The following information is also available:
Time column is TIME ORDERED-> Determining observation start and end
Offset of 152892611.305000 from 1993-01-01 00:00:00 is date and time (including leapseconds) = 1997-11-05 14:10:07.30500 Modified Julian Day = 50757.590362326387549-> leapsec.fits already present in current directory
Offset of 152927427.201400 from 1993-01-01 00:00:00 is date and time (including leapseconds) = 1997-11-05 23:50:23.20140 Modified Julian Day = 50757.993324090275564-> Observation begins 152892611.3050 1997-11-05 14:10:07
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 : 152892611.304900 152927427.201400
Data file start and stop ascatime : 152892611.304900 152927427.201400
Aspecting run start and stop ascatime : 152892611.305006 152927427.201296
Time interval averaged over (seconds) : 34815.896291
Total pointing and manuver time (sec) : 22190.982422 12624.985352
Mean boresight Euler angles : 295.380792 67.238288 191.670940
RA DEC SUN ANGLE
Mean solar position (deg) : 219.96 -15.56
Mean aberration (arcsec) : -7.09 12.70
Mean sat X-axis (deg) : 143.478041 64.562923 98.37
Mean sat Y-axis (deg) : 209.950070 -10.750733 10.86
Mean sat Z-axis (deg) : 295.380792 22.761713 83.12
RA DEC ROLL OFFSET
(deg) (deg) (deg) (arcmin)
Average 295.143036 22.580959 101.763359 0.528518
Minimum 295.136047 22.517570 101.753365 0.016168
Maximum 295.219666 22.616302 101.885048 5.624584
Sigma (RMS) 0.001778 0.001678 0.020927 1.168547
Number of ASPECT records processed = 36540
Aspecting to RA/DEC : 295.14303589 22.58095932
closing output file...
closing attitude file...
-> Standard Output From STOOL checkatt:
Opening file: ./out.tmp
***************** Observation Info ******************
RA (J2000 deg): 295.143 DEC: 22.581
START TIME: SC 152892611.3050 = UT 1997-11-05 14:10:11
****** 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
0.500123 5.509 8203 1 1 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0
523.998413 5.539 DC88C3 1 1 0 0 0 0 1 1 0 0 0 1 0 0 0 4 3
885.997375 4.530 8803 1 1 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0
945.997314 3.527 8803 1 1 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0
1013.997070 2.526 8803 1 1 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0
1112.496826 1.521 8803 1 1 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0
1451.995850 0.514 DC88C3 1 1 0 0 0 0 1 1 0 0 0 1 0 0 0 4 3
2667.992188 0.079 1C8443 1 1 0 0 0 0 1 0 0 0 1 0 0 0 0 4 3
6267.981445 0.267 8803 1 1 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0
8395.975586 0.255 8403 1 1 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0
12043.964844 0.403 DC88C3 1 1 0 0 0 0 1 1 0 0 0 1 0 0 0 4 3
14155.958008 0.321 1C8443 1 1 0 0 0 0 1 0 0 0 1 0 0 0 0 4 3
17803.947266 0.402 DC88C3 1 1 0 0 0 0 1 1 0 0 0 1 0 0 0 4 3
19881.941406 0.212 8403 1 1 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0
23499.929688 0.287 9888C3 1 1 0 0 0 0 1 1 0 0 0 1 0 0 0 0 3
25641.923828 0.174 8403 1 1 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0
29243.914062 0.172 8803 1 1 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0
31367.906250 0.153 8403 1 1 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0
34815.894531 2.257 9203 1 1 0 0 0 0 0 0 0 1 0 0 1 0 0 0 0
Attitude Records: 36540
Attitude Steps: 19
Maneuver ACM time: 12625.0 sec
Pointed ACM time: 22191.0 sec
-> Calculating aspect point91 93 count=7056 sum1=2.08417e+06 sum2=474412 sum3=1.35241e+06 91 94 count=145 sum1=42829.5 sum2=9749.67 sum3=27791.5 92 93 count=25096 sum1=7.41283e+06 sum2=1.68735e+06 sum3=4.81006e+06 92 94 count=776 sum1=229216 sum2=52176.9 sum3=148732 93 90 count=1 sum1=295.395 sum2=67.203 sum3=191.707 93 94 count=991 sum1=292730 sum2=66633.8 sum3=189939 94 94 count=139 sum1=41060.4 sum2=9347.01 sum3=26642 94 95 count=134 sum1=39584 sum2=9011.35 sum3=25684.3 95 95 count=91 sum1=26882.2 sum2=6120.1 sum3=17442.8 95 96 count=67 sum1=19792.7 sum2=4506.34 sum3=12842.9 96 96 count=75 