Processing Job Log for Sequence 56001010, version 002

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

The following information is also available:



Processing started ( 02:26:00 )


Verifying telemetry, attitude and orbit files ( 02:26:02 )

-> Checking if column TIME in ft980903_1041.2020 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   178972880.819100     from 1993-01-01   00:00:00
 is date and time (including leapseconds) = 1998-09-03   10:41:16.81909
 Modified Julian Day    =   51059.445333554394892
-> leapsec.fits already present in current directory
-> Standard Output From FTOOL sec2time:
 Offset of   179007646.710400     from 1993-01-01   00:00:00
 is date and time (including leapseconds) = 1998-09-03   20:20:42.71039
 Modified Julian Day    =   51059.847716555552324
-> Observation begins 178972880.8191 1998-09-03 10:41:16
-> Observation ends 179007646.7104 1998-09-03 20:20:42
-> Fetching the latest orbit file
-> Fetching frf.orbit.241

Determine nominal aspect point for the observation ( 02:26:58 )

-> 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 : 178972884.818900 179007646.710500
 Data     file start and stop ascatime : 178972884.818900 179007646.710500
 Aspecting run start and stop ascatime : 178972888.818996 179007646.710411
 
 
 Time interval averaged over (seconds) :     34757.891415
 Total pointing and manuver time (sec) :     21965.480469     12792.486328
 
 Mean boresight Euler angles :    267.420348     119.776315     172.432333
 
                                    RA             DEC         SUN ANGLE
 
 Mean solar position   (deg) :    161.50           7.83
 Mean aberration    (arcsec) :      7.17          -2.27
 
 Mean sat X-axis       (deg) :    282.397368      59.362738      98.16
 Mean sat Y-axis       (deg) :    181.195097       6.563780      19.58
 Mean sat Z-axis       (deg) :    267.420348     -29.776316     107.67
 
                      RA            DEC            ROLL          OFFSET
                    (deg)          (deg)          (deg)         (arcmin)
 
 Average           267.112701     -29.874109      82.279625       0.071040
 Minimum           267.090454     -29.901054      82.268333       0.000000
 Maximum           267.131744     -29.836418      82.314323       2.469313
 Sigma (RMS)         0.001314       0.000148       0.002255       0.061334
 
 Number of ASPECT records processed =      35452
 
 Aspecting to RA/DEC                   :     267.11270142     -29.87410927
    closing output   file...
    closing attitude file...

E2 in aspecting: Error from attitude. Exit code=0

-> Standard Error Output From FTOOL attitude
ATTITUDE_V0.9j : Detected time value of zero in attitude file:
ATTITUDE_V0.9j : aspect is suspect: result may not be valid
-> Par file from FTOOL attitude
attitude,s,h,"merged.tmp",,,"Input ASCA attitude filename"
attpath,s,h,"./",,,"Path to attitude file or DEFAULT"
outfile,s,h,"out.tmp",,,"Output file name or NONE or DEFAULT"
pointing,s,h,"ATT",,,"Pointing from: ATT file mean or USER input"
ranom,r,h,,,,"Input aspect RA  nominal (if pointing = USER)"
decnom,r,h,,,,"Input aspect DEC nominal (if pointing = USER)"
atimecol,s,h,"TIME",,,"Attitude file TIME column name"
qcol,s,h,"QPARAM",,,"Attitude file quaternion column name"
qstat,s,h,"SENSOR",,,"Attitude file quality column name"
verbose,b,h,yes,,,"Write informational messages to screen?"
summary,b,h,no,,,"Write one line summary to screen?"
acmflag,b,h,yes,,,"Exclude manuver time from mean calculation?"
defATTpath,s,h,"./",,,"DEFAULT path to ATTITUDE file"
slewmax,r,h,0.03,,,"Maximum pointing slew rate (deg/sec),if acmflag=yes"
valid,b,h,yes,,,"Is this data valid?"
euler1,r,h,     267.420,,,"Computed mean Euler1 angle for file (deg)"
euler2,r,h,     119.776,,,"Computed mean Euler2 angle for file (deg)"
euler3,r,h,     172.432,,,"Computed mean Euler3 angle for file (deg)"
ra_avg,r,h,     267.113,,,"Computed mean RA for file (degrees)"
dec_avg,r,h,    -29.8741,,,"Computed mean DEC for file (degrees)"
roll_avg,r,h,     82.2796,,,"Computed mean ROLL for file (degrees)"
offset_avg,r,h,     7.10404E-02,,,"Computed mean OFFSET for file (arcmin)"
ra_sig,r,h,     1.31386E-03,,,"Computed mean RA RMS for file (degrees)"
dec_sig,r,h,     1.47951E-04,,,"Computed mean DEC RMS for file (degrees)"
roll_sig,r,h,     2.25475E-03,,,"Computed mean ROLL RMS file (degrees)"
offset_sig,r,h,     6.13342E-02,,,"Computed mean OFFSET RMS for file (arcmin)"
mode,s,h,"ql",,,""
-> Standard Output From STOOL checkatt:
  
 Opening file: ./out.tmp                                                       
  
  ***************** Observation Info ******************
  
  RA (J2000 deg):  267.113 DEC:  -29.874
  
  START TIME: SC 178972888.8190 = UT 1998-09-03 10:41:28    
  
  ****** 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
  
      16.000071      1.935   8603   1 1 0 0 0 0 0 0 0 1 1 0 0 0 0 0 0
     115.999809      0.891   8603   1 1 0 0 0 0 0 0 0 1 1 0 0 0 0 0 0
    2465.992188      0.131   8C03   1 1 0 0 0 0 0 0 0 0 1 1 0 0 0 0 0
    5095.983887      0.052   8603   1 1 0 0 0 0 0 0 0 1 1 0 0 0 0 0 0
    8199.974609      0.058 1C8C43   1 1 0 0 0 0 1 0 0 0 1 1 0 0 0 4 3
   10407.967773      0.077 FC80C3   1 1 0 0 0 0 1 1 0 0 0 0 0 0 0 4 7
   13935.956055      0.090   8C03   1 1 0 0 0 0 0 0 0 0 1 1 0 0 0 0 0
   16103.949219      0.061 FC80C3   1 1 0 0 0 0 1 1 0 0 0 0 0 0 0 4 7
   19669.939453      0.057   8C03   1 1 0 0 0 0 0 0 0 0 1 1 0 0 0 0 0
   21863.931641      0.053   8003   1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
   25447.919922      0.036 1C8C43   1 1 0 0 0 0 1 0 0 0 1 1 0 0 0 4 3
   27557.914062      0.012   8003   1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
   31143.902344      0.025 1C8C43   1 1 0 0 0 0 1 0 0 0 1 1 0 0 0 4 3
   33291.894531      0.138   8003   1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
   34757.890625      0.028   9603   1 1 0 0 0 0 0 0 0 1 1 0 1 0 0 0 0
   34760.890625      1.423   9603   1 1 0 0 0 0 0 0 0 1 1 0 1 0 0 0 0
   34761.890625      2.469   9603   1 1 0 0 0 0 0 0 0 1 1 0 1 0 0 0 0
  
  Attitude  Records:   35452
  Attitude    Steps:   17
  
  Maneuver ACM time:     12792.5 sec
  Pointed  ACM time:     21969.5 sec
  
-> Calculating aspect point
-> Output from aspect:
100 98 count=6 sum1=1604.45 sum2=718.745 sum3=1034.61
100 99 count=16 sum1=4278.46 sum2=1916.75 sum3=2758.98
100 100 count=1 sum1=267.399 sum2=119.802 sum3=172.442
101 97 count=5121 sum1=1.36945e+06 sum2=613373 sum3=883020
101 98 count=27 sum1=7220.16 sum2=3234.21 sum3=4655.72
102 95 count=1 sum1=267.428 sum2=119.761 sum3=172.455
102 96 count=1 sum1=267.426 sum2=119.766 sum3=172.448
102 97 count=30276 sum1=8.09644e+06 sum2=3.62635e+06 sum3=5.22058e+06
103 94 count=1 sum1=267.435 sum2=119.747 sum3=172.464
103 95 count=1 sum1=267.431 sum2=119.755 sum3=172.46
104 93 count=1 sum1=267.439 sum2=119.738 sum3=172.467
0 out of 35452 points outside bin structure
-> Euler angles: 267.421, 119.776, 172.433
-> RA=267.113 Dec=-29.8738 Roll=82.2800
-> Galactic coordinates Lii=359.517953 Bii=-1.013517
-> Running fixatt on fa980903_1041.2020
-> Standard Output From STOOL fixatt:
Interpolating 1 records in time interval 179007642.71 - 179007644.71

E1 in aspecting: Error from fixatt. Exit code=0

-> Standard Error Output From STOOL fixatt
Warning: deleting invalid TIME entry 0 in row 35454

Running frfread on telemetry files ( 02:28:03 )

-> Running frfread on ft980903_1041.2020
-> 0% of superframes in ft980903_1041.2020 corrupted
-> Standard Output From FTOOL frfread4:
Dropping SF 1216 with corrupted frame indicator
Dropping SF 1372 with inconsistent datamode 0/31
637.998 second gap between superframes 1925 and 1926
65.9998 second gap between superframes 3696 and 3697
Warning: GIS2 bit assignment changed between 178987994.77173 and 178987996.77173
Warning: GIS3 bit assignment changed between 178988004.7717 and 178988006.7717
Warning: GIS2 bit assignment changed between 178988012.77168 and 178988014.77167
Warning: GIS3 bit assignment changed between 178988020.77165 and 178988022.77165
Dropping SF 4031 with inconsistent datamode 0/31
1.99999 second gap between superframes 4953 and 4954
67.9998 second gap between superframes 5898 and 5899
Dropping SF 6074 with invalid bit rate 7
Dropping SF 6076 with inconsistent datamode 0/7
Dropping SF 6077 with inconsistent datamode 0/12
SIS0 peak error time=179000264.60844 x=44 y=183 ph0=2350 ph1=3322 ph2=2552 ph3=3120
Dropping SF 6267 with inconsistent datamode 0/31
GIS2 coordinate error time=179000635.04579 x=0 y=0 pha=30 rise=0
SIS1 peak error time=179000624.60732 x=340 y=97 ph0=143 ph7=2101
SIS1 peak error time=179000624.60732 x=29 y=98 ph0=180 ph2=845 ph3=576 ph4=2122 ph5=1470 ph6=2601
SIS1 peak error time=179000624.60732 x=308 y=103 ph0=207 ph7=2060 ph8=250
Dropping SF 6270 with inconsistent datamode 0/31
93.9997 second gap between superframes 8178 and 8179
Warning: GIS2 bit assignment changed between 179006064.71534 and 179006066.71533
Warning: GIS3 bit assignment changed between 179006078.7153 and 179006080.71529
Warning: GIS2 bit assignment changed between 179006086.71527 and 179006088.71526
Warning: GIS3 bit assignment changed between 179006094.71525 and 179006096.71524
Dropping SF 8544 with corrupted frame indicator
Dropping SF 8545 with inconsistent datamode 0/31
Dropping SF 8546 with corrupted frame indicator
Dropping SF 8547 with synch code word 0 = 80 not 250
8872 of 8884 super frames processed
-> Removing the following files with NEVENTS=0
ft980903_1041_2020G200370M.fits[0]
ft980903_1041_2020G200470H.fits[0]
ft980903_1041_2020G200570H.fits[0]
ft980903_1041_2020G200670H.fits[0]
ft980903_1041_2020G200770H.fits[0]
ft980903_1041_2020G200870H.fits[0]
ft980903_1041_2020G201470L.fits[0]
ft980903_1041_2020G201570H.fits[0]
ft980903_1041_2020G201670H.fits[0]
ft980903_1041_2020G201770H.fits[0]
ft980903_1041_2020G201870H.fits[0]
ft980903_1041_2020G201970H.fits[0]
ft980903_1041_2020G202670H.fits[0]
ft980903_1041_2020G202770H.fits[0]
ft980903_1041_2020G202870H.fits[0]
ft980903_1041_2020G202970H.fits[0]
ft980903_1041_2020G203670H.fits[0]
ft980903_1041_2020G203770H.fits[0]
ft980903_1041_2020G203870H.fits[0]
ft980903_1041_2020G203970H.fits[0]
ft980903_1041_2020G204570L.fits[0]
ft980903_1041_2020G204670H.fits[0]
ft980903_1041_2020G204770H.fits[0]
ft980903_1041_2020G204870H.fits[0]
ft980903_1041_2020G204970H.fits[0]
ft980903_1041_2020G205070L.fits[0]
ft980903_1041_2020G205170L.fits[0]
ft980903_1041_2020G205270H.fits[0]
ft980903_1041_2020G205370H.fits[0]
ft980903_1041_2020G205470H.fits[0]
ft980903_1041_2020G205570H.fits[0]
ft980903_1041_2020G205670H.fits[0]
ft980903_1041_2020G206270M.fits[0]
ft980903_1041_2020G206370L.fits[0]
ft980903_1041_2020G206470H.fits[0]
ft980903_1041_2020G206570H.fits[0]
ft980903_1041_2020G207270H.fits[0]
ft980903_1041_2020G207370M.fits[0]
ft980903_1041_2020G207470H.fits[0]
ft980903_1041_2020G207570H.fits[0]
ft980903_1041_2020G208070H.fits[0]
ft980903_1041_2020G208170H.fits[0]
ft980903_1041_2020G208270H.fits[0]
ft980903_1041_2020G300370M.fits[0]
ft980903_1041_2020G300470H.fits[0]
ft980903_1041_2020G300570H.fits[0]
ft980903_1041_2020G300670H.fits[0]
ft980903_1041_2020G300770H.fits[0]
ft980903_1041_2020G301470L.fits[0]
ft980903_1041_2020G301570H.fits[0]
ft980903_1041_2020G301670H.fits[0]
ft980903_1041_2020G301770H.fits[0]
ft980903_1041_2020G301870H.fits[0]
ft980903_1041_2020G302670H.fits[0]
ft980903_1041_2020G302770H.fits[0]
ft980903_1041_2020G302870H.fits[0]
ft980903_1041_2020G302970H.fits[0]
ft980903_1041_2020G303770H.fits[0]
ft980903_1041_2020G303870H.fits[0]
ft980903_1041_2020G303970H.fits[0]
ft980903_1041_2020G304470L.fits[0]
ft980903_1041_2020G304570H.fits[0]
ft980903_1041_2020G304670H.fits[0]
ft980903_1041_2020G304770H.fits[0]
ft980903_1041_2020G304870H.fits[0]
ft980903_1041_2020G304970L.fits[0]
ft980903_1041_2020G305070L.fits[0]
ft980903_1041_2020G305170H.fits[0]
ft980903_1041_2020G305270H.fits[0]
ft980903_1041_2020G305370H.fits[0]
ft980903_1041_2020G305470H.fits[0]
ft980903_1041_2020G305570H.fits[0]
ft980903_1041_2020G306170M.fits[0]
ft980903_1041_2020G306270L.fits[0]
ft980903_1041_2020G306370H.fits[0]
ft980903_1041_2020G307170H.fits[0]
ft980903_1041_2020G307270H.fits[0]
ft980903_1041_2020G307370M.fits[0]
ft980903_1041_2020G307470H.fits[0]
ft980903_1041_2020G307570H.fits[0]
ft980903_1041_2020G307970H.fits[0]
ft980903_1041_2020G308170H.fits[0]
ft980903_1041_2020G308270H.fits[0]
ft980903_1041_2020G308370H.fits[0]
ft980903_1041_2020S000501L.fits[0]
ft980903_1041_2020S001301L.fits[0]
ft980903_1041_2020S002301L.fits[0]
ft980903_1041_2020S004401M.fits[0]
ft980903_1041_2020S103501M.fits[0]
-> Checking for empty GTI extensions
-> Appending ALLGTI extensions to housekeeping files
-> Merging GTIs from the following files:
ft980903_1041_2020S000101M.fits[2]
ft980903_1041_2020S000201H.fits[2]
ft980903_1041_2020S000301H.fits[2]
ft980903_1041_2020S000401L.fits[2]
ft980903_1041_2020S000601L.fits[2]
ft980903_1041_2020S000701L.fits[2]
ft980903_1041_2020S000801L.fits[2]
ft980903_1041_2020S000901H.fits[2]
ft980903_1041_2020S001001H.fits[2]
ft980903_1041_2020S001101L.fits[2]
ft980903_1041_2020S001201L.fits[2]
ft980903_1041_2020S001401L.fits[2]
ft980903_1041_2020S001501L.fits[2]
ft980903_1041_2020S001601L.fits[2]
ft980903_1041_2020S001701H.fits[2]
ft980903_1041_2020S001801L.fits[2]
ft980903_1041_2020S001901L.fits[2]
ft980903_1041_2020S002001H.fits[2]
ft980903_1041_2020S002101H.fits[2]
ft980903_1041_2020S002201L.fits[2]
ft980903_1041_2020S002401L.fits[2]
ft980903_1041_2020S002501L.fits[2]
ft980903_1041_2020S002601H.fits[2]
ft980903_1041_2020S002701H.fits[2]
ft980903_1041_2020S002801L.fits[2]
ft980903_1041_2020S002901L.fits[2]
ft980903_1041_2020S003001M.fits[2]
ft980903_1041_2020S003101L.fits[2]
ft980903_1041_2020S003201L.fits[2]
ft980903_1041_2020S003301L.fits[2]
ft980903_1041_2020S003401H.fits[2]
ft980903_1041_2020S003501H.fits[2]
ft980903_1041_2020S003601H.fits[2]
ft980903_1041_2020S003701H.fits[2]
ft980903_1041_2020S003801H.fits[2]
ft980903_1041_2020S003901M.fits[2]
ft980903_1041_2020S004001H.fits[2]
ft980903_1041_2020S004101H.fits[2]
ft980903_1041_2020S004201H.fits[2]
ft980903_1041_2020S004301M.fits[2]
ft980903_1041_2020S004501M.fits[2]
ft980903_1041_2020S004601H.fits[2]
ft980903_1041_2020S004701H.fits[2]
ft980903_1041_2020S004801M.fits[2]
ft980903_1041_2020S004901H.fits[2]
-> Merging GTIs from the following files:
ft980903_1041_2020S100101M.fits[2]
ft980903_1041_2020S100201H.fits[2]
ft980903_1041_2020S100301L.fits[2]
ft980903_1041_2020S100401L.fits[2]
ft980903_1041_2020S100501L.fits[2]
ft980903_1041_2020S100601L.fits[2]
ft980903_1041_2020S100701H.fits[2]
ft980903_1041_2020S100801H.fits[2]
ft980903_1041_2020S100901L.fits[2]
ft980903_1041_2020S101001L.fits[2]
ft980903_1041_2020S101101L.fits[2]
ft980903_1041_2020S101201L.fits[2]
ft980903_1041_2020S101301H.fits[2]
ft980903_1041_2020S101401L.fits[2]
ft980903_1041_2020S101501H.fits[2]
ft980903_1041_2020S101601H.fits[2]
ft980903_1041_2020S101701L.fits[2]
ft980903_1041_2020S101801L.fits[2]
ft980903_1041_2020S101901L.fits[2]
ft980903_1041_2020S102001H.fits[2]
ft980903_1041_2020S102101H.fits[2]
ft980903_1041_2020S102201L.fits[2]
ft980903_1041_2020S102301M.fits[2]
ft980903_1041_2020S102401L.fits[2]
ft980903_1041_2020S102501L.fits[2]
ft980903_1041_2020S102601L.fits[2]
ft980903_1041_2020S102701H.fits[2]
ft980903_1041_2020S102801H.fits[2]
ft980903_1041_2020S102901H.fits[2]
ft980903_1041_2020S103001H.fits[2]
ft980903_1041_2020S103101M.fits[2]
ft980903_1041_2020S103201H.fits[2]
ft980903_1041_2020S103301H.fits[2]
ft980903_1041_2020S103401M.fits[2]
ft980903_1041_2020S103601M.fits[2]
ft980903_1041_2020S103701H.fits[2]
ft980903_1041_2020S103801M.fits[2]
ft980903_1041_2020S103901H.fits[2]
-> Merging GTIs from the following files:
ft980903_1041_2020G200170M.fits[2]
ft980903_1041_2020G200270M.fits[2]
ft980903_1041_2020G200970H.fits[2]
ft980903_1041_2020G201070H.fits[2]
ft980903_1041_2020G201170H.fits[2]
ft980903_1041_2020G201270L.fits[2]
ft980903_1041_2020G201370L.fits[2]
ft980903_1041_2020G202070H.fits[2]
ft980903_1041_2020G202170H.fits[2]
ft980903_1041_2020G202270H.fits[2]
ft980903_1041_2020G202370L.fits[2]
ft980903_1041_2020G202470L.fits[2]
ft980903_1041_2020G202570L.fits[2]
ft980903_1041_2020G203070H.fits[2]
ft980903_1041_2020G203170H.fits[2]
ft980903_1041_2020G203270H.fits[2]
ft980903_1041_2020G203370H.fits[2]
ft980903_1041_2020G203470H.fits[2]
ft980903_1041_2020G203570H.fits[2]
ft980903_1041_2020G204070H.fits[2]
ft980903_1041_2020G204170H.fits[2]
ft980903_1041_2020G204270H.fits[2]
ft980903_1041_2020G204370H.fits[2]
ft980903_1041_2020G204470L.fits[2]
ft980903_1041_2020G205770H.fits[2]
ft980903_1041_2020G205870H.fits[2]
ft980903_1041_2020G205970H.fits[2]
ft980903_1041_2020G206070L.fits[2]
ft980903_1041_2020G206170M.fits[2]
ft980903_1041_2020G206670H.fits[2]
ft980903_1041_2020G206770H.fits[2]
ft980903_1041_2020G206870H.fits[2]
ft980903_1041_2020G206970H.fits[2]
ft980903_1041_2020G207070M.fits[2]
ft980903_1041_2020G207170H.fits[2]
ft980903_1041_2020G207670H.fits[2]
ft980903_1041_2020G207770H.fits[2]
ft980903_1041_2020G207870H.fits[2]
ft980903_1041_2020G207970H.fits[2]
ft980903_1041_2020G208370H.fits[2]
ft980903_1041_2020G208470H.fits[2]
ft980903_1041_2020G208570H.fits[2]
ft980903_1041_2020G208670H.fits[2]
ft980903_1041_2020G208770M.fits[2]
ft980903_1041_2020G208870H.fits[2]
-> Merging GTIs from the following files:
ft980903_1041_2020G300170M.fits[2]
ft980903_1041_2020G300270M.fits[2]
ft980903_1041_2020G300870H.fits[2]
ft980903_1041_2020G300970H.fits[2]
ft980903_1041_2020G301070H.fits[2]
ft980903_1041_2020G301170H.fits[2]
ft980903_1041_2020G301270L.fits[2]
ft980903_1041_2020G301370L.fits[2]
ft980903_1041_2020G301970H.fits[2]
ft980903_1041_2020G302070H.fits[2]
ft980903_1041_2020G302170H.fits[2]
ft980903_1041_2020G302270H.fits[2]
ft980903_1041_2020G302370L.fits[2]
ft980903_1041_2020G302470L.fits[2]
ft980903_1041_2020G302570L.fits[2]
ft980903_1041_2020G303070H.fits[2]
ft980903_1041_2020G303170H.fits[2]
ft980903_1041_2020G303270H.fits[2]
ft980903_1041_2020G303370H.fits[2]
ft980903_1041_2020G303470H.fits[2]
ft980903_1041_2020G303570H.fits[2]
ft980903_1041_2020G303670H.fits[2]
ft980903_1041_2020G304070H.fits[2]
ft980903_1041_2020G304170H.fits[2]
ft980903_1041_2020G304270H.fits[2]
ft980903_1041_2020G304370L.fits[2]
ft980903_1041_2020G305670H.fits[2]
ft980903_1041_2020G305770H.fits[2]
ft980903_1041_2020G305870H.fits[2]
ft980903_1041_2020G305970L.fits[2]
ft980903_1041_2020G306070M.fits[2]
ft980903_1041_2020G306470H.fits[2]
ft980903_1041_2020G306570H.fits[2]
ft980903_1041_2020G306670H.fits[2]
ft980903_1041_2020G306770H.fits[2]
ft980903_1041_2020G306870H.fits[2]
ft980903_1041_2020G306970M.fits[2]
ft980903_1041_2020G307070H.fits[2]
ft980903_1041_2020G307670H.fits[2]
ft980903_1041_2020G307770H.fits[2]
ft980903_1041_2020G307870H.fits[2]
ft980903_1041_2020G308070H.fits[2]
ft980903_1041_2020G308470H.fits[2]
ft980903_1041_2020G308570H.fits[2]
ft980903_1041_2020G308670H.fits[2]
ft980903_1041_2020G308770M.fits[2]
ft980903_1041_2020G308870H.fits[2]

