213
               Min 0.4793          Max 0.9315    expVar 0.8516E-02  Bins    274

             Results from Statistical Analysis

             Newbin Integration Time (s)..  96.101    
             Interval Duration (s)........  49107.    
             No. of Newbins ..............     213
             Average (c/s) ............... 0.68543      +/-    0.63E-02
             Standard Deviation (c/s)..... 0.95187E-01
             Minimum (c/s)................ 0.47926    
             Maximum (c/s)................ 0.93150    
             Variance ((c/s)**2).......... 0.90605E-02 +/-    0.88E-03
             Expected Variance ((c/s)**2). 0.85164E-02 +/-    0.83E-03
             Third Moment ((c/s)**3)...... 0.17816E-03
             Average Deviation (c/s)...... 0.77077E-01
             Skewness..................... 0.20658        +/-    0.17    
             Kurtosis.....................-0.44287        +/-    0.34    
             RMS fractional variation....< 0.67675E-01 (3 sigma)
             Chi-Square...................  204.22        dof     212
             Chi-Square Prob of constancy. 0.63691     (0 means < 1.e-38)
             Kolm.-Smir. Prob of constancy 0.42220     (0 means < 1.e-38)
 [4]xronos>  [5]xronos> 
 Maximum of      1 Intvs. with       512 Newbins of       96.1006     (s) 

 
 Intv    1   Start11254  6:12:44
     Ser.1     Avg 0.6854        Chisq  204.2       Var 0.9061E-02 Newbs.   213
               Min 0.4793          Max 0.9315    expVar 0.8516E-02  Bins    274
             Light curve ready !
 Frme    1  Written to output file : xronos.qlc1                                                                                                                         
PLT> LA File ad27009000g300070_0.lc
PLT> hard /ps
PLT>  [6]xronos> 
-> Merging GTIs from the following files:
ad27009000g200170h.evt[2]
ad27009000g200270m.evt[2]
-> Making L1 light curve of ft990317_0605_2000G2HK.fits with irate=HIGH
-> Standard Output From FTOOL ghkcurve:
ghkcurve: ALLGTI found in input HK file, will be applied to data.
ghkcurve:  43808 output records from   43910  good input G2_L1    records.
-> Making L1 light curve of ft990317_0605_2000G2HK.fits with irate=HI+MED
-> Standard Output From FTOOL ghkcurve:
ghkcurve: ALLGTI found in input HK file, will be applied to data.
ghkcurve:  18076 output records from   44217  good input G2_L1    records.
-> Merging GTIs from the following files:
ad27009000g300170h.evt[2]
ad27009000g300270m.evt[2]
-> Making L1 light curve of ft990317_0605_2000G3HK.fits with irate=HIGH
-> Standard Output From FTOOL ghkcurve:
ghkcurve: ALLGTI found in input HK file, will be applied to data.
ghkcurve:  41149 output records from   41252  good input G3_L1    records.
-> Making L1 light curve of ft990317_0605_2000G3HK.fits with irate=HI+MED
-> Standard Output From FTOOL ghkcurve:
ghkcurve: ALLGTI found in input HK file, will be applied to data.
ghkcurve:  17825 output records from   41559  good input G3_L1    records.

Extracting source event files ( 23:40:40 )

-> Extracting unbinned light curve ad27009000g200170h_0.ulc
-> Extracting unbinned light curve ad27009000g200270m_0.ulc
-> Extracting unbinned light curve ad27009000g300170h_0.ulc
-> Extracting unbinned light curve ad27009000g300270m_0.ulc
-> Extracting unbinned light curve ad27009000s000102h_0.ulc
-> Extracting unbinned light curve ad27009000s000112h_0.ulc
-> Extracting unbinned light curve ad27009000s000202h_0.ulc
-> Extracting unbinned light curve ad27009000s000212h_0.ulc
-> Extracting unbinned light curve ad27009000s000502m_0.ulc
-> Extracting unbinned light curve ad27009000s000512m_0.ulc
-> Extracting unbinned light curve ad27009000s100102h_0.ulc
-> Extracting unbinned light curve ad27009000s100112h_0.ulc
-> Extracting unbinned light curve ad27009000s100302m_0.ulc
-> Extracting unbinned light curve ad27009000s100312m_0.ulc

Extracting FRAME mode data ( 23:44:12 )

-> Extracting frame mode data from ft990317_0605.2000
-> Standard Output From STOOL tlmFrm:
 *** tlmFrm Version 1.1 (1997-08-25) *** 
total number of superframes: 15413

Total of 0 sets of frame data are extracted.
-> Extracting corner pixel GTIs with the following criteria:
SUNSHINE==0 &&
T_DY_NT>64 &&
T_SAA>64 &&
SAA==0 &&
COR>6 &&
(ELV>10 || ELV<10 )
-> Extracting GTIs from ft990317_0605_2000.mkf
-> Generating corner pixel histogram ad27009000s000101h_0.cnr
-> Generating corner pixel histogram ad27009000s000101h_1.cnr
-> Generating corner pixel histogram ad27009000s000101h_2.cnr
-> Generating corner pixel histogram ad27009000s000101h_3.cnr
-> Generating corner pixel histogram ad27009000s000201h_0.cnr
-> Generating corner pixel histogram ad27009000s000201h_1.cnr
-> Generating corner pixel histogram ad27009000s000201h_2.cnr
-> Generating corner pixel histogram ad27009000s000201h_3.cnr
-> Generating corner pixel histogram ad27009000s000301m_0.cnr
-> Generating corner pixel histogram ad27009000s000301m_1.cnr
-> Generating corner pixel histogram ad27009000s000301m_2.cnr
-> Generating corner pixel histogram ad27009000s000301m_3.cnr
-> Generating corner pixel histogram ad27009000s000401m_0.cnr
-> Generating corner pixel histogram ad27009000s000401m_1.cnr
-> Generating corner pixel histogram ad27009000s000401m_2.cnr
-> Generating corner pixel histogram ad27009000s000401m_3.cnr
-> Generating corner pixel histogram ad27009000s000501m_1.cnr
-> Generating corner pixel histogram ad27009000s000501m_2.cnr
-> Generating corner pixel histogram ad27009000s000601m_1.cnr
-> Generating corner pixel histogram ad27009000s000601m_2.cnr
-> Generating corner pixel histogram ad27009000s000701l_0.cnr
-> Generating corner pixel histogram ad27009000s000701l_1.cnr
-> Generating corner pixel histogram ad27009000s000701l_2.cnr
-> Generating corner pixel histogram ad27009000s000701l_3.cnr
-> Generating corner pixel histogram ad27009000s000801l_0.cnr
-> Generating corner pixel histogram ad27009000s000801l_1.cnr
-> Generating corner pixel histogram ad27009000s000801l_2.cnr
-> Generating corner pixel histogram ad27009000s000801l_3.cnr
-> Generating corner pixel histogram ad27009000s000901h_0.cnr
-> Generating corner pixel histogram ad27009000s000901h_1.cnr
-> Generating corner pixel histogram ad27009000s000901h_2.cnr
-> Generating corner pixel histogram ad27009000s000901h_3.cnr
-> Generating corner pixel histogram ad27009000s100101h_0.cnr
-> Generating corner pixel histogram ad27009000s100101h_1.cnr
-> Generating corner pixel histogram ad27009000s100101h_2.cnr
-> Generating corner pixel histogram ad27009000s100101h_3.cnr
-> Generating corner pixel histogram ad27009000s100201m_0.cnr
-> Generating corner pixel histogram ad27009000s100201m_1.cnr
-> Generating corner pixel histogram ad27009000s100201m_2.cnr
-> Generating corner pixel histogram ad27009000s100201m_3.cnr
-> Generating corner pixel histogram ad27009000s100301m_1.cnr
-> Generating corner pixel histogram ad27009000s100301m_2.cnr
-> Generating corner pixel histogram ad27009000s100401l_0.cnr
-> Generating corner pixel histogram ad27009000s100401l_1.cnr
-> Generating corner pixel histogram ad27009000s100401l_2.cnr
-> Generating corner pixel histogram ad27009000s100401l_3.cnr
-> Generating corner pixel histogram ad27009000s100501h_0.cnr
-> Generating corner pixel histogram ad27009000s100501h_1.cnr
-> Generating corner pixel histogram ad27009000s100501h_2.cnr
-> Generating corner pixel histogram ad27009000s100501h_3.cnr
-> Generating corner pixel histogram ad27009000s100601m_1.cnr
-> Generating corner pixel histogram ad27009000s100601m_2.cnr

Extracting GIS calibration source spectra ( 00:02:37 )

-> Standard Output From STOOL group_event_files:
1 ad27009000g200170h.unf 41334
1 ad27009000g200270m.unf 41334
1 ad27009000g200370l.unf 41334
-> Fetching GIS2_CALSRC256.2
-> Extracting ad27009000g220170.cal from ad27009000g200170h.unf ad27009000g200270m.unf ad27009000g200370l.unf
-> gis2v4_0.rmf already present in current directory
-> Plotting ad27009000g220170_cal.ps and finding peak
-> Standard Output From STOOL xspec:
 