sum1=22156.5 sum2=5044.82 sum3=14376.8 96 97 count=39 sum1=11521.6 sum2=2623.51 sum3=7476.21 97 97 count=54 sum1=15953.2 sum2=3632.78 sum3=10352.1 97 98 count=51 sum1=15067.1 sum2=3431.24 sum3=9777.4 98 98 count=43 sum1=12703.9 sum2=2893.22 sum3=8244.09 98 99 count=50 sum1=14772.2 sum2=3364.47 sum3=9586.62 99 99 count=48 sum1=14181.5 sum2=3230.13 sum3=9203.88 99 100 count=1578 sum1=466226 sum2=106200 sum3=302601 100 99 count=7 sum1=2068.19 sum2=471.072 sum3=1342.55 100 100 count=99 sum1=29250.2 sum2=6662.45 sum3=18986.9 0 out of 36540 points outside bin structure-> Euler angles: 295.378, 67.2358, 191.667
Interpolating 5 records in time interval 152927419.201 - 152927427.201
Dropped 1st C0 read after clocking change in ft971105_1410_2350S000301M.fits Dropped 1st C1 read after clocking change in ft971105_1410_2350S000301M.fits Dropped 1st C2 read after clocking change in ft971105_1410_2350S000301M.fits Dropped 1st C3 read after clocking change in ft971105_1410_2350S000301M.fits Dropping SF 802 with synch code word 0 = 255 not 250 Dropping SF 901 with inconsistent datamode 0/31 Dropping SF 973 with corrupted frame indicator Dropped 1st C1 read after clocking change in ft971105_1410_2350S000601M.fits 607.998 second gap between superframes 1121 and 1122 39.9998 second gap between superframes 3136 and 3137 Warning: GIS2 bit assignment changed between 152912381.24648 and 152912383.24647 Warning: GIS3 bit assignment changed between 152912389.24646 and 152912391.24645 Warning: GIS2 bit assignment changed between 152912399.24643 and 152912401.24642 Warning: GIS3 bit assignment changed between 152912407.2464 and 152912409.2464 Dropping SF 3477 with corrupted frame indicator Dropping SF 3479 with inconsistent datamode 0/31 Dropped 1st C2 read after clocking change in ft971105_1410_2350S102401H.fits Dropped 1st C3 read after clocking change in ft971105_1410_2350S102401H.fits Dropped 1st C0 read after clocking change in ft971105_1410_2350S102401H.fits Dropped 1st C1 read after clocking change in ft971105_1410_2350S102401H.fits Dropped 1st C1 read after clocking change in ft971105_1410_2350S102601H.fits 110 second gap between superframes 5445 and 5446 GIS3 coordinate error time=152918257.24552 x=0 y=0 pha=384 rise=0 GIS2 coordinate error time=152918257.28458 x=0 y=0 pha=152 rise=0 SIS1 peak error time=152918249.10392 x=148 y=27 ph0=181 ph6=3605 ph7=2456 ph8=1670 SIS1 peak error time=152918249.10392 x=141 y=189 ph0=178 ph7=2383 ph8=778 SIS1 coordinate error time=152918249.10392 x=429 y=151 pha[0]=3668 chip=0 SIS1 peak error time=152918249.10392 x=31 y=299 ph0=1020 ph1=3399 ph2=3312 ph5=2977 ph6=4012 ph7=1114 ph8=1301 SIS1 coordinate error time=152918249.10392 x=43 y=0 pha[0]=0 chip=2 Dropping SF 5793 with synch code word 0 = 3 not 250 1.99999 second gap between superframes 6806 and 6807 Dropped 1st C2 read after clocking change in ft971105_1410_2350S003001H.fits Dropped 1st C1 read after clocking change in ft971105_1410_2350S003001H.fits Dropped 1st C1 read after clocking change in ft971105_1410_2350S003201H.fits 81.9997 second gap between superframes 7758 and 7759 SIS1 coordinate error time=152924633.0848 x=410 y=489 pha[0]=1305 chip=0 SIS1 peak error time=152924633.0848 x=410 y=489 ph0=1305 ph1=2396 ph2=2688 ph7=2752 SIS1 coordinate error time=152924633.0848 x=10 y=496 pha[0]=1984 chip=0 SIS1 peak error time=152924633.0848 x=10 y=496 ph0=1984 ph1=2158 ph2=3520 ph7=2752 Dropping SF 7926 with inconsistent datamode 0/31 Dropping SF 7928 with inconsistent datamode 0/31 SIS0 peak error time=152924669.0847 x=103 y=320 ph0=0 ph6=646 ph7=1482 ph8=2626 SIS0 coordinate error time=152924669.0847 x=0 y=21 pha[0]=414 chip=0 SIS0 peak error time=152924669.0847 x=0 y=21 ph0=414 ph1=1984 Dropping SF 8112 with inconsistent datamode 0/31 9147 of 9156 super frames processed-> Removing the following files with NEVENTS=0