Merging event files from frfread ( 02:39:05 )

-> 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 = 6 photon cnt = 13
GISSORTSPLIT:LO:g200370h.prelist merge count = 6 photon cnt = 23
GISSORTSPLIT:LO:g200470h.prelist merge count = 1 photon cnt = 5
GISSORTSPLIT:LO:g200570h.prelist merge count = 1 photon cnt = 2
GISSORTSPLIT:LO:g200670h.prelist merge count = 13 photon cnt = 54009
GISSORTSPLIT:LO:g200770h.prelist merge count = 1 photon cnt = 1
GISSORTSPLIT:LO:g200870h.prelist merge count = 2 photon cnt = 21
GISSORTSPLIT:LO:g200970h.prelist merge count = 1 photon cnt = 7
GISSORTSPLIT:LO:g201070h.prelist merge count = 1 photon cnt = 9
GISSORTSPLIT:LO:g200170l.prelist merge count = 1 photon cnt = 6
GISSORTSPLIT:LO:g200270l.prelist merge count = 1 photon cnt = 131
GISSORTSPLIT:LO:g200370l.prelist merge count = 4 photon cnt = 15062
GISSORTSPLIT:LO:g200470l.prelist merge count = 1 photon cnt = 105
GISSORTSPLIT:LO:g200170m.prelist merge count = 1 photon cnt = 6
GISSORTSPLIT:LO:g200270m.prelist merge count = 4 photon cnt = 2016
GISSORTSPLIT:LO:Total filenames split = 45
GISSORTSPLIT:LO:Total split file cnt = 16
GISSORTSPLIT:LO:End program
-> Creating ad56001010g200170h.unf
-> Standard Output From STOOL cmerge:
---- cmerge:  version 1.6 ----

A total of  13  fits files ...... 
Sorting files using KEY: TSTART ... 
Checking GTI overlap in input files ... 
Merging binary extension #: 1 
 1 -- ft980903_1041_2020G201170H.fits 
 2 -- ft980903_1041_2020G202270H.fits 
 3 -- ft980903_1041_2020G203370H.fits 
 4 -- ft980903_1041_2020G203470H.fits 
 5 -- ft980903_1041_2020G204370H.fits 
 6 -- ft980903_1041_2020G205970H.fits 
 7 -- ft980903_1041_2020G206870H.fits 
 8 -- ft980903_1041_2020G206970H.fits 
 9 -- ft980903_1041_2020G207170H.fits 
 10 -- ft980903_1041_2020G207870H.fits 
 11 -- ft980903_1041_2020G208570H.fits 
 12 -- ft980903_1041_2020G208670H.fits 
 13 -- ft980903_1041_2020G208870H.fits 
Merging binary extension #: 2 
 1 -- ft980903_1041_2020G201170H.fits 
 2 -- ft980903_1041_2020G202270H.fits 
 3 -- ft980903_1041_2020G203370H.fits 
 4 -- ft980903_1041_2020G203470H.fits 
 5 -- ft980903_1041_2020G204370H.fits 
 6 -- ft980903_1041_2020G205970H.fits 
 7 -- ft980903_1041_2020G206870H.fits 
 8 -- ft980903_1041_2020G206970H.fits 
 9 -- ft980903_1041_2020G207170H.fits 
 10 -- ft980903_1041_2020G207870H.fits 
 11 -- ft980903_1041_2020G208570H.fits 
 12 -- ft980903_1041_2020G208670H.fits 
 13 -- ft980903_1041_2020G208870H.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Creating ad56001010g200270l.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 -- ft980903_1041_2020G201270L.fits 
 2 -- ft980903_1041_2020G202470L.fits 
 3 -- ft980903_1041_2020G204470L.fits 
 4 -- ft980903_1041_2020G206070L.fits 
Merging binary extension #: 2 
 1 -- ft980903_1041_2020G201270L.fits 
 2 -- ft980903_1041_2020G202470L.fits 
 3 -- ft980903_1041_2020G204470L.fits 
 4 -- ft980903_1041_2020G206070L.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Creating ad56001010g200370m.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 -- ft980903_1041_2020G200170M.fits 
 2 -- ft980903_1041_2020G206170M.fits 
 3 -- ft980903_1041_2020G207070M.fits 
 4 -- ft980903_1041_2020G208770M.fits 
Merging binary extension #: 2 
 1 -- ft980903_1041_2020G200170M.fits 
 2 -- ft980903_1041_2020G206170M.fits 
 3 -- ft980903_1041_2020G207070M.fits 
 4 -- ft980903_1041_2020G208770M.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Ignoring the following files containing 000000131 events
ft980903_1041_2020G201370L.fits
-> Ignoring the following files containing 000000105 events
ft980903_1041_2020G202370L.fits
-> Ignoring the following files containing 000000023 events
ft980903_1041_2020G201070H.fits
ft980903_1041_2020G202170H.fits
ft980903_1041_2020G203270H.fits
ft980903_1041_2020G205870H.fits
ft980903_1041_2020G206770H.fits
ft980903_1041_2020G207770H.fits
-> Ignoring the following files containing 000000021 events
ft980903_1041_2020G204170H.fits
ft980903_1041_2020G208470H.fits
-> Ignoring the following files containing 000000013 events
ft980903_1041_2020G200970H.fits
ft980903_1041_2020G202070H.fits
ft980903_1041_2020G203170H.fits
ft980903_1041_2020G205770H.fits
ft980903_1041_2020G206670H.fits
ft980903_1041_2020G207670H.fits
-> Ignoring the following files containing 000000009 events
ft980903_1041_2020G204070H.fits
-> Ignoring the following files containing 000000007 events
ft980903_1041_2020G204270H.fits
-> Ignoring the following files containing 000000006 events
ft980903_1041_2020G200270M.fits
-> Ignoring the following files containing 000000006 events
ft980903_1041_2020G202570L.fits
-> Ignoring the following files containing 000000005 events
ft980903_1041_2020G203570H.fits
-> Ignoring the following files containing 000000002 events
ft980903_1041_2020G207970H.fits
-> Ignoring the following files containing 000000001 events
ft980903_1041_2020G208370H.fits
-> Ignoring the following files containing 000000001 events
ft980903_1041_2020G203070H.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 = 1
GISSORTSPLIT:LO:g300270h.prelist merge count = 1 photon cnt = 4
GISSORTSPLIT:LO:g300370h.prelist merge count = 4 photon cnt = 16
GISSORTSPLIT:LO:g300470h.prelist merge count = 6 photon cnt = 36
GISSORTSPLIT:LO:g300570h.prelist merge count = 6 photon cnt = 37
GISSORTSPLIT:LO:g300670h.prelist merge count = 1 photon cnt = 12
GISSORTSPLIT:LO:g300770h.prelist merge count = 13 photon cnt = 49781
GISSORTSPLIT:LO:g300870h.prelist merge count = 1 photon cnt = 4
GISSORTSPLIT:LO:g300970h.prelist merge count = 2 photon cnt = 33
GISSORTSPLIT:LO:g300170l.prelist merge count = 1 photon cnt = 7
GISSORTSPLIT:LO:g300270l.prelist merge count = 1 photon cnt = 129
GISSORTSPLIT:LO:g300370l.prelist merge count = 4 photon cnt = 14871
GISSORTSPLIT:LO:g300470l.prelist merge count = 1 photon cnt = 99
GISSORTSPLIT:LO:g300170m.prelist merge count = 1 photon cnt = 9
GISSORTSPLIT:LO:g300270m.prelist merge count = 4 photon cnt = 2013
GISSORTSPLIT:LO:Total filenames split = 47
GISSORTSPLIT:LO:Total split file cnt = 15
GISSORTSPLIT:LO:End program
-> Creating ad56001010g300170h.unf
-> Standard Output From STOOL cmerge:
---- cmerge:  version 1.6 ----

A total of  13  fits files ...... 
Sorting files using KEY: TSTART ... 
Checking GTI overlap in input files ... 
Merging binary extension #: 1 
 1 -- ft980903_1041_2020G301170H.fits 
 2 -- ft980903_1041_2020G302270H.fits 
 3 -- ft980903_1041_2020G303370H.fits 
 4 -- ft980903_1041_2020G303470H.fits 
 5 -- ft980903_1041_2020G304270H.fits 
 6 -- ft980903_1041_2020G305870H.fits 
 7 -- ft980903_1041_2020G306770H.fits 
 8 -- ft980903_1041_2020G306870H.fits 
 9 -- ft980903_1041_2020G307070H.fits 
 10 -- ft980903_1041_2020G307870H.fits 
 11 -- ft980903_1041_2020G308570H.fits 
 12 -- ft980903_1041_2020G308670H.fits 
 13 -- ft980903_1041_2020G308870H.fits 
Merging binary extension #: 2 
 1 -- ft980903_1041_2020G301170H.fits 
 2 -- ft980903_1041_2020G302270H.fits 
 3 -- ft980903_1041_2020G303370H.fits 
 4 -- ft980903_1041_2020G303470H.fits 
 5 -- ft980903_1041_2020G304270H.fits 
 6 -- ft980903_1041_2020G305870H.fits 
 7 -- ft980903_1041_2020G306770H.fits 
 8 -- ft980903_1041_2020G306870H.fits 
 9 -- ft980903_1041_2020G307070H.fits 
 10 -- ft980903_1041_2020G307870H.fits 
 11 -- ft980903_1041_2020G308570H.fits 
 12 -- ft980903_1041_2020G308670H.fits 
 13 -- ft980903_1041_2020G308870H.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Creating ad56001010g300270l.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 -- ft980903_1041_2020G301270L.fits 
 2 -- ft980903_1041_2020G302470L.fits 
 3 -- ft980903_1041_2020G304370L.fits 
 4 -- ft980903_1041_2020G305970L.fits 
Merging binary extension #: 2 
 1 -- ft980903_1041_2020G301270L.fits 
 2 -- ft980903_1041_2020G302470L.fits 
 3 -- ft980903_1041_2020G304370L.fits 
 4 -- ft980903_1041_2020G305970L.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Creating ad56001010g300370m.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 -- ft980903_1041_2020G300170M.fits 
 2 -- ft980903_1041_2020G306070M.fits 
 3 -- ft980903_1041_2020G306970M.fits 
 4 -- ft980903_1041_2020G308770M.fits 
Merging binary extension #: 2 
 1 -- ft980903_1041_2020G300170M.fits 
 2 -- ft980903_1041_2020G306070M.fits 
 3 -- ft980903_1041_2020G306970M.fits 
 4 -- ft980903_1041_2020G308770M.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Ignoring the following files containing 000000129 events
ft980903_1041_2020G301370L.fits
-> Ignoring the following files containing 000000099 events
ft980903_1041_2020G302370L.fits
-> Ignoring the following files containing 000000037 events
ft980903_1041_2020G301070H.fits
ft980903_1041_2020G302170H.fits
ft980903_1041_2020G303270H.fits
ft980903_1041_2020G305770H.fits
ft980903_1041_2020G306670H.fits
ft980903_1041_2020G307770H.fits
-> Ignoring the following files containing 000000036 events
ft980903_1041_2020G300970H.fits
ft980903_1041_2020G302070H.fits
ft980903_1041_2020G303170H.fits
ft980903_1041_2020G305670H.fits
ft980903_1041_2020G306570H.fits
ft980903_1041_2020G307670H.fits
-> Ignoring the following files containing 000000033 events
ft980903_1041_2020G303570H.fits
ft980903_1041_2020G308070H.fits
-> Ignoring the following files containing 000000016 events
ft980903_1041_2020G300870H.fits
ft980903_1041_2020G301970H.fits
ft980903_1041_2020G303070H.fits
ft980903_1041_2020G306470H.fits
-> Ignoring the following files containing 000000012 events
ft980903_1041_2020G304170H.fits
-> Ignoring the following files containing 000000009 events
ft980903_1041_2020G300270M.fits
-> Ignoring the following files containing 000000007 events
ft980903_1041_2020G302570L.fits
-> Ignoring the following files containing 000000004 events
ft980903_1041_2020G303670H.fits
-> Ignoring the following files containing 000000004 events
ft980903_1041_2020G304070H.fits
-> Ignoring the following files containing 000000001 events
ft980903_1041_2020G308470H.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 = 5 photon cnt = 173768
SIS0SORTSPLIT:LO:s000201h.prelist merge count = 1 photon cnt = 47
SIS0SORTSPLIT:LO:s000301h.prelist merge count = 1 photon cnt = 57
SIS0SORTSPLIT:LO:s000401h.prelist merge count = 1 photon cnt = 50
SIS0SORTSPLIT:LO:s000501h.prelist merge count = 3 photon cnt = 38119
SIS0SORTSPLIT:LO:s000601h.prelist merge count = 2 photon cnt = 137
SIS0SORTSPLIT:LO:s000701h.prelist merge count = 1 photon cnt = 54
SIS0SORTSPLIT:LO:s000801h.prelist merge count = 2 photon cnt = 18817
SIS0SORTSPLIT:LO:s000901h.prelist merge count = 3 photon cnt = 144861
SIS0SORTSPLIT:LO:s001001h.prelist merge count = 1 photon cnt = 256
SIS0SORTSPLIT:LO:s001101l.prelist merge count = 2 photon cnt = 256
SIS0SORTSPLIT:LO:s001201l.prelist merge count = 8 photon cnt = 5284
SIS0SORTSPLIT:LO:s001301l.prelist merge count = 5 photon cnt = 10567
SIS0SORTSPLIT:LO:s001401l.prelist merge count = 4 photon cnt = 267
SIS0SORTSPLIT:LO:s001501m.prelist merge count = 3 photon cnt = 457
SIS0SORTSPLIT:LO:s001601m.prelist merge count = 2 photon cnt = 8098
SIS0SORTSPLIT:LO:s001701m.prelist merge count = 1 photon cnt = 2048
SIS0SORTSPLIT:LO:Total filenames split = 45
SIS0SORTSPLIT:LO:Total split file cnt = 17
SIS0SORTSPLIT:LO:End program
-> Creating ad56001010s000101h.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 -- ft980903_1041_2020S000301H.fits 
 2 -- ft980903_1041_2020S000901H.fits 
 3 -- ft980903_1041_2020S001701H.fits 
 4 -- ft980903_1041_2020S002601H.fits 
 5 -- ft980903_1041_2020S003401H.fits 
Merging binary extension #: 2 
 1 -- ft980903_1041_2020S000301H.fits 
 2 -- ft980903_1041_2020S000901H.fits 
 3 -- ft980903_1041_2020S001701H.fits 
 4 -- ft980903_1041_2020S002601H.fits 
 5 -- ft980903_1041_2020S003401H.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Creating ad56001010s000201h.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 -- ft980903_1041_2020S004001H.fits 
 2 -- ft980903_1041_2020S004701H.fits 
 3 -- ft980903_1041_2020S004901H.fits 
Merging binary extension #: 2 
 1 -- ft980903_1041_2020S004001H.fits 
 2 -- ft980903_1041_2020S004701H.fits 
 3 -- ft980903_1041_2020S004901H.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Creating ad56001010s000301h.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 -- ft980903_1041_2020S003801H.fits 
 2 -- ft980903_1041_2020S004101H.fits 
 3 -- ft980903_1041_2020S004601H.fits 
Merging binary extension #: 2 
 1 -- ft980903_1041_2020S003801H.fits 
 2 -- ft980903_1041_2020S004101H.fits 
 3 -- ft980903_1041_2020S004601H.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Creating ad56001010s000401h.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 -- ft980903_1041_2020S000201H.fits 
 2 -- ft980903_1041_2020S002001H.fits 
Merging binary extension #: 2 
 1 -- ft980903_1041_2020S000201H.fits 
 2 -- ft980903_1041_2020S002001H.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Creating ad56001010s000501l.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 -- ft980903_1041_2020S000401L.fits 
 2 -- ft980903_1041_2020S001201L.fits 
 3 -- ft980903_1041_2020S001901L.fits 
 4 -- ft980903_1041_2020S002201L.fits 
 5 -- ft980903_1041_2020S002901L.fits 
Merging binary extension #: 2 
 1 -- ft980903_1041_2020S000401L.fits 
 2 -- ft980903_1041_2020S001201L.fits 
 3 -- ft980903_1041_2020S001901L.fits 
 4 -- ft980903_1041_2020S002201L.fits 
 5 -- ft980903_1041_2020S002901L.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Creating ad56001010s000601m.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 -- ft980903_1041_2020S000101M.fits 
 2 -- ft980903_1041_2020S003001M.fits 
Merging binary extension #: 2 
 1 -- ft980903_1041_2020S000101M.fits 
 2 -- ft980903_1041_2020S003001M.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Creating ad56001010s000701l.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 -- ft980903_1041_2020S000701L.fits 
 2 -- ft980903_1041_2020S001101L.fits 
 3 -- ft980903_1041_2020S001501L.fits 
 4 -- ft980903_1041_2020S001801L.fits 
 5 -- ft980903_1041_2020S002501L.fits 
 6 -- ft980903_1041_2020S002801L.fits 
 7 -- ft980903_1041_2020S003101L.fits 
 8 -- ft980903_1041_2020S003301L.fits 
Merging binary extension #: 2 
 1 -- ft980903_1041_2020S000701L.fits 
 2 -- ft980903_1041_2020S001101L.fits 
 3 -- ft980903_1041_2020S001501L.fits 
 4 -- ft980903_1041_2020S001801L.fits 
 5 -- ft980903_1041_2020S002501L.fits 
 6 -- ft980903_1041_2020S002801L.fits 
 7 -- ft980903_1041_2020S003101L.fits 
 8 -- ft980903_1041_2020S003301L.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Checking ft980903_1041_2020S004801M.fits
-> Creating ad56001010s000801m.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 -- ft980903_1041_2020S004801M.fits 
Merging binary extension #: 2 
 1 -- ft980903_1041_2020S004801M.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Ignoring the following files containing 000000457 events
ft980903_1041_2020S003901M.fits
ft980903_1041_2020S004301M.fits
ft980903_1041_2020S004501M.fits
-> Ignoring the following files containing 000000267 events
ft980903_1041_2020S000601L.fits
ft980903_1041_2020S001401L.fits
ft980903_1041_2020S002401L.fits
ft980903_1041_2020S003201L.fits
-> Ignoring the following files containing 000000256 events
ft980903_1041_2020S000801L.fits
ft980903_1041_2020S001601L.fits
-> Ignoring the following files containing 000000256 events
ft980903_1041_2020S002101H.fits
-> Ignoring the following files containing 000000137 events
ft980903_1041_2020S001001H.fits
ft980903_1041_2020S002701H.fits
-> Ignoring the following files containing 000000057 events
ft980903_1041_2020S003601H.fits
-> Ignoring the following files containing 000000054 events
ft980903_1041_2020S004201H.fits
-> Ignoring the following files containing 000000050 events
ft980903_1041_2020S003701H.fits
-> Ignoring the following files containing 000000047 events
ft980903_1041_2020S003501H.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 = 6 photon cnt = 415608
SIS1SORTSPLIT:LO:s100201h.prelist merge count = 1 photon cnt = 128
SIS1SORTSPLIT:LO:s100301h.prelist merge count = 1 photon cnt = 121
SIS1SORTSPLIT:LO:s100401h.prelist merge count = 4 photon cnt = 237355
SIS1SORTSPLIT:LO:s100501h.prelist merge count = 3 photon cnt = 617
SIS1SORTSPLIT:LO:s100601h.prelist merge count = 1 photon cnt = 104
SIS1SORTSPLIT:LO:s100701l.prelist merge count = 2 photon cnt = 256
SIS1SORTSPLIT:LO:s100801l.prelist merge count = 10 photon cnt = 16144
SIS1SORTSPLIT:LO:s100901l.prelist merge count = 4 photon cnt = 272
SIS1SORTSPLIT:LO:s101001m.prelist merge count = 2 photon cnt = 8554
SIS1SORTSPLIT:LO:s101101m.prelist merge count = 4 photon cnt = 2875
SIS1SORTSPLIT:LO:Total filenames split = 38
SIS1SORTSPLIT:LO:Total split file cnt = 11
SIS1SORTSPLIT:LO:End program
-> Creating ad56001010s100101h.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 -- ft980903_1041_2020S100201H.fits 
 2 -- ft980903_1041_2020S100701H.fits 
 3 -- ft980903_1041_2020S101301H.fits 
 4 -- ft980903_1041_2020S101501H.fits 
 5 -- ft980903_1041_2020S102001H.fits 
 6 -- ft980903_1041_2020S102701H.fits 
Merging binary extension #: 2 
 1 -- ft980903_1041_2020S100201H.fits 
 2 -- ft980903_1041_2020S100701H.fits 
 3 -- ft980903_1041_2020S101301H.fits 
 4 -- ft980903_1041_2020S101501H.fits 
 5 -- ft980903_1041_2020S102001H.fits 
 6 -- ft980903_1041_2020S102701H.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Creating ad56001010s100201h.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 -- ft980903_1041_2020S103001H.fits 
 2 -- ft980903_1041_2020S103201H.fits 
 3 -- ft980903_1041_2020S103701H.fits 
 4 -- ft980903_1041_2020S103901H.fits 
Merging binary extension #: 2 
 1 -- ft980903_1041_2020S103001H.fits 
 2 -- ft980903_1041_2020S103201H.fits 
 3 -- ft980903_1041_2020S103701H.fits 
 4 -- ft980903_1041_2020S103901H.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Creating ad56001010s100301l.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 -- ft980903_1041_2020S100301L.fits 
 2 -- ft980903_1041_2020S100501L.fits 
 3 -- ft980903_1041_2020S100901L.fits 
 4 -- ft980903_1041_2020S101101L.fits 
 5 -- ft980903_1041_2020S101401L.fits 
 6 -- ft980903_1041_2020S101701L.fits 
 7 -- ft980903_1041_2020S101901L.fits 
 8 -- ft980903_1041_2020S102201L.fits 
 9 -- ft980903_1041_2020S102401L.fits 
 10 -- ft980903_1041_2020S102601L.fits 
Merging binary extension #: 2 
 1 -- ft980903_1041_2020S100301L.fits 
 2 -- ft980903_1041_2020S100501L.fits 
 3 -- ft980903_1041_2020S100901L.fits 
 4 -- ft980903_1041_2020S101101L.fits 
 5 -- ft980903_1041_2020S101401L.fits 
 6 -- ft980903_1041_2020S101701L.fits 
 7 -- ft980903_1041_2020S101901L.fits 
 8 -- ft980903_1041_2020S102201L.fits 
 9 -- ft980903_1041_2020S102401L.fits 
 10 -- ft980903_1041_2020S102601L.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Creating ad56001010s100401m.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 -- ft980903_1041_2020S100101M.fits 
 2 -- ft980903_1041_2020S102301M.fits 
Merging binary extension #: 2 
 1 -- ft980903_1041_2020S100101M.fits 
 2 -- ft980903_1041_2020S102301M.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Creating ad56001010s100501m.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 -- ft980903_1041_2020S103101M.fits 
 2 -- ft980903_1041_2020S103401M.fits 
 3 -- ft980903_1041_2020S103601M.fits 
 4 -- ft980903_1041_2020S103801M.fits 
Merging binary extension #: 2 
 1 -- ft980903_1041_2020S103101M.fits 
 2 -- ft980903_1041_2020S103401M.fits 
 3 -- ft980903_1041_2020S103601M.fits 
 4 -- ft980903_1041_2020S103801M.fits 
Checking the output file ...
 Extention # 1 ...... OK
 Extention # 2 ...... OK
The program appears to have finished successfully! 
-> Ignoring the following files containing 000000617 events
ft980903_1041_2020S100801H.fits
ft980903_1041_2020S101601H.fits
ft980903_1041_2020S102101H.fits
-> Ignoring the following files containing 000000272 events
ft980903_1041_2020S100401L.fits
ft980903_1041_2020S101001L.fits
ft980903_1041_2020S101801L.fits
ft980903_1041_2020S102501L.fits
-> Ignoring the following files containing 000000256 events
ft980903_1041_2020S100601L.fits
ft980903_1041_2020S101201L.fits
-> Ignoring the following files containing 000000128 events
ft980903_1041_2020S102801H.fits
-> Ignoring the following files containing 000000121 events
ft980903_1041_2020S102901H.fits
-> Ignoring the following files containing 000000104 events
ft980903_1041_2020S103301H.fits
-> Tar-ing together the leftover raw files
a ft980903_1041_2020G200270M.fits 31K
a ft980903_1041_2020G200970H.fits 31K
a ft980903_1041_2020G201070H.fits 31K
a ft980903_1041_2020G201370L.fits 34K
a ft980903_1041_2020G202070H.fits 31K
a ft980903_1041_2020G202170H.fits 31K
a ft980903_1041_2020G202370L.fits 34K
a ft980903_1041_2020G202570L.fits 31K
a ft980903_1041_2020G203070H.fits 31K
a ft980903_1041_2020G203170H.fits 31K
a ft980903_1041_2020G203270H.fits 31K
a ft980903_1041_2020G203570H.fits 31K
a ft980903_1041_2020G204070H.fits 31K
a ft980903_1041_2020G204170H.fits 31K
a ft980903_1041_2020G204270H.fits 31K
a ft980903_1041_2020G205770H.fits 31K
a ft980903_1041_2020G205870H.fits 31K
a ft980903_1041_2020G206670H.fits 31K
a ft980903_1041_2020G206770H.fits 31K
a ft980903_1041_2020G207670H.fits 31K
a ft980903_1041_2020G207770H.fits 31K
a ft980903_1041_2020G207970H.fits 31K
a ft980903_1041_2020G208370H.fits 31K
a ft980903_1041_2020G208470H.fits 31K
a ft980903_1041_2020G300270M.fits 31K
a ft980903_1041_2020G300870H.fits 31K
a ft980903_1041_2020G300970H.fits 31K
a ft980903_1041_2020G301070H.fits 31K
a ft980903_1041_2020G301370L.fits 34K
a ft980903_1041_2020G301970H.fits 31K
a ft980903_1041_2020G302070H.fits 31K
a ft980903_1041_2020G302170H.fits 31K
a ft980903_1041_2020G302370L.fits 34K
a ft980903_1041_2020G302570L.fits 31K
a ft980903_1041_2020G303070H.fits 31K
a ft980903_1041_2020G303170H.fits 31K
a ft980903_1041_2020G303270H.fits 31K
a ft980903_1041_2020G303570H.fits 31K
a ft980903_1041_2020G303670H.fits 31K
a ft980903_1041_2020G304070H.fits 31K
a ft980903_1041_2020G304170H.fits 31K
a ft980903_1041_2020G305670H.fits 31K
a ft980903_1041_2020G305770H.fits 31K
a ft980903_1041_2020G306470H.fits 31K
a ft980903_1041_2020G306570H.fits 31K
a ft980903_1041_2020G306670H.fits 31K
a ft980903_1041_2020G307670H.fits 31K
a ft980903_1041_2020G307770H.fits 31K
a ft980903_1041_2020G308070H.fits 31K
a ft980903_1041_2020G308470H.fits 31K
a ft980903_1041_2020S000601L.fits 29K
a ft980903_1041_2020S000801L.fits 31K
a ft980903_1041_2020S001001H.fits 31K
a ft980903_1041_2020S001401L.fits 31K
a ft980903_1041_2020S001601L.fits 31K
a ft980903_1041_2020S002101H.fits 37K
a ft980903_1041_2020S002401L.fits 31K
a ft980903_1041_2020S002701H.fits 29K
a ft980903_1041_2020S003201L.fits 29K
a ft980903_1041_2020S003501H.fits 29K
a ft980903_1041_2020S003601H.fits 29K
a ft980903_1041_2020S003701H.fits 29K
a ft980903_1041_2020S003901M.fits 37K
a ft980903_1041_2020S004201H.fits 29K
a ft980903_1041_2020S004301M.fits 29K
a ft980903_1041_2020S004501M.fits 34K
a ft980903_1041_2020S100401L.fits 29K
a ft980903_1041_2020S100601L.fits 31K
a ft980903_1041_2020S100801H.fits 37K
a ft980903_1041_2020S101001L.fits 31K
a ft980903_1041_2020S101201L.fits 31K
a ft980903_1041_2020S101601H.fits 37K
a ft980903_1041_2020S101801L.fits 31K
a ft980903_1041_2020S102101H.fits 31K
a ft980903_1041_2020S102501L.fits 29K
a ft980903_1041_2020S102801H.fits 31K
a ft980903_1041_2020S102901H.fits 31K
a ft980903_1041_2020S103301H.fits 31K
-> Checking OBJECT keywords in HK and event files