               XSPEC 9.01 00:03:07 19-Nov-99
 
 Plot device not set, use "cpd" to set it
 
 Type "help" or "?" for further information
!XSPEC> query yes
Querying disabled - assuming answer is yes
!XSPEC> data ad27009000g220170.cal
 Net count rate (cts/s) for file   1  0.1283    +/-  1.9658E-03
   1 data set is in use
!XSPEC> ignore bad
!XSPEC> ignore **-4.0
!XSPEC> ignore 8.0-**
!XSPEC> model const/b + gauss/b + gauss/b
Background components must be from the additive model list
  mo = constant[1] ) + gaussian/b[2] + gaussian/b[3]
 Input parameter value, delta, min, bot, top, and max values for ...
 Mod parameter  1 of component  1 constant factor
    1.000      1.0000E-02      0.          0.      1.0000E+10  1.0000E+10
!
 Mod parameter  2 of component  2 gaussian LineE
    6.500      5.0000E-02      0.          0.      1.0000E+06  1.0000E+06
! 5.9
 Mod parameter  3 of component  2 gaussian Sigma
   0.1000      5.0000E-02      0.          0.       10.00       20.00
! 0.0
 Mod parameter  4 of component  2 gaussian norm
    1.000      1.0000E-02      0.          0.      1.0000E+24  1.0000E+24
!
 Mod parameter  5 of component  3 gaussian LineE
    6.500      5.0000E-02      0.          0.      1.0000E+06  1.0000E+06
! 6.5
 Mod parameter  6 of component  3 gaussian Sigma
   0.1000      5.0000E-02      0.          0.       10.00       20.00
! 0.0
 Mod parameter  7 of component  3 gaussian norm
    1.000      1.0000E-02      0.          0.      1.0000E+24  1.0000E+24
!
  ---------------------------------------------------------------------------
  ---------------------------------------------------------------------------
  mo = constant[1] ) + gaussian/b[2] + gaussian/b[3]
  Model Fit Model   Component     Parameter   Value
  par   par comp
    1    1    1       constant    factor     1.00000     +/-      0.
    2    2    2       gaussian/b  LineE      5.90000     +/-      0.
    3    3    2       gaussian/b  Sigma           0.     +/-      0.
    4    4    2       gaussian/b  norm       1.00000     +/-      0.
    5    5    3       gaussian/b  LineE      6.50000     +/-      0.
    6    6    3       gaussian/b  Sigma           0.     +/-      0.
    7    7    3       gaussian/b  norm       1.00000     +/-      0.
  ---------------------------------------------------------------------------
  ---------------------------------------------------------------------------
    7 variable fit parameters
 Chi-Squared =     1.9842E+06 using    84 PHA bins.
 Reduced chi-squared =     2.5769E+04
!XSPEC> newpar 5 = 2 1.101005
    6 variable fit parameters
 Chi-Squared =     1.9743E+06 using    84 PHA bins.
 Reduced chi-squared =     2.5311E+04
!XSPEC> newpar 6 = 3 1.049288
    5 variable fit parameters
 Chi-Squared =     1.9743E+06 using    84 PHA bins.
 Reduced chi-squared =     2.4991E+04
!XSPEC> renorm
 Chi-Squared =      769.8     using    84 PHA bins.
 Reduced chi-squared =      9.744
!XSPEC> fit
 Chi-Squared  Lvl  Fit param # 1     2           3           4
                 5
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   612.01      0      1.000       5.896      0.1121      3.2431E-02
              3.0073E-02
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   415.49      0      1.000       5.892      0.1633      4.1161E-02
              2.7436E-02
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   238.20     -1      1.000       5.974      0.1990      5.6873E-02
              1.8821E-02
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   208.70     -2      1.000       6.055      0.2253      7.0394E-02
              9.3938E-03
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   198.18     -3      1.000       6.003      0.1855      6.3964E-02
              1.5948E-02
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   193.88     -4      1.000       6.031      0.2032      6.7782E-02
              1.1822E-02
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   192.47     -5      1.000       6.014      0.1901      6.5562E-02
              1.3969E-02
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   192.18     -6      1.000       6.024      0.1966      6.6804E-02
              1.2716E-02
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   191.98     -7      1.000       6.018      0.1926      6.6112E-02
              1.3397E-02
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   191.98     -2      1.000       6.021      0.1945      6.6474E-02
              1.3034E-02
 Number of trials exceeded - last iteration delta =   4.8828E-03
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   191.95     -3      1.000       6.020      0.1935      6.6296E-02
              1.3211E-02
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   191.95      0      1.000       6.020      0.1936      6.6309E-02
              1.3196E-02
  ---------------------------------------------------------------------------
  ---------------------------------------------------------------------------
  mo = constant[1] ) + gaussian/b[2] + gaussian/b[3]
  Model Fit Model   Component     Parameter   Value
  par   par comp
    1    1    1       constant    factor     1.00000     +/- -1.0000
    2    2    2       gaussian/b  LineE      6.01996     +/- 0.10767E-01
    3    3    2       gaussian/b  Sigma     0.193570     +/- 0.11156E-01
    4    4    2       gaussian/b  norm      6.630883E-02 +/- 0.18944E-02
    5    2    3       gaussian/b  LineE      6.62800     = par   2 *  1.1010
    6    3    3       gaussian/b  Sigma     0.203111     = par   3 *  1.0493
    7    5    3       gaussian/b  norm      1.319644E-02 +/- 0.13917E-02
  ---------------------------------------------------------------------------
  ---------------------------------------------------------------------------
 Chi-Squared =      191.9     using    84 PHA bins.
 Reduced chi-squared =      2.430
!XSPEC> setplot energy
!XSPEC> iplot data
!PLT> label top GIS2 Calibration Source, should peak near 5.9 keV
!PLT> log x off
!PLT> rescale x 4 8
!PLT> hard /ps
!PLT> quit
!XSPEC> exit
!Do you really want to exit (y) y
 XSPEC: quit
-> Calibration source ad27009000g220170.cal peaks at 6.01996 +/- 0.010767 keV
-> Standard Output From STOOL group_event_files:
1 ad27009000g300170h.unf 39769
1 ad27009000g300270m.unf 39769
1 ad27009000g300370l.unf 39769
-> Fetching GIS3_CALSRC256.2
-> Extracting ad27009000g320170.cal from ad27009000g300170h.unf ad27009000g300270m.unf ad27009000g300370l.unf
-> gis3v4_0.rmf already present in current directory
-> Plotting ad27009000g320170_cal.ps and finding peak
-> Standard Output From STOOL xspec:
 
               XSPEC 9.01 00:03:41 19-Nov-99
 
 Plot device not set, use "cpd" to set it
 
 Type "help" or "?" for further information
!XSPEC> query yes
Querying disabled - assuming answer is yes
!XSPEC> data ad27009000g320170.cal
 Net count rate (cts/s) for file   1  0.1159    +/-  1.8699E-03
   1 data set is in use
!XSPEC> ignore bad
!XSPEC> ignore **-4.0
!XSPEC> ignore 8.0-**
!XSPEC> model const/b + gauss/b + gauss/b
Background components must be from the additive model list
  mo = constant[1] ) + gaussian/b[2] + gaussian/b[3]
 Input parameter value, delta, min, bot, top, and max values for ...
 Mod parameter  1 of component  1 constant factor
    1.000      1.0000E-02      0.          0.      1.0000E+10  1.0000E+10
!
 Mod parameter  2 of component  2 gaussian LineE
    6.500      5.0000E-02      0.          0.      1.0000E+06  1.0000E+06
! 5.9
 Mod parameter  3 of component  2 gaussian Sigma
   0.1000      5.0000E-02      0.          0.       10.00       20.00
! 0.0
 Mod parameter  4 of component  2 gaussian norm
    1.000      1.0000E-02      0.          0.      1.0000E+24  1.0000E+24
!
 Mod parameter  5 of component  3 gaussian LineE
    6.500      5.0000E-02      0.          0.      1.0000E+06  1.0000E+06
! 6.5
 Mod parameter  6 of component  3 gaussian Sigma
   0.1000      5.0000E-02      0.          0.       10.00       20.00
! 0.0
 Mod parameter  7 of component  3 gaussian norm
    1.000      1.0000E-02      0.          0.      1.0000E+24  1.0000E+24
!
  ---------------------------------------------------------------------------
  ---------------------------------------------------------------------------
  mo = constant[1] ) + gaussian/b[2] + gaussian/b[3]
  Model Fit Model   Component     Parameter   Value
  par   par comp
    1    1    1       constant    factor     1.00000     +/-      0.
    2    2    2       gaussian/b  LineE      5.90000     +/-      0.
    3    3    2       gaussian/b  Sigma           0.     +/-      0.
    4    4    2       gaussian/b  norm       1.00000     +/-      0.
    5    5    3       gaussian/b  LineE      6.50000     +/-      0.
    6    6    3       gaussian/b  Sigma           0.     +/-      0.
    7    7    3       gaussian/b  norm       1.00000     +/-      0.
  ---------------------------------------------------------------------------
  ---------------------------------------------------------------------------
    7 variable fit parameters
 Chi-Squared =     2.7557E+06 using    84 PHA bins.
 Reduced chi-squared =     3.5788E+04
!XSPEC> newpar 5 = 2 1.101005
    6 variable fit parameters
 Chi-Squared =     2.7351E+06 using    84 PHA bins.
 Reduced chi-squared =     3.5066E+04
!XSPEC> newpar 6 = 3 1.049288
    5 variable fit parameters
 Chi-Squared =     2.7351E+06 using    84 PHA bins.
 Reduced chi-squared =     3.4622E+04
!XSPEC> renorm
 Chi-Squared =      1184.     using    84 PHA bins.
 Reduced chi-squared =      14.98
!XSPEC> fit
 Chi-Squared  Lvl  Fit param # 1     2           3           4
                 5
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   977.95      0      1.000       5.892      8.7848E-02  2.5844E-02
              2.1863E-02
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   392.43      0      1.000       5.855      0.1410      4.2658E-02
              1.8831E-02
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   197.87     -1      1.000       5.877      0.1602      6.1244E-02
              1.3176E-02
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   189.40     -2      1.000       5.897      0.1725      6.5814E-02
              1.0305E-02
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   189.27     -3      1.000       5.894      0.1703      6.5545E-02
              1.0574E-02
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   189.27     -4      1.000       5.895      0.1704      6.5589E-02
              1.0531E-02
  ---------------------------------------------------------------------------
  ---------------------------------------------------------------------------
  mo = constant[1] ) + gaussian/b[2] + gaussian/b[3]
  Model Fit Model   Component     Parameter   Value
  par   par comp
    1    1    1       constant    factor     1.00000     +/- -1.0000
    2    2    2       gaussian/b  LineE      5.89471     +/- 0.92174E-02
    3    3    2       gaussian/b  Sigma     0.170387     +/- 0.10725E-01
    4    4    2       gaussian/b  norm      6.558879E-02 +/- 0.17464E-02
    5    2    3       gaussian/b  LineE      6.49010     = par   2 *  1.1010
    6    3    3       gaussian/b  Sigma     0.178785     = par   3 *  1.0493
    7    5    3       gaussian/b  norm      1.053144E-02 +/- 0.11580E-02
  ---------------------------------------------------------------------------
  ---------------------------------------------------------------------------
 Chi-Squared =      189.3     using    84 PHA bins.
 Reduced chi-squared =      2.396
!XSPEC> setplot energy
!XSPEC> iplot data
!PLT> label top GIS3 Calibration Source, should peak near 5.9 keV
!PLT> log x off
!PLT> rescale x 4 8
!PLT> hard /ps
!PLT> quit
!XSPEC> exit
!Do you really want to exit (y) y
 XSPEC: quit
-> Calibration source ad27009000g320170.cal peaks at 5.89471 +/- 0.0092174 keV

Extracting bright and dark Earth event files. ( 00:03:49 )

-> Extracting bright and dark Earth events from ad27009000s000102h.unf
-> Extracting ad27009000s000102h.drk
-> Cleaning hot pixels from ad27009000s000102h.unf
-> Standard Output From FTOOL cleansis:
CLEANSIS_V1.6
    allocating image arrays...
 
 PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
 
 * Anomalous pixels may consist of at least two populations.
 
 1. Persistent HOT pixels are removed by comparing to the chip mean.
 
 2. Flickering WARM pixels are removed by comparing to the cell mean.
 
 3. In faint areas (zero bgd), flickering pixels are removed with a
    cutoff threshold.
 
 Hints:
 Choose cell size and thresholds based on the expected background and the PSF.
 Use the DIRTYSIS option to examine the anomalous pixel spectra.
 Try a multiple pass clean:
     Choose a PHA cut to optimize the S/N of the flickering pixels,
     then a broad band clean.
 Be suspicious of extended source cleans.
 For very bright sources you may need to turn off the iteration option.
 
 See the help page for further info (fhelp cleansis)
 
 Poisson clean cell size         :            5
 Poisson probability threshold   :    0.575E-05
 Zero Bgd Cutoff threshold (>)   :            3
 Iterate                         :            F
 Dirtysis                        :            F
 
 Minimum PHA value (inclusive)   :            0
 Maximum PHA value (inclusive)   :         4095
 
    open output  file: ad27009000s000102h.drk
    reading data file: event.tmp
    copying primary header to output file...
    making chip image...
 