ft971105_1410_2350G200170H.fits[0] ft971105_1410_2350G200270H.fits[0] ft971105_1410_2350G200370H.fits[0] ft971105_1410_2350G200470H.fits[0] ft971105_1410_2350G201270H.fits[0] ft971105_1410_2350G201670M.fits[0] ft971105_1410_2350G201770L.fits[0] ft971105_1410_2350G201870L.fits[0] ft971105_1410_2350G201970M.fits[0] ft971105_1410_2350G202570H.fits[0] ft971105_1410_2350G202970H.fits[0] ft971105_1410_2350G203070L.fits[0] ft971105_1410_2350G203170L.fits[0] ft971105_1410_2350G203270M.fits[0] ft971105_1410_2350G204270H.fits[0] ft971105_1410_2350G204370L.fits[0] ft971105_1410_2350G204470M.fits[0] ft971105_1410_2350G204570M.fits[0] ft971105_1410_2350G204670M.fits[0] ft971105_1410_2350G204770M.fits[0] ft971105_1410_2350G205470H.fits[0] ft971105_1410_2350G205570H.fits[0] ft971105_1410_2350G205670H.fits[0] ft971105_1410_2350G205770H.fits[0] ft971105_1410_2350G205870H.fits[0] ft971105_1410_2350G206370H.fits[0] ft971105_1410_2350G206470H.fits[0] ft971105_1410_2350G206570M.fits[0] ft971105_1410_2350G206670M.fits[0] ft971105_1410_2350G206770H.fits[0] ft971105_1410_2350G206870H.fits[0] ft971105_1410_2350G206970H.fits[0] ft971105_1410_2350G207070H.fits[0] ft971105_1410_2350G207670H.fits[0] ft971105_1410_2350G207770H.fits[0] ft971105_1410_2350G207870M.fits[0] ft971105_1410_2350G207970M.fits[0] ft971105_1410_2350G208070H.fits[0] ft971105_1410_2350G208170H.fits[0] ft971105_1410_2350G208270H.fits[0] ft971105_1410_2350G208370H.fits[0] ft971105_1410_2350G208670H.fits[0] ft971105_1410_2350G209070H.fits[0] ft971105_1410_2350G209170H.fits[0] ft971105_1410_2350G209270M.fits[0] ft971105_1410_2350G209370M.fits[0] ft971105_1410_2350G300170H.fits[0] ft971105_1410_2350G300270H.fits[0] ft971105_1410_2350G300370H.fits[0] ft971105_1410_2350G301570M.fits[0] ft971105_1410_2350G301670M.fits[0] ft971105_1410_2350G301770L.fits[0] ft971105_1410_2350G301870L.fits[0] ft971105_1410_2350G301970M.fits[0] ft971105_1410_2350G302970H.fits[0] ft971105_1410_2350G303070L.fits[0] ft971105_1410_2350G303170L.fits[0] ft971105_1410_2350G303270M.fits[0] ft971105_1410_2350G304170H.fits[0] ft971105_1410_2350G304270H.fits[0] ft971105_1410_2350G304370L.fits[0] ft971105_1410_2350G304470M.fits[0] ft971105_1410_2350G304570M.fits[0] ft971105_1410_2350G304670M.fits[0] ft971105_1410_2350G304770M.fits[0] ft971105_1410_2350G305470H.fits[0] ft971105_1410_2350G305570H.fits[0] ft971105_1410_2350G305670H.fits[0] ft971105_1410_2350G305770H.fits[0] ft971105_1410_2350G305870H.fits[0] ft971105_1410_2350G305970H.fits[0] ft971105_1410_2350G306170H.fits[0] ft971105_1410_2350G306270H.fits[0] ft971105_1410_2350G306370M.fits[0] ft971105_1410_2350G306470M.fits[0] ft971105_1410_2350G306570H.fits[0] ft971105_1410_2350G306670H.fits[0] ft971105_1410_2350G306770H.fits[0] ft971105_1410_2350G306870H.fits[0] ft971105_1410_2350G306970H.fits[0] ft971105_1410_2350G307670H.fits[0] ft971105_1410_2350G307770H.fits[0] ft971105_1410_2350G307870M.fits[0] ft971105_1410_2350G307970M.fits[0] ft971105_1410_2350G308070H.fits[0] ft971105_1410_2350G308170H.fits[0] ft971105_1410_2350G308270H.fits[0] ft971105_1410_2350G308370H.fits[0] ft971105_1410_2350G308470H.fits[0] ft971105_1410_2350G308570H.fits[0] ft971105_1410_2350G309070H.fits[0] ft971105_1410_2350G309170H.fits[0] ft971105_1410_2350G309270M.fits[0] ft971105_1410_2350G309370M.fits[0] ft971105_1410_2350S002401H.fits[0] ft971105_1410_2350S002801M.fits[0] ft971105_1410_2350S100301H.fits[0] ft971105_1410_2350S102201H.fits[0] ft971105_1410_2350S102801M.fits[0]-> Checking for empty GTI extensions