Converting FAINT mode files to BRIGHT and BRIGHT2 modes ( 02:46:19 )

-> Split threshold for SIS0=40, and SIS1=40
-> Fetching faintdfe.tbl
-> Calculating DFE values for ad56001010s000101h.unf with zerodef=1
-> Converting ad56001010s000101h.unf to ad56001010s000112h.unf
-> Calculating DFE values for ad56001010s000101h.unf with zerodef=2
-> Converting ad56001010s000101h.unf to ad56001010s000102h.unf
-> Calculating DFE values for ad56001010s000201h.unf with zerodef=1
-> Converting ad56001010s000201h.unf to ad56001010s000212h.unf
-> Calculating DFE values for ad56001010s000201h.unf with zerodef=2
-> Converting ad56001010s000201h.unf to ad56001010s000202h.unf
-> Calculating DFE values for ad56001010s000301h.unf with zerodef=1
-> Converting ad56001010s000301h.unf to ad56001010s000312h.unf
-> Calculating DFE values for ad56001010s000301h.unf with zerodef=2
-> Converting ad56001010s000301h.unf to ad56001010s000302h.unf
-> Calculating DFE values for ad56001010s000401h.unf with zerodef=1
-> Converting ad56001010s000401h.unf to ad56001010s000412h.unf
-> Calculating DFE values for ad56001010s000401h.unf with zerodef=2
-> Converting ad56001010s000401h.unf to ad56001010s000402h.unf
-> Calculating DFE values for ad56001010s000501l.unf with zerodef=1
-> Converting ad56001010s000501l.unf to ad56001010s000512l.unf
-> Removing ad56001010s000512l.unf since it only has 190 events
-> Calculating DFE values for ad56001010s000501l.unf with zerodef=2
-> Converting ad56001010s000501l.unf to ad56001010s000502l.unf
-> Removing ad56001010s000502l.unf since it only has 177 events
-> Calculating DFE values for ad56001010s000601m.unf with zerodef=1
-> Converting ad56001010s000601m.unf to ad56001010s000612m.unf
-> Removing ad56001010s000612m.unf since it only has 929 events
-> Calculating DFE values for ad56001010s000601m.unf with zerodef=2
-> Converting ad56001010s000601m.unf to ad56001010s000602m.unf
-> Removing ad56001010s000602m.unf since it only has 896 events
-> Calculating DFE values for ad56001010s000701l.unf with zerodef=1
-> Converting ad56001010s000701l.unf to ad56001010s000712l.unf
-> Calculating DFE values for ad56001010s000701l.unf with zerodef=2
-> Converting ad56001010s000701l.unf to ad56001010s000702l.unf
-> Calculating DFE values for ad56001010s000801m.unf with zerodef=1
-> Converting ad56001010s000801m.unf to ad56001010s000812m.unf
-> Removing ad56001010s000812m.unf since it only has 0 events
-> Calculating DFE values for ad56001010s000801m.unf with zerodef=2
-> Converting ad56001010s000801m.unf to ad56001010s000802m.unf
-> Removing ad56001010s000802m.unf since it only has 0 events
-> Calculating DFE values for ad56001010s100101h.unf with zerodef=1
-> Converting ad56001010s100101h.unf to ad56001010s100112h.unf
-> Calculating DFE values for ad56001010s100101h.unf with zerodef=2
-> Converting ad56001010s100101h.unf to ad56001010s100102h.unf
-> Calculating DFE values for ad56001010s100201h.unf with zerodef=1
-> Converting ad56001010s100201h.unf to ad56001010s100212h.unf
-> Calculating DFE values for ad56001010s100201h.unf with zerodef=2
-> Converting ad56001010s100201h.unf to ad56001010s100202h.unf
-> Calculating DFE values for ad56001010s100301l.unf with zerodef=1
-> Converting ad56001010s100301l.unf to ad56001010s100312l.unf
-> Calculating DFE values for ad56001010s100301l.unf with zerodef=2
-> Converting ad56001010s100301l.unf to ad56001010s100302l.unf
-> Calculating DFE values for ad56001010s100401m.unf with zerodef=1
-> Converting ad56001010s100401m.unf to ad56001010s100412m.unf
-> Calculating DFE values for ad56001010s100401m.unf with zerodef=2
-> Converting ad56001010s100401m.unf to ad56001010s100402m.unf
-> Calculating DFE values for ad56001010s100501m.unf with zerodef=1
-> Converting ad56001010s100501m.unf to ad56001010s100512m.unf
-> Removing ad56001010s100512m.unf since it only has 389 events
-> Calculating DFE values for ad56001010s100501m.unf with zerodef=2
-> Converting ad56001010s100501m.unf to ad56001010s100502m.unf
-> Removing ad56001010s100502m.unf since it only has 377 events

Creating GIS gain history file ( 02:58:45 )

-> Fetching gis_temp2gain.fits
-> leapsec.fits already present in current directory
-> Creating gain history file ft980903_1041_2020.ghf
-> Output from ISAS program temp2gain
temp2gain v4.3
'ft980903_1041.2020' is successfully opened
Data Start Time is 178972878.82 (19980903 104114)
Time Margin 2.0 sec included
'ft980903_1041.2020' EOF detected, sf=8884
Data End Time is 179007648.71 (19980903 202044)
Gain History is written in ft980903_1041_2020.ghf
-> Stdout output from ISAS program temp2gain
leapsec FITS data was successfully read
-> Checking if column CAL_START in ft980903_1041_2020.ghf[1] is in order
-> Standard Output From FTOOL cktime:
 
Time column is TIME ORDERED
-> Checking if column CAL_STOP in ft980903_1041_2020.ghf[1] is in order
-> Standard Output From FTOOL cktime:
 
Time column is TIME ORDERED
-> Calculating attitude correction from ft980903_1041_2020CMHK.fits
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   36005.000
 The mean of the selected column is                  109.43769
 The standard deviation of the selected column is    1.9372572
 The minimum of selected column is                   106.00000
 The maximum of selected column is                   112.00000
 The number of points used in calculation is              329
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   36005.000
 The mean of the selected column is                  109.43769
 The standard deviation of the selected column is    1.9372572
 The minimum of selected column is                   106.00000
 The maximum of selected column is                   112.00000
 The number of points used in calculation is              329

Running ASCALIN on unfiltered event files ( 03:00:50 )

-> Checking if ad56001010g200170h.unf is covered by attitude file
-> Running ascalin on ad56001010g200170h.unf
-> Fetching gis2_ano_on_flf_180295.fits
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad56001010g200270l.unf is covered by attitude file
-> Running ascalin on ad56001010g200270l.unf
-> gis2_ano_on_flf_180295.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad56001010g200370m.unf is covered by attitude file
-> Running ascalin on ad56001010g200370m.unf
-> gis2_ano_on_flf_180295.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad56001010g300170h.unf is covered by attitude file
-> Running ascalin on ad56001010g300170h.unf
-> Fetching gis3_ano_on_flf_180295.fits
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad56001010g300270l.unf is covered by attitude file
-> Running ascalin on ad56001010g300270l.unf
-> gis3_ano_on_flf_180295.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad56001010g300370m.unf is covered by attitude file
-> Running ascalin on ad56001010g300370m.unf
-> gis3_ano_on_flf_180295.fits already present in current directory
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad56001010s000101h.unf is covered by attitude file
-> Running ascalin on ad56001010s000101h.unf
-> Fetching sisph2pi_110397.fits
-> Fetching s0_teldef_ascalin.fits
-> Standard Output From FTOOL ascalin:
ASCALIN_V0.9u(mod)
-> Checking if ad56001010s000102h.unf is covered by attitude file
-> Running ascalin on ad56001010s000102h.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 ad56001010s000112h.unf is covered by attitude file
-> Running ascalin on ad56001010s000112h.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 ad56001010s000201h.unf is covered by attitude file
-> Running ascalin on ad56001010s000201h.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 ad56001010s000202h.unf is covered by attitude file
-> Running ascalin on ad56001010s000202h.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 ad56001010s000212h.unf is covered by attitude file
-> Running ascalin on ad56001010s000212h.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 ad56001010s000301h.unf is covered by attitude file
-> Running ascalin on ad56001010s000301h.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 ad56001010s000302h.unf is covered by attitude file
-> Running ascalin on ad56001010s000302h.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 ad56001010s000312h.unf is covered by attitude file
-> Running ascalin on ad56001010s000312h.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 ad56001010s000401h.unf is covered by attitude file
-> Running ascalin on ad56001010s000401h.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 ad56001010s000402h.unf is covered by attitude file
-> Running ascalin on ad56001010s000402h.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 ad56001010s000412h.unf is covered by attitude file
-> Running ascalin on ad56001010s000412h.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 ad56001010s000501l.unf is covered by attitude file
-> Running ascalin on ad56001010s000501l.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 ad56001010s000601m.unf is covered by attitude file
-> Running ascalin on ad56001010s000601m.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 ad56001010s000701l.unf is covered by attitude file
-> Running ascalin on ad56001010s000701l.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 ad56001010s000702l.unf is covered by attitude file
-> Running ascalin on ad56001010s000702l.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 ad56001010s000712l.unf is covered by attitude file
-> Running ascalin on ad56001010s000712l.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 ad56001010s000801m.unf is covered by attitude file
-> Running ascalin on ad56001010s000801m.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 ad56001010s100101h.unf is covered by attitude file
-> Running ascalin on ad56001010s100101h.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 ad56001010s100102h.unf is covered by attitude file
-> Running ascalin on ad56001010s100102h.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 ad56001010s100112h.unf is covered by attitude file
-> Running ascalin on ad56001010s100112h.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 ad56001010s100201h.unf is covered by attitude file
-> Running ascalin on ad56001010s100201h.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 ad56001010s100202h.unf is covered by attitude file
-> Running ascalin on ad56001010s100202h.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 ad56001010s100212h.unf is covered by attitude file
-> Running ascalin on ad56001010s100212h.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 ad56001010s100301l.unf is covered by attitude file
-> Running ascalin on ad56001010s100301l.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 ad56001010s100302l.unf is covered by attitude file
-> Running ascalin on ad56001010s100302l.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 ad56001010s100312l.unf is covered by attitude file
-> Running ascalin on ad56001010s100312l.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 ad56001010s100401m.unf is covered by attitude file
-> Running ascalin on ad56001010s100401m.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 ad56001010s100402m.unf is covered by attitude file
-> Running ascalin on ad56001010s100402m.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 ad56001010s100412m.unf is covered by attitude file
-> Running ascalin on ad56001010s100412m.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 ad56001010s100501m.unf is covered by attitude file
-> Running ascalin on ad56001010s100501m.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 ( 03:27:47 )

-> Fetching rigidity.data.1.23
-> leapsec.fits already present in current directory
-> Making filter file ft980903_1041_2020.mkf
-> Standard Output From FTOOL mkfilter2:
 
S0-HK file: ft980903_1041_2020S0HK.fits

S1-HK file: ft980903_1041_2020S1HK.fits

G2-HK file: ft980903_1041_2020G2HK.fits

G3-HK file: ft980903_1041_2020G3HK.fits

Date and time are: 1998-09-03 10:40:00  mjd=51059.444454

Orbit file name is ./frf.orbit.241

Epoch of Orbital Elements: 1998-08-31 23:00:00

Rigidity Data File: ./rigidity.data.1.23

Attitude FRF: fa980903_1041.2020

output FITS File: ft980903_1041_2020.mkf

mkfilter2: Warning, faQparam error: time= 1.789728168191e+08 outside range of attitude file

           Euler angles undefined for this bin

mkfilter2: Warning, faQparam error: time= 1.789728488191e+08 outside range of attitude file

           Euler angles undefined for this bin

Total 1089 Data bins were processed.

-> Checking if column TIME in ft980903_1041_2020.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 ft980903_1041_2020.mkf

Cleaning and filtering the unfiltered event files ( 03:42:51 )