 Total counts in chip images :        67617
 
    copy bad pix array...
cleaning chip # 0
 Hot pixels & counts                   :             128       20308
 Flickering pixels iter, pixels & cnts :   1          83        1761
cleaning chip # 1
 Hot pixels & counts                   :              98       15702
 Flickering pixels iter, pixels & cnts :   1          59        1327
cleaning chip # 2
 Hot pixels & counts                   :              84       12539
 Flickering pixels iter, pixels & cnts :   1          54         748
cleaning chip # 3
 Hot pixels & counts                   :              89       13911
 Flickering pixels iter, pixels & cnts :   1          64         967
 
 Number of pixels rejected           :          659
 Number of (internal) image counts   :        67617
 Number of image cts rejected (N, %) :        6726399.48
 
         By chip   :             0            1            2            3
 
 Pixels rejected   :           211          157          138          153
 
 Image counts      :         22190        17108        13352        14967
 Image cts rejected:         22069        17029        13287        14878
 Image cts rej (%) :         99.45        99.54        99.51        99.41
 
    filtering data...
 
 Total counts      :         22190        17108        13352        14967
 Total cts rejected:         22069        17029        13287        14878
 Total cts rej (%) :         99.45        99.54        99.51        99.41
 
 Number of clean counts accepted  :          354
 
    writing history cards...
    copying extensions...
    writing out hot pixs...
 
 Number of rejected pixels        :          659
 
    updating NEVENTS keywords...
    closing data file...
    closing clean file...
-> Extracting bright and dark Earth events from ad27009000s000112h.unf
-> Extracting ad27009000s000112h.drk
-> Cleaning hot pixels from ad27009000s000112h.unf
-> Standard Output From FTOOL cleansis:
CLEANSIS_V1.6
    allocating image arrays...
 
 PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
 
 * Anomalous pixels may consist of at least two populations.
 
 1. Persistent HOT pixels are removed by comparing to the chip mean.
 
 2. Flickering WARM pixels are removed by comparing to the cell mean.
 
 3. In faint areas (zero bgd), flickering pixels are removed with a
    cutoff threshold.
 
 Hints:
 Choose cell size and thresholds based on the expected background and the PSF.
 Use the DIRTYSIS option to examine the anomalous pixel spectra.
 Try a multiple pass clean:
     Choose a PHA cut to optimize the S/N of the flickering pixels,
     then a broad band clean.
 Be suspicious of extended source cleans.
 For very bright sources you may need to turn off the iteration option.
 
 See the help page for further info (fhelp cleansis)
 
 Poisson clean cell size         :            5
 Poisson probability threshold   :    0.575E-05
 Zero Bgd Cutoff threshold (>)   :            3
 Iterate                         :            F
 Dirtysis                        :            F
 
 Minimum PHA value (inclusive)   :            0
 Maximum PHA value (inclusive)   :         4095
 
    open output  file: ad27009000s000112h.drk
    reading data file: event.tmp
    copying primary header to output file...
    making chip image...
 
 Total counts in chip images :        75374
 
    copy bad pix array...
cleaning chip # 0
 Hot pixels & counts                   :             135       22970
 Flickering pixels iter, pixels & cnts :   1          85        2102
cleaning chip # 1
 Hot pixels & counts                   :             104       17013
 Flickering pixels iter, pixels & cnts :   1          56        1143
cleaning chip # 2
 Hot pixels & counts                   :              89       14532
 Flickering pixels iter, pixels & cnts :   1          53         759
cleaning chip # 3
 Hot pixels & counts                   :              97       15304
 Flickering pixels iter, pixels & cnts :   1          59        1024
 
 Number of pixels rejected           :          678
 Number of (internal) image counts   :        75374
 Number of image cts rejected (N, %) :        7484799.30
 
         By chip   :             0            1            2            3
 
 Pixels rejected   :           220          160          142          156
 
 Image counts      :         25241        18291        15391        16451
 Image cts rejected:         25072        18156        15291        16328
 Image cts rej (%) :         99.33        99.26        99.35        99.25
 
    filtering data...
 
 Total counts      :         25241        18291        15391        16451
 Total cts rejected:         25072        18156        15291        16328
 Total cts rej (%) :         99.33        99.26        99.35        99.25
 
 Number of clean counts accepted  :          527
 
    writing history cards...
    copying extensions...
    writing out hot pixs...
 
 Number of rejected pixels        :          678
 
    updating NEVENTS keywords...
    closing data file...
    closing clean file...
-> Extracting bright and dark Earth events from ad27009000s000202h.unf
-> Extracting ad27009000s000202h.drk
-> Cleaning hot pixels from ad27009000s000202h.unf
-> Standard Output From FTOOL cleansis:
CLEANSIS_V1.6
    allocating image arrays...
 
 PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
 
 * Anomalous pixels may consist of at least two populations.
 
 1. Persistent HOT pixels are removed by comparing to the chip mean.
 
 2. Flickering WARM pixels are removed by comparing to the cell mean.
 
 3. In faint areas (zero bgd), flickering pixels are removed with a
    cutoff threshold.
 
 Hints:
 Choose cell size and thresholds based on the expected background and the PSF.
 Use the DIRTYSIS option to examine the anomalous pixel spectra.
 Try a multiple pass clean:
     Choose a PHA cut to optimize the S/N of the flickering pixels,
     then a broad band clean.
 Be suspicious of extended source cleans.
 For very bright sources you may need to turn off the iteration option.
 
 See the help page for further info (fhelp cleansis)
 
 Poisson clean cell size         :            5
 Poisson probability threshold   :    0.575E-05
 Zero Bgd Cutoff threshold (>)   :            3
 Iterate                         :            F
 Dirtysis                        :            F
 
 Minimum PHA value (inclusive)   :            0
 Maximum PHA value (inclusive)   :         4095
 
    open output  file: ad27009000s000202h.drk
    reading data file: event.tmp
    copying primary header to output file...
    making chip image...
 
 Total counts in chip images :         1617
 
    copy bad pix array...
cleaning chip # 0
 Hot pixels & counts                   :               0           0
 Flickering pixels iter, pixels & cnts :   1          87         403
cleaning chip # 1
 Hot pixels & counts                   :              16         112
 Flickering pixels iter, pixels & cnts :   1          49         236
cleaning chip # 2
 Hot pixels & counts                   :              22         134
 Flickering pixels iter, pixels & cnts :   1          25          99
cleaning chip # 3
 Hot pixels & counts                   :              10          60
 Flickering pixels iter, pixels & cnts :   1          48         217
 
 Number of pixels rejected           :          257
 Number of (internal) image counts   :         1617
 Number of image cts rejected (N, %) :         126177.98
 
         By chip   :             0            1            2            3
 
 Pixels rejected   :            87           65           47           58
 
 Image counts      :           493          480          308          336
 Image cts rejected:           403          348          233          277
 Image cts rej (%) :         81.74        72.50        75.65        82.44
 
    filtering data...
 
 Total counts      :           493          480          308          336
 Total cts rejected:           403          348          233          277
 Total cts rej (%) :         81.74        72.50        75.65        82.44
 
 Number of clean counts accepted  :          356
 
    writing history cards...
    copying extensions...
    writing out hot pixs...
 
 Number of rejected pixels        :          257
 
    updating NEVENTS keywords...
    closing data file...
    closing clean file...
-> Extracting bright and dark Earth events from ad27009000s000212h.unf
-> Extracting ad27009000s000212h.drk
-> Cleaning hot pixels from ad27009000s000212h.unf
-> Standard Output From FTOOL cleansis:
CLEANSIS_V1.6
    allocating image arrays...
 
 PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
 
 * Anomalous pixels may consist of at least two populations.
 
 1. Persistent HOT pixels are removed by comparing to the chip mean.
 
 2. Flickering WARM pixels are removed by comparing to the cell mean.
 
 3. In faint areas (zero bgd), flickering pixels are removed with a
    cutoff threshold.
 
 Hints:
 Choose cell size and thresholds based on the expected background and the PSF.
 Use the DIRTYSIS option to examine the anomalous pixel spectra.
 Try a multiple pass clean:
     Choose a PHA cut to optimize the S/N of the flickering pixels,
     then a broad band clean.
 Be suspicious of extended source cleans.
 For very bright sources you may need to turn off the iteration option.
 
 See the help page for further info (fhelp cleansis)
 
 Poisson clean cell size         :            5
 Poisson probability threshold   :    0.575E-05
 Zero Bgd Cutoff threshold (>)   :            3
 Iterate                         :            F
 Dirtysis                        :            F
 
 Minimum PHA value (inclusive)   :            0
 Maximum PHA value (inclusive)   :         4095
 
    open output  file: ad27009000s000212h.drk
    reading data file: event.tmp
    copying primary header to output file...
    making chip image...
 
 Total counts in chip images :         2103
 
    copy bad pix array...
cleaning chip # 0
 Hot pixels & counts                   :               0           0
 Flickering pixels iter, pixels & cnts :   1         110         538
cleaning chip # 1
 Hot pixels & counts                   :               0           0
 Flickering pixels iter, pixels & cnts :   1          74         402
cleaning chip # 2
 Hot pixels & counts                   :               4          28
 Flickering pixels iter, pixels & cnts :   1          52         265
cleaning chip # 3
 Hot pixels & counts                   :               0           0
 Flickering pixels iter, pixels & cnts :   1          64         318
 
 Number of pixels rejected           :          304
 Number of (internal) image counts   :         2103
 Number of image cts rejected (N, %) :         155173.75
 
         By chip   :             0            1            2            3
 
 Pixels rejected   :           110           74           56           64
 
 Image counts      :           663          581          423          436
 Image cts rejected:           538          402          293          318
 Image cts rej (%) :         81.15        69.19        69.27        72.94
 
    filtering data...
 
 Total counts      :           663          581          423          436
 Total cts rejected:           538          402          293          318
 Total cts rej (%) :         81.15        69.19        69.27        72.94
 
 Number of clean counts accepted  :          552
 
    writing history cards...
    copying extensions...
    writing out hot pixs...
 
 Number of rejected pixels        :          304
 
    updating NEVENTS keywords...
    closing data file...
    closing clean file...
-> Extracting bright and dark Earth events from ad27009000s000302m.unf
-> Extracting ad27009000s000302m.drk
-> Cleaning hot pixels from ad27009000s000302m.unf
-> Standard Output From FTOOL cleansis:
CLEANSIS_V1.6
    allocating image arrays...
 
 PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
 
 * Anomalous pixels may consist of at least two populations.
 
 1. Persistent HOT pixels are removed by comparing to the chip mean.
 
 2. Flickering WARM pixels are removed by comparing to the cell mean.
 
 3. In faint areas (zero bgd), flickering pixels are removed with a
    cutoff threshold.
 
 Hints:
 Choose cell size and thresholds based on the expected background and the PSF.
 Use the DIRTYSIS option to examine the anomalous pixel spectra.
 Try a multiple pass clean:
     Choose a PHA cut to optimize the S/N of the flickering pixels,
     then a broad band clean.
 Be suspicious of extended source cleans.
 For very bright sources you may need to turn off the iteration option.
 
 See the help page for further info (fhelp cleansis)
 
 Poisson clean cell size         :            5
 Poisson probability threshold   :    0.575E-05
 Zero Bgd Cutoff threshold (>)   :            3
 Iterate                         :            F
 Dirtysis                        :            F
 
 Minimum PHA value (inclusive)   :            0
 Maximum PHA value (inclusive)   :         4095
 
    open output  file: ad27009000s000302m.drk
    reading data file: event.tmp
    copying primary header to output file...
    making chip image...
 