ft971105_1410_2350S000101H.fits[2] ft971105_1410_2350S000201M.fits[2] ft971105_1410_2350S000301M.fits[2] ft971105_1410_2350S000401H.fits[2] ft971105_1410_2350S000501M.fits[2] ft971105_1410_2350S000601M.fits[2] ft971105_1410_2350S000701L.fits[2] ft971105_1410_2350S000801M.fits[2] ft971105_1410_2350S000901L.fits[2] ft971105_1410_2350S001001H.fits[2] ft971105_1410_2350S001101L.fits[2] ft971105_1410_2350S001201L.fits[2] ft971105_1410_2350S001301L.fits[2] ft971105_1410_2350S001401M.fits[2] ft971105_1410_2350S001501L.fits[2] ft971105_1410_2350S001601H.fits[2] ft971105_1410_2350S001701L.fits[2] ft971105_1410_2350S001801L.fits[2] ft971105_1410_2350S001901L.fits[2] ft971105_1410_2350S002001M.fits[2] ft971105_1410_2350S002101H.fits[2] ft971105_1410_2350S002201M.fits[2] ft971105_1410_2350S002301M.fits[2] ft971105_1410_2350S002501H.fits[2] ft971105_1410_2350S002601H.fits[2] ft971105_1410_2350S002701M.fits[2] ft971105_1410_2350S002901H.fits[2] ft971105_1410_2350S003001H.fits[2] ft971105_1410_2350S003101H.fits[2] ft971105_1410_2350S003201H.fits[2] ft971105_1410_2350S003301M.fits[2] ft971105_1410_2350S003401M.fits[2]-> Merging GTIs from the following files:
ft971105_1410_2350S100101H.fits[2] ft971105_1410_2350S100201M.fits[2] ft971105_1410_2350S100401M.fits[2] ft971105_1410_2350S100501L.fits[2] ft971105_1410_2350S100601M.fits[2] ft971105_1410_2350S100701L.fits[2] ft971105_1410_2350S100801H.fits[2] ft971105_1410_2350S100901L.fits[2] ft971105_1410_2350S101001L.fits[2] ft971105_1410_2350S101101L.fits[2] ft971105_1410_2350S101201M.fits[2] ft971105_1410_2350S101301L.fits[2] ft971105_1410_2350S101401H.fits[2] ft971105_1410_2350S101501L.fits[2] ft971105_1410_2350S101601L.fits[2] ft971105_1410_2350S101701L.fits[2] ft971105_1410_2350S101801M.fits[2] ft971105_1410_2350S101901H.fits[2] ft971105_1410_2350S102001M.fits[2] ft971105_1410_2350S102101M.fits[2] ft971105_1410_2350S102301H.fits[2] ft971105_1410_2350S102401H.fits[2] ft971105_1410_2350S102501H.fits[2] ft971105_1410_2350S102601H.fits[2] ft971105_1410_2350S102701M.fits[2] ft971105_1410_2350S102901H.fits[2] ft971105_1410_2350S103001H.fits[2] ft971105_1410_2350S103101M.fits[2] ft971105_1410_2350S103201M.fits[2]-> Merging GTIs from the following files:
ft971105_1410_2350G200570H.fits[2] ft971105_1410_2350G200670H.fits[2] ft971105_1410_2350G200770H.fits[2] ft971105_1410_2350G200870M.fits[2] ft971105_1410_2350G200970M.fits[2] ft971105_1410_2350G201070H.fits[2] ft971105_1410_2350G201170H.fits[2] ft971105_1410_2350G201370H.fits[2] ft971105_1410_2350G201470M.fits[2] ft971105_1410_2350G201570M.fits[2] ft971105_1410_2350G202070M.fits[2] ft971105_1410_2350G202170M.fits[2] ft971105_1410_2350G202270L.fits[2] ft971105_1410_2350G202370L.fits[2] ft971105_1410_2350G202470H.fits[2] ft971105_1410_2350G202670H.fits[2] ft971105_1410_2350G202770H.fits[2] ft971105_1410_2350G202870H.fits[2] ft971105_1410_2350G203370M.fits[2] ft971105_1410_2350G203470M.fits[2] ft971105_1410_2350G203570L.fits[2] ft971105_1410_2350G203670L.fits[2] ft971105_1410_2350G203770H.fits[2] ft971105_1410_2350G203870H.fits[2] ft971105_1410_2350G203970H.fits[2] ft971105_1410_2350G204070H.fits[2] ft971105_1410_2350G204170H.fits[2] ft971105_1410_2350G204870M.fits[2] ft971105_1410_2350G204970M.fits[2] ft971105_1410_2350G205070M.fits[2] ft971105_1410_2350G205170H.fits[2] ft971105_1410_2350G205270H.fits[2] ft971105_1410_2350G205370H.fits[2] ft971105_1410_2350G205970H.fits[2] ft971105_1410_2350G206070H.fits[2] ft971105_1410_2350G206170H.fits[2] ft971105_1410_2350G206270H.fits[2] ft971105_1410_2350G207170H.fits[2] ft971105_1410_2350G207270H.fits[2] ft971105_1410_2350G207370H.fits[2] ft971105_1410_2350G207470H.fits[2] ft971105_1410_2350G207570H.fits[2] ft971105_1410_2350G208470H.fits[2] ft971105_1410_2350G208570H.fits[2] ft971105_1410_2350G208770H.fits[2] ft971105_1410_2350G208870H.fits[2] ft971105_1410_2350G208970H.fits[2]-> Merging GTIs from the following files:
ft971105_1410_2350G300470H.fits[2] ft971105_1410_2350G300570H.fits[2] ft971105_1410_2350G300670H.fits[2] ft971105_1410_2350G300770H.fits[2] ft971105_1410_2350G300870M.fits[2] ft971105_1410_2350G300970M.fits[2] ft971105_1410_2350G301070H.fits[2] ft971105_1410_2350G301170H.fits[2] ft971105_1410_2350G301270H.fits[2] ft971105_1410_2350G301370H.fits[2] ft971105_1410_2350G301470M.fits[2] ft971105_1410_2350G302070M.fits[2] ft971105_1410_2350G302170M.fits[2] ft971105_1410_2350G302270L.fits[2] ft971105_1410_2350G302370L.fits[2] ft971105_1410_2350G302470H.fits[2] ft971105_1410_2350G302570H.fits[2] ft971105_1410_2350G302670H.fits[2] ft971105_1410_2350G302770H.fits[2] ft971105_1410_2350G302870H.fits[2] ft971105_1410_2350G303370M.fits[2] ft971105_1410_2350G303470M.fits[2] ft971105_1410_2350G303570L.fits[2] ft971105_1410_2350G303670L.fits[2] ft971105_1410_2350G303770H.fits[2] ft971105_1410_2350G303870H.fits[2] ft971105_1410_2350G303970H.fits[2] ft971105_1410_2350G304070H.fits[2] ft971105_1410_2350G304870M.fits[2] ft971105_1410_2350G304970M.fits[2] ft971105_1410_2350G305070M.fits[2] ft971105_1410_2350G305170H.fits[2] ft971105_1410_2350G305270H.fits[2] ft971105_1410_2350G305370H.fits[2] ft971105_1410_2350G306070H.fits[2] ft971105_1410_2350G307070H.fits[2] ft971105_1410_2350G307170H.fits[2] ft971105_1410_2350G307270H.fits[2] ft971105_1410_2350G307370H.fits[2] ft971105_1410_2350G307470H.fits[2] ft971105_1410_2350G307570H.fits[2] ft971105_1410_2350G308670H.fits[2] ft971105_1410_2350G308770H.fits[2] ft971105_1410_2350G308870H.fits[2] ft971105_1410_2350G308970H.fits[2]
GISSORTCODE:LO:Start program GISSORTCODE:LO:End program-> Standard Error Output From STOOL gissortsplit:
GISSORTSPLIT:LO:Start program GISSORTSPLIT:LO:g200170h.prelist merge count = 2 photon cnt = 2 GISSORTSPLIT:LO:g200270h.prelist merge count = 2 photon cnt = 3 GISSORTSPLIT:LO:g200370h.prelist merge count = 3 photon cnt = 5 GISSORTSPLIT:LO:g200470h.prelist merge count = 2 photon cnt = 3 GISSORTSPLIT:LO:g200570h.prelist merge count = 1 photon cnt = 3 GISSORTSPLIT:LO:g200670h.prelist merge count = 11 photon cnt = 13779 GISSORTSPLIT:LO:g200770h.prelist merge count = 2 photon cnt = 5 GISSORTSPLIT:LO:g200870h.prelist merge count = 1 photon cnt = 2 GISSORTSPLIT:LO:g200970h.prelist merge count = 1 photon cnt = 1 GISSORTSPLIT:LO:g201070h.prelist merge count = 1 photon cnt = 2 GISSORTSPLIT:LO:g201170h.prelist merge count = 1 photon cnt = 1 GISSORTSPLIT:LO:g201270h.prelist merge count = 1 photon cnt = 2 GISSORTSPLIT:LO:g201370h.prelist merge count = 1 photon cnt = 11 GISSORTSPLIT:LO:g201470h.prelist merge count = 1 photon cnt = 2 GISSORTSPLIT:LO:g201570h.prelist merge count = 1 photon cnt = 1 GISSORTSPLIT:LO:g201670h.prelist merge count = 1 photon cnt = 2 GISSORTSPLIT:LO:g200170l.prelist merge count = 2 photon cnt = 3863 GISSORTSPLIT:LO:g200270l.prelist merge count = 2 photon cnt = 121 GISSORTSPLIT:LO:g200170m.prelist merge count = 1 photon cnt = 1 GISSORTSPLIT:LO:g200270m.prelist merge count = 3 photon cnt = 44 GISSORTSPLIT:LO:g200370m.prelist merge count = 6 photon cnt = 3781 GISSORTSPLIT:LO:g200470m.prelist merge count = 1 photon cnt = 17 GISSORTSPLIT:LO:Total filenames split = 47 GISSORTSPLIT:LO:Total split file cnt = 22 GISSORTSPLIT:LO:End program-> Creating ad55010000g200170h.unf
---- cmerge: version 1.6 ---- A total of 11 fits files ...... Sorting files using KEY: TSTART ... Checking GTI overlap in input files ... Merging binary extension #: 1 1 -- ft971105_1410_2350G200770H.fits 2 -- ft971105_1410_2350G201370H.fits 3 -- ft971105_1410_2350G202770H.fits 4 -- ft971105_1410_2350G204070H.fits 5 -- ft971105_1410_2350G205170H.fits 6 -- ft971105_1410_2350G205270H.fits 7 -- ft971105_1410_2350G206270H.fits 8 -- ft971105_1410_2350G207470H.fits 9 -- ft971105_1410_2350G207570H.fits 10 -- ft971105_1410_2350G208770H.fits 11 -- ft971105_1410_2350G208970H.fits Merging binary extension #: 2 1 -- ft971105_1410_2350G200770H.fits 2 -- ft971105_1410_2350G201370H.fits 3 -- ft971105_1410_2350G202770H.fits 4 -- ft971105_1410_2350G204070H.fits 5 -- ft971105_1410_2350G205170H.fits 6 -- ft971105_1410_2350G205270H.fits 7 -- ft971105_1410_2350G206270H.fits 8 -- ft971105_1410_2350G207470H.fits 9 -- ft971105_1410_2350G207570H.fits 10 -- ft971105_1410_2350G208770H.fits 11 -- ft971105_1410_2350G208970H.fits Checking the output file ... Extention # 1 ...... OK Extention # 2 ...... OK The program appears to have finished successfully!-> Creating ad55010000g200270l.unf