-> Skipping ad56001010s000101h.unf because of mode
-> Filtering ad56001010s000102h.unf into ad56001010s000102h.evt
-> Calculating statistics for S0_PIXL1
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   5405.6876
 The mean of the selected column is                  21.797128
 The standard deviation of the selected column is    7.6228245
 The minimum of selected column is                   10.218781
 The maximum of selected column is                   69.656464
 The number of points used in calculation is              248
-> Calculating statistics for S0_PIXL2
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   6049.8105
 The mean of the selected column is                  24.394397
 The standard deviation of the selected column is    9.7259795
 The minimum of selected column is                   10.093781
 The maximum of selected column is                   92.562790
 The number of points used in calculation is              248
-> 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>0 && S0_PIXL1<44.6 )&&
(S0_PIXL2>0 && S0_PIXL2<53.5 )  )
&&(  (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 ad56001010s000112h.unf into ad56001010s000112h.evt
-> Calculating statistics for S0_PIXL1
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   5405.6876
 The mean of the selected column is                  21.797128
 The standard deviation of the selected column is    7.6228245
 The minimum of selected column is                   10.218781
 The maximum of selected column is                   69.656464
 The number of points used in calculation is              248
-> Calculating statistics for S0_PIXL2
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   6049.8105
 The mean of the selected column is                  24.394397
 The standard deviation of the selected column is    9.7259795
 The minimum of selected column is                   10.093781
 The maximum of selected column is                   92.562790
 The number of points used in calculation is              248
-> 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>0 && S0_PIXL1<44.6 )&&
(S0_PIXL2>0 && S0_PIXL2<53.5 )  )
&&(  (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 ad56001010s000201h.unf because of mode
-> Filtering ad56001010s000202h.unf into ad56001010s000202h.evt
-> Calculating statistics for S0_PIXL1
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   59.343939
 The mean of the selected column is                  19.781313
 The standard deviation of the selected column is   3.12500000E-02
 The minimum of selected column is                   19.750063
 The maximum of selected column is                   19.812563
 The number of points used in calculation is                3
-> Calculating statistics for S0_PIXL2
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   51.625164
 The mean of the selected column is                  17.208388
 The standard deviation of the selected column is    5.7643799
 The minimum of selected column is                   12.062538
 The maximum of selected column is                   23.437574
 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>10.4 && S0_PIXL1<29.1 )&&
(S0_PIXL2>-0 && S0_PIXL2<34.5 )  )
&&(  (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 ad56001010s000212h.unf into ad56001010s000212h.evt
-> Calculating statistics for S0_PIXL1
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   59.343939
 The mean of the selected column is                  19.781313
 The standard deviation of the selected column is   3.12500000E-02
 The minimum of selected column is                   19.750063
 The maximum of selected column is                   19.812563
 The number of points used in calculation is                3
-> Calculating statistics for S0_PIXL2
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   51.625164
 The mean of the selected column is                  17.208388
 The standard deviation of the selected column is    5.7643799
 The minimum of selected column is                   12.062538
 The maximum of selected column is                   23.437574
 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>10.4 && S0_PIXL1<29.1 )&&
(S0_PIXL2>-0 && S0_PIXL2<34.5 )  )
&&(  (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 ad56001010s000301h.unf because of mode
-> Filtering ad56001010s000302h.unf into ad56001010s000302h.evt
-> Calculating statistics for S0_PIXL1
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   947.28417
 The mean of the selected column is                  20.593134
 The standard deviation of the selected column is    4.8833874
 The minimum of selected column is                   11.875037
 The maximum of selected column is                   31.906349
 The number of points used in calculation is               46
-> Calculating statistics for S0_PIXL2
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   1029.1907
 The mean of the selected column is                  22.373711
 The standard deviation of the selected column is    8.4404651
 The minimum of selected column is                   10.687533
 The maximum of selected column is                   59.062683
 The number of points used in calculation is               46
-> 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>5.9 && S0_PIXL1<35.2 )&&
(S0_PIXL2>0 && S0_PIXL2<47.6 )  )
&&(  (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 ad56001010s000312h.unf into ad56001010s000312h.evt
-> Calculating statistics for S0_PIXL1
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   947.28417
 The mean of the selected column is                  20.593134
 The standard deviation of the selected column is    4.8833874
 The minimum of selected column is                   11.875037
 The maximum of selected column is                   31.906349
 The number of points used in calculation is               46
-> Calculating statistics for S0_PIXL2
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   1029.1907
 The mean of the selected column is                  22.373711
 The standard deviation of the selected column is    8.4404651
 The minimum of selected column is                   10.687533
 The maximum of selected column is                   59.062683
 The number of points used in calculation is               46
-> 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>5.9 && S0_PIXL1<35.2 )&&
(S0_PIXL2>0 && S0_PIXL2<47.6 )  )
&&(  (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 ad56001010s000401h.unf because of mode
-> Filtering ad56001010s000402h.unf into ad56001010s000402h.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_PIXL1>0)&&(S0_PIXL2>0)  )&&(  (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))
-> Deleting ad56001010s000402h.evt since it contains 0 events
-> Filtering ad56001010s000412h.unf into ad56001010s000412h.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_PIXL1>0)&&(S0_PIXL2>0)  )&&(  (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))
-> Deleting ad56001010s000412h.evt since it contains 0 events
-> Skipping ad56001010s000501l.unf because of mode
-> Skipping ad56001010s000601m.unf because of mode
-> Skipping ad56001010s000701l.unf because of mode
-> Filtering ad56001010s000702l.unf into ad56001010s000702l.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_PIXL1>0)&&(S0_PIXL2>0)  )&&(  (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))
-> Deleting ad56001010s000702l.evt since it contains 0 events
-> Filtering ad56001010s000712l.unf into ad56001010s000712l.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_PIXL1>0)&&(S0_PIXL2>0)  )&&(  (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))
-> Deleting ad56001010s000712l.evt since it contains 0 events
-> Skipping ad56001010s000801m.unf because of mode
-> Skipping ad56001010s100101h.unf because of mode
-> Filtering ad56001010s100102h.unf into ad56001010s100102h.evt
-> Calculating statistics for S1_PIXL1
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   9961.0081
 The mean of the selected column is                  40.491903
 The standard deviation of the selected column is    10.308931
 The minimum of selected column is                   22.906321
 The maximum of selected column is                   83.656509
 The number of points used in calculation is              246
-> Calculating statistics for S1_PIXL2
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   10111.898
 The mean of the selected column is                  40.773783
 The standard deviation of the selected column is    13.384288
 The minimum of selected column is                   19.531311
 The maximum of selected column is                   131.81291
 The number of points used in calculation is              248
-> 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>9.5 && S1_PIXL1<71.4 )&&
(S1_PIXL2>0.6 && S1_PIXL2<80.9 )  )
&&(  (S1_SATF2<1)
   ||(S1_SATF2>1))
&&(  (S1_SATF1<1)
   ||(S1_SATF1>1))
&&(  (S1_SATF2<1)
   ||(S1_SATF2>1))
&&(  (S1_SATF1<1)
   ||(S1_SATF1>1))
&&((T_DY_NT<0)||(T_DY_NT>32))
&&((T_SAA  <0)||(T_SAA  >32))
-> Filtering ad56001010s100112h.unf into ad56001010s100112h.evt
-> Calculating statistics for S1_PIXL1
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   9961.0081
 The mean of the selected column is                  40.491903
 The standard deviation of the selected column is    10.308931
 The minimum of selected column is                   22.906321
 The maximum of selected column is                   83.656509
 The number of points used in calculation is              246
-> Calculating statistics for S1_PIXL2
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   10111.898
 The mean of the selected column is                  40.773783
 The standard deviation of the selected column is    13.384288
 The minimum of selected column is                   19.531311
 The maximum of selected column is                   131.81291
 The number of points used in calculation is              248
-> 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>9.5 && S1_PIXL1<71.4 )&&
(S1_PIXL2>0.6 && S1_PIXL2<80.9 )  )
&&(  (S1_SATF2<1)
   ||(S1_SATF2>1))
&&(  (S1_SATF1<1)
   ||(S1_SATF1>1))
&&(  (S1_SATF2<1)
   ||(S1_SATF2>1))
&&(  (S1_SATF1<1)
   ||(S1_SATF1>1))
&&((T_DY_NT<0)||(T_DY_NT>32))
&&((T_SAA  <0)||(T_SAA  >32))
-> Skipping ad56001010s100201h.unf because of mode
-> Filtering ad56001010s100202h.unf into ad56001010s100202h.evt
-> Calculating statistics for S1_PIXL1
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   1953.7560
 The mean of the selected column is                  39.872572
 The standard deviation of the selected column is    9.6891072
 The minimum of selected column is                   25.968830
 The maximum of selected column is                   70.843971
 The number of points used in calculation is               49
-> Calculating statistics for S1_PIXL2
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   1803.0681
 The mean of the selected column is                  36.797308
 The standard deviation of the selected column is    8.7978670
 The minimum of selected column is                   18.531307
 The maximum of selected column is                   63.750198
 The number of points used in calculation is               49
-> 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>10.8 && S1_PIXL1<68.9 )&&
(S1_PIXL2>10.4 && S1_PIXL2<63.1 )  )
&&(  (S1_SATF2<1)
   ||(S1_SATF2>1))
&&(  (S1_SATF1<1)
   ||(S1_SATF1>1))
&&(  (S1_SATF2<1)
   ||(S1_SATF2>1))
&&(  (S1_SATF1<1)
   ||(S1_SATF1>1))
&&((T_DY_NT<0)||(T_DY_NT>32))
&&((T_SAA  <0)||(T_SAA  >32))
-> Filtering ad56001010s100212h.unf into ad56001010s100212h.evt
-> Calculating statistics for S1_PIXL1
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   1953.7560
 The mean of the selected column is                  39.872572
 The standard deviation of the selected column is    9.6891072
 The minimum of selected column is                   25.968830
 The maximum of selected column is                   70.843971
 The number of points used in calculation is               49
-> Calculating statistics for S1_PIXL2
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   1803.0681
 The mean of the selected column is                  36.797308
 The standard deviation of the selected column is    8.7978670
 The minimum of selected column is                   18.531307
 The maximum of selected column is                   63.750198
 The number of points used in calculation is               49
-> 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>10.8 && S1_PIXL1<68.9 )&&
(S1_PIXL2>10.4 && S1_PIXL2<63.1 )  )
&&(  (S1_SATF2<1)
   ||(S1_SATF2>1))
&&(  (S1_SATF1<1)
   ||(S1_SATF1>1))
&&(  (S1_SATF2<1)
   ||(S1_SATF2>1))
&&(  (S1_SATF1<1)
   ||(S1_SATF1>1))
&&((T_DY_NT<0)||(T_DY_NT>32))
&&((T_SAA  <0)||(T_SAA  >32))
-> Skipping ad56001010s100301l.unf because of mode
-> Filtering ad56001010s100302l.unf into ad56001010s100302l.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_PIXL1>0)&&(S1_PIXL2>0)  )&&(  (S1_SATF2<1)
   ||(S1_SATF2>1))
&&(  (S1_SATF1<1)
   ||(S1_SATF1>1))
&&(  (S1_SATF2<1)
   ||(S1_SATF2>1))
&&(  (S1_SATF1<1)
   ||(S1_SATF1>1))
&&((T_DY_NT<0)||(T_DY_NT>32))
&&((T_SAA  <0)||(T_SAA  >32))
-> Deleting ad56001010s100302l.evt since it contains 0 events
-> Filtering ad56001010s100312l.unf into ad56001010s100312l.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_PIXL1>0)&&(S1_PIXL2>0)  )&&(  (S1_SATF2<1)
   ||(S1_SATF2>1))
&&(  (S1_SATF1<1)
   ||(S1_SATF1>1))
&&(  (S1_SATF2<1)
   ||(S1_SATF2>1))
&&(  (S1_SATF1<1)
   ||(S1_SATF1>1))
&&((T_DY_NT<0)||(T_DY_NT>32))
&&((T_SAA  <0)||(T_SAA  >32))
-> Deleting ad56001010s100312l.evt since it contains 0 events
-> Skipping ad56001010s100401m.unf because of mode
-> Filtering ad56001010s100402m.unf into ad56001010s100402m.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_PIXL1>0)&&(S1_PIXL2>0)  )&&(  (S1_SATF2<1)
   ||(S1_SATF2>1))
&&(  (S1_SATF1<1)
   ||(S1_SATF1>1))
&&(  (S1_SATF2<1)
   ||(S1_SATF2>1))
&&(  (S1_SATF1<1)
   ||(S1_SATF1>1))
&&((T_DY_NT<0)||(T_DY_NT>32))
&&((T_SAA  <0)||(T_SAA  >32))
-> Deleting ad56001010s100402m.evt since it contains 0 events
-> Filtering ad56001010s100412m.unf into ad56001010s100412m.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_PIXL1>0)&&(S1_PIXL2>0)  )&&(  (S1_SATF2<1)
   ||(S1_SATF2>1))
&&(  (S1_SATF1<1)
   ||(S1_SATF1>1))
&&(  (S1_SATF2<1)
   ||(S1_SATF2>1))
&&(  (S1_SATF1<1)
   ||(S1_SATF1>1))
&&((T_DY_NT<0)||(T_DY_NT>32))
&&((T_SAA  <0)||(T_SAA  >32))
-> Deleting ad56001010s100412m.evt since it contains 0 events
-> Skipping ad56001010s100501m.unf because of mode
-> Filtering ad56001010g200170h.unf into ad56001010g200170h.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 ad56001010g200270l.unf into ad56001010g200270l.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 ad56001010g200270l.evt since it contains 0 events
-> Filtering ad56001010g200370m.unf into ad56001010g200370m.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 ad56001010g300170h.unf into ad56001010g300170h.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 ad56001010g300270l.unf into ad56001010g300270l.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 ad56001010g300270l.evt since it contains 0 events
-> Filtering ad56001010g300370m.unf into ad56001010g300370m.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)

Generating images and exposure maps ( 04:06:09 )

-> Generating exposure map ad56001010g200170h.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 ad56001010g200170h.evt
-> Standard Output From FTOOL ascaexpo:
ASCAEXPO_V0.9b
 
    reading data file: ad56001010g200170h.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: ./fa980903_1041.2020
 
    making an exposure map...
 
 Aspect RA/DEC/ROLL :      267.1130     -29.8738      82.2737
 Mean   RA/DEC/ROLL :      267.1266     -29.8533      82.2737
 Pnt    RA/DEC/ROLL :      267.1015     -29.8943      82.2737
 
 Image rebin factor :             1
 Attitude Records   :         35454
 GTI intervals      :            17
 Total GTI (secs)   :      9694.143
 
 Max attitude excursion (arcsecs) :         5.000
 
   0 Percent Complete: Total/live time:          0.00         0.00
  10 Percent Complete: Total/live time:       1078.50      1078.50
  20 Percent Complete: Total/live time:       2043.00      2043.00
  30 Percent Complete: Total/live time:       3014.00      3014.00
  40 Percent Complete: Total/live time:       3975.50      3975.50
  50 Percent Complete: Total/live time:       5261.99      5261.99
  60 Percent Complete: Total/live time:       5919.99      5919.99
  70 Percent Complete: Total/live time:       7218.56      7218.56
  80 Percent Complete: Total/live time:       8068.14      8068.14
  90 Percent Complete: Total/live time:       8862.05      8862.05
 100 Percent Complete: Total/live time:       9694.15      9694.15
 
 Number of attitude steps  used:          230
 Number of attitude steps avail:        21691
 Mean RA/DEC pixel offset:      -10.5333      -4.3928
 
    writing expo file: ad56001010g200170h.expo
    closing attitude file...
    closing data file...
-> Generating low and high energy images for ad56001010g200170h.evt
-> Generating exposure map ad56001010g200370m.expo
-> GIS2_REGION256.4 already present in current directory
-> gis2_ano_on_flf_180295.fits already present in current directory
-> Running ascaexpo for ad56001010g200370m.evt
-> Standard Output From FTOOL ascaexpo:
ASCAEXPO_V0.9b
 
    reading data file: ad56001010g200370m.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: ./fa980903_1041.2020
 
    making an exposure map...
 
 Aspect RA/DEC/ROLL :      267.1130     -29.8738      82.2737
 Mean   RA/DEC/ROLL :      267.1322     -29.8472      82.2737
 Pnt    RA/DEC/ROLL :      267.0786     -29.9218      82.2737
 
 Image rebin factor :             1
 Attitude Records   :         35454
 GTI intervals      :             1
 Total GTI (secs)   :        31.926
 
 Max attitude excursion (arcsecs) :         5.000
 
   0 Percent Complete: Total/live time:          0.00         0.00
  10 Percent Complete: Total/live time:          3.93         3.93
  20 Percent Complete: Total/live time:         31.93        31.93
 100 Percent Complete: Total/live time:         31.93        31.93
 
 Number of attitude steps  used:            2
 Number of attitude steps avail:           28
 Mean RA/DEC pixel offset:       -5.4642      -2.5941
 
    writing expo file: ad56001010g200370m.expo
    closing attitude file...
    closing data file...
-> Generating low and high energy images for ad56001010g200370m.evt
-> Generating exposure map ad56001010g300170h.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 ad56001010g300170h.evt
-> Standard Output From FTOOL ascaexpo:
ASCAEXPO_V0.9b
 
    reading data file: ad56001010g300170h.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: ./fa980903_1041.2020
 
    making an exposure map...
 
 Aspect RA/DEC/ROLL :      267.1130     -29.8738      82.2771
 Mean   RA/DEC/ROLL :      267.1199     -29.8774      82.2771
 Pnt    RA/DEC/ROLL :      267.1082     -29.8704      82.2771
 
 Image rebin factor :             1
 Attitude Records   :         35454
 GTI intervals      :            17
 Total GTI (secs)   :      9682.143
 
 Max attitude excursion (arcsecs) :         5.000
 
   0 Percent Complete: Total/live time:          0.00         0.00
  10 Percent Complete: Total/live time:       1076.50      1076.50
  20 Percent Complete: Total/live time:       2039.00      2039.00
  30 Percent Complete: Total/live time:       3010.00      3010.00
  40 Percent Complete: Total/live time:       3980.00      3980.00
  50 Percent Complete: Total/live time:       5255.99      5255.99
  60 Percent Complete: Total/live time:       5911.99      5911.99
  70 Percent Complete: Total/live time:       7208.56      7208.56
  80 Percent Complete: Total/live time:       8058.14      8058.14
  90 Percent Complete: Total/live time:       8850.05      8850.05
 100 Percent Complete: Total/live time:       9682.15      9682.15
 
 Number of attitude steps  used:          230
 Number of attitude steps avail:        21668
 Mean RA/DEC pixel offset:        1.4924      -3.1976
 
    writing expo file: ad56001010g300170h.expo
    closing attitude file...
    closing data file...
-> Generating low and high energy images for ad56001010g300170h.evt
-> Generating exposure map ad56001010g300370m.expo
-> GIS3_REGION256.4 already present in current directory
-> gis3_ano_on_flf_180295.fits already present in current directory
-> Running ascaexpo for ad56001010g300370m.evt
-> Standard Output From FTOOL ascaexpo:
ASCAEXPO_V0.9b
 
    reading data file: ad56001010g300370m.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: ./fa980903_1041.2020
 
    making an exposure map...
 
 Aspect RA/DEC/ROLL :      267.1130     -29.8738      82.2771
 Mean   RA/DEC/ROLL :      267.1259     -29.8709      82.2771
 Pnt    RA/DEC/ROLL :      267.0853     -29.8976      82.2771
 
 Image rebin factor :             1
 Attitude Records   :         35454
 GTI intervals      :             1
 Total GTI (secs)   :        31.926
 
 Max attitude excursion (arcsecs) :         5.000
 
   0 Percent Complete: Total/live time:          0.00         0.00
  10 Percent Complete: Total/live time:          3.93         3.93
  20 Percent Complete: Total/live time:         31.93        31.93
 100 Percent Complete: Total/live time:         31.93        31.93
 
 Number of attitude steps  used:            2
 Number of attitude steps avail:           28
 Mean RA/DEC pixel offset:        0.5752      -1.9941
 
    writing expo file: ad56001010g300370m.expo
    closing attitude file...
    closing data file...
-> Generating low and high energy images for ad56001010g300370m.evt
-> Generating exposure map ad56001010s000102h.expo
-> s0_teldef_ascalin.fits already present in current directory
-> Running ascaexpo for ad56001010s000102h.evt
-> Standard Output From FTOOL ascaexpo:
ASCAEXPO_V0.9b
 
    reading data file: ad56001010s000102h.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: ./fa980903_1041.2020
 
    making an exposure map...
 
 Aspect RA/DEC/ROLL :      267.1130     -29.8738      82.2666
 Mean   RA/DEC/ROLL :      267.1406     -29.8677      82.2666
 Pnt    RA/DEC/ROLL :      267.0879     -29.8805      82.2666
 
 Image rebin factor :             4
 Attitude Records   :         35454
 Hot Pixels         :           249
 GTI intervals      :            16
 Total GTI (secs)   :      7871.636
 
 Max attitude excursion (arcsecs) :         5.000
 
   0 Percent Complete: Total/live time:          0.00         0.00
  10 Percent Complete: Total/live time:        905.49       905.49
  20 Percent Complete: Total/live time:       1728.00      1728.00
  30 Percent Complete: Total/live time:       2512.47      2512.47
  40 Percent Complete: Total/live time:       3385.84      3385.84
  50 Percent Complete: Total/live time:       4132.80      4132.80
  60 Percent Complete: Total/live time:       4977.84      4977.84
  70 Percent Complete: Total/live time:       5605.78      5605.78
  80 Percent Complete: Total/live time:       6477.85      6477.85
  90 Percent Complete: Total/live time:       7639.76      7639.76
 100 Percent Complete: Total/live time:       7871.64      7871.64
 
 Number of attitude steps  used:          186
 Number of attitude steps avail:        17121
 Mean RA/DEC pixel offset:      -40.8598    -103.5929
 
    writing expo file: ad56001010s000102h.expo
    closing attitude file...
    closing data file...
-> Generating low and high energy images for ad56001010s000102h.evt
-> Generating exposure map ad56001010s000202h.expo
-> s0_teldef_ascalin.fits already present in current directory
-> Running ascaexpo for ad56001010s000202h.evt
-> Standard Output From FTOOL ascaexpo:
ASCAEXPO_V0.9b
 
    reading data file: ad56001010s000202h.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:          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: ./fa980903_1041.2020
 
    making an exposure map...
 
 Aspect RA/DEC/ROLL :      267.1130     -29.8738      82.2669
 Mean   RA/DEC/ROLL :      267.1419     -29.8670      82.2669
 Pnt    RA/DEC/ROLL :      267.0865     -29.8811      82.2669
 
 Image rebin factor :             4
 Attitude Records   :         35454
 Hot Pixels         :           107
 GTI intervals      :             1
 Total GTI (secs)   :        81.782
 
 Max attitude excursion (arcsecs) :         5.000
 
   0 Percent Complete: Total/live time:          0.00         0.00
  10 Percent Complete: Total/live time:         81.78        81.78
 100 Percent Complete: Total/live time:         81.78        81.78
 
 Number of attitude steps  used:            3
 Number of attitude steps avail:          319
 Mean RA/DEC pixel offset:      -30.5013     -73.3467
 
    writing expo file: ad56001010s000202h.expo
    closing attitude file...
    closing data file...
-> Generating low and high energy images for ad56001010s000202h.evt
-> Generating exposure map ad56001010s000302h.expo
-> s0_teldef_ascalin.fits already present in current directory
-> Running ascaexpo for ad56001010s000302h.evt
-> Standard Output From FTOOL ascaexpo:
ASCAEXPO_V0.9b
 
    reading data file: ad56001010s000302h.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: ./fa980903_1041.2020
 
    making an exposure map...
 
 Aspect RA/DEC/ROLL :      267.1130     -29.8738      82.2668
 Mean   RA/DEC/ROLL :      267.1405     -29.8670      82.2668
 Pnt    RA/DEC/ROLL :      267.0866     -29.8811      82.2668
 
 Image rebin factor :             4
 Attitude Records   :         35454
 Hot Pixels         :           183
 GTI intervals      :             2
 Total GTI (secs)   :      1471.999
 
 Max attitude excursion (arcsecs) :         5.000
 
   0 Percent Complete: Total/live time:          0.00         0.00
  10 Percent Complete: Total/live time:        224.00       224.00
  20 Percent Complete: Total/live time:        522.90       522.90
  30 Percent Complete: Total/live time:        522.90       522.90
  40 Percent Complete: Total/live time:       1421.40      1421.40
  50 Percent Complete: Total/live time:       1421.40      1421.40
  60 Percent Complete: Total/live time:       1431.90      1431.90
  70 Percent Complete: Total/live time:       1431.90      1431.90
  80 Percent Complete: Total/live time:       1441.40      1441.40
  90 Percent Complete: Total/live time:       1441.40      1441.40
 100 Percent Complete: Total/live time:       1472.00      1472.00
 
 Number of attitude steps  used:           14
 Number of attitude steps avail:         3271
 Mean RA/DEC pixel offset:      -41.9710     -94.5700
 
    writing expo file: ad56001010s000302h.expo
    closing attitude file...
    closing data file...
-> Generating low and high energy images for ad56001010s000302h.evt
-> Generating exposure map ad56001010s100102h.expo
-> s1_teldef_ascalin.fits already present in current directory
-> Running ascaexpo for ad56001010s100102h.evt
-> Standard Output From FTOOL ascaexpo:
ASCAEXPO_V0.9b
 
    reading data file: ad56001010s100102h.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: ./fa980903_1041.2020
 
    making an exposure map...
 
 Aspect RA/DEC/ROLL :      267.1130     -29.8738      82.2756
 Mean   RA/DEC/ROLL :      267.1226     -29.8646      82.2756
 Pnt    RA/DEC/ROLL :      267.1054     -29.8833      82.2756
 
 Image rebin factor :             4
 Attitude Records   :         35454
 Hot Pixels         :           617
 GTI intervals      :            16
 Total GTI (secs)   :      7793.464
 
 Max attitude excursion (arcsecs) :         5.000
 
   0 Percent Complete: Total/live time:          0.00         0.00
  10 Percent Complete: Total/live time:        933.49       933.49
  20 Percent Complete: Total/live time:       1752.00      1752.00
  30 Percent Complete: Total/live time:       2440.47      2440.47
  40 Percent Complete: Total/live time:       3281.84      3281.84
  50 Percent Complete: Total/live time:       4020.80      4020.80
  60 Percent Complete: Total/live time:       4927.67      4927.67
  70 Percent Complete: Total/live time:       5555.61      5555.61
  80 Percent Complete: Total/live time:       6431.67      6431.67
  90 Percent Complete: Total/live time:       7561.59      7561.59
 100 Percent Complete: Total/live time:       7793.47      7793.47
 
 Number of attitude steps  used:          183
 Number of attitude steps avail:        17110
 Mean RA/DEC pixel offset:      -45.3005     -32.1145
 
    writing expo file: ad56001010s100102h.expo
    closing attitude file...
    closing data file...
-> Generating low and high energy images for ad56001010s100102h.evt
-> Generating exposure map ad56001010s100202h.expo
-> s1_teldef_ascalin.fits already present in current directory
-> Running ascaexpo for ad56001010s100202h.evt
-> Standard Output From FTOOL ascaexpo:
ASCAEXPO_V0.9b
 
    reading data file: ad56001010s100202h.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: ./fa980903_1041.2020
 
    making an exposure map...
 