 Total counts in chip images :        21550
 
    copy bad pix array...
cleaning chip # 0
 Hot pixels & counts                   :              32        4549
 Flickering pixels iter, pixels & cnts :   1          31         460
cleaning chip # 1
 Hot pixels & counts                   :              39        5348
 Flickering pixels iter, pixels & cnts :   1          25         342
cleaning chip # 2
 Hot pixels & counts                   :              31        4717
 Flickering pixels iter, pixels & cnts :   1          28         468
cleaning chip # 3
 Hot pixels & counts                   :              37        5183
 Flickering pixels iter, pixels & cnts :   1          27         366
 
 Number of pixels rejected           :          250
 Number of (internal) image counts   :        21550
 Number of image cts rejected (N, %) :        2143399.46
 
         By chip   :             0            1            2            3
 
 Pixels rejected   :            63           64           59           64
 
 Image counts      :          5046         5708         5205         5591
 Image cts rejected:          5009         5690         5185         5549
 Image cts rej (%) :         99.27        99.68        99.62        99.25
 
    filtering data...
 
 Total counts      :          5046         5708         5205         5591
 Total cts rejected:          5009         5690         5185         5549
 Total cts rej (%) :         99.27        99.68        99.62        99.25
 
 Number of clean counts accepted  :          117
 
    writing history cards...
    copying extensions...
    writing out hot pixs...
 
 Number of rejected pixels        :          250
 
    updating NEVENTS keywords...
    closing data file...
    closing clean file...
-> Extracting bright and dark Earth events from ad27009000s000312m.unf
-> Extracting ad27009000s000312m.drk
-> Cleaning hot pixels from ad27009000s000312m.unf
-> Standard Output From FTOOL cleansis:
CLEANSIS_V1.6
    allocating image arrays...
 
 PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
 
 * Anomalous pixels may consist of at least two populations.
 
 1. Persistent HOT pixels are removed by comparing to the chip mean.
 
 2. Flickering WARM pixels are removed by comparing to the cell mean.
 
 3. In faint areas (zero bgd), flickering pixels are removed with a
    cutoff threshold.
 
 Hints:
 Choose cell size and thresholds based on the expected background and the PSF.
 Use the DIRTYSIS option to examine the anomalous pixel spectra.
 Try a multiple pass clean:
     Choose a PHA cut to optimize the S/N of the flickering pixels,
     then a broad band clean.
 Be suspicious of extended source cleans.
 For very bright sources you may need to turn off the iteration option.
 
 See the help page for further info (fhelp cleansis)
 
 Poisson clean cell size         :            5
 Poisson probability threshold   :    0.575E-05
 Zero Bgd Cutoff threshold (>)   :            3
 Iterate                         :            F
 Dirtysis                        :            F
 
 Minimum PHA value (inclusive)   :            0
 Maximum PHA value (inclusive)   :         4095
 
    open output  file: ad27009000s000312m.drk
    reading data file: event.tmp
    copying primary header to output file...
    making chip image...
 
 File NEVENTS keyword value  :        23121
 Total counts in chip images :        23120
 
    copy bad pix array...
cleaning chip # 0
 Hot pixels & counts                   :              32        4949
 Flickering pixels iter, pixels & cnts :   1          34         631
cleaning chip # 1
 Hot pixels & counts                   :              40        5570
 Flickering pixels iter, pixels & cnts :   1          24         346
cleaning chip # 2
 Hot pixels & counts                   :              34        5312
 Flickering pixels iter, pixels & cnts :   1          25         400
cleaning chip # 3
 Hot pixels & counts                   :              38        5387
 Flickering pixels iter, pixels & cnts :   1          27         355
 
 Number of pixels rejected           :          254
 Number of (internal) image counts   :        23120
 Number of image cts rejected (N, %) :        2295099.26
 
         By chip   :             0            1            2            3
 
 Pixels rejected   :            66           64           59           65
 
 Image counts      :          5634         5943         5745         5798
 Image cts rejected:          5580         5916         5712         5742
 Image cts rej (%) :         99.04        99.55        99.43        99.03
 
    filtering data...
 
 Total counts      :          5634         5943         5745         5799
 Total cts rejected:          5580         5916         5712         5743
 Total cts rej (%) :         99.04        99.55        99.43        99.03
 
 Number of clean counts accepted  :          170
 
    writing history cards...
    copying extensions...
    writing out hot pixs...
 
 Number of rejected pixels        :          254
 
    updating NEVENTS keywords...
    closing data file...
    closing clean file...
-> Extracting bright and dark Earth events from ad27009000s000402m.unf
-> Extracting ad27009000s000402m.drk
-> Cleaning hot pixels from ad27009000s000402m.unf
-> Standard Output From FTOOL cleansis:
CLEANSIS_V1.6
    allocating image arrays...
 
 PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
 
 * Anomalous pixels may consist of at least two populations.
 
 1. Persistent HOT pixels are removed by comparing to the chip mean.
 
 2. Flickering WARM pixels are removed by comparing to the cell mean.
 
 3. In faint areas (zero bgd), flickering pixels are removed with a
    cutoff threshold.
 
 Hints:
 Choose cell size and thresholds based on the expected background and the PSF.
 Use the DIRTYSIS option to examine the anomalous pixel spectra.
 Try a multiple pass clean:
     Choose a PHA cut to optimize the S/N of the flickering pixels,
     then a broad band clean.
 Be suspicious of extended source cleans.
 For very bright sources you may need to turn off the iteration option.
 
 See the help page for further info (fhelp cleansis)
 
 Poisson clean cell size         :            5
 Poisson probability threshold   :    0.575E-05
 Zero Bgd Cutoff threshold (>)   :            3
 Iterate                         :            F
 Dirtysis                        :            F
 
 Minimum PHA value (inclusive)   :            0
 Maximum PHA value (inclusive)   :         4095
 
    open output  file: ad27009000s000402m.drk
    reading data file: event.tmp
    copying primary header to output file...
    making chip image...
 
 Total counts in chip images :         1843
 
    copy bad pix array...
cleaning chip # 0
 Hot pixels & counts                   :              18         259
 Flickering pixels iter, pixels & cnts :   1          21         129
cleaning chip # 1
 Hot pixels & counts                   :              28         401
 Flickering pixels iter, pixels & cnts :   1          18          80
cleaning chip # 2
 Hot pixels & counts                   :              26         340
 Flickering pixels iter, pixels & cnts :   1          12          55
cleaning chip # 3
 Hot pixels & counts                   :              24         375
 Flickering pixels iter, pixels & cnts :   1          14          73
 
 Number of pixels rejected           :          161
 Number of (internal) image counts   :         1843
 Number of image cts rejected (N, %) :         171292.89
 
         By chip   :             0            1            2            3
 
 Pixels rejected   :            39           46           38           38
 
 Image counts      :           407          508          435          493
 Image cts rejected:           388          481          395          448
 Image cts rej (%) :         95.33        94.69        90.80        90.87
 
    filtering data...
 
 Total counts      :           407          508          435          493
 Total cts rejected:           388          481          395          448
 Total cts rej (%) :         95.33        94.69        90.80        90.87
 
 Number of clean counts accepted  :          131
 
    writing history cards...
    copying extensions...
    writing out hot pixs...
 
 Number of rejected pixels        :          161
 
    updating NEVENTS keywords...
    closing data file...
    closing clean file...
-> Extracting bright and dark Earth events from ad27009000s000412m.unf
-> Extracting ad27009000s000412m.drk
-> Cleaning hot pixels from ad27009000s000412m.unf
-> Standard Output From FTOOL cleansis:
CLEANSIS_V1.6
    allocating image arrays...
 
 PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
 
 * Anomalous pixels may consist of at least two populations.
 
 1. Persistent HOT pixels are removed by comparing to the chip mean.
 
 2. Flickering WARM pixels are removed by comparing to the cell mean.
 
 3. In faint areas (zero bgd), flickering pixels are removed with a
    cutoff threshold.
 
 Hints:
 Choose cell size and thresholds based on the expected background and the PSF.
 Use the DIRTYSIS option to examine the anomalous pixel spectra.
 Try a multiple pass clean:
     Choose a PHA cut to optimize the S/N of the flickering pixels,
     then a broad band clean.
 Be suspicious of extended source cleans.
 For very bright sources you may need to turn off the iteration option.
 
 See the help page for further info (fhelp cleansis)
 
 Poisson clean cell size         :            5
 Poisson probability threshold   :    0.575E-05
 Zero Bgd Cutoff threshold (>)   :            3
 Iterate                         :            F
 Dirtysis                        :            F
 
 Minimum PHA value (inclusive)   :            0
 Maximum PHA value (inclusive)   :         4095
 
    open output  file: ad27009000s000412m.drk
    reading data file: event.tmp
    copying primary header to output file...
    making chip image...
 
 Total counts in chip images :         2093
 
    copy bad pix array...
cleaning chip # 0
 Hot pixels & counts                   :              20         306
 Flickering pixels iter, pixels & cnts :   1          23         149
cleaning chip # 1
 Hot pixels & counts                   :              28         429
 Flickering pixels iter, pixels & cnts :   1          22         102
cleaning chip # 2
 Hot pixels & counts                   :              26         372
 Flickering pixels iter, pixels & cnts :   1          15          77
cleaning chip # 3
 Hot pixels & counts                   :              24         391
 Flickering pixels iter, pixels & cnts :   1          18          91
 
 Number of pixels rejected           :          176
 Number of (internal) image counts   :         2093
 Number of image cts rejected (N, %) :         191791.59
 
         By chip   :             0            1            2            3
 
 Pixels rejected   :            43           50           41           42
 
 Image counts      :           484          565          503          541
 Image cts rejected:           455          531          449          482
 Image cts rej (%) :         94.01        93.98        89.26        89.09
 
    filtering data...
 
 Total counts      :           484          565          503          541
 Total cts rejected:           455          531          449          482
 Total cts rej (%) :         94.01        93.98        89.26        89.09
 
 Number of clean counts accepted  :          176
 
    writing history cards...
    copying extensions...
    writing out hot pixs...
 
 Number of rejected pixels        :          176
 
    updating NEVENTS keywords...
    closing data file...
    closing clean file...
-> Extracting bright and dark Earth events from ad27009000s000502m.unf
-> Extracting ad27009000s000502m.drk
-> Cleaning hot pixels from ad27009000s000502m.unf
-> Standard Output From FTOOL cleansis:
CLEANSIS_V1.6
    allocating image arrays...
 
 PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
 
 * Anomalous pixels may consist of at least two populations.
 
 1. Persistent HOT pixels are removed by comparing to the chip mean.
 
 2. Flickering WARM pixels are removed by comparing to the cell mean.
 
 3. In faint areas (zero bgd), flickering pixels are removed with a
    cutoff threshold.
 
 Hints:
 Choose cell size and thresholds based on the expected background and the PSF.
 Use the DIRTYSIS option to examine the anomalous pixel spectra.
 Try a multiple pass clean:
     Choose a PHA cut to optimize the S/N of the flickering pixels,
     then a broad band clean.
 Be suspicious of extended source cleans.
 For very bright sources you may need to turn off the iteration option.
 
 See the help page for further info (fhelp cleansis)
 
 Poisson clean cell size         :            5
 Poisson probability threshold   :    0.575E-05
 Zero Bgd Cutoff threshold (>)   :            3
 Iterate                         :            F
 Dirtysis                        :            F
 
 Minimum PHA value (inclusive)   :            0
 Maximum PHA value (inclusive)   :         4095
 
    open output  file: ad27009000s000502m.drk
    reading data file: event.tmp
    copying primary header to output file...
    making chip image...
 