---- 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 -- ft971105_1410_2350G202370L.fits 2 -- ft971105_1410_2350G203670L.fits Merging binary extension #: 2 1 -- ft971105_1410_2350G202370L.fits 2 -- ft971105_1410_2350G203670L.fits Checking the output file ... Extention # 1 ...... OK Extention # 2 ...... OK The program appears to have finished successfully!-> Creating ad55010000g200370m.unf
---- 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 -- ft971105_1410_2350G200970M.fits 2 -- ft971105_1410_2350G201470M.fits 3 -- ft971105_1410_2350G202170M.fits 4 -- ft971105_1410_2350G203470M.fits 5 -- ft971105_1410_2350G204970M.fits 6 -- ft971105_1410_2350G205070M.fits Merging binary extension #: 2 1 -- ft971105_1410_2350G200970M.fits 2 -- ft971105_1410_2350G201470M.fits 3 -- ft971105_1410_2350G202170M.fits 4 -- ft971105_1410_2350G203470M.fits 5 -- ft971105_1410_2350G204970M.fits 6 -- ft971105_1410_2350G205070M.fits Checking the output file ... Extention # 1 ...... OK Extention # 2 ...... OK The program appears to have finished successfully!-> Ignoring the following files containing 000000121 events
ft971105_1410_2350G202270L.fits ft971105_1410_2350G203570L.fits-> Ignoring the following files containing 000000044 events
ft971105_1410_2350G202070M.fits ft971105_1410_2350G203370M.fits ft971105_1410_2350G204870M.fits-> Ignoring the following files containing 000000017 events
ft971105_1410_2350G200870M.fits-> Ignoring the following files containing 000000011 events
ft971105_1410_2350G208870H.fits-> Ignoring the following files containing 000000005 events
ft971105_1410_2350G202670H.fits ft971105_1410_2350G203970H.fits-> Ignoring the following files containing 000000005 events
ft971105_1410_2350G200570H.fits ft971105_1410_2350G207270H.fits ft971105_1410_2350G208570H.fits-> Ignoring the following files containing 000000003 events
ft971105_1410_2350G205370H.fits-> Ignoring the following files containing 000000003 events
ft971105_1410_2350G200670H.fits ft971105_1410_2350G207370H.fits-> Ignoring the following files containing 000000003 events
ft971105_1410_2350G207170H.fits ft971105_1410_2350G208470H.fits-> Ignoring the following files containing 000000002 events
ft971105_1410_2350G206170H.fits-> Ignoring the following files containing 000000002 events
ft971105_1410_2350G205970H.fits-> Ignoring the following files containing 000000002 events
ft971105_1410_2350G202470H.fits-> Ignoring the following files containing 000000002 events
ft971105_1410_2350G201070H.fits-> Ignoring the following files containing 000000002 events
ft971105_1410_2350G203770H.fits-> Ignoring the following files containing 000000002 events
ft971105_1410_2350G202870H.fits ft971105_1410_2350G204170H.fits-> Ignoring the following files containing 000000001 events
ft971105_1410_2350G206070H.fits-> Ignoring the following files containing 000000001 events
ft971105_1410_2350G201170H.fits-> Ignoring the following files containing 000000001 events
ft971105_1410_2350G203870H.fits-> Ignoring the following files containing 000000001 events
ft971105_1410_2350G201570M.fits-> Collecting GIS3 event files by mode
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 = 2 GISSORTSPLIT:LO:g300270h.prelist merge count = 1 photon cnt = 4 GISSORTSPLIT:LO:g300370h.prelist merge count = 2 photon cnt = 6 GISSORTSPLIT:LO:g300470h.prelist merge count = 3 photon cnt = 7 GISSORTSPLIT:LO:g300570h.prelist merge count = 1 photon cnt = 5 GISSORTSPLIT:LO:g300670h.prelist merge count = 12 photon cnt = 12737 GISSORTSPLIT:LO:g300770h.prelist merge count = 3 photon cnt = 6 GISSORTSPLIT:LO:g300870h.prelist merge count = 1 photon cnt = 4 GISSORTSPLIT:LO:g300970h.prelist merge count = 1 photon cnt = 4 GISSORTSPLIT:LO:g301070h.prelist merge count = 1 photon cnt = 1 GISSORTSPLIT:LO:g301170h.prelist merge count = 1 photon cnt = 1 GISSORTSPLIT:LO:g301270h.prelist merge count = 1 photon cnt = 1 GISSORTSPLIT:LO:g301370h.prelist merge count = 1 photon cnt = 1 GISSORTSPLIT:LO:g301470h.prelist merge count = 1 photon cnt = 5 GISSORTSPLIT:LO:g301570h.prelist merge count = 1 photon cnt = 4 GISSORTSPLIT:LO:g300170l.prelist merge count = 2 photon cnt = 3556 GISSORTSPLIT:LO:g300270l.prelist merge count = 2 photon cnt = 137 GISSORTSPLIT:LO:g300170m.prelist merge count = 3 photon cnt = 41 GISSORTSPLIT:LO:g300270m.prelist merge count = 6 photon cnt = 3445 GISSORTSPLIT:LO:g300370m.prelist merge count = 1 photon cnt = 15 GISSORTSPLIT:LO:Total filenames split = 45 GISSORTSPLIT:LO:Total split file cnt = 20 GISSORTSPLIT:LO:End program-> Creating ad55010000g300170h.unf