 Aspect RA/DEC/ROLL :      267.1130     -29.8738      82.2758
 Mean   RA/DEC/ROLL :      267.1228     -29.8639      82.2758
 Pnt    RA/DEC/ROLL :      267.1047     -29.8844      82.2758
 
 Image rebin factor :             4
 Attitude Records   :         35454
 Hot Pixels         :           416
 GTI intervals      :             4
 Total GTI (secs)   :      1521.782
 
 Max attitude excursion (arcsecs) :         5.000
 
   0 Percent Complete: Total/live time:          0.00         0.00
  10 Percent Complete: Total/live time:        273.78       273.78
  20 Percent Complete: Total/live time:        561.68       561.68
  30 Percent Complete: Total/live time:        561.68       561.68
  40 Percent Complete: Total/live time:        627.18       627.18
  50 Percent Complete: Total/live time:        785.68       785.68
  60 Percent Complete: Total/live time:       1041.68      1041.68
  70 Percent Complete: Total/live time:       1521.78      1521.78
 100 Percent Complete: Total/live time:       1521.78      1521.78
 
 Number of attitude steps  used:           20
 Number of attitude steps avail:         3428
 Mean RA/DEC pixel offset:      -46.8602     -30.2915
 
    writing expo file: ad56001010s100202h.expo
    closing attitude file...
    closing data file...
-> Generating low and high energy images for ad56001010s100202h.evt
-> Summing sis images
-> Summing the following images to produce ad56001010sis32002.totexpo
ad56001010s000102h.expo
ad56001010s000202h.expo
ad56001010s000302h.expo
ad56001010s100102h.expo
ad56001010s100202h.expo
-> Summing the following images to produce ad56001010sis32002_all.totsky
ad56001010s000102h.img
ad56001010s000202h.img
ad56001010s000302h.img
ad56001010s100102h.img
ad56001010s100202h.img
-> Summing the following images to produce ad56001010sis32002_lo.totsky
ad56001010s000102h_lo.img
ad56001010s000202h_lo.img
ad56001010s000302h_lo.img
ad56001010s100102h_lo.img
ad56001010s100202h_lo.img
-> Summing the following images to produce ad56001010sis32002_hi.totsky
ad56001010s000102h_hi.img
ad56001010s000202h_hi.img
ad56001010s000302h_hi.img
ad56001010s100102h_hi.img
ad56001010s100202h_hi.img
-> Running XIMAGE to create ad56001010sis32002.gif
-> Standard Output From STOOL ximage:
 No of detectors read in:   20
![1]XIMAGE> read/fits ad56001010sis32002_all.totsky
 Reading an image
 Telescope ASCA SIS0
  Image display size =  320
 Done, closing file
  Largest, Smallest   10.00000  0.
  Bscale, Bzero from file     1.0000000000000  0.
After internal scaling
  Bscale and Bzero    1.0000000000000  0.
 Image level, max:  10 min:  0
![2]XIMAGE> read/exp_map ad56001010sis32002.totexpo
 Reading an image
 Telescope ASCA SIS0
  Image display size =  320
 Done, closing file
  Largest, Smallest    302.049  0.
  Bscale, Bzero from file     1.0000000000000  0.
After internal scaling
  Bscale and Bzero    1.0000000000000  0.
 Image level, max:  302 min:  0
![3]XIMAGE> smooth
![4]XIMAGE> cpd /ppm
![5]XIMAGE> cey 2000
![6]XIMAGE> title "GC_REG_1_N2"
![7]XIMAGE> title/lower "ASCA SIS0,SIS1 September 3, 1998 Exposure: 18740.6 s"
![8]XIMAGE> disp/correct/noframe
 Displaying image
 The image is exposure corrected
  Min =  0 max =   18739
![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    12.0000  12  0
 i,inten,mm,pp  4    26.0000  26  0
![11]XIMAGE> exit
-> Summing gis images
-> Summing the following images to produce ad56001010gis25670.totexpo
ad56001010g200170h.expo
ad56001010g200370m.expo
ad56001010g300170h.expo
ad56001010g300370m.expo
-> Summing the following images to produce ad56001010gis25670_all.totsky
ad56001010g200170h.img
ad56001010g200370m.img
ad56001010g300170h.img
ad56001010g300370m.img
-> Summing the following images to produce ad56001010gis25670_lo.totsky
ad56001010g200170h_lo.img
ad56001010g200370m_lo.img
ad56001010g300170h_lo.img
ad56001010g300370m_lo.img
-> Summing the following images to produce ad56001010gis25670_hi.totsky
ad56001010g200170h_hi.img
ad56001010g200370m_hi.img
ad56001010g300170h_hi.img
ad56001010g300370m_hi.img
-> Running XIMAGE to create ad56001010gis25670.gif
-> Standard Output From STOOL ximage:
 No of detectors read in:   20
![1]XIMAGE> read/fits ad56001010gis25670_all.totsky
 Reading an image
 Telescope ASCA GIS2
  Image display size =  256
 Done, closing file
  Largest, Smallest    129.000  0.
  Bscale, Bzero from file     1.0000000000000  0.
After internal scaling
  Bscale and Bzero    1.0000000000000  0.
 Image level, max:  129 min:  0
![2]XIMAGE> read/exp_map ad56001010gis25670.totexpo
 Reading an image
 Telescope ASCA GIS2
  Image display size =  256
 Done, closing file
  Largest, Smallest    324.002  0.
  Bscale, Bzero from file     1.0000000000000  0.
After internal scaling
  Bscale and Bzero    1.0000000000000  0.
 Image level, max:  324 min:  0
![3]XIMAGE> smooth
![4]XIMAGE> cpd /ppm
![5]XIMAGE> cey 2000
![6]XIMAGE> title "GC_REG_1_N2"
![7]XIMAGE> title/lower "ASCA GIS2,GIS3 September 3, 1998 Exposure: 19440.1 s"
![8]XIMAGE> disp/correct/noframe
 Displaying image
 The image is exposure corrected
  Min =  0 max =   845
![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    11.0000  11  0
 i,inten,mm,pp  4    35.0000  35  0
![11]XIMAGE> exit

Detecting sources in summed images ( 04:29:28 )

-> Smoothing ad56001010gis25670_all.totsky with ad56001010gis25670.totexpo
-> Clipping exposures below 2916.0206451 seconds
-> Detecting sources in ad56001010gis25670_all.smooth
-> Standard Output From STOOL ascasource:
188 89 0.00514971 156 12 125.089
-> Smoothing ad56001010gis25670_hi.totsky with ad56001010gis25670.totexpo
-> Clipping exposures below 2916.0206451 seconds
-> Detecting sources in ad56001010gis25670_hi.smooth
-> Standard Output From STOOL ascasource:
188 89 0.0047782 156 12 214.838
-> Smoothing ad56001010gis25670_lo.totsky with ad56001010gis25670.totexpo
-> Clipping exposures below 2916.0206451 seconds
-> Detecting sources in ad56001010gis25670_lo.smooth
-> Standard Output From STOOL ascasource:
183 88 0.00041152 153 16 22.0478
-> Determining extraction radii
-> Eliminating redundant sources
-> Standard Output From STOOL sift_sources:
188 89 24 T
-> Sources with radius >= 2
188 89 24 T
-> Standard Output From STOOL colorpic:
color plane 0
color plane 1
color plane 2
writing image
image written
-> Creating fits catalog of sources: ad56001010gis25670.src
-> Smoothing ad56001010sis32002_all.totsky with ad56001010sis32002.totexpo
-> Clipping exposures below 2811.0994971 seconds
-> Detecting sources in ad56001010sis32002_all.smooth
-> Standard Output From STOOL ascasource:
284 81 0.000414921 89 21 32.4107
154 115 0.000116922 44 15 8.35158
-> Smoothing ad56001010sis32002_hi.totsky with ad56001010sis32002.totexpo
-> Clipping exposures below 2811.0994971 seconds
-> Detecting sources in ad56001010sis32002_hi.smooth
-> Standard Output From STOOL ascasource:
285 80 0.000360259 286 21 58.2428
-> Smoothing ad56001010sis32002_lo.totsky with ad56001010sis32002.totexpo
-> Clipping exposures below 2811.0994971 seconds
-> Detecting sources in ad56001010sis32002_lo.smooth
-> Standard Output From STOOL ascasource:
152 118 4.73704e-05 42 21 8.49655
285 77 3.43273e-05 96 22 5.10472
-> Determining extraction radii
-> Eliminating redundant sources
-> Standard Output From STOOL sift_sources:
284 81 38 T
154 115 38 T
-> Sources with radius >= 2
284 81 38 T
154 115 38 T
-> Standard Output From STOOL colorpic:
color plane 0
color plane 1
color plane 2
writing image
image written
-> Creating fits catalog of sources: ad56001010sis32002.src
-> Generating region files
-> Converting (1136.0,324.0,2.0) to s0 detector coordinates
-> Using events in: ad56001010s000102h.evt ad56001010s000202h.evt ad56001010s000302h.evt
-> No photons in 2.0 pixel radius
-> Converting (1136.0,324.0,38.0) to s0 detector coordinates
-> Using events in: ad56001010s000102h.evt ad56001010s000202h.evt ad56001010s000302h.evt
-> No photons for inst s0, dimen 320, source 1
-> Converting (616.0,460.0,2.0) to s0 detector coordinates
-> Using events in: ad56001010s000102h.evt ad56001010s000202h.evt ad56001010s000302h.evt
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   798.00000
 The mean of the selected column is                  798.00000
 The standard deviation of the selected column is  undefined
 The minimum of selected column is                   798.00000
 The maximum of selected column is                   798.00000
 The number of points used in calculation is                1
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   542.00000
 The mean of the selected column is                  542.00000
 The standard deviation of the selected column is  undefined
 The minimum of selected column is                   542.00000
 The maximum of selected column is                   542.00000
 The number of points used in calculation is                1
-> Converting (1136.0,324.0,2.0) to s1 detector coordinates
-> Using events in: ad56001010s100102h.evt ad56001010s100202h.evt
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   998.00000
 The mean of the selected column is                  998.00000
 The standard deviation of the selected column is  undefined
 The minimum of selected column is                   998.00000
 The maximum of selected column is                   998.00000
 The number of points used in calculation is                1
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   1071.0000
 The mean of the selected column is                  1071.0000
 The standard deviation of the selected column is  undefined
 The minimum of selected column is                   1071.0000
 The maximum of selected column is                   1071.0000
 The number of points used in calculation is                1
-> Converting (616.0,460.0,2.0) to s1 detector coordinates
-> Using events in: ad56001010s100102h.evt ad56001010s100202h.evt
-> No photons in 2.0 pixel radius
-> Converting (616.0,460.0,38.0) to s1 detector coordinates
-> Using events in: ad56001010s100102h.evt ad56001010s100202h.evt
-> No photons for inst s1, dimen 320, source 2
-> Converting (188.0,89.0,2.0) to g2 detector coordinates
-> Using events in: ad56001010g200170h.evt ad56001010g200370m.evt
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   193384.00
 The mean of the selected column is                  171.28787
 The standard deviation of the selected column is    1.1521810
 The minimum of selected column is                   169.00000
 The maximum of selected column is                   174.00000
 The number of points used in calculation is             1129
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   203125.00
 The mean of the selected column is                  179.91585
 The standard deviation of the selected column is    1.0606628
 The minimum of selected column is                   177.00000
 The maximum of selected column is                   183.00000
 The number of points used in calculation is             1129
-> Converting (188.0,89.0,2.0) to g3 detector coordinates
-> Using events in: ad56001010g300170h.evt ad56001010g300370m.evt
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   39069.000
 The mean of the selected column is                  176.78281
 The standard deviation of the selected column is    1.1151328
 The minimum of selected column is                   175.00000
 The maximum of selected column is                   180.00000
 The number of points used in calculation is              221
-> Standard Output From FTOOL fstatistic:
 The sum of the selected column is                   39843.000
 The mean of the selected column is                  180.28507
 The standard deviation of the selected column is    1.0724668
 The minimum of selected column is                   178.00000
 The maximum of selected column is                   183.00000
 The number of points used in calculation is              221

Extracting spectra and generating response matrices ( 04:38:25 )

-> 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 ad56001010s000102h.evt 3303
1 ad56001010s000302h.evt 3303
2 ad56001010s000202h.evt 110
-> Fetching SIS0_NOTCHIP0.1
-> Fetching SIS0_NOTCHIP3.1
-> Fetching SIS0_OFFCHIP.2
-> Skipping ad56001010s010102_1.pi since ad56001010s032002_1.reg does not exist
-> Extracting ad56001010s010102_2.pi from ad56001010s032002_2.reg and:
ad56001010s000102h.evt
ad56001010s000302h.evt
-> Grouping ad56001010s010102_2.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  - 9343.6          Integration time (in secs) of PHA data
  AREASCAL  - 1.0000          Area scaling factor
  BACKSCAL  - 3.78711E-02     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 -      30  are grouped by a factor       14
 ...        31 -      37  are grouped by a factor        7
 ...        38 -      42  are grouped by a factor        5
 ...        43 -      46  are grouped by a factor        4
 ...        47 -      52  are grouped by a factor        3
 ...        53 -      60  are grouped by a factor        4
 ...        61 -      66  are grouped by a factor        6
 ...        67 -      71  are grouped by a factor        5
 ...        72 -      77  are grouped by a factor        6
 ...        78 -      93  are grouped by a factor        8
 ...        94 -     107  are grouped by a factor       14
 ...       108 -     118  are grouped by a factor       11
 ...       119 -     146  are grouped by a factor       14
 ...       147 -     166  are grouped by a factor       20
 ...       167 -     195  are grouped by a factor       29
 ...       196 -     358  are grouped by a factor      163
 ...       359 -     511  of undefined grouping (Channel quality=bad)
 ...  ---------------------------------------------
 ...
 ...... exiting, changes written to file : ad56001010s010102_2.pi
 ** grppha 2.8.1 completed successfully
-> Source occupies chip(s) 2
-> Fetching sis0c2p40_290296.fits
-> Generating ad56001010s010102_2.rmf
-> 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.
-> Generating ad56001010s010102_2.arf with point=no
-> Standard Output From FTOOL ascaarf:
ASCAARF vers 2.81  28 Aug 1998.
 
 Input WMAP array has size   38 by   31 bins
               expanded to   38 by   31 bins
 First WMAP bin is at detector pixel  648  392
   8 detector pixels per WMAP bin
 WMAP bin size is   0.21600 mm
                    0.21216 arcmin
 Selected region size is   2.7274     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 = 8.62000E+02
 Weighted mean angle from optical axis  =  4.071 arcmin
 
-> Standard Output From STOOL group_event_files:
1 ad56001010s000112h.evt 3528
1 ad56001010s000312h.evt 3528
2 ad56001010s000212h.evt 112
-> SIS0_NOTCHIP0.1 already present in current directory
-> SIS0_NOTCHIP3.1 already present in current directory
-> SIS0_OFFCHIP.2 already present in current directory
-> Skipping ad56001010s010212_1.pi since ad56001010s032002_1.reg does not exist
-> Extracting ad56001010s010212_2.pi from ad56001010s032002_2.reg and:
ad56001010s000112h.evt
ad56001010s000312h.evt
-> Grouping ad56001010s010212_2.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  - 9343.6          Integration time (in secs) of PHA data
  AREASCAL  - 1.0000          Area scaling factor
  BACKSCAL  - 3.78711E-02     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 -      60  are grouped by a factor       29
 ...        61 -      73  are grouped by a factor       13
 ...        74 -      83  are grouped by a factor       10
 ...        84 -     104  are grouped by a factor        7
 ...       105 -     112  are grouped by a factor        8
 ...       113 -     119  are grouped by a factor        7
 ...       120 -     131  are grouped by a factor       12
 ...       132 -     140  are grouped by a factor        9
 ...       141 -     153  are grouped by a factor       13
 ...       154 -     168  are grouped by a factor       15
 ...       169 -     181  are grouped by a factor       13
 ...       182 -     204  are grouped by a factor       23
 ...       205 -     224  are grouped by a factor       20
 ...       225 -     276  are grouped by a factor       26
 ...       277 -     308  are grouped by a factor       32
 ...       309 -     349  are grouped by a factor       41
 ...       350 -     434  are grouped by a factor       85
 ...       435 -     766  are grouped by a factor      332
 ...       767 -    1023  of undefined grouping (Channel quality=bad)
 ...  ---------------------------------------------
 ...
 ...... exiting, changes written to file : ad56001010s010212_2.pi
 ** grppha 2.8.1 completed successfully
-> Source occupies chip(s) 2
-> sis0c2p40_290296.fits already present in current directory
-> Generating ad56001010s010212_2.rmf
-> 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.
-> Generating ad56001010s010212_2.arf with point=no
-> Standard Output From FTOOL ascaarf:
ASCAARF vers 2.81  28 Aug 1998.
 
 Input WMAP array has size   38 by   31 bins
               expanded to   38 by   31 bins
 First WMAP bin is at detector pixel  648  392
   8 detector pixels per WMAP bin
 WMAP bin size is   0.21600 mm
                    0.21216 arcmin
 Selected region size is   2.7274     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 = 9.12000E+02
 Weighted mean angle from optical axis  =  4.071 arcmin
 
-> Standard Output From STOOL group_event_files:
1 ad56001010s100102h.evt 5190
1 ad56001010s100202h.evt 5190
-> Fetching SIS1_NOTCHIP0.1
-> Fetching SIS1_NOTCHIP3.1
-> Fetching SIS1_OFFCHIP.2
-> Extracting ad56001010s110102_1.pi from ad56001010s132002_1.reg and:
ad56001010s100102h.evt
ad56001010s100202h.evt
-> Grouping ad56001010s110102_1.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  - 9315.2          Integration time (in secs) of PHA data
  AREASCAL  - 1.0000          Area scaling factor
  BACKSCAL  - 1.60547E-02     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 -      46  are grouped by a factor       30
 ...        47 -      56  are grouped by a factor       10
 ...        57 -      60  are grouped by a factor        4
 ...        61 -      65  are grouped by a factor        5
 ...        66 -      77  are grouped by a factor        6
 ...        78 -      89  are grouped by a factor        4
 ...        90 -      99  are grouped by a factor        5
 ...       100 -     107  are grouped by a factor        4
 ...       108 -     112  are grouped by a factor        5
 ...       113 -     116  are grouped by a factor        4
 ...       117 -     121  are grouped by a factor        5
 ...       122 -     128  are grouped by a factor        7
 ...       129 -     132  are grouped by a factor        4
 ...       133 -     147  are grouped by a factor        5
 ...       148 -     161  are grouped by a factor        7
 ...       162 -     169  are grouped by a factor        8
 ...       170 -     179  are grouped by a factor       10
 ...       180 -     191  are grouped by a factor       12
 ...       192 -     207  are grouped by a factor       16
 ...       208 -     235  are grouped by a factor       28
 ...       236 -     511  of undefined grouping (Channel quality=bad)
 ...  ---------------------------------------------
 ...
 ...... exiting, changes written to file : ad56001010s110102_1.pi
 ** grppha 2.8.1 completed successfully
-> Source occupies chip(s) 1
-> Fetching sis1c1p40_290296.fits
-> Generating ad56001010s110102_1.rmf
-> 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.
-> Generating ad56001010s110102_1.arf with point=no
-> Standard Output From FTOOL ascaarf:
ASCAARF vers 2.81  28 Aug 1998.
 
 Input WMAP array has size   27 by   19 bins
               expanded to   27 by   19 bins
 First WMAP bin is at detector pixel  848  920
   8 detector pixels per WMAP bin
 WMAP bin size is   0.21600 mm
                    0.21216 arcmin
 Selected region size is   1.1562     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 = 1.29000E+03
 Weighted mean angle from optical axis  = 12.036 arcmin
 
-> Skipping ad56001010s110102_2.pi since ad56001010s132002_2.reg does not exist
-> Standard Output From STOOL group_event_files:
1 ad56001010s100112h.evt 5661
1 ad56001010s100212h.evt 5661
-> SIS1_NOTCHIP0.1 already present in current directory
-> SIS1_NOTCHIP3.1 already present in current directory
-> SIS1_OFFCHIP.2 already present in current directory
-> Extracting ad56001010s110212_1.pi from ad56001010s132002_1.reg and:
ad56001010s100112h.evt
ad56001010s100212h.evt
-> Grouping ad56001010s110212_1.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  - 9315.2          Integration time (in secs) of PHA data
  AREASCAL  - 1.0000          Area scaling factor
  BACKSCAL  - 1.60547E-02     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 -      87  are grouped by a factor       55
 ...        88 -     106  are grouped by a factor       19
 ...       107 -     118  are grouped by a factor       12
 ...       119 -     134  are grouped by a factor        8
 ...       135 -     145  are grouped by a factor       11
 ...       146 -     154  are grouped by a factor        9
 ...       155 -     182  are grouped by a factor        7
 ...       183 -     194  are grouped by a factor       12
 ...       195 -     200  are grouped by a factor        6
 ...       201 -     209  are grouped by a factor        9
 ...       210 -     216  are grouped by a factor        7
 ...       217 -     224  are grouped by a factor        8
 ...       225 -     231  are grouped by a factor        7
 ...       232 -     240  are grouped by a factor        9
 ...       241 -     250  are grouped by a factor       10
 ...       251 -     266  are grouped by a factor        8
 ...       267 -     276  are grouped by a factor       10
 ...       277 -     285  are grouped by a factor        9
 ...       286 -     292  are grouped by a factor        7
 ...       293 -     305  are grouped by a factor       13
 ...       306 -     317  are grouped by a factor       12
 ...       318 -     330  are grouped by a factor       13
 ...       331 -     346  are grouped by a factor       16
 ...       347 -     365  are grouped by a factor       19
 ...       366 -     383  are grouped by a factor       18
 ...       384 -     411  are grouped by a factor       28
 ...       412 -     455  are grouped by a factor       44
 ...       456 -     615  are grouped by a factor      160
 ...       616 -    1023  of undefined grouping (Channel quality=bad)
 ...  ---------------------------------------------
 ...
 ...... exiting, changes written to file : ad56001010s110212_1.pi
 ** grppha 2.8.1 completed successfully
-> Source occupies chip(s) 1
-> sis1c1p40_290296.fits already present in current directory
-> Generating ad56001010s110212_1.rmf
-> 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.
-> Generating ad56001010s110212_1.arf with point=no
-> Standard Output From FTOOL ascaarf:
ASCAARF vers 2.81  28 Aug 1998.
 