 Total counts in chip images :          774
 
    copy bad pix array...
cleaning chip # 0
cleaning chip # 1
 Hot pixels & counts                   :               8         372
cleaning chip # 2
 Hot pixels & counts                   :               9         355
 Flickering pixels iter, pixels & cnts :   1           2           9
cleaning chip # 3
 
 Number of pixels rejected           :           19
 Number of (internal) image counts   :          774
 Number of image cts rejected (N, %) :          73695.09
 
         By chip   :             0            1            2            3
 
 Pixels rejected   :             0            8           11            0
 
 Image counts      :             0          389          385            0
 Image cts rejected:             0          372          364            0
 Image cts rej (%) :          0.00        95.63        94.55         0.00
 
    filtering data...
 
 Total counts      :             0          389          385            0
 Total cts rejected:             0          372          364            0
 Total cts rej (%) :          0.00        95.63        94.55         0.00
 
 Number of clean counts accepted  :           38
 
    writing history cards...
    copying extensions...
    writing out hot pixs...
 
 Number of rejected pixels        :           19
 
    updating NEVENTS keywords...
    closing data file...
    closing clean file...
-> Extracting bright and dark Earth events from ad27009000s000512m.unf
-> Extracting ad27009000s000512m.drk
-> Cleaning hot pixels from ad27009000s000512m.unf
-> Standard Output From FTOOL cleansis:
CLEANSIS_V1.6
    allocating image arrays...
 
 PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
 
 * Anomalous pixels may consist of at least two populations.
 
 1. Persistent HOT pixels are removed by comparing to the chip mean.
 
 2. Flickering WARM pixels are removed by comparing to the cell mean.
 
 3. In faint areas (zero bgd), flickering pixels are removed with a
    cutoff threshold.
 
 Hints:
 Choose cell size and thresholds based on the expected background and the PSF.
 Use the DIRTYSIS option to examine the anomalous pixel spectra.
 Try a multiple pass clean:
     Choose a PHA cut to optimize the S/N of the flickering pixels,
     then a broad band clean.
 Be suspicious of extended source cleans.
 For very bright sources you may need to turn off the iteration option.
 
 See the help page for further info (fhelp cleansis)
 
 Poisson clean cell size         :            5
 Poisson probability threshold   :    0.575E-05
 Zero Bgd Cutoff threshold (>)   :            3
 Iterate                         :            F
 Dirtysis                        :            F
 
 Minimum PHA value (inclusive)   :            0
 Maximum PHA value (inclusive)   :         4095
 
    open output  file: ad27009000s000512m.drk
    reading data file: event.tmp
    copying primary header to output file...
    making chip image...
 
 Total counts in chip images :          777
 
    copy bad pix array...
cleaning chip # 0
cleaning chip # 1
 Hot pixels & counts                   :               8         372
cleaning chip # 2
 Hot pixels & counts                   :               9         355
 Flickering pixels iter, pixels & cnts :   1           2           9
cleaning chip # 3
 
 Number of pixels rejected           :           19
 Number of (internal) image counts   :          777
 Number of image cts rejected (N, %) :          73694.72
 
         By chip   :             0            1            2            3
 
 Pixels rejected   :             0            8           11            0
 
 Image counts      :             0          390          387            0
 Image cts rejected:             0          372          364            0
 Image cts rej (%) :          0.00        95.38        94.06         0.00
 
    filtering data...
 
 Total counts      :             0          390          387            0
 Total cts rejected:             0          372          364            0
 Total cts rej (%) :          0.00        95.38        94.06         0.00
 
 Number of clean counts accepted  :           41
 
    writing history cards...
    copying extensions...
    writing out hot pixs...
 
 Number of rejected pixels        :           19
 
    updating NEVENTS keywords...
    closing data file...
    closing clean file...
-> Extracting bright and dark Earth events from ad27009000s000802l.unf
-> Extracting ad27009000s000802l.drk
-> Cleaning hot pixels from ad27009000s000802l.unf
-> Standard Output From FTOOL cleansis:
CLEANSIS_V1.6
    allocating image arrays...
 
 PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
 
 * Anomalous pixels may consist of at least two populations.
 
 1. Persistent HOT pixels are removed by comparing to the chip mean.
 
 2. Flickering WARM pixels are removed by comparing to the cell mean.
 
 3. In faint areas (zero bgd), flickering pixels are removed with a
    cutoff threshold.
 
 Hints:
 Choose cell size and thresholds based on the expected background and the PSF.
 Use the DIRTYSIS option to examine the anomalous pixel spectra.
 Try a multiple pass clean:
     Choose a PHA cut to optimize the S/N of the flickering pixels,
     then a broad band clean.
 Be suspicious of extended source cleans.
 For very bright sources you may need to turn off the iteration option.
 
 See the help page for further info (fhelp cleansis)
 
 Poisson clean cell size         :            5
 Poisson probability threshold   :    0.575E-05
 Zero Bgd Cutoff threshold (>)   :            3
 Iterate                         :            F
 Dirtysis                        :            F
 
 Minimum PHA value (inclusive)   :            0
 Maximum PHA value (inclusive)   :         4095
 
    open output  file: ad27009000s000802l.drk
    reading data file: event.tmp
    copying primary header to output file...
    making chip image...
 
 Total counts in chip images :         2336
 
    copy bad pix array...
cleaning chip # 0
 Hot pixels & counts                   :               9         541
 Flickering pixels iter, pixels & cnts :   1           5          34
cleaning chip # 1
 Hot pixels & counts                   :              10         510
 Flickering pixels iter, pixels & cnts :   1           6          57
cleaning chip # 2
 Hot pixels & counts                   :               7         519
 Flickering pixels iter, pixels & cnts :   1           5          29
cleaning chip # 3
 Hot pixels & counts                   :               9         588
 Flickering pixels iter, pixels & cnts :   1           3          29
 
 Number of pixels rejected           :           54
 Number of (internal) image counts   :         2336
 Number of image cts rejected (N, %) :         230798.76
 
         By chip   :             0            1            2            3
 
 Pixels rejected   :            14           16           12           12
 
 Image counts      :           587          572          553          624
 Image cts rejected:           575          567          548          617
 Image cts rej (%) :         97.96        99.13        99.10        98.88
 
    filtering data...
 
 Total counts      :           587          572          553          624
 Total cts rejected:           575          567          548          617
 Total cts rej (%) :         97.96        99.13        99.10        98.88
 
 Number of clean counts accepted  :           29
 
    writing history cards...
    copying extensions...
    writing out hot pixs...
 
 Number of rejected pixels        :           54
 
    updating NEVENTS keywords...
    closing data file...
    closing clean file...
-> Extracting bright and dark Earth events from ad27009000s000812l.unf
-> Extracting ad27009000s000812l.drk
-> Cleaning hot pixels from ad27009000s000812l.unf
-> Standard Output From FTOOL cleansis:
CLEANSIS_V1.6
    allocating image arrays...
 
 PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
 
 * Anomalous pixels may consist of at least two populations.
 
 1. Persistent HOT pixels are removed by comparing to the chip mean.
 
 2. Flickering WARM pixels are removed by comparing to the cell mean.
 
 3. In faint areas (zero bgd), flickering pixels are removed with a
    cutoff threshold.
 
 Hints:
 Choose cell size and thresholds based on the expected background and the PSF.
 Use the DIRTYSIS option to examine the anomalous pixel spectra.
 Try a multiple pass clean:
     Choose a PHA cut to optimize the S/N of the flickering pixels,
     then a broad band clean.
 Be suspicious of extended source cleans.
 For very bright sources you may need to turn off the iteration option.
 
 See the help page for further info (fhelp cleansis)
 
 Poisson clean cell size         :            5
 Poisson probability threshold   :    0.575E-05
 Zero Bgd Cutoff threshold (>)   :            3
 Iterate                         :            F
 Dirtysis                        :            F
 
 Minimum PHA value (inclusive)   :            0
 Maximum PHA value (inclusive)   :         4095
 
    open output  file: ad27009000s000812l.drk
    reading data file: event.tmp
    copying primary header to output file...
    making chip image...
 
 Total counts in chip images :         2436
 
    copy bad pix array...
cleaning chip # 0
 Hot pixels & counts                   :               9         550
 Flickering pixels iter, pixels & cnts :   1           5          38
cleaning chip # 1
 Hot pixels & counts                   :              10         530
 Flickering pixels iter, pixels & cnts :   1           7          74
cleaning chip # 2
 Hot pixels & counts                   :               8         557
 Flickering pixels iter, pixels & cnts :   1           4          28
cleaning chip # 3
 Hot pixels & counts                   :               9         592
 Flickering pixels iter, pixels & cnts :   1           3          29
 
 Number of pixels rejected           :           55
 Number of (internal) image counts   :         2436
 Number of image cts rejected (N, %) :         239898.44
 
         By chip   :             0            1            2            3
 
 Pixels rejected   :            14           17           12           12
 
 Image counts      :           603          614          590          629
 Image cts rejected:           588          604          585          621
 Image cts rej (%) :         97.51        98.37        99.15        98.73
 
    filtering data...
 
 Total counts      :           603          614          590          629
 Total cts rejected:           588          604          585          621
 Total cts rej (%) :         97.51        98.37        99.15        98.73
 
 Number of clean counts accepted  :           38
 
    writing history cards...
    copying extensions...
    writing out hot pixs...
 
 Number of rejected pixels        :           55
 
    updating NEVENTS keywords...
    closing data file...
    closing clean file...
-> Extracting bright and dark Earth events from ad27009000s100102h.unf
-> Extracting ad27009000s100102h.drk
-> Cleaning hot pixels from ad27009000s100102h.unf
-> Standard Output From FTOOL cleansis:
CLEANSIS_V1.6
    allocating image arrays...
 
 PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
 
 * Anomalous pixels may consist of at least two populations.
 
 1. Persistent HOT pixels are removed by comparing to the chip mean.
 
 2. Flickering WARM pixels are removed by comparing to the cell mean.
 
 3. In faint areas (zero bgd), flickering pixels are removed with a
    cutoff threshold.
 
 Hints:
 Choose cell size and thresholds based on the expected background and the PSF.
 Use the DIRTYSIS option to examine the anomalous pixel spectra.
 Try a multiple pass clean:
     Choose a PHA cut to optimize the S/N of the flickering pixels,
     then a broad band clean.
 Be suspicious of extended source cleans.
 For very bright sources you may need to turn off the iteration option.
 
 See the help page for further info (fhelp cleansis)
 
 Poisson clean cell size         :            5
 Poisson probability threshold   :    0.575E-05
 Zero Bgd Cutoff threshold (>)   :            3
 Iterate                         :            F
 Dirtysis                        :            F
 
 Minimum PHA value (inclusive)   :            0
 Maximum PHA value (inclusive)   :         4095
 
    open output  file: ad27009000s100102h.drk
    reading data file: event.tmp
    copying primary header to output file...
    making chip image...
 
 Total counts in chip images :       128253
 
    copy bad pix array...
cleaning chip # 0
 Hot pixels & counts                   :             175       31034
 Flickering pixels iter, pixels & cnts :   1         167        3876
cleaning chip # 1
 Hot pixels & counts                   :             146       25568
 Flickering pixels iter, pixels & cnts :   1         182        4973
cleaning chip # 2
 Hot pixels & counts                   :             156       27978
 Flickering pixels iter, pixels & cnts :   1         180        5104
cleaning chip # 3
 Hot pixels & counts                   :             151       25669
 Flickering pixels iter, pixels & cnts :   1         140        3380
 
 Number of pixels rejected           :         1297
 Number of (internal) image counts   :       128253
 Number of image cts rejected (N, %) :       12758299.48
 
         By chip   :             0            1            2            3
 
 Pixels rejected   :           342          328          336          291
 
 Image counts      :         35097        30714        33261        29181
 Image cts rejected:         34910        30541        33082        29049
 Image cts rej (%) :         99.47        99.44        99.46        99.55
 
    filtering data...
 