---- cmerge: version 1.6 ---- A total of 12 fits files ...... Sorting files using KEY: TSTART ... Checking GTI overlap in input files ... Merging binary extension #: 1 1 -- ft971105_1410_2350G300770H.fits 2 -- ft971105_1410_2350G301370H.fits 3 -- ft971105_1410_2350G302770H.fits 4 -- ft971105_1410_2350G304070H.fits 5 -- ft971105_1410_2350G305170H.fits 6 -- ft971105_1410_2350G305270H.fits 7 -- ft971105_1410_2350G306070H.fits 8 -- ft971105_1410_2350G307270H.fits 9 -- ft971105_1410_2350G307470H.fits 10 -- ft971105_1410_2350G307570H.fits 11 -- ft971105_1410_2350G308770H.fits 12 -- ft971105_1410_2350G308970H.fits Merging binary extension #: 2 1 -- ft971105_1410_2350G300770H.fits 2 -- ft971105_1410_2350G301370H.fits 3 -- ft971105_1410_2350G302770H.fits 4 -- ft971105_1410_2350G304070H.fits 5 -- ft971105_1410_2350G305170H.fits 6 -- ft971105_1410_2350G305270H.fits 7 -- ft971105_1410_2350G306070H.fits 8 -- ft971105_1410_2350G307270H.fits 9 -- ft971105_1410_2350G307470H.fits 10 -- ft971105_1410_2350G307570H.fits 11 -- ft971105_1410_2350G308770H.fits 12 -- ft971105_1410_2350G308970H.fits Checking the output file ... Extention # 1 ...... OK Extention # 2 ...... OK The program appears to have finished successfully!-> Creating ad55010000g300270l.unf
---- 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 -- ft971105_1410_2350G302370L.fits 2 -- ft971105_1410_2350G303670L.fits Merging binary extension #: 2 1 -- ft971105_1410_2350G302370L.fits 2 -- ft971105_1410_2350G303670L.fits Checking the output file ... Extention # 1 ...... OK Extention # 2 ...... OK The program appears to have finished successfully!-> Creating ad55010000g300370m.unf
---- 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 -- ft971105_1410_2350G300970M.fits 2 -- ft971105_1410_2350G301470M.fits 3 -- ft971105_1410_2350G302170M.fits 4 -- ft971105_1410_2350G303470M.fits 5 -- ft971105_1410_2350G304970M.fits 6 -- ft971105_1410_2350G305070M.fits Merging binary extension #: 2 1 -- ft971105_1410_2350G300970M.fits 2 -- ft971105_1410_2350G301470M.fits 3 -- ft971105_1410_2350G302170M.fits 4 -- ft971105_1410_2350G303470M.fits 5 -- ft971105_1410_2350G304970M.fits 6 -- ft971105_1410_2350G305070M.fits Checking the output file ... Extention # 1 ...... OK Extention # 2 ...... OK The program appears to have finished successfully!-> Ignoring the following files containing 000000137 events
ft971105_1410_2350G302270L.fits ft971105_1410_2350G303570L.fits-> Ignoring the following files containing 000000041 events
ft971105_1410_2350G302070M.fits ft971105_1410_2350G303370M.fits ft971105_1410_2350G304870M.fits-> Ignoring the following files containing 000000015 events
ft971105_1410_2350G300870M.fits-> Ignoring the following files containing 000000007 events
ft971105_1410_2350G300670H.fits ft971105_1410_2350G307170H.fits ft971105_1410_2350G308670H.fits-> Ignoring the following files containing 000000006 events
ft971105_1410_2350G301270H.fits ft971105_1410_2350G302670H.fits ft971105_1410_2350G303970H.fits-> Ignoring the following files containing 000000006 events
ft971105_1410_2350G300570H.fits ft971105_1410_2350G307070H.fits-> Ignoring the following files containing 000000005 events
ft971105_1410_2350G308870H.fits-> Ignoring the following files containing 000000005 events
ft971105_1410_2350G307370H.fits-> Ignoring the following files containing 000000004 events
ft971105_1410_2350G305370H.fits-> Ignoring the following files containing 000000004 events