 Input WMAP array has size   27 by   19 bins
               expanded to   27 by   19 bins
 First WMAP bin is at detector pixel  848  920
   8 detector pixels per WMAP bin
 WMAP bin size is   0.21600 mm
                    0.21216 arcmin
 Selected region size is   1.1562     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 = 1.41100E+03
 Weighted mean angle from optical axis  = 12.026 arcmin
 
-> Skipping ad56001010s110212_2.pi since ad56001010s132002_2.reg does not exist
-> Standard Output From STOOL group_event_files:
1 ad56001010g200170h.evt 30742
1 ad56001010g200370m.evt 30742
-> GIS2_REGION256.4 already present in current directory
-> Extracting ad56001010g210170_1.pi from ad56001010g225670_1.reg and:
ad56001010g200170h.evt
ad56001010g200370m.evt
-> Correcting ad56001010g210170_1.pi for dead time
-> Standard Output From FTOOL deadtime:
... read all the files from deadlist.tmp
-> Grouping ad56001010g210170_1.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  - 9726.1          Integration time (in secs) of PHA data
  AREASCAL  - 1.0000          Area scaling factor
  BACKSCAL  - 2.51160E-02     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 -      38  are grouped by a factor       39
 ...        39 -      52  are grouped by a factor       14
 ...        53 -      68  are grouped by a factor       16
 ...        69 -      79  are grouped by a factor       11
 ...        80 -      87  are grouped by a factor        8
 ...        88 -      96  are grouped by a factor        9
 ...        97 -     104  are grouped by a factor        8
 ...       105 -     110  are grouped by a factor        6
 ...       111 -     120  are grouped by a factor        5
 ...       121 -     124  are grouped by a factor        4
 ...       125 -     127  are grouped by a factor        3
 ...       128 -     131  are grouped by a factor        4
 ...       132 -     137  are grouped by a factor        3
 ...       138 -     155  are grouped by a factor        2
 ...       156 -     156  are single channels
 ...       157 -     160  are grouped by a factor        2
 ...       161 -     161  are single channels
 ...       162 -     163  are grouped by a factor        2
 ...       164 -     164  are single channels
 ...       165 -     168  are grouped by a factor        2
 ...       169 -     169  are single channels
 ...       170 -     171  are grouped by a factor        2
 ...       172 -     173  are single channels
 ...       174 -     177  are grouped by a factor        2
 ...       178 -     179  are single channels
 ...       180 -     181  are grouped by a factor        2
 ...       182 -     187  are single channels
 ...       188 -     193  are grouped by a factor        2
 ...       194 -     194  are single channels
 ...       195 -     196  are grouped by a factor        2
 ...       197 -     200  are single channels
 ...       201 -     202  are grouped by a factor        2
 ...       203 -     205  are single channels
 ...       206 -     207  are grouped by a factor        2
 ...       208 -     208  are single channels
 ...       209 -     210  are grouped by a factor        2
 ...       211 -     212  are single channels
 ...       213 -     214  are grouped by a factor        2
 ...       215 -     215  are single channels
 ...       216 -     217  are grouped by a factor        2
 ...       218 -     219  are single channels
 ...       220 -     221  are grouped by a factor        2
 ...       222 -     231  are single channels
 ...       232 -     233  are grouped by a factor        2
 ...       234 -     234  are single channels
 ...       235 -     236  are grouped by a factor        2
 ...       237 -     241  are single channels
 ...       242 -     243  are grouped by a factor        2
 ...       244 -     246  are single channels
 ...       247 -     248  are grouped by a factor        2
 ...       249 -     258  are single channels
 ...       259 -     260  are grouped by a factor        2
 ...       261 -     262  are single channels
 ...       263 -     264  are grouped by a factor        2
 ...       265 -     269  are single channels
 ...       270 -     271  are grouped by a factor        2
 ...       272 -     299  are single channels
 ...       300 -     301  are grouped by a factor        2
 ...       302 -     303  are single channels
 ...       304 -     305  are grouped by a factor        2
 ...       306 -     319  are single channels
 ...       320 -     323  are grouped by a factor        2
 ...       324 -     334  are single channels
 ...       335 -     336  are grouped by a factor        2
 ...       337 -     338  are single channels
 ...       339 -     348  are grouped by a factor        2
 ...       349 -     349  are single channels
 ...       350 -     351  are grouped by a factor        2
 ...       352 -     353  are single channels
 ...       354 -     357  are grouped by a factor        2
 ...       358 -     359  are single channels
 ...       360 -     365  are grouped by a factor        2
 ...       366 -     366  are single channels
 ...       367 -     370  are grouped by a factor        2
 ...       371 -     371  are single channels
 ...       372 -     373  are grouped by a factor        2
 ...       374 -     374  are single channels
 ...       375 -     390  are grouped by a factor        2
 ...       391 -     391  are single channels
 ...       392 -     399  are grouped by a factor        2
 ...       400 -     400  are single channels
 ...       401 -     410  are grouped by a factor        2
 ...       411 -     411  are single channels
 ...       412 -     415  are grouped by a factor        2
 ...       416 -     417  are single channels
 ...       418 -     463  are grouped by a factor        2
 ...       464 -     466  are grouped by a factor        3
 ...       467 -     470  are grouped by a factor        2
 ...       471 -     476  are grouped by a factor        3
 ...       477 -     478  are grouped by a factor        2
 ...       479 -     481  are grouped by a factor        3
 ...       482 -     485  are grouped by a factor        2
 ...       486 -     488  are grouped by a factor        3
 ...       489 -     490  are grouped by a factor        2
 ...       491 -     493  are grouped by a factor        3
 ...       494 -     495  are grouped by a factor        2
 ...       496 -     501  are grouped by a factor        3
 ...       502 -     505  are grouped by a factor        4
 ...       506 -     514  are grouped by a factor        3
 ...       515 -     516  are grouped by a factor        2
 ...       517 -     522  are grouped by a factor        3
 ...       523 -     530  are grouped by a factor        4
 ...       531 -     533  are grouped by a factor        3
 ...       534 -     537  are grouped by a factor        4
 ...       538 -     540  are grouped by a factor        3
 ...       541 -     560  are grouped by a factor        4
 ...       561 -     565  are grouped by a factor        5
 ...       566 -     569  are grouped by a factor        4
 ...       570 -     587  are grouped by a factor        6
 ...       588 -     592  are grouped by a factor        5
 ...       593 -     598  are grouped by a factor        6
 ...       599 -     603  are grouped by a factor        5
 ...       604 -     611  are grouped by a factor        8
 ...       612 -     618  are grouped by a factor        7
 ...       619 -     623  are grouped by a factor        5
 ...       624 -     635  are grouped by a factor        6
 ...       636 -     649  are grouped by a factor        7
 ...       650 -     660  are grouped by a factor       11
 ...       661 -     666  are grouped by a factor        6
 ...       667 -     677  are grouped by a factor       11
 ...       678 -     684  are grouped by a factor        7
 ...       685 -     693  are grouped by a factor        9
 ...       694 -     704  are grouped by a factor       11
 ...       705 -     719  are grouped by a factor       15
 ...       720 -     735  are grouped by a factor       16
 ...       736 -     746  are grouped by a factor       11
 ...       747 -     763  are grouped by a factor       17
 ...       764 -     786  are grouped by a factor       23
 ...       787 -     808  are grouped by a factor       22
 ...       809 -     842  are grouped by a factor       34
 ...       843 -     880  are grouped by a factor       38
 ...       881 -     992  are grouped by a factor      112
 ...       993 -    1023  of undefined grouping (Channel quality=bad)
 ...  ---------------------------------------------
 ...
 ...... exiting, changes written to file : ad56001010g210170_1.pi
 ** grppha 2.8.1 completed successfully
-> Fetching gis2v4_0.rmf
-> Fetching s2bev1.fits
-> Fetching s2gridv3.fits
-> Generating ad56001010g210170_1.arf with point=no
-> Standard Output From FTOOL ascaarf:
ASCAARF vers 2.81  28 Aug 1998.
 
 Input WMAP array has size   48 by   42 bins
               expanded to  128 by   64 bins
 First WMAP bin is at detector pixel  108  146
   1 detector pixels per WMAP bin
 WMAP bin size is   0.25000 mm
                    0.24555 arcmin
 Selected region size is   99.270     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 = 1.66150E+04
 Weighted mean angle from optical axis  = 14.885 arcmin
 
-> Standard Output From STOOL group_event_files:
1 ad56001010g300170h.evt 28516
1 ad56001010g300370m.evt 28516
-> GIS3_REGION256.4 already present in current directory
-> Extracting ad56001010g310170_1.pi from ad56001010g325670_1.reg and:
ad56001010g300170h.evt
ad56001010g300370m.evt
-> Correcting ad56001010g310170_1.pi for dead time
-> Standard Output From FTOOL deadtime:
... read all the files from deadlist.tmp
-> Grouping ad56001010g310170_1.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  - 9714.1          Integration time (in secs) of PHA data
  AREASCAL  - 1.0000          Area scaling factor
  BACKSCAL  - 2.63672E-02     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 -      33  are grouped by a factor       34
 ...        34 -      52  are grouped by a factor       19
 ...        53 -      69  are grouped by a factor       17
 ...        70 -      80  are grouped by a factor       11
 ...        81 -      90  are grouped by a factor       10
 ...        91 -     104  are grouped by a factor        7
 ...       105 -     116  are grouped by a factor        6
 ...       117 -     126  are grouped by a factor        5
 ...       127 -     130  are grouped by a factor        4
 ...       131 -     136  are grouped by a factor        3
 ...       137 -     156  are grouped by a factor        2
 ...       157 -     157  are single channels
 ...       158 -     159  are grouped by a factor        2
 ...       160 -     160  are single channels
 ...       161 -     174  are grouped by a factor        2
 ...       175 -     177  are single channels
 ...       178 -     181  are grouped by a factor        2
 ...       182 -     182  are single channels
 ...       183 -     186  are grouped by a factor        2
 ...       187 -     187  are single channels
 ...       188 -     189  are grouped by a factor        2
 ...       190 -     190  are single channels
 ...       191 -     198  are grouped by a factor        2
 ...       199 -     199  are single channels
 ...       200 -     201  are grouped by a factor        2
 ...       202 -     203  are single channels
 ...       204 -     205  are grouped by a factor        2
 ...       206 -     206  are single channels
 ...       207 -     210  are grouped by a factor        2
 ...       211 -     211  are single channels
 ...       212 -     217  are grouped by a factor        2
 ...       218 -     220  are single channels
 ...       221 -     230  are grouped by a factor        2
 ...       231 -     233  are single channels
 ...       234 -     235  are grouped by a factor        2
 ...       236 -     236  are single channels
 ...       237 -     244  are grouped by a factor        2
 ...       245 -     247  are single channels
 ...       248 -     249  are grouped by a factor        2
 ...       250 -     251  are single channels
 ...       252 -     253  are grouped by a factor        2
 ...       254 -     254  are single channels
 ...       255 -     256  are grouped by a factor        2
 ...       257 -     259  are single channels
 ...       260 -     261  are grouped by a factor        2
 ...       262 -     262  are single channels
 ...       263 -     264  are grouped by a factor        2
 ...       265 -     268  are single channels
 ...       269 -     270  are grouped by a factor        2
 ...       271 -     271  are single channels
 ...       272 -     275  are grouped by a factor        2
 ...       276 -     276  are single channels
 ...       277 -     282  are grouped by a factor        2
 ...       283 -     283  are single channels
 ...       284 -     287  are grouped by a factor        2
 ...       288 -     289  are single channels
 ...       290 -     293  are grouped by a factor        2
 ...       294 -     294  are single channels
 ...       295 -     296  are grouped by a factor        2
 ...       297 -     298  are single channels
 ...       299 -     300  are grouped by a factor        2
 ...       301 -     301  are single channels
 ...       302 -     303  are grouped by a factor        2
 ...       304 -     304  are single channels
 ...       305 -     306  are grouped by a factor        2
 ...       307 -     307  are single channels
 ...       308 -     311  are grouped by a factor        2
 ...       312 -     313  are single channels
 ...       314 -     319  are grouped by a factor        2
 ...       320 -     321  are single channels
 ...       322 -     323  are grouped by a factor        2
 ...       324 -     326  are single channels
 ...       327 -     338  are grouped by a factor        2
 ...       339 -     339  are single channels
 ...       340 -     349  are grouped by a factor        2
 ...       350 -     350  are single channels
 ...       351 -     352  are grouped by a factor        2
 ...       353 -     353  are single channels
 ...       354 -     359  are grouped by a factor        2
 ...       360 -     360  are single channels
 ...       361 -     390  are grouped by a factor        2
 ...       391 -     391  are single channels
 ...       392 -     415  are grouped by a factor        2
 ...       416 -     418  are grouped by a factor        3
 ...       419 -     422  are grouped by a factor        2
 ...       423 -     425  are grouped by a factor        3
 ...       426 -     427  are grouped by a factor        2
 ...       428 -     430  are grouped by a factor        3
 ...       431 -     436  are grouped by a factor        2
 ...       437 -     448  are grouped by a factor        3
 ...       449 -     454  are grouped by a factor        2
 ...       455 -     457  are grouped by a factor        3
 ...       458 -     463  are grouped by a factor        2
 ...       464 -     475  are grouped by a factor        3
 ...       476 -     477  are grouped by a factor        2
 ...       478 -     504  are grouped by a factor        3
 ...       505 -     524  are grouped by a factor        4
 ...       525 -     533  are grouped by a factor        3
 ...       534 -     537  are grouped by a factor        4
 ...       538 -     543  are grouped by a factor        6
 ...       544 -     551  are grouped by a factor        4
 ...       552 -     556  are grouped by a factor        5
 ...       557 -     560  are grouped by a factor        4
 ...       561 -     566  are grouped by a factor        6
 ...       567 -     576  are grouped by a factor        5
 ...       577 -     582  are grouped by a factor        6
 ...       583 -     589  are grouped by a factor        7
 ...       590 -     595  are grouped by a factor        6
 ...       596 -     603  are grouped by a factor        8
 ...       604 -     610  are grouped by a factor        7
 ...       611 -     622  are grouped by a factor        6
 ...       623 -     640  are grouped by a factor        9
 ...       641 -     647  are grouped by a factor        7
 ...       648 -     658  are grouped by a factor       11
 ...       659 -     667  are grouped by a factor        9
 ...       668 -     678  are grouped by a factor       11
 ...       679 -     692  are grouped by a factor       14
 ...       693 -     709  are grouped by a factor       17
 ...       710 -     720  are grouped by a factor       11
 ...       721 -     733  are grouped by a factor       13
 ...       734 -     754  are grouped by a factor       21
 ...       755 -     771  are grouped by a factor       17
 ...       772 -     793  are grouped by a factor       22
 ...       794 -     828  are grouped by a factor       35
 ...       829 -     886  are grouped by a factor       58
 ...       887 -     946  are grouped by a factor       60
 ...       947 -    1023  of undefined grouping (Channel quality=bad)
 ...  ---------------------------------------------
 ...
 ...... exiting, changes written to file : ad56001010g310170_1.pi
 ** grppha 2.8.1 completed successfully
-> Fetching gis3v4_0.rmf
-> Fetching s3bev1.fits
-> Fetching s3gridv3.fits
-> Generating ad56001010g310170_1.arf with point=no
-> Standard Output From FTOOL ascaarf:
ASCAARF vers 2.81  28 Aug 1998.
 
 Input WMAP array has size   48 by   48 bins
               expanded to  128 by  128 bins
 First WMAP bin is at detector pixel  114  117
   1 detector pixels per WMAP bin
 WMAP bin size is   0.25000 mm
                    0.24555 arcmin
 Selected region size is   104.21     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 = 1.39620E+04
 Weighted mean angle from optical axis  = 17.023 arcmin
 
-> Plotting ad56001010g210170_1_pi.ps from ad56001010g210170_1.pi
-> Standard Output From STOOL xspec:
 
               XSPEC 9.01 04:52:59  8-Dec-99
 
 Plot device not set, use "cpd" to set it
 
 Type "help" or "?" for further information
!XSPEC> data ad56001010g210170_1.pi
 Net count rate (cts/s) for file   1   1.710    +/-  1.3268E-02
   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 ad56001010g310170_1_pi.ps from ad56001010g310170_1.pi
-> Standard Output From STOOL xspec:
 
               XSPEC 9.01 04:53:10  8-Dec-99
 
 Plot device not set, use "cpd" to set it
 
 Type "help" or "?" for further information
!XSPEC> data ad56001010g310170_1.pi
 Net count rate (cts/s) for file   1   1.438    +/-  1.2188E-02
   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 ad56001010s010102_2_pi.ps from ad56001010s010102_2.pi
-> Standard Output From STOOL xspec:
 
               XSPEC 9.01 04:53:20  8-Dec-99
 
 Plot device not set, use "cpd" to set it
 
 Type "help" or "?" for further information
!XSPEC> data ad56001010s010102_2.pi
 Net count rate (cts/s) for file   1  9.3326E-02+/-  3.4298E-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 ad56001010s010212_2_pi.ps from ad56001010s010212_2.pi
-> Standard Output From STOOL xspec:
 
               XSPEC 9.01 04:53:31  8-Dec-99
 
 Plot device not set, use "cpd" to set it
 
 Type "help" or "?" for further information
!XSPEC> data ad56001010s010212_2.pi
 Net count rate (cts/s) for file   1  9.8677E-02+/-  3.6920E-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 ad56001010s110102_1_pi.ps from ad56001010s110102_1.pi
-> Standard Output From STOOL xspec:
 
               XSPEC 9.01 04:53:46  8-Dec-99
 
 Plot device not set, use "cpd" to set it
 
 Type "help" or "?" for further information
!XSPEC> data ad56001010s110102_1.pi
 Net count rate (cts/s) for file   1  0.1408    +/-  4.2522E-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 ad56001010s110212_1_pi.ps from ad56001010s110212_1.pi
-> Standard Output From STOOL xspec:
 
               XSPEC 9.01 04:53:57  8-Dec-99
 
 Plot device not set, use "cpd" to set it
 
 Type "help" or "?" for further information
!XSPEC> data ad56001010s110212_1.pi
 Net count rate (cts/s) for file   1  0.1540    +/-  4.6298E-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 ( 04:54:09 )

-> TIMEDEL=8.0000000000E+00 for ad56001010s000102h.evt
-> TIMEDEL=8.0000000000E+00 for ad56001010s000202h.evt
-> TIMEDEL=8.0000000000E+00 for ad56001010s000302h.evt
-> Minimum bin size is 8.0000000000E+00 seconds
-> Skipping ad56001010s000002_1.lc since ad56001010s032002_1.reg does not exist
-> Extracting events from region ad56001010s032002_2.reg
-> ... and files: ad56001010s000102h.evt ad56001010s000202h.evt ad56001010s000302h.evt
-> Extracting ad56001010s000002_2.lc with binsize 523.634304258558
-> Plotting light curve ad56001010s000002_2_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]=> ad56001010s000002_2.lc                                                                                                              
 
 Selected FITS extensions: 1 - RATE TABLE;
 
 Source ............ GC_REG_1_N2         Start Time (d) .... 11059 11:18:24.819
 FITS Extension ....  1 - `RATE      `   Stop Time (d) ..... 11059 19:45:04.819
 No. of Rows .......           18        Bin Time (s) ......    523.6
 Right Ascension ... 2.6711E+02          Internal time sys.. Converted to TJD
 Declination ....... -2.9874E+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        59 Newbins of       523.634     (s) 

 
 Intv    1   Start11059 11:22:46
     Ser.1     Avg 0.9732E-01    Chisq  22.05       Var 0.2705E-03 Newbs.    18
               Min 0.7639E-01      Max 0.1299    expVar 0.2208E-03  Bins     18

             Results from Statistical Analysis

             Newbin Integration Time (s)..  523.63    
             Interval Duration (s)........  29847.    
             No. of Newbins ..............      18
             Average (c/s) ............... 0.97323E-01  +/-    0.36E-02
             Standard Deviation (c/s)..... 0.16446E-01
             Minimum (c/s)................ 0.76389E-01
             Maximum (c/s)................ 0.12986    
             Variance ((c/s)**2).......... 0.27047E-03 +/-    0.93E-04
             Expected Variance ((c/s)**2). 0.22080E-03 +/-    0.76E-04
             Third Moment ((c/s)**3)...... 0.23858E-05
             Average Deviation (c/s)...... 0.13586E-01
             Skewness..................... 0.53635        +/-    0.58    
             Kurtosis.....................-0.78063        +/-     1.2    
             RMS fractional variation....< 0.16156     (3 sigma)
             Chi-Square...................  22.049        dof      17
             Chi-Square Prob of constancy. 0.18286     (0 means < 1.e-38)
             Kolm.-Smir. Prob of constancy 0.39551     (0 means < 1.e-38)
 [4]xronos>  [5]xronos> 
 Maximum of      1 Intvs. with        59 Newbins of       523.634     (s) 

 
 Intv    1   Start11059 11:22:46
     Ser.1     Avg 0.9732E-01    Chisq  22.05       Var 0.2705E-03 Newbs.    18
               Min 0.7639E-01      Max 0.1299    expVar 0.2208E-03  Bins     18
             Light curve ready !
 Frme    1  Written to output file : xronos.qlc1                                                                                                                         
PLT> LA File ad56001010s000002_2.lc
PLT> hard /ps
PLT>  [6]xronos> 
-> TIMEDEL=8.0000000000E+00 for ad56001010s100102h.evt
-> TIMEDEL=8.0000000000E+00 for ad56001010s100202h.evt
-> Minimum bin size is 8.0000000000E+00 seconds
-> Extracting events from region ad56001010s132002_1.reg
-> ... and files: ad56001010s100102h.evt ad56001010s100202h.evt
-> Extracting ad56001010s100002_1.lc with binsize 321.43705353254
-> Plotting light curve ad56001010s100002_1_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]=> ad56001010s100002_1.lc                                                                                                              
 
 Selected FITS extensions: 1 - RATE TABLE;
 
 Source ............ GC_REG_1_N2         Start Time (d) .... 11059 11:17:52.819
 FITS Extension ....  1 - `RATE      `   Stop Time (d) ..... 11059 19:45:36.819
 No. of Rows .......           30        Bin Time (s) ......    321.4
 Right Ascension ... 2.6711E+02          Internal time sys.. Converted to TJD
 Declination ....... -2.9874E+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        95 Newbins of       321.437     (s) 

 
 Intv    1   Start11059 11:20:33
     Ser.1     Avg 0.1572        Chisq  42.17       Var 0.7760E-03 Newbs.    30
               Min 0.1071          Max 0.2107    expVar 0.5520E-03  Bins     30

             Results from Statistical Analysis

             Newbin Integration Time (s)..  321.44    
             Interval Duration (s)........  30215.    
             No. of Newbins ..............      30
             Average (c/s) ............... 0.15716      +/-    0.44E-02
             Standard Deviation (c/s)..... 0.27857E-01
             Minimum (c/s)................ 0.10710    
             Maximum (c/s)................ 0.21066    
             Variance ((c/s)**2).......... 0.77599E-03 +/-    0.20E-03
             Expected Variance ((c/s)**2). 0.55201E-03 +/-    0.14E-03
             Third Moment ((c/s)**3)...... 0.44711E-05
             Average Deviation (c/s)...... 0.22497E-01
             Skewness..................... 0.20684        +/-    0.45    
             Kurtosis.....................-0.65541        +/-    0.89    
             RMS fractional variation....< 0.11267     (3 sigma)
             Chi-Square...................  42.173        dof      29
             Chi-Square Prob of constancy. 0.54192E-01 (0 means < 1.e-38)
             Kolm.-Smir. Prob of constancy 0.82836E-02 (0 means < 1.e-38)
 [4]xronos>  [5]xronos> 
 Maximum of      1 Intvs. with        95 Newbins of       321.437     (s) 

 
 Intv    1   Start11059 11:20:33
     Ser.1     Avg 0.1572        Chisq  42.17       Var 0.7760E-03 Newbs.    30
               Min 0.1071          Max 0.2107    expVar 0.5520E-03  Bins     30
             Light curve ready !
 Frme    1  Written to output file : xronos.qlc1                                                                                                                         
PLT> LA File ad56001010s100002_1.lc
PLT> hard /ps
PLT>  [6]xronos> 
-> Skipping ad56001010s100002_2.lc since ad56001010s132002_2.reg does not exist
-> TIMEDEL=6.2500000000E-02 for ad56001010g200170h.evt
-> TIMEDEL=5.0000000000E-01 for ad56001010g200370m.evt
-> Minimum bin size is 5.0000000000E-01 seconds
-> Extracting events from region ad56001010g225670_1.reg
-> ... and files: ad56001010g200170h.evt ad56001010g200370m.evt
-> Extracting ad56001010g200070_1.lc with binsize 29.2425398399546
-> Plotting light curve ad56001010g200070_1_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]=> ad56001010g200070_1.lc                                                                                                              
 
 Selected FITS extensions: 1 - RATE TABLE;
 
 Source ............ GC_REG_1_N2         Start Time (d) .... 11059 11:09:28.814
 FITS Extension ....  1 - `RATE      `   Stop Time (d) ..... 11059 19:47:12.819
 No. of Rows .......          334        Bin Time (s) ......    29.24
 Right Ascension ... 2.6711E+02          Internal time sys.. Converted to TJD
 Declination ....... -2.9874E+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       60.7431     (s) 

 
 Intv    1   Start11059 11: 9:59
     Ser.1     Avg  1.716        Chisq  698.1       Var 0.1380     Newbs.   169
               Min  1.282          Max  5.813    expVar 0.3308E-01  Bins    334

             Results from Statistical Analysis

             Newbin Integration Time (s)..  60.743    
             Interval Duration (s)........  31040.    
             No. of Newbins ..............     169
             Average (c/s) ...............  1.7164      +/-    0.14E-01
             Standard Deviation (c/s)..... 0.37148    
             Minimum (c/s)................  1.2824    
             Maximum (c/s)................  5.8134    
             Variance ((c/s)**2).......... 0.13800     +/-    0.15E-01
             Expected Variance ((c/s)**2). 0.33082E-01 +/-    0.36E-02
             Third Moment ((c/s)**3)...... 0.40899    
             Average Deviation (c/s)...... 0.17885    
             Skewness.....................  7.9785        +/-    0.19    
             Kurtosis.....................  84.843        +/-    0.38    
             RMS fractional variation..... 0.18871        +/-    0.14E-01
             Chi-Square...................  698.07        dof     168
             Chi-Square Prob of constancy.      0.     (0 means < 1.e-38)
             Kolm.-Smir. Prob of constancy 0.20789E-01 (0 means < 1.e-38)