 Total counts      :         35097        30714        33261        29181
 Total cts rejected:         34910        30541        33082        29049
 Total cts rej (%) :         99.47        99.44        99.46        99.55
 
 Number of clean counts accepted  :          671
 
    writing history cards...
    copying extensions...
    writing out hot pixs...
 
 Number of rejected pixels        :         1297
 
    updating NEVENTS keywords...
    closing data file...
    closing clean file...
-> Extracting bright and dark Earth events from ad27009000s100112h.unf
-> Extracting ad27009000s100112h.drk
-> Cleaning hot pixels from ad27009000s100112h.unf
-> Standard Output From FTOOL cleansis:
CLEANSIS_V1.6
    allocating image arrays...
 
 PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
 
 * Anomalous pixels may consist of at least two populations.
 
 1. Persistent HOT pixels are removed by comparing to the chip mean.
 
 2. Flickering WARM pixels are removed by comparing to the cell mean.
 
 3. In faint areas (zero bgd), flickering pixels are removed with a
    cutoff threshold.
 
 Hints:
 Choose cell size and thresholds based on the expected background and the PSF.
 Use the DIRTYSIS option to examine the anomalous pixel spectra.
 Try a multiple pass clean:
     Choose a PHA cut to optimize the S/N of the flickering pixels,
     then a broad band clean.
 Be suspicious of extended source cleans.
 For very bright sources you may need to turn off the iteration option.
 
 See the help page for further info (fhelp cleansis)
 
 Poisson clean cell size         :            5
 Poisson probability threshold   :    0.575E-05
 Zero Bgd Cutoff threshold (>)   :            3
 Iterate                         :            F
 Dirtysis                        :            F
 
 Minimum PHA value (inclusive)   :            0
 Maximum PHA value (inclusive)   :         4095
 
    open output  file: ad27009000s100112h.drk
    reading data file: event.tmp
    copying primary header to output file...
    making chip image...
 
 Total counts in chip images :       149663
 
    copy bad pix array...
cleaning chip # 0
 Hot pixels & counts                   :             181       34059
 Flickering pixels iter, pixels & cnts :   1         180        5012
cleaning chip # 1
 Hot pixels & counts                   :             173       32274
 Flickering pixels iter, pixels & cnts :   1         182        5359
cleaning chip # 2
 Hot pixels & counts                   :             174       32756
 Flickering pixels iter, pixels & cnts :   1         178        4935
cleaning chip # 3
 Hot pixels & counts                   :             168       30566
 Flickering pixels iter, pixels & cnts :   1         145        3617
 
 Number of pixels rejected           :         1381
 Number of (internal) image counts   :       149663
 Number of image cts rejected (N, %) :       14857899.28
 
         By chip   :             0            1            2            3
 
 Pixels rejected   :           361          355          352          313
 
 Image counts      :         39382        37906        37972        34403
 Image cts rejected:         39071        37633        37691        34183
 Image cts rej (%) :         99.21        99.28        99.26        99.36
 
    filtering data...
 
 Total counts      :         39382        37906        37972        34403
 Total cts rejected:         39071        37633        37691        34183
 Total cts rej (%) :         99.21        99.28        99.26        99.36
 
 Number of clean counts accepted  :         1085
 
    writing history cards...
    copying extensions...
    writing out hot pixs...
 
 Number of rejected pixels        :         1381
 
    updating NEVENTS keywords...
    closing data file...
    closing clean file...
-> Extracting bright and dark Earth events from ad27009000s100202m.unf
-> Extracting ad27009000s100202m.drk
-> Cleaning hot pixels from ad27009000s100202m.unf
-> Standard Output From FTOOL cleansis:
CLEANSIS_V1.6
    allocating image arrays...
 
 PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
 
 * Anomalous pixels may consist of at least two populations.
 
 1. Persistent HOT pixels are removed by comparing to the chip mean.
 
 2. Flickering WARM pixels are removed by comparing to the cell mean.
 
 3. In faint areas (zero bgd), flickering pixels are removed with a
    cutoff threshold.
 
 Hints:
 Choose cell size and thresholds based on the expected background and the PSF.
 Use the DIRTYSIS option to examine the anomalous pixel spectra.
 Try a multiple pass clean:
     Choose a PHA cut to optimize the S/N of the flickering pixels,
     then a broad band clean.
 Be suspicious of extended source cleans.
 For very bright sources you may need to turn off the iteration option.
 
 See the help page for further info (fhelp cleansis)
 
 Poisson clean cell size         :            5
 Poisson probability threshold   :    0.575E-05
 Zero Bgd Cutoff threshold (>)   :            3
 Iterate                         :            F
 Dirtysis                        :            F
 
 Minimum PHA value (inclusive)   :            0
 Maximum PHA value (inclusive)   :         4095
 
    open output  file: ad27009000s100202m.drk
    reading data file: event.tmp
    copying primary header to output file...
    making chip image...
 
 Total counts in chip images :        23754
 
    copy bad pix array...
cleaning chip # 0
 Hot pixels & counts                   :              30        5351
 Flickering pixels iter, pixels & cnts :   1          28         592
cleaning chip # 1
 Hot pixels & counts                   :              28        4886
 Flickering pixels iter, pixels & cnts :   1          32         781
cleaning chip # 2
 Hot pixels & counts                   :              30        5128
 Flickering pixels iter, pixels & cnts :   1          39         970
cleaning chip # 3
 Hot pixels & counts                   :              31        5124
 Flickering pixels iter, pixels & cnts :   1          41         762
 
 Number of pixels rejected           :          259
 Number of (internal) image counts   :        23754
 Number of image cts rejected (N, %) :        2359499.33
 
         By chip   :             0            1            2            3
 
 Pixels rejected   :            58           60           69           72
 
 Image counts      :          6003         5700         6138         5913
 Image cts rejected:          5943         5667         6098         5886
 Image cts rej (%) :         99.00        99.42        99.35        99.54
 
    filtering data...
 
 Total counts      :          6003         5700         6138         5913
 Total cts rejected:          5943         5667         6098         5886
 Total cts rej (%) :         99.00        99.42        99.35        99.54
 
 Number of clean counts accepted  :          160
 
    writing history cards...
    copying extensions...
    writing out hot pixs...
 
 Number of rejected pixels        :          259
 
    updating NEVENTS keywords...
    closing data file...
    closing clean file...
-> Extracting bright and dark Earth events from ad27009000s100212m.unf
-> Extracting ad27009000s100212m.drk
-> Cleaning hot pixels from ad27009000s100212m.unf
-> Standard Output From FTOOL cleansis:
CLEANSIS_V1.6
    allocating image arrays...
 
 PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
 
 * Anomalous pixels may consist of at least two populations.
 
 1. Persistent HOT pixels are removed by comparing to the chip mean.
 
 2. Flickering WARM pixels are removed by comparing to the cell mean.
 
 3. In faint areas (zero bgd), flickering pixels are removed with a
    cutoff threshold.
 
 Hints:
 Choose cell size and thresholds based on the expected background and the PSF.
 Use the DIRTYSIS option to examine the anomalous pixel spectra.
 Try a multiple pass clean:
     Choose a PHA cut to optimize the S/N of the flickering pixels,
     then a broad band clean.
 Be suspicious of extended source cleans.
 For very bright sources you may need to turn off the iteration option.
 
 See the help page for further info (fhelp cleansis)
 
 Poisson clean cell size         :            5
 Poisson probability threshold   :    0.575E-05
 Zero Bgd Cutoff threshold (>)   :            3
 Iterate                         :            F
 Dirtysis                        :            F
 
 Minimum PHA value (inclusive)   :            0
 Maximum PHA value (inclusive)   :         4095
 
    open output  file: ad27009000s100212m.drk
    reading data file: event.tmp
    copying primary header to output file...
    making chip image...
 
 Total counts in chip images :        26558
 
    copy bad pix array...
cleaning chip # 0
 Hot pixels & counts                   :              31        5803
 Flickering pixels iter, pixels & cnts :   1          28         746
cleaning chip # 1
 Hot pixels & counts                   :              32        5838
 Flickering pixels iter, pixels & cnts :   1          30         671
cleaning chip # 2
 Hot pixels & counts                   :              32        5652
 Flickering pixels iter, pixels & cnts :   1          37         964
cleaning chip # 3
 Hot pixels & counts                   :              32        5787
 Flickering pixels iter, pixels & cnts :   1          42         872
 
 Number of pixels rejected           :          264
 Number of (internal) image counts   :        26558
 Number of image cts rejected (N, %) :        2633399.15
 
         By chip   :             0            1            2            3
 
 Pixels rejected   :            59           62           69           74
 
 Image counts      :          6625         6556         6676         6701
 Image cts rejected:          6549         6509         6616         6659
 Image cts rej (%) :         98.85        99.28        99.10        99.37
 
    filtering data...
 
 Total counts      :          6625         6556         6676         6701
 Total cts rejected:          6549         6509         6616         6659
 Total cts rej (%) :         98.85        99.28        99.10        99.37
 
 Number of clean counts accepted  :          225
 
    writing history cards...
    copying extensions...
    writing out hot pixs...
 
 Number of rejected pixels        :          264
 
    updating NEVENTS keywords...
    closing data file...
    closing clean file...
-> Extracting bright and dark Earth events from ad27009000s100302m.unf
-> Extracting ad27009000s100302m.drk
-> Cleaning hot pixels from ad27009000s100302m.unf
-> Standard Output From FTOOL cleansis:
CLEANSIS_V1.6
    allocating image arrays...
 
 PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
 
 * Anomalous pixels may consist of at least two populations.
 
 1. Persistent HOT pixels are removed by comparing to the chip mean.
 
 2. Flickering WARM pixels are removed by comparing to the cell mean.
 
 3. In faint areas (zero bgd), flickering pixels are removed with a
    cutoff threshold.
 
 Hints:
 Choose cell size and thresholds based on the expected background and the PSF.
 Use the DIRTYSIS option to examine the anomalous pixel spectra.
 Try a multiple pass clean:
     Choose a PHA cut to optimize the S/N of the flickering pixels,
     then a broad band clean.
 Be suspicious of extended source cleans.
 For very bright sources you may need to turn off the iteration option.
 
 See the help page for further info (fhelp cleansis)
 
 Poisson clean cell size         :            5
 Poisson probability threshold   :    0.575E-05
 Zero Bgd Cutoff threshold (>)   :            3
 Iterate                         :            F
 Dirtysis                        :            F
 
 Minimum PHA value (inclusive)   :            0
 Maximum PHA value (inclusive)   :         4095
 
    open output  file: ad27009000s100302m.drk
    reading data file: event.tmp
    copying primary header to output file...
    making chip image...
 
 Total counts in chip images :         2056
 
    copy bad pix array...
cleaning chip # 0
cleaning chip # 1
 Hot pixels & counts                   :              17        1026
 Flickering pixels iter, pixels & cnts :   1           5          28
cleaning chip # 2
 Hot pixels & counts                   :              15         914
 Flickering pixels iter, pixels & cnts :   1           5          22
cleaning chip # 3
 
 Number of pixels rejected           :           42
 Number of (internal) image counts   :         2056
 Number of image cts rejected (N, %) :         199096.79
 
         By chip   :             0            1            2            3
 
 Pixels rejected   :             0           22           20            0
 
 Image counts      :             0         1084          972            0
 Image cts rejected:             0         1054          936            0
 Image cts rej (%) :          0.00        97.23        96.30         0.00
 
    filtering data...
 