ft971105_1410_2350G302570H.fits-> Ignoring the following files containing 000000004 events
ft971105_1410_2350G302470H.fits-> Ignoring the following files containing 000000004 events
ft971105_1410_2350G300470H.fits-> Ignoring the following files containing 000000002 events
ft971105_1410_2350G302870H.fits-> Ignoring the following files containing 000000001 events
ft971105_1410_2350G303870H.fits-> Ignoring the following files containing 000000001 events
ft971105_1410_2350G303770H.fits-> Ignoring the following files containing 000000001 events
ft971105_1410_2350G301170H.fits-> Ignoring the following files containing 000000001 events
ft971105_1410_2350G301070H.fits-> Collecting SIS0 event files by mode
SIS0SORTCODE:LO:Start program SIS0SORTCODE:LO:End program-> Standard Error Output From STOOL sis0sortsplit:
SIS0SORTSPLIT:LO:Start program SIS0SORTSPLIT:LO:s000101h.prelist merge count = 8 photon cnt = 84867 SIS0SORTSPLIT:LO:s000201h.prelist merge count = 2 photon cnt = 1694 SIS0SORTSPLIT:LO:s000301h.prelist merge count = 1 photon cnt = 256 SIS0SORTSPLIT:LO:s000401l.prelist merge count = 7 photon cnt = 9058 SIS0SORTSPLIT:LO:s000501l.prelist merge count = 2 photon cnt = 99 SIS0SORTSPLIT:LO:s000601m.prelist merge count = 8 photon cnt = 13370 SIS0SORTSPLIT:LO:s000701m.prelist merge count = 2 photon cnt = 2304 SIS0SORTSPLIT:LO:s000801m.prelist merge count = 2 photon cnt = 56 SIS0SORTSPLIT:LO:Total filenames split = 32 SIS0SORTSPLIT:LO:Total split file cnt = 8 SIS0SORTSPLIT:LO:End program-> Creating ad55010000s000101h.unf
---- 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 -- ft971105_1410_2350S000101H.fits 2 -- ft971105_1410_2350S001001H.fits 3 -- ft971105_1410_2350S001601H.fits 4 -- ft971105_1410_2350S002101H.fits 5 -- ft971105_1410_2350S002501H.fits 6 -- ft971105_1410_2350S002601H.fits 7 -- ft971105_1410_2350S002901H.fits 8 -- ft971105_1410_2350S003201H.fits Merging binary extension #: 2 1 -- ft971105_1410_2350S000101H.fits 2 -- ft971105_1410_2350S001001H.fits 3 -- ft971105_1410_2350S001601H.fits 4 -- ft971105_1410_2350S002101H.fits 5 -- ft971105_1410_2350S002501H.fits 6 -- ft971105_1410_2350S002601H.fits 7 -- ft971105_1410_2350S002901H.fits 8 -- ft971105_1410_2350S003201H.fits Checking the output file ... Extention # 1 ...... OK Extention # 2 ...... OK The program appears to have finished successfully!-> Creating ad55010000s000201m.unf
---- 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 -- ft971105_1410_2350S000201M.fits 2 -- ft971105_1410_2350S000601M.fits 3 -- ft971105_1410_2350S000801M.fits 4 -- ft971105_1410_2350S001401M.fits 5 -- ft971105_1410_2350S002001M.fits 6 -- ft971105_1410_2350S002201M.fits 7 -- ft971105_1410_2350S002701M.fits 8 -- ft971105_1410_2350S003301M.fits Merging binary extension #: 2 1 -- ft971105_1410_2350S000201M.fits 2 -- ft971105_1410_2350S000601M.fits 3 -- ft971105_1410_2350S000801M.fits 4 -- ft971105_1410_2350S001401M.fits 5 -- ft971105_1410_2350S002001M.fits 6 -- ft971105_1410_2350S002201M.fits 7 -- ft971105_1410_2350S002701M.fits 8 -- ft971105_1410_2350S003301M.fits Checking the output file ... Extention # 1 ...... OK Extention # 2 ...... OK The program appears to have finished successfully!-> Creating ad55010000s000301l.unf
---- cmerge: version 1.6 ---- A total of 7 fits files ...... Sorting files using KEY: TSTART ... Checking GTI overlap in input files ... Merging binary extension #: 1 1 -- ft971105_1410_2350S000701L.fits 2 -- ft971105_1410_2350S000901L.fits 3 -- ft971105_1410_2350S001101L.fits 4 -- ft971105_1410_2350S001301L.fits 5 -- ft971105_1410_2350S001501L.fits 6 -- ft971105_1410_2350S001701L.fits 7 -- ft971105_1410_2350S001901L.fits Merging binary extension #: 2 1 -- ft971105_1410_2350S000701L.fits 2 -- ft971105_1410_2350S000901L.fits 3 -- ft971105_1410_2350S001101L.fits 4 -- ft971105_1410_2350S001301L.fits 5 -- ft971105_1410_2350S001501L.fits 6 -- ft971105_1410_2350S001701L.fits 7 -- ft