 [4]xronos>  [5]xronos> 
 Maximum of      1 Intvs. with       512 Newbins of       60.7431     (s) 

 
 Intv    1   Start11059 11: 9:59
     Ser.1     Avg  1.716        Chisq  698.1       Var 0.1380     Newbs.   169
               Min  1.282          Max  5.813    expVar 0.3308E-01  Bins    334
             Light curve ready !
 Frme    1  Written to output file : xronos.qlc1                                                                                                                         
PLT> LA File ad56001010g200070_1.lc
PLT> hard /ps
PLT>  [6]xronos> 
-> Standard Error Output From FTOOL xronos
 Note: the following IEEE floating-point arithmetic exceptions 
 occurred and were never cleared; see ieee_flags(3M): 
 Inexact;  Underflow; 
 Sun's implementation of IEEE arithmetic is discussed in 
 the Numerical Computation Guide.
-> TIMEDEL=6.2500000000E-02 for ad56001010g300170h.evt
-> TIMEDEL=5.0000000000E-01 for ad56001010g300370m.evt
-> Minimum bin size is 5.0000000000E-01 seconds
-> Extracting events from region ad56001010g325670_1.reg
-> ... and files: ad56001010g300170h.evt ad56001010g300370m.evt
-> Extracting ad56001010g300070_1.lc with binsize 34.7825436419358
-> Plotting light curve ad56001010g300070_1_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]=> ad56001010g300070_1.lc                                                                                                              
 
 Selected FITS extensions: 1 - RATE TABLE;
 
 Source ............ GC_REG_1_N2         Start Time (d) .... 11059 11:09:30.814
 FITS Extension ....  1 - `RATE      `   Stop Time (d) ..... 11059 19:47:12.819
 No. of Rows .......          278        Bin Time (s) ......    34.78
 Right Ascension ... 2.6711E+02          Internal time sys.. Converted to TJD
 Declination ....... -2.9874E+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       60.7392     (s) 

 
 Intv    1   Start11059 11:10: 1
     Ser.1     Avg  1.428        Chisq  386.4       Var 0.5640E-01 Newbs.   166
               Min 0.8338          Max  3.522    expVar 0.2772E-01  Bins    278

             Results from Statistical Analysis

             Newbin Integration Time (s)..  60.739    
             Interval Duration (s)........  31038.    
             No. of Newbins ..............     166
             Average (c/s) ...............  1.4280      +/-    0.13E-01
             Standard Deviation (c/s)..... 0.23748    
             Minimum (c/s)................ 0.83375    
             Maximum (c/s)................  3.5219    
             Variance ((c/s)**2).......... 0.56395E-01 +/-    0.62E-02
             Expected Variance ((c/s)**2). 0.27721E-01 +/-    0.31E-02
             Third Moment ((c/s)**3)...... 0.53448E-01
             Average Deviation (c/s)...... 0.14865    
             Skewness.....................  3.9908        +/-    0.19    
             Kurtosis.....................  34.322        +/-    0.38    
             RMS fractional variation..... 0.11859        +/-    0.13E-01
             Chi-Square...................  386.40        dof     165
             Chi-Square Prob of constancy. 0.83231E-19 (0 means < 1.e-38)
             Kolm.-Smir. Prob of constancy 0.29576E-01 (0 means < 1.e-38)

 [4]xronos>  [5]xronos> 
 Maximum of      1 Intvs. with       512 Newbins of       60.7392     (s) 

 
 Intv    1   Start11059 11:10: 1
     Ser.1     Avg  1.428        Chisq  386.4       Var 0.5640E-01 Newbs.   166
               Min 0.8338          Max  3.522    expVar 0.2772E-01  Bins    278
             Light curve ready !
 Frme    1  Written to output file : xronos.qlc1                                                                                                                         
PLT> LA File ad56001010g300070_1.lc
PLT> hard /ps
PLT>  [6]xronos> 
-> Merging GTIs from the following files:
ad56001010g200170h.evt[2]
ad56001010g200370m.evt[2]
-> Making L1 light curve of ft980903_1041_2020G2HK.fits with irate=HIGH
-> Standard Output From FTOOL ghkcurve:
ghkcurve: ALLGTI found in input HK file, will be applied to data.
ghkcurve:  37935 output records from   37952  good input G2_L1    records.
-> Making L1 light curve of ft980903_1041_2020G2HK.fits with irate=HI+MED
-> Standard Output From FTOOL ghkcurve:
ghkcurve: ALLGTI found in input HK file, will be applied to data.
ghkcurve:   9655 output records from   37981  good input G2_L1    records.
-> Merging GTIs from the following files:
ad56001010g300170h.evt[2]
ad56001010g300370m.evt[2]
-> Making L1 light curve of ft980903_1041_2020G3HK.fits with irate=HIGH
-> Standard Output From FTOOL ghkcurve:
ghkcurve: ALLGTI found in input HK file, will be applied to data.
ghkcurve:  35410 output records from   35427  good input G3_L1    records.
-> Making L1 light curve of ft980903_1041_2020G3HK.fits with irate=HI+MED
-> Standard Output From FTOOL ghkcurve:
ghkcurve: ALLGTI found in input HK file, will be applied to data.
ghkcurve:   9626 output records from   35455  good input G3_L1    records.

Extracting source event files ( 04:59:17 )

-> Extracting unbinned light curve ad56001010g200170h_1.ulc
-> Extracting unbinned light curve ad56001010g200370m_1.ulc
-> Extracting unbinned light curve ad56001010g300170h_1.ulc
-> Extracting unbinned light curve ad56001010g300370m_1.ulc
-> Skipping ad56001010s000102h_1.ulc since ad56001010s032002_1.reg does not exist
-> Extracting unbinned light curve ad56001010s000102h_2.ulc
-> Skipping ad56001010s000112h_1.ulc since ad56001010s032002_1.reg does not exist
-> Extracting unbinned light curve ad56001010s000112h_2.ulc
-> Skipping ad56001010s000202h_1.ulc since ad56001010s032002_1.reg does not exist
-> Extracting unbinned light curve ad56001010s000202h_2.ulc
-> Skipping ad56001010s000212h_1.ulc since ad56001010s032002_1.reg does not exist
-> Extracting unbinned light curve ad56001010s000212h_2.ulc
-> Skipping ad56001010s000302h_1.ulc since ad56001010s032002_1.reg does not exist
-> Extracting unbinned light curve ad56001010s000302h_2.ulc
-> Skipping ad56001010s000312h_1.ulc since ad56001010s032002_1.reg does not exist
-> Extracting unbinned light curve ad56001010s000312h_2.ulc
-> Extracting unbinned light curve ad56001010s100102h_1.ulc
-> Skipping ad56001010s100102h_2.ulc since ad56001010s132002_2.reg does not exist
-> Extracting unbinned light curve ad56001010s100112h_1.ulc
-> Skipping ad56001010s100112h_2.ulc since ad56001010s132002_2.reg does not exist
-> Extracting unbinned light curve ad56001010s100202h_1.ulc
-> Skipping ad56001010s100202h_2.ulc since ad56001010s132002_2.reg does not exist
-> Extracting unbinned light curve ad56001010s100212h_1.ulc
-> Skipping ad56001010s100212h_2.ulc since ad56001010s132002_2.reg does not exist

Extracting FRAME mode data ( 05:03:54 )

-> Extracting frame mode data from ft980903_1041.2020
-> Standard Output From STOOL tlmFrm:
 *** tlmFrm Version 1.1 (1997-08-25) *** 
total number of superframes: 8884

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 ft980903_1041_2020.mkf
-> Generating corner pixel histogram ad56001010s000101h_1.cnr
-> Generating corner pixel histogram ad56001010s000101h_2.cnr
-> Generating corner pixel histogram ad56001010s000201h_1.cnr
-> Generating corner pixel histogram ad56001010s000201h_2.cnr
-> Generating corner pixel histogram ad56001010s000301h_1.cnr
-> Generating corner pixel histogram ad56001010s000301h_2.cnr
-> Generating corner pixel histogram ad56001010s000401h_1.cnr
-> Generating corner pixel histogram ad56001010s000401h_2.cnr
-> Generating corner pixel histogram ad56001010s000501l_1.cnr
-> Generating corner pixel histogram ad56001010s000501l_2.cnr
-> Generating corner pixel histogram ad56001010s000601m_1.cnr
-> Generating corner pixel histogram ad56001010s000601m_2.cnr
-> Generating corner pixel histogram ad56001010s000701l_1.cnr
-> Generating corner pixel histogram ad56001010s000701l_2.cnr
-> Generating corner pixel histogram ad56001010s000801m_1.cnr
-> Generating corner pixel histogram ad56001010s000801m_2.cnr
-> Generating corner pixel histogram ad56001010s100101h_1.cnr
-> Generating corner pixel histogram ad56001010s100101h_2.cnr
-> Generating corner pixel histogram ad56001010s100201h_1.cnr
-> Generating corner pixel histogram ad56001010s100201h_2.cnr
-> Generating corner pixel histogram ad56001010s100301l_1.cnr
-> Generating corner pixel histogram ad56001010s100301l_2.cnr
-> Generating corner pixel histogram ad56001010s100401m_1.cnr
-> Generating corner pixel histogram ad56001010s100401m_2.cnr
-> Generating corner pixel histogram ad56001010s100501m_1.cnr
-> Generating corner pixel histogram ad56001010s100501m_2.cnr

Extracting GIS calibration source spectra ( 05:14:49 )

-> Standard Output From STOOL group_event_files:
1 ad56001010g200170h.unf 71087
1 ad56001010g200270l.unf 71087
1 ad56001010g200370m.unf 71087
-> Fetching GIS2_CALSRC256.2
-> Extracting ad56001010g220170.cal from ad56001010g200170h.unf ad56001010g200270l.unf ad56001010g200370m.unf
-> gis2v4_0.rmf already present in current directory
-> Plotting ad56001010g220170_cal.ps and finding peak
-> Standard Output From STOOL xspec:
 
               XSPEC 9.01 05:15:26  8-Dec-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 ad56001010g220170.cal
 Net count rate (cts/s) for file   1  0.1935    +/-  3.0458E-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 =     1.0801E+06 using    84 PHA bins.
 Reduced chi-squared =     1.4027E+04
!XSPEC> newpar 5 = 2 1.101005
    6 variable fit parameters
 Chi-Squared =     1.0740E+06 using    84 PHA bins.
 Reduced chi-squared =     1.3770E+04
!XSPEC> newpar 6 = 3 1.049288
    5 variable fit parameters
 Chi-Squared =     1.0740E+06 using    84 PHA bins.
 Reduced chi-squared =     1.3596E+04
!XSPEC> renorm
 Chi-Squared =      696.2     using    84 PHA bins.
 Reduced chi-squared =      8.813
!XSPEC> fit
 Chi-Squared  Lvl  Fit param # 1     2           3           4
                 5
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   576.35      0      1.000       5.895      0.1179      3.7029E-02
              3.4495E-02
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   424.97      0      1.000       5.882      0.1764      4.6643E-02
              3.2062E-02
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   338.02     -1      1.000       5.938      0.2254      6.1916E-02
              2.4490E-02
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   303.09     -2      1.000       6.062      0.2856      8.2665E-02
              8.0885E-03
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   300.37     -3      1.000       6.001      0.2459      7.4201E-02
              1.7299E-02
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   299.75     -4      1.000       6.052      0.2785      8.1837E-02
              8.7329E-03
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   298.17     -5      1.000       6.004      0.2459      7.4684E-02
              1.6336E-02
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   297.96     -6      1.000       6.046      0.2738      8.0929E-02
              9.5762E-03
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   296.82     -7      1.000       6.007      0.2471      7.5125E-02
              1.5479E-02
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   296.81     -8      1.000       6.041      0.2701      8.0203E-02
              1.0254E-02
 Number of trials exceeded - last iteration delta =   1.1719E-02
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   296.11     -9      1.000       6.010      0.2486      7.5553E-02
              1.4886E-02
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   296.07     -3      1.000       6.037      0.2671      7.9612E-02
              1.0811E-02
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   295.67     -4      1.000       6.013      0.2502      7.5955E-02
              1.4455E-02
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   295.66     -3      1.000       6.035      0.2651      7.9201E-02
              1.1202E-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      6.03465     +/- 0.18584E-01
    3    3    2       gaussian/b  Sigma     0.265065     +/- 0.16870E-01
    4    4    2       gaussian/b  norm      7.920144E-02 +/- 0.32889E-02
    5    2    3       gaussian/b  LineE      6.64418     = par   2 *  1.1010
    6    3    3       gaussian/b  Sigma     0.278130     = par   3 *  1.0493
    7    5    3       gaussian/b  norm      1.120172E-02 +/- 0.27315E-02
  ---------------------------------------------------------------------------
  ---------------------------------------------------------------------------
 Chi-Squared =      295.7     using    84 PHA bins.
 Reduced chi-squared =      3.743
!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 ad56001010g220170.cal peaks at 6.03465 +/- 0.018584 keV
-> Standard Output From STOOL group_event_files:
1 ad56001010g300170h.unf 66665
1 ad56001010g300270l.unf 66665
1 ad56001010g300370m.unf 66665
-> Fetching GIS3_CALSRC256.2
-> Extracting ad56001010g320170.cal from ad56001010g300170h.unf ad56001010g300270l.unf ad56001010g300370m.unf
-> gis3v4_0.rmf already present in current directory
-> Plotting ad56001010g320170_cal.ps and finding peak
-> Standard Output From STOOL xspec:
 
               XSPEC 9.01 05:16:08  8-Dec-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 ad56001010g320170.cal
 Net count rate (cts/s) for file   1  0.1422    +/-  2.6222E-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 =     1.7000E+06 using    84 PHA bins.
 Reduced chi-squared =     2.2078E+04
!XSPEC> newpar 5 = 2 1.101005
    6 variable fit parameters
 Chi-Squared =     1.6901E+06 using    84 PHA bins.
 Reduced chi-squared =     2.1668E+04
!XSPEC> newpar 6 = 3 1.049288
    5 variable fit parameters
 Chi-Squared =     1.6901E+06 using    84 PHA bins.
 Reduced chi-squared =     2.1394E+04
!XSPEC> renorm
 Chi-Squared =      825.8     using    84 PHA bins.
 Reduced chi-squared =      10.45
!XSPEC> fit
 Chi-Squared  Lvl  Fit param # 1     2           3           4
                 5
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   672.25      0      1.000       5.893      0.1162      2.6442E-02
              2.2200E-02
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   319.80      0      1.000       5.865      0.1623      4.4404E-02
              1.8901E-02
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   174.97     -1      1.000       5.931      0.1694      6.6274E-02
              1.0143E-02
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   168.66     -2      1.000       5.917      0.1499      6.7877E-02
              1.0521E-02
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   168.44     -3      1.000       5.922      0.1527      6.8655E-02
              9.7959E-03
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   168.36     -4      1.000       5.920      0.1499      6.8345E-02
              1.0105E-02
 Due to zero model norms
  fit parameter  1 is temporarily frozen
   168.36     -1      1.000       5.921      0.1507      6.8447E-02
              9.9975E-03
  ---------------------------------------------------------------------------
  ---------------------------------------------------------------------------
  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      5.92071     +/- 0.10163E-01
    3    3    2       gaussian/b  Sigma     0.150667     +/- 0.12672E-01
    4    4    2       gaussian/b  norm      6.844669E-02 +/- 0.21420E-02
    5    2    3       gaussian/b  LineE      6.51873     = par   2 *  1.1010
    6    3    3       gaussian/b  Sigma     0.158093     = par   3 *  1.0493
    7    5    3       gaussian/b  norm      9.997527E-03 +/- 0.13031E-02
  ---------------------------------------------------------------------------
  ---------------------------------------------------------------------------
 Chi-Squared =      168.4     using    84 PHA bins.
 Reduced chi-squared =      2.131
!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 ad56001010g320170.cal peaks at 5.92071 +/- 0.010163 keV

Extracting bright and dark Earth event files. ( 05:16:18 )

-> Extracting bright and dark Earth events from ad56001010s000102h.unf
-> Extracting ad56001010s000102h.drk
-> Cleaning hot pixels from ad56001010s000102h.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: ad56001010s000102h.drk
    reading data file: event.tmp
    copying primary header to output file...
    making chip image...
 
 Total counts in chip images :         6970
 
    copy bad pix array...
cleaning chip # 0
cleaning chip # 1
 Hot pixels & counts                   :              68        3443
 Flickering pixels iter, pixels & cnts :   1          41         376
cleaning chip # 2
 Hot pixels & counts                   :              52        2812
 Flickering pixels iter, pixels & cnts :   1          23         226
cleaning chip # 3
 
 Number of pixels rejected           :          184
 Number of (internal) image counts   :         6970
 Number of image cts rejected (N, %) :         685798.38
 
         By chip   :             0            1            2            3
 
 Pixels rejected   :             0          109           75            0
 
 Image counts      :             0         3880         3090            0
 Image cts rejected:             0         3819         3038            0
 Image cts rej (%) :          0.00        98.43        98.32         0.00
 
    filtering data...
 
 Total counts      :             0         3880         3090            0
 Total cts rejected:             0         3819         3038            0
 Total cts rej (%) :          0.00        98.43        98.32         0.00
 
 Number of clean counts accepted  :          113
 
    writing history cards...
    copying extensions...
    writing out hot pixs...
 
 Number of rejected pixels        :          184
 
    updating NEVENTS keywords...
    closing data file...
    closing clean file...
-> Extracting bright and dark Earth events from ad56001010s000112h.unf
-> Extracting ad56001010s000112h.drk
-> Cleaning hot pixels from ad56001010s000112h.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: ad56001010s000112h.drk
    reading data file: event.tmp
    copying primary header to output file...
    making chip image...
 
 Total counts in chip images :         6984
 
    copy bad pix array...
cleaning chip # 0
cleaning chip # 1
 Hot pixels & counts                   :              68        3443
 Flickering pixels iter, pixels & cnts :   1          41         377
cleaning chip # 2
 Hot pixels & counts                   :              52        2813
 Flickering pixels iter, pixels & cnts :   1          23         227
cleaning chip # 3
 
 Number of pixels rejected           :          184
 Number of (internal) image counts   :         6984
 Number of image cts rejected (N, %) :         686098.22
 
         By chip   :             0            1            2            3
 
 Pixels rejected   :             0          109           75            0
 
 Image counts      :             0         3886         3098            0
 Image cts rejected:             0         3820         3040            0
 Image cts rej (%) :          0.00        98.30        98.13         0.00
 
    filtering data...
 
 Total counts      :             0         3886         3098            0
 Total cts rejected:             0         3820         3040            0
 Total cts rej (%) :          0.00        98.30        98.13         0.00
 
 Number of clean counts accepted  :          124
 
    writing history cards...
    copying extensions...
    writing out hot pixs...
 
 Number of rejected pixels        :          184
 
    updating NEVENTS keywords...
    closing data file...
    closing clean file...
-> Extracting bright and dark Earth events from ad56001010s000202h.unf
-> Extracting ad56001010s000202h.drk
-> Cleaning hot pixels from ad56001010s000202h.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: ad56001010s000202h.drk
    reading data file: event.tmp
    copying primary header to output file...
    making chip image...
 
 Total counts in chip images :         1508
 
    copy bad pix array...
cleaning chip # 0
cleaning chip # 1
 Hot pixels & counts                   :               0           0
 Flickering pixels iter, pixels & cnts :   1         112         748
cleaning chip # 2
 Hot pixels & counts                   :               0           0
 Flickering pixels iter, pixels & cnts :   1          67         378
cleaning chip # 3
 
 Number of pixels rejected           :          179
 Number of (internal) image counts   :         1508
 Number of image cts rejected (N, %) :         112674.67
 
         By chip   :             0            1            2            3
 
 Pixels rejected   :             0          112           67            0
 
 Image counts      :             0          941          567            0
 Image cts rejected:             0          748          378            0
 Image cts rej (%) :          0.00        79.49        66.67         0.00
 
    filtering data...
 
 Total counts      :             0          941          567            0
 Total cts rejected:             0          748          378            0
 Total cts rej (%) :          0.00        79.49        66.67         0.00
 
 Number of clean counts accepted  :          382
 
    writing history cards...
    copying extensions...
    writing out hot pixs...
 
 Number of rejected pixels        :          179
 
    updating NEVENTS keywords...
    closing data file...
    closing clean file...
-> Extracting bright and dark Earth events from ad56001010s000212h.unf
-> Extracting ad56001010s000212h.drk
-> Cleaning hot pixels from ad56001010s000212h.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: ad56001010s000212h.drk
    reading data file: event.tmp
    copying primary header to output file...
    making chip image...
 
 Total counts in chip images :         1522
 
    copy bad pix array...
cleaning chip # 0
cleaning chip # 1
 Hot pixels & counts                   :               0           0
 Flickering pixels iter, pixels & cnts :   1         113         751
cleaning chip # 2
 Hot pixels & counts                   :               0           0
 Flickering pixels iter, pixels & cnts :   1          68         384
cleaning chip # 3
 
 Number of pixels rejected           :          181
 Number of (internal) image counts   :         1522
 Number of image cts rejected (N, %) :         113574.57
 
         By chip   :             0            1            2            3
 
 Pixels rejected   :             0          113           68            0
 
 Image counts      :             0          945          577            0
 Image cts rejected:             0          751          384            0
 Image cts rej (%) :          0.00        79.47        66.55         0.00
 
    filtering data...
 
 Total counts      :             0          945          577            0
 Total cts rejected:             0          751          384            0
 Total cts rej (%) :          0.00        79.47        66.55         0.00
 
 Number of clean counts accepted  :          387
 
    writing history cards...
    copying extensions...
    writing out hot pixs...
 
 Number of rejected pixels        :          181
 
    updating NEVENTS keywords...
    closing data file...
    closing clean file...
-> Extracting bright and dark Earth events from ad56001010s000302h.unf
-> Extracting ad56001010s000302h.drk
-> Cleaning hot pixels from ad56001010s000302h.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: ad56001010s000302h.drk
    reading data file: event.tmp
    copying primary header to output file...
    making chip image...
 
 Total counts in chip images :        11732
 
    copy bad pix array...
cleaning chip # 0
cleaning chip # 1
 Hot pixels & counts                   :              66        5734
 Flickering pixels iter, pixels & cnts :   1          40         475
cleaning chip # 2
 Hot pixels & counts                   :              51        4995
 Flickering pixels iter, pixels & cnts :   1          31         338
cleaning chip # 3
 
 Number of pixels rejected           :          188
 Number of (internal) image counts   :        11732
 Number of image cts rejected (N, %) :        1154298.38
 
         By chip   :             0            1            2            3
 
 Pixels rejected   :             0          106           82            0
 
 Image counts      :             0         6311         5421            0
 Image cts rejected:             0         6209         5333            0
 Image cts rej (%) :          0.00        98.38        98.38         0.00
 
    filtering data...
 
 Total counts      :             0         6311         5421            0
 Total cts rejected:             0         6209         5333            0
 Total cts rej (%) :          0.00        98.38        98.38         0.00
 
 Number of clean counts accepted  :          190
 
    writing history cards...
    copying extensions...
    writing out hot pixs...
 
 Number of rejected pixels        :          188
 
    updating NEVENTS keywords...
    closing data file...
    closing clean file...
-> Extracting bright and dark Earth events from ad56001010s000312h.unf
-> Extracting ad56001010s000312h.drk
-> Cleaning hot pixels from ad56001010s000312h.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: ad56001010s000312h.drk
    reading data file: event.tmp
    copying primary header to output file...
    making chip image...
 