 Total counts      :             0         1084          972            0
 Total cts rejected:             0         1054          936            0
 Total cts rej (%) :          0.00        97.23        96.30         0.00
 
 Number of clean counts accepted  :           66
 
    writing history cards...
    copying extensions...
    writing out hot pixs...
 
 Number of rejected pixels        :           42
 
    updating NEVENTS keywords...
    closing data file...
    closing clean file...
-> Extracting bright and dark Earth events from ad27009000s100312m.unf
-> Extracting ad27009000s100312m.drk
-> Cleaning hot pixels from ad27009000s100312m.unf
-> Standard Output From FTOOL cleansis:
CLEANSIS_V1.6
    allocating image arrays...
 
 PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
 
 * Anomalous pixels may consist of at least two populations.
 
 1. Persistent HOT pixels are removed by comparing to the chip mean.
 
 2. Flickering WARM pixels are removed by comparing to the cell mean.
 
 3. In faint areas (zero bgd), flickering pixels are removed with a
    cutoff threshold.
 
 Hints:
 Choose cell size and thresholds based on the expected background and the PSF.
 Use the DIRTYSIS option to examine the anomalous pixel spectra.
 Try a multiple pass clean:
     Choose a PHA cut to optimize the S/N of the flickering pixels,
     then a broad band clean.
 Be suspicious of extended source cleans.
 For very bright sources you may need to turn off the iteration option.
 
 See the help page for further info (fhelp cleansis)
 
 Poisson clean cell size         :            5
 Poisson probability threshold   :    0.575E-05
 Zero Bgd Cutoff threshold (>)   :            3
 Iterate                         :            F
 Dirtysis                        :            F
 
 Minimum PHA value (inclusive)   :            0
 Maximum PHA value (inclusive)   :         4095
 
    open output  file: ad27009000s100312m.drk
    reading data file: event.tmp
    copying primary header to output file...
    making chip image...
 
 Total counts in chip images :         2093
 
    copy bad pix array...
cleaning chip # 0
cleaning chip # 1
 Hot pixels & counts                   :              17        1046
 Flickering pixels iter, pixels & cnts :   1           5          28
cleaning chip # 2
 Hot pixels & counts                   :              15         919
 Flickering pixels iter, pixels & cnts :   1           5          22
cleaning chip # 3
 
 Number of pixels rejected           :           42
 Number of (internal) image counts   :         2093
 Number of image cts rejected (N, %) :         201596.27
 
         By chip   :             0            1            2            3
 
 Pixels rejected   :             0           22           20            0
 
 Image counts      :             0         1110          983            0
 Image cts rejected:             0         1074          941            0
 Image cts rej (%) :          0.00        96.76        95.73         0.00
 
    filtering data...
 
 Total counts      :             0         1110          983            0
 Total cts rejected:             0         1074          941            0
 Total cts rej (%) :          0.00        96.76        95.73         0.00
 
 Number of clean counts accepted  :           78
 
    writing history cards...
    copying extensions...
    writing out hot pixs...
 
 Number of rejected pixels        :           42
 
    updating NEVENTS keywords...
    closing data file...
    closing clean file...
-> Extracting bright and dark Earth events from ad27009000s100402l.unf
-> Extracting ad27009000s100402l.drk
-> Cleaning hot pixels from ad27009000s100402l.unf
-> Standard Output From FTOOL cleansis:
CLEANSIS_V1.6
    allocating image arrays...
 
 PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
 
 * Anomalous pixels may consist of at least two populations.
 
 1. Persistent HOT pixels are removed by comparing to the chip mean.
 
 2. Flickering WARM pixels are removed by comparing to the cell mean.
 
 3. In faint areas (zero bgd), flickering pixels are removed with a
    cutoff threshold.
 
 Hints:
 Choose cell size and thresholds based on the expected background and the PSF.
 Use the DIRTYSIS option to examine the anomalous pixel spectra.
 Try a multiple pass clean:
     Choose a PHA cut to optimize the S/N of the flickering pixels,
     then a broad band clean.
 Be suspicious of extended source cleans.
 For very bright sources you may need to turn off the iteration option.
 
 See the help page for further info (fhelp cleansis)
 
 Poisson clean cell size         :            5
 Poisson probability threshold   :    0.575E-05
 Zero Bgd Cutoff threshold (>)   :            3
 Iterate                         :            F
 Dirtysis                        :            F
 
 Minimum PHA value (inclusive)   :            0
 Maximum PHA value (inclusive)   :         4095
 
    open output  file: ad27009000s100402l.drk
    reading data file: event.tmp
    copying primary header to output file...
    making chip image...
 
 Total counts in chip images :         2798
 
    copy bad pix array...
cleaning chip # 0
 Hot pixels & counts                   :               4         403
 Flickering pixels iter, pixels & cnts :   1           8         317
cleaning chip # 1
 Hot pixels & counts                   :               6         483
 Flickering pixels iter, pixels & cnts :   1           9         174
cleaning chip # 2
 Hot pixels & counts                   :               8         617
 Flickering pixels iter, pixels & cnts :   1           6          61
cleaning chip # 3
 Hot pixels & counts                   :               6         531
 Flickering pixels iter, pixels & cnts :   1          11         180
 
 Number of pixels rejected           :           58
 Number of (internal) image counts   :         2798
 Number of image cts rejected (N, %) :         276698.86
 
         By chip   :             0            1            2            3
 
 Pixels rejected   :            12           15           14           17
 
 Image counts      :           725          662          695          716
 Image cts rejected:           720          657          678          711
 Image cts rej (%) :         99.31        99.24        97.55        99.30
 
    filtering data...
 
 Total counts      :           725          662          695          716
 Total cts rejected:           720          657          678          711
 Total cts rej (%) :         99.31        99.24        97.55        99.30
 
 Number of clean counts accepted  :           32
 
    writing history cards...
    copying extensions...
    writing out hot pixs...
 
 Number of rejected pixels        :           58
 
    updating NEVENTS keywords...
    closing data file...
    closing clean file...
-> Extracting bright and dark Earth events from ad27009000s100412l.unf
-> Extracting ad27009000s100412l.drk
-> Cleaning hot pixels from ad27009000s100412l.unf
-> Standard Output From FTOOL cleansis:
CLEANSIS_V1.6
    allocating image arrays...
 
 PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
 
 * Anomalous pixels may consist of at least two populations.
 
 1. Persistent HOT pixels are removed by comparing to the chip mean.
 
 2. Flickering WARM pixels are removed by comparing to the cell mean.
 
 3. In faint areas (zero bgd), flickering pixels are removed with a
    cutoff threshold.
 
 Hints:
 Choose cell size and thresholds based on the expected background and the PSF.
 Use the DIRTYSIS option to examine the anomalous pixel spectra.
 Try a multiple pass clean:
     Choose a PHA cut to optimize the S/N of the flickering pixels,
     then a broad band clean.
 Be suspicious of extended source cleans.
 For very bright sources you may need to turn off the iteration option.
 
 See the help page for further info (fhelp cleansis)
 
 Poisson clean cell size         :            5
 Poisson probability threshold   :    0.575E-05
 Zero Bgd Cutoff threshold (>)   :            3
 Iterate                         :            F
 Dirtysis                        :            F
 
 Minimum PHA value (inclusive)   :            0
 Maximum PHA value (inclusive)   :         4095
 
    open output  file: ad27009000s100412l.drk
    reading data file: event.tmp
    copying primary header to output file...
    making chip image...
 
 Total counts in chip images :         3125
 
    copy bad pix array...
cleaning chip # 0
 Hot pixels & counts                   :               5         516
 Flickering pixels iter, pixels & cnts :   1           7         274
cleaning chip # 1
 Hot pixels & counts                   :               7         591
 Flickering pixels iter, pixels & cnts :   1           8         156
cleaning chip # 2
 Hot pixels & counts                   :               8         693
 Flickering pixels iter, pixels & cnts :   1           6          70
cleaning chip # 3
 Hot pixels & counts                   :               7         632
 Flickering pixels iter, pixels & cnts :   1          10         152
 
 Number of pixels rejected           :           58
 Number of (internal) image counts   :         3125
 Number of image cts rejected (N, %) :         308498.69
 
         By chip   :             0            1            2            3
 
 Pixels rejected   :            12           15           14           17
 
 Image counts      :           795          759          782          789
 Image cts rejected:           790          747          763          784
 Image cts rej (%) :         99.37        98.42        97.57        99.37
 
    filtering data...
 
 Total counts      :           795          759          782          789
 Total cts rejected:           790          747          763          784
 Total cts rej (%) :         99.37        98.42        97.57        99.37
 
 Number of clean counts accepted  :           41
 
    writing history cards...
    copying extensions...
    writing out hot pixs...
 
 Number of rejected pixels        :           58
 
    updating NEVENTS keywords...
    closing data file...
    closing clean file...
-> Extracting bright and dark Earth events from ad27009000g200170h.unf
-> Extracting ad27009000g200170h.drk
-> Extracting ad27009000g200170h.brt
-> Extracting bright and dark Earth events from ad27009000g200270m.unf
-> Extracting ad27009000g200270m.drk
-> Extracting ad27009000g200270m.brt
-> Extracting bright and dark Earth events from ad27009000g200370l.unf
-> Extracting ad27009000g200370l.drk
-> Extracting ad27009000g200370l.brt
-> Extracting bright and dark Earth events from ad27009000g300170h.unf
-> Extracting ad27009000g300170h.drk
-> Extracting ad27009000g300170h.brt
-> Extracting bright and dark Earth events from ad27009000g300270m.unf
-> Extracting ad27009000g300270m.drk
-> Extracting ad27009000g300270m.brt
-> Extracting bright and dark Earth events from ad27009000g300370l.unf
-> Extracting ad27009000g300370l.drk
-> Extracting ad27009000g300370l.brt

Determining information about this observation ( 00:19:32 )

-> Calculating ISAS time for sis
-> Calculating ISAS time for gis
-> Recording dates of PI calibration files
-> leapsec.fits already present in current directory
-> Standard Output From FTOOL sec2time:
 Offset of   208224004.000000     from 1993-01-01   00:00:00
 is date and time (including leapseconds) = 1999-08-08   00:00:00.00000
 Modified Julian Day    =   51398.000000000000000
-> leapsec.fits already present in current directory
-> Standard Output From FTOOL sec2time:
 Offset of   197078404.000000     from 1993-01-01   00:00:00
 is date and time (including leapseconds) = 1999-04-01   00:00:00.00000
 Modified Julian Day    =   51269.000000000000000
-> leapsec.fits already present in current directory
-> Standard Output From FTOOL sec2time:
 Offset of   150000000.000000     from 1993-01-01   00:00:00
 is date and time (including leapseconds) = 1997-10-03   02:39:56.00000
 Modified Julian Day    =   50724.111064814816928

Generating event file information page ( 00:20:33 )

-> Summing time and events for s0 event files
-> Standard Output From STOOL get_uniq_keys:
ad27009000s000102h.unf|S0_ARENA|0|S0 Area discrimination enable/disable
ad27009000s000202h.unf|S0_ARENA|1|S0 Area discrimination enable/disable
-> listing ad27009000s000102h.unf
-> listing ad27009000s000202h.unf
-> Standard Output From STOOL get_uniq_keys:
ad27009000s000302m.unf|S0_ARENA|0|S0 Area discrimination enable/disable
ad27009000s000402m.unf|S0_ARENA|1|S0 Area discrimination enable/disable
ad27009000s000502m.unf|S0_ARENA|0|S0 Area discrimination enable/disable
ad27009000s000302m.unf|S0BIASOF|28|S0 Bias offset
ad27009000s000402m.unf|S0BIASOF|28|S0 Bias offset
ad27009000s000502m.unf|S0BIASOF|0|S0 Bias offset
ad27009000s000302m.unf|S0CCDPOW|1111|Which S0 CCDs are in use(0123): 0=OFF 1=ON
ad27009000s000402m.unf|S0CCDPOW|1111|Which S0 CCDs are in use(0123): 0=OFF 1=ON
ad27009000s000502m.unf|S0CCDPOW|0110|Which S0 CCDs are in use(0123): 0=OFF 1=ON
ad27009000s000302m.unf|S0CCDMOD|4|How many S0 CCDs are in use: 1, 2, or 4
ad27009000s000402m.unf|S0CCDMOD|4|How many S0 CCDs are in use: 1, 2, or 4
ad27009000s000502m.unf|S0CCDMOD|2|How many S0 CCDs are in use: 1, 2, or 4
ad27009000s000302m.unf|S0CCDLST|0 1 2 3|S0 CCD readout order
ad27009000s000402m.unf|S0CCDLST|0 1 2 3|S0 CCD readout order
ad27009000s000502m.unf|S0CCDLST|1 2 1 2|S0 CCD readout order
-> listing ad27009000s000302m.unf
-> listing ad27009000s000402m.unf
-> listing ad27009000s000502m.unf
-> listing ad27009000s000802l.unf
-> Standard Output From STOOL get_uniq_keys:
ad27009000s000112h.unf|S0_ARENA|0|S0 Area discrimination enable/disable
ad27009000s000212h.unf|S0_ARENA|1|S0 Area discrimination enable/disable
-> listing ad27009000s000112h.unf
-> listing ad27009000s000212h.unf
-> Standard Output From STOOL get_uniq_keys:
ad27009000s000312m.unf|S0_ARENA|0|S0 Area discrimination enable/disable
ad27009000s000412m.unf|S0_ARENA|1|S0 Area discrimination enable/disable
ad27009000s000512m.unf|S0_ARENA|0|S0 Area discrimination enable/disable
ad27009000s000312m.unf|S0BIASOF|28|S0 Bias offset
ad27009000s000412m.unf|S0BIASOF|28|S0 Bias offset
ad27009000s000512m.unf|S0BIASOF|0|S0 Bias offset
ad27009000s000312m.unf|S0CCDPOW|1111|Which S0 CCDs are in use(0123): 0=OFF 1=ON
ad27009000s000412m.unf|S0CCDPOW|1111|Which S0 CCDs are in use(0123): 0=OFF 1=ON
ad27009000s000512m.unf|S0CCDPOW|0110|Which S0 CCDs are in use(0123): 0=OFF 1=ON
ad27009000s000312m.unf|S0CCDMOD|4|How many S0 CCDs are in use: 1, 2, or 4
ad27009000s000412m.unf|S0CCDMOD|4|How many S0 CCDs are in use: 1, 2, or 4
ad27009000s000512m.unf|S0CCDMOD|2|How many S0 CCDs are in use: 1, 2, or 4
ad27009000s000312m.unf|S0CCDLST|0 1 2 3|S0 CCD readout order
ad27009000s000412m.unf|S0CCDLST|0 1 2 3|S0 CCD readout order
ad27009000s000512m.unf|S0CCDLST|1 2 1 2|S0 CCD readout order
-> listing ad27009000s000312m.unf
-> listing ad27009000s000412m.unf
-> listing ad27009000s000512m.unf
-> listing ad27009000s000812l.unf
-> Standard Output From STOOL get_uniq_keys:
ad27009000s000101h.unf|S0_ARENA|0|S0 Area discrimination enable/disable
ad27009000s000201h.unf|S0_ARENA|1|S0 Area discrimination enable/disable
ad27009000s000901h.unf|S0_ARENA|0|S0 Area discrimination enable/disable
-> listing ad27009000s000101h.unf
-> listing ad27009000s000201h.unf
-> listing ad27009000s000901h.unf
-> Standard Output From STOOL get_uniq_keys:
ad27009000s000301m.unf|S0_ARENA|0|S0 Area discrimination enable/disable
ad27009000s000401m.unf|S0_ARENA|1|S0 Area discrimination enable/disable
ad27009000s000501m.unf|S0_ARENA|0|S0 Area discrimination enable/disable
ad27009000s000601m.unf|S0_ARENA|1|S0 Area discrimination enable/disable
ad27009000s000301m.unf|S0CCDPOW|1111|Which S0 CCDs are in use(0123): 0=OFF 1=ON
ad27009000s000401m.unf|S0CCDPOW|1111|Which S0 CCDs are in use(0123): 0=OFF 1=ON
ad27009000s000501m.unf|S0CCDPOW|0110|Which S0 CCDs are in use(0123): 0=OFF 1=ON
ad27009000s000601m.unf|S0CCDPOW|0110|Which S0 CCDs are in use(0123): 0=OFF 1=ON
ad27009000s000301m.unf|S0CCDMOD|4|How many S0 CCDs are in use: 1, 2, or 4
ad27009000s000401m.unf|S0CCDMOD|4|How many S0 CCDs are in use: 1, 2, or 4
ad27009000s000501m.unf|S0CCDMOD|2|How many S0 CCDs are in use: 1, 2, or 4
ad27009000s000601m.unf|S0CCDMOD|2|How many S0 CCDs are in use: 1, 2, or 4
ad27009000s000301m.unf|S0CCDLST|0 1 2 3|S0 CCD readout order
ad27009000s000401m.unf|S0CCDLST|0 1 2 3|S0 CCD readout order
ad27009000s000501m.unf|S0CCDLST|1 2 1 2|S0 CCD readout order
ad27009000s000601m.unf|S0CCDLST|1 2 1 2|S0 CCD readout order
-> listing ad27009000s000301m.unf
-> listing ad27009000s000401m.unf
-> listing ad27009000s000501m.unf
-> listing ad27009000s000601m.unf
-> Standard Output From STOOL get_uniq_keys:
ad27009000s000701l.unf|S0_ARENA|1|S0 Area discrimination enable/disable
ad27009000s000801l.unf|S0_ARENA|0|S0 Area discrimination enable/disable
-> listing ad27009000s000701l.unf
-> listing ad27009000s000801l.unf
-> Summing time and events for s1 event files
-> listing ad27009000s100102h.unf
-> Standard Output From STOOL get_uniq_keys:
ad27009000s100202m.unf|S1BIASOF|32|S1 Bias offset
ad27009000s100302m.unf|S1BIASOF|0|S1 Bias offset
ad27009000s100202m.unf|S1CCDPOW|1111|Which S1 CCDs are in use(0123): 0=OFF 1=ON
ad27009000s100302m.unf|S1CCDPOW|0110|Which S1 CCDs are in use(0123): 0=OFF 1=ON
ad27009000s100202m.unf|S1CCDMOD|4|How many S1 CCDs are in use: 1, 2, or 4
ad27009000s100302m.unf|S1CCDMOD|2|How many S1 CCDs are in use: 1, 2, or 4
ad27009000s100202m.unf|S1CCDLST|2 3 0 1|S1 CCD readout order
ad27009000s100302m.unf|S1CCDLST|1 2 1 2|S1 CCD readout order
-> listing ad27009000s100202m.unf
-> listing ad27009000s100302m.unf
-> listing ad27009000s100402l.unf
-> listing ad27009000s100112h.unf
-> Standard Output From STOOL get_uniq_keys:
ad27009000s100212m.unf|S1BIASOF|32|S1 Bias offset
ad27009000s100312m.unf|S1BIASOF|0|S1 Bias offset
ad27009000s100212m.unf|S1CCDPOW|1111|Which S1 CCDs are in use(0123): 0=OFF 1=ON
ad27009000s100312m.unf|S1CCDPOW|0110|Which S1 CCDs are in use(0123): 0=OFF 1=ON
ad27009000s100212m.unf|S1CCDMOD|4|How many S1 CCDs are in use: 1, 2, or 4
ad27009000s100312m.unf|S1CCDMOD|2|How many S1 CCDs are in use: 1, 2, or 4
ad27009000s100212m.unf|S1CCDLST|2 3 0 1|S1 CCD readout order
ad27009000s100312m.unf|S1CCDLST|1 2 1 2|S1 CCD readout order
-> listing ad27009000s100212m.unf
-> listing ad27009000s100312m.unf
-> listing ad27009000s100412l.unf
-> listing ad27009000s100101h.unf
-> listing ad27009000s100501h.unf
-> Standard Output From STOOL get_uniq_keys:
ad27009000s100201m.unf|S1CCDPOW|1111|Which S1 CCDs are in use(0123): 0=OFF 1=ON
ad27009000s100301m.unf|S1CCDPOW|0110|Which S1 CCDs are in use(0123): 0=OFF 1=ON
ad27009000s100601m.unf|S1CCDPOW|0110|Which S1 CCDs are in use(0123): 0=OFF 1=ON
ad27009000s100201m.unf|S1CCDMOD|4|How many S1 CCDs are in use: 1, 2, or 4
ad27009000s100301m.unf|S1CCDMOD|2|How many S1 CCDs are in use: 1, 2, or 4
ad27009000s100601m.unf|S1CCDMOD|2|How many S1 CCDs are in use: 1, 2, or 4
ad27009000s100201m.unf|S1CCDLST|2 3 0 1|S1 CCD readout order
ad27009000s100301m.unf|S1CCDLST|1 2 1 2|S1 CCD readout order
ad27009000s100601m.unf|S1CCDLST|1 2 1 2|S1 CCD readout order
-> listing ad27009000s100201m.unf
-> listing ad27009000s100301m.unf
-> listing ad27009000s100601m.unf
-> listing ad27009000s100401l.unf
-> Summing time and events for g2 event files
-> listing ad27009000g200170h.unf
-> listing ad27009000g200270m.unf
-> listing ad27009000g200370l.unf
-> Summing time and events for g3 event files
-> listing ad27009000g300170h.unf
-> listing ad27009000g300270m.unf
-> listing ad27009000g300370l.unf

Creating sequence documentation ( 00:27:00 )

-> Standard Output From STOOL telemgap:
44 614
1962 612
3830 762
4923 92
4968 130
5262 612
7210 112
9463 94
11728 98
14024 110
3

Creating HTML source list ( 00:27:53 )


Listing the files for distribution ( 00:28:05 )

-> Saving job.par as ad27009000_002_job.par and process.par as ad27009000_002_process.par
-> Creating the FITS format file catalog ad27009000_tape.cat
-> Creating the trend product catalog
-> Creating the FITS format file catalog ad27009000_trend.cat
-> Creating ad27009000_002_file_info.html

Doing final wrap up of all files ( 00:36:18 )

-> Adding FITS keywords to all distributed FITS files
-> Running fverify on all distributed files
-> Calculating checksums for all FITS files
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.
-> Doing inventory of all files

Processing complete ( 01:01:00 )