 Total counts in chip images :        11751
 
    copy bad pix array...
cleaning chip # 0
cleaning chip # 1
 Hot pixels & counts                   :              66        5734
 Flickering pixels iter, pixels & cnts :   1          40         475
cleaning chip # 2
 Hot pixels & counts                   :              51        4998
 Flickering pixels iter, pixels & cnts :   1          31         338
cleaning chip # 3
 
 Number of pixels rejected           :          188
 Number of (internal) image counts   :        11751
 Number of image cts rejected (N, %) :        1154598.25
 
         By chip   :             0            1            2            3
 
 Pixels rejected   :             0          106           82            0
 
 Image counts      :             0         6321         5430            0
 Image cts rejected:             0         6209         5336            0
 Image cts rej (%) :          0.00        98.23        98.27         0.00
 
    filtering data...
 
 Total counts      :             0         6321         5430            0
 Total cts rejected:             0         6209         5336            0
 Total cts rej (%) :          0.00        98.23        98.27         0.00
 
 Number of clean counts accepted  :          206
 
    writing history cards...
    copying extensions...
    writing out hot pixs...
 
 Number of rejected pixels        :          188
 
    updating NEVENTS keywords...
    closing data file...
    closing clean file...
-> Extracting bright and dark Earth events from ad56001010s000402h.unf
-> Extracting ad56001010s000402h.drk
-> Deleting ad56001010s000402h.drk since it contains 0 events
-> Extracting bright and dark Earth events from ad56001010s000412h.unf
-> Extracting ad56001010s000412h.drk
-> Deleting ad56001010s000412h.drk since it contains 0 events
-> Extracting bright and dark Earth events from ad56001010s000702l.unf
-> Extracting ad56001010s000702l.drk
-> Cleaning hot pixels from ad56001010s000702l.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: ad56001010s000702l.drk
    reading data file: event.tmp
    copying primary header to output file...
    making chip image...
 
 Total counts in chip images :         2244
 
    copy bad pix array...
cleaning chip # 0
cleaning chip # 1
 Hot pixels & counts                   :               9        1225
 Flickering pixels iter, pixels & cnts :   1           2          12
cleaning chip # 2
 Hot pixels & counts                   :              10         896
 Flickering pixels iter, pixels & cnts :   1           2          13
cleaning chip # 3
 
 Number of pixels rejected           :           23
 Number of (internal) image counts   :         2244
 Number of image cts rejected (N, %) :         214695.63
 
         By chip   :             0            1            2            3
 
 Pixels rejected   :             0           11           12            0
 
 Image counts      :             0         1288          956            0
 Image cts rejected:             0         1237          909            0
 Image cts rej (%) :          0.00        96.04        95.08         0.00
 
    filtering data...
 
 Total counts      :             0         1288          956            0
 Total cts rejected:             0         1237          909            0
 Total cts rej (%) :          0.00        96.04        95.08         0.00
 
 Number of clean counts accepted  :           98
 
    writing history cards...
    copying extensions...
    writing out hot pixs...
 
 Number of rejected pixels        :           23
 
    updating NEVENTS keywords...
    closing data file...
    closing clean file...
-> Extracting bright and dark Earth events from ad56001010s000712l.unf
-> Extracting ad56001010s000712l.drk
-> Cleaning hot pixels from ad56001010s000712l.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: ad56001010s000712l.drk
    reading data file: event.tmp
    copying primary header to output file...
    making chip image...
 
 Total counts in chip images :         2266
 
    copy bad pix array...
cleaning chip # 0
cleaning chip # 1
 Hot pixels & counts                   :               9        1225
 Flickering pixels iter, pixels & cnts :   1           2          12
cleaning chip # 2
 Hot pixels & counts                   :              10         899
 Flickering pixels iter, pixels & cnts :   1           2          13
cleaning chip # 3
 
 Number of pixels rejected           :           23
 Number of (internal) image counts   :         2266
 Number of image cts rejected (N, %) :         214994.84
 
         By chip   :             0            1            2            3
 
 Pixels rejected   :             0           11           12            0
 
 Image counts      :             0         1300          966            0
 Image cts rejected:             0         1237          912            0
 Image cts rej (%) :          0.00        95.15        94.41         0.00
 
    filtering data...
 
 Total counts      :             0         1300          966            0
 Total cts rejected:             0         1237          912            0
 Total cts rej (%) :          0.00        95.15        94.41         0.00
 
 Number of clean counts accepted  :          117
 
    writing history cards...
    copying extensions...
    writing out hot pixs...
 
 Number of rejected pixels        :           23
 
    updating NEVENTS keywords...
    closing data file...
    closing clean file...
-> Extracting bright and dark Earth events from ad56001010s100102h.unf
-> Extracting ad56001010s100102h.drk
-> Cleaning hot pixels from ad56001010s100102h.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: ad56001010s100102h.drk
    reading data file: event.tmp
    copying primary header to output file...
    making chip image...
 
 Total counts in chip images :        17223
 
    copy bad pix array...
cleaning chip # 0
cleaning chip # 1
 Hot pixels & counts                   :             123        7155
 Flickering pixels iter, pixels & cnts :   1          98        1238
cleaning chip # 2
 Hot pixels & counts                   :             120        7279
 Flickering pixels iter, pixels & cnts :   1         100        1233
cleaning chip # 3
 
 Number of pixels rejected           :          441
 Number of (internal) image counts   :        17223
 Number of image cts rejected (N, %) :        1690598.15
 
         By chip   :             0            1            2            3
 
 Pixels rejected   :             0          221          220            0
 
 Image counts      :             0         8564         8659            0
 Image cts rejected:             0         8393         8512            0
 Image cts rej (%) :          0.00        98.00        98.30         0.00
 
    filtering data...
 
 Total counts      :             0         8564         8659            0
 Total cts rejected:             0         8393         8512            0
 Total cts rej (%) :          0.00        98.00        98.30         0.00
 
 Number of clean counts accepted  :          318
 
    writing history cards...
    copying extensions...
    writing out hot pixs...
 
 Number of rejected pixels        :          441
 
    updating NEVENTS keywords...
    closing data file...
    closing clean file...
-> Extracting bright and dark Earth events from ad56001010s100112h.unf
-> Extracting ad56001010s100112h.drk
-> Cleaning hot pixels from ad56001010s100112h.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: ad56001010s100112h.drk
    reading data file: event.tmp
    copying primary header to output file...
    making chip image...
 
 Total counts in chip images :        17357
 
    copy bad pix array...
cleaning chip # 0
cleaning chip # 1
 Hot pixels & counts                   :             123        7206
 Flickering pixels iter, pixels & cnts :   1          98        1264
cleaning chip # 2
 Hot pixels & counts                   :             121        7343
 Flickering pixels iter, pixels & cnts :   1          99        1202
cleaning chip # 3
 
 Number of pixels rejected           :          441
 Number of (internal) image counts   :        17357
 Number of image cts rejected (N, %) :        1701598.03
 
         By chip   :             0            1            2            3
 
 Pixels rejected   :             0          221          220            0
 
 Image counts      :             0         8652         8705            0
 Image cts rejected:             0         8470         8545            0
 Image cts rej (%) :          0.00        97.90        98.16         0.00
 
    filtering data...
 
 Total counts      :             0         8652         8705            0
 Total cts rejected:             0         8470         8545            0
 Total cts rej (%) :          0.00        97.90        98.16         0.00
 
 Number of clean counts accepted  :          342
 
    writing history cards...
    copying extensions...
    writing out hot pixs...
 
 Number of rejected pixels        :          441
 
    updating NEVENTS keywords...
    closing data file...
    closing clean file...
-> Extracting bright and dark Earth events from ad56001010s100202h.unf
-> Extracting ad56001010s100202h.drk
-> Cleaning hot pixels from ad56001010s100202h.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: ad56001010s100202h.drk
    reading data file: event.tmp
    copying primary header to output file...
    making chip image...
 
 Total counts in chip images :        30928
 
    copy bad pix array...
cleaning chip # 0
cleaning chip # 1
 Hot pixels & counts                   :             122       13764
 Flickering pixels iter, pixels & cnts :   1         110        1828
cleaning chip # 2
 Hot pixels & counts                   :             118       13222
 Flickering pixels iter, pixels & cnts :   1          96        1679
cleaning chip # 3
 
 Number of pixels rejected           :          446
 Number of (internal) image counts   :        30928
 Number of image cts rejected (N, %) :        3049398.59
 
         By chip   :             0            1            2            3
 
 Pixels rejected   :             0          232          214            0
 
 Image counts      :             0        15814        15114            0
 Image cts rejected:             0        15592        14901            0
 Image cts rej (%) :          0.00        98.60        98.59         0.00
 
    filtering data...
 
 Total counts      :             0        15814        15114            0
 Total cts rejected:             0        15592        14901            0
 Total cts rej (%) :          0.00        98.60        98.59         0.00
 
 Number of clean counts accepted  :          435
 
    writing history cards...
    copying extensions...
    writing out hot pixs...
 
 Number of rejected pixels        :          446
 
    updating NEVENTS keywords...
    closing data file...
    closing clean file...
-> Extracting bright and dark Earth events from ad56001010s100212h.unf
-> Extracting ad56001010s100212h.drk
-> Cleaning hot pixels from ad56001010s100212h.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: ad56001010s100212h.drk
    reading data file: event.tmp
    copying primary header to output file...
    making chip image...
 
 Total counts in chip images :        31089
 
    copy bad pix array...
cleaning chip # 0
cleaning chip # 1
 Hot pixels & counts                   :             122       13835
 Flickering pixels iter, pixels & cnts :   1         110        1857
cleaning chip # 2
 Hot pixels & counts                   :             119       13306
 Flickering pixels iter, pixels & cnts :   1          95        1629
cleaning chip # 3
 
 Number of pixels rejected           :          446
 Number of (internal) image counts   :        31089
 Number of image cts rejected (N, %) :        3062798.51
 
         By chip   :             0            1            2            3
 
 Pixels rejected   :             0          232          214            0
 
 Image counts      :             0        15926        15163            0
 Image cts rejected:             0        15692        14935            0
 Image cts rej (%) :          0.00        98.53        98.50         0.00
 
    filtering data...
 
 Total counts      :             0        15926        15163            0
 Total cts rejected:             0        15692        14935            0
 Total cts rej (%) :          0.00        98.53        98.50         0.00
 
 Number of clean counts accepted  :          462
 
    writing history cards...
    copying extensions...
    writing out hot pixs...
 
 Number of rejected pixels        :          446
 
    updating NEVENTS keywords...
    closing data file...
    closing clean file...
-> Extracting bright and dark Earth events from ad56001010s100302l.unf
-> Extracting ad56001010s100302l.drk
-> Cleaning hot pixels from ad56001010s100302l.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: ad56001010s100302l.drk
    reading data file: event.tmp
    copying primary header to output file...
    making chip image...
 
 Total counts in chip images :         3865
 
    copy bad pix array...
cleaning chip # 0
cleaning chip # 1
 Hot pixels & counts                   :               9        1962
 Flickering pixels iter, pixels & cnts :   1           5          55
cleaning chip # 2
 Hot pixels & counts                   :              13        1790
 Flickering pixels iter, pixels & cnts :   1           4          21
cleaning chip # 3
 
 Number of pixels rejected           :           31
 Number of (internal) image counts   :         3865
 Number of image cts rejected (N, %) :         382899.04
 
         By chip   :             0            1            2            3
 
 Pixels rejected   :             0           14           17            0
 
 Image counts      :             0         2031         1834            0
 Image cts rejected:             0         2017         1811            0
 Image cts rej (%) :          0.00        99.31        98.75         0.00
 
    filtering data...
 
 Total counts      :             0         2031         1834            0
 Total cts rejected:             0         2017         1811            0
 Total cts rej (%) :          0.00        99.31        98.75         0.00
 
 Number of clean counts accepted  :           37
 
    writing history cards...
    copying extensions...
    writing out hot pixs...
 
 Number of rejected pixels        :           31
 
    updating NEVENTS keywords...
    closing data file...
    closing clean file...
-> Extracting bright and dark Earth events from ad56001010s100312l.unf
-> Extracting ad56001010s100312l.drk
-> Cleaning hot pixels from ad56001010s100312l.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: ad56001010s100312l.drk
    reading data file: event.tmp
    copying primary header to output file...
    making chip image...
 
 Total counts in chip images :         3874
 
    copy bad pix array...
cleaning chip # 0
cleaning chip # 1
 Hot pixels & counts                   :               9        1964
 Flickering pixels iter, pixels & cnts :   1           5          56
cleaning chip # 2
 Hot pixels & counts                   :              13        1790
 Flickering pixels iter, pixels & cnts :   1           4          21
cleaning chip # 3
 
 Number of pixels rejected           :           31
 Number of (internal) image counts   :         3874
 Number of image cts rejected (N, %) :         383198.89
 
         By chip   :             0            1            2            3
 
 Pixels rejected   :             0           14           17            0
 
 Image counts      :             0         2034         1840            0
 Image cts rejected:             0         2020         1811            0
 Image cts rej (%) :          0.00        99.31        98.42         0.00
 
    filtering data...
 
 Total counts      :             0         2034         1840            0
 Total cts rejected:             0         2020         1811            0
 Total cts rej (%) :          0.00        99.31        98.42         0.00
 
 Number of clean counts accepted  :           43
 
    writing history cards...
    copying extensions...
    writing out hot pixs...
 
 Number of rejected pixels        :           31
 
    updating NEVENTS keywords...
    closing data file...
    closing clean file...
-> Extracting bright and dark Earth events from ad56001010s100402m.unf
-> Extracting ad56001010s100402m.drk
-> Deleting ad56001010s100402m.drk since it contains 0 events
-> Extracting bright and dark Earth events from ad56001010s100412m.unf
-> Extracting ad56001010s100412m.drk
-> Deleting ad56001010s100412m.drk since it contains 0 events
-> Extracting bright and dark Earth events from ad56001010g200170h.unf
-> Extracting ad56001010g200170h.drk
-> Extracting ad56001010g200170h.brt
-> Extracting bright and dark Earth events from ad56001010g200270l.unf
-> Extracting ad56001010g200270l.drk
-> Extracting ad56001010g200270l.brt
-> Extracting bright and dark Earth events from ad56001010g200370m.unf
-> Extracting ad56001010g200370m.drk
-> Extracting ad56001010g200370m.brt
-> Extracting bright and dark Earth events from ad56001010g300170h.unf
-> Extracting ad56001010g300170h.drk
-> Extracting ad56001010g300170h.brt
-> Extracting bright and dark Earth events from ad56001010g300270l.unf
-> Extracting ad56001010g300270l.drk
-> Extracting ad56001010g300270l.brt
-> Extracting bright and dark Earth events from ad56001010g300370m.unf
-> Extracting ad56001010g300370m.drk
-> Extracting ad56001010g300370m.brt

Determining information about this observation ( 05:30:42 )

-> 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 ( 05:31:46 )

-> Summing time and events for s0 event files
-> Standard Output From STOOL get_uniq_keys:
ad56001010s000102h.unf|S0_ARENA|0|S0 Area discrimination enable/disable
ad56001010s000202h.unf|S0_ARENA|1|S0 Area discrimination enable/disable
ad56001010s000302h.unf|S0_ARENA|0|S0 Area discrimination enable/disable
ad56001010s000402h.unf|S0_ARENA|1|S0 Area discrimination enable/disable
ad56001010s000102h.unf|S0_LVDL1|197|S0 event discrimination lower level for ccd 1
ad56001010s000202h.unf|S0_LVDL1|309|S0 event discrimination lower level for ccd 1
ad56001010s000302h.unf|S0_LVDL1|309|S0 event discrimination lower level for ccd 1
ad56001010s000402h.unf|S0_LVDL1|197|S0 event discrimination lower level for ccd 1
ad56001010s000102h.unf|S0_LVDL2|214|S0 event discrimination lower level for ccd 2
ad56001010s000202h.unf|S0_LVDL2|336|S0 event discrimination lower level for ccd 2
ad56001010s000302h.unf|S0_LVDL2|336|S0 event discrimination lower level for ccd 2
ad56001010s000402h.unf|S0_LVDL2|214|S0 event discrimination lower level for ccd 2
-> listing ad56001010s000102h.unf
-> listing ad56001010s000202h.unf
-> listing ad56001010s000302h.unf
-> listing ad56001010s000402h.unf
-> listing ad56001010s000702l.unf
-> Standard Output From STOOL get_uniq_keys:
ad56001010s000112h.unf|S0_ARENA|0|S0 Area discrimination enable/disable
ad56001010s000212h.unf|S0_ARENA|1|S0 Area discrimination enable/disable
ad56001010s000312h.unf|S0_ARENA|0|S0 Area discrimination enable/disable
ad56001010s000412h.unf|S0_ARENA|1|S0 Area discrimination enable/disable
ad56001010s000112h.unf|S0_LVDL1|197|S0 event discrimination lower level for ccd 1
ad56001010s000212h.unf|S0_LVDL1|309|S0 event discrimination lower level for ccd 1
ad56001010s000312h.unf|S0_LVDL1|309|S0 event discrimination lower level for ccd 1
ad56001010s000412h.unf|S0_LVDL1|197|S0 event discrimination lower level for ccd 1
ad56001010s000112h.unf|S0_LVDL2|214|S0 event discrimination lower level for ccd 2
ad56001010s000212h.unf|S0_LVDL2|336|S0 event discrimination lower level for ccd 2
ad56001010s000312h.unf|S0_LVDL2|336|S0 event discrimination lower level for ccd 2
ad56001010s000412h.unf|S0_LVDL2|214|S0 event discrimination lower level for ccd 2
-> listing ad56001010s000112h.unf
-> listing ad56001010s000212h.unf
-> listing ad56001010s000312h.unf
-> listing ad56001010s000412h.unf
-> listing ad56001010s000712l.unf
-> Standard Output From STOOL get_uniq_keys:
ad56001010s000101h.unf|S0_ARENA|0|S0 Area discrimination enable/disable
ad56001010s000201h.unf|S0_ARENA|1|S0 Area discrimination enable/disable
ad56001010s000301h.unf|S0_ARENA|0|S0 Area discrimination enable/disable
ad56001010s000401h.unf|S0_ARENA|1|S0 Area discrimination enable/disable
ad56001010s000101h.unf|S0_LVDL1|197|S0 event discrimination lower level for ccd 1
ad56001010s000201h.unf|S0_LVDL1|309|S0 event discrimination lower level for ccd 1
ad56001010s000301h.unf|S0_LVDL1|309|S0 event discrimination lower level for ccd 1
ad56001010s000401h.unf|S0_LVDL1|197|S0 event discrimination lower level for ccd 1
ad56001010s000101h.unf|S0_LVDL2|214|S0 event discrimination lower level for ccd 2
ad56001010s000201h.unf|S0_LVDL2|336|S0 event discrimination lower level for ccd 2
ad56001010s000301h.unf|S0_LVDL2|336|S0 event discrimination lower level for ccd 2
ad56001010s000401h.unf|S0_LVDL2|214|S0 event discrimination lower level for ccd 2
-> listing ad56001010s000101h.unf
-> listing ad56001010s000201h.unf
-> listing ad56001010s000301h.unf
-> listing ad56001010s000401h.unf
-> Standard Output From STOOL get_uniq_keys:
ad56001010s000601m.unf|S0_LVDL1|197|S0 event discrimination lower level for ccd 1
ad56001010s000801m.unf|S0_LVDL1|309|S0 event discrimination lower level for ccd 1
ad56001010s000601m.unf|S0_LVDL2|214|S0 event discrimination lower level for ccd 2
ad56001010s000801m.unf|S0_LVDL2|336|S0 event discrimination lower level for ccd 2
-> listing ad56001010s000601m.unf
-> listing ad56001010s000801m.unf
-> Standard Output From STOOL get_uniq_keys:
ad56001010s000501l.unf|S0_ARENA|1|S0 Area discrimination enable/disable
ad56001010s000701l.unf|S0_ARENA|0|S0 Area discrimination enable/disable
-> listing ad56001010s000501l.unf
-> listing ad56001010s000701l.unf
-> Summing time and events for s1 event files
-> Standard Output From STOOL get_uniq_keys:
ad56001010s100102h.unf|S1_LVDL1|215|S1 event discrimination lower level for ccd 1
ad56001010s100202h.unf|S1_LVDL1|338|S1 event discrimination lower level for ccd 1
ad56001010s100102h.unf|S1_LVDL2|200|S1 event discrimination lower level for ccd 2
ad56001010s100202h.unf|S1_LVDL2|314|S1 event discrimination lower level for ccd 2
-> listing ad56001010s100102h.unf
-> listing ad56001010s100202h.unf
-> listing ad56001010s100402m.unf
-> listing ad56001010s100302l.unf
-> Standard Output From STOOL get_uniq_keys:
ad56001010s100112h.unf|S1_LVDL1|215|S1 event discrimination lower level for ccd 1
ad56001010s100212h.unf|S1_LVDL1|338|S1 event discrimination lower level for ccd 1
ad56001010s100112h.unf|S1_LVDL2|200|S1 event discrimination lower level for ccd 2
ad56001010s100212h.unf|S1_LVDL2|314|S1 event discrimination lower level for ccd 2
-> listing ad56001010s100112h.unf
-> listing ad56001010s100212h.unf
-> listing ad56001010s100412m.unf
-> listing ad56001010s100312l.unf
-> Standard Output From STOOL get_uniq_keys:
ad56001010s100101h.unf|S1_LVDL1|215|S1 event discrimination lower level for ccd 1
ad56001010s100201h.unf|S1_LVDL1|338|S1 event discrimination lower level for ccd 1
ad56001010s100101h.unf|S1_LVDL2|200|S1 event discrimination lower level for ccd 2
ad56001010s100201h.unf|S1_LVDL2|314|S1 event discrimination lower level for ccd 2
-> listing ad56001010s100101h.unf
-> listing ad56001010s100201h.unf
-> Standard Output From STOOL get_uniq_keys:
ad56001010s100401m.unf|S1_LVDL1|215|S1 event discrimination lower level for ccd 1
ad56001010s100501m.unf|S1_LVDL1|338|S1 event discrimination lower level for ccd 1
ad56001010s100401m.unf|S1_LVDL2|200|S1 event discrimination lower level for ccd 2
ad56001010s100501m.unf|S1_LVDL2|314|S1 event discrimination lower level for ccd 2
-> listing ad56001010s100401m.unf
-> listing ad56001010s100501m.unf
-> listing ad56001010s100301l.unf
-> Summing time and events for g2 event files
-> listing ad56001010g200170h.unf
-> listing ad56001010g200370m.unf
-> listing ad56001010g200270l.unf
-> Summing time and events for g3 event files
-> listing ad56001010g300170h.unf
-> listing ad56001010g300370m.unf
-> listing ad56001010g300270l.unf

Creating sequence documentation ( 05:39:03 )

-> Standard Output From STOOL telemgap:
1926 640
3697 68
5899 70
8179 96
1

Creating HTML source list ( 05:39:50 )


Listing the files for distribution ( 05:41:12 )

-> Saving job.par as ad56001010_002_job.par and process.par as ad56001010_002_process.par
-> Creating the FITS format file catalog ad56001010_tape.cat
-> Creating the trend product catalog
-> Creating the FITS format file catalog ad56001010_trend.cat
-> Creating ad56001010_002_file_info.html

Doing final wrap up of all files ( 05:48:54 )

-> 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.
-> Doing inventory of all files

Processing complete ( 06:12:09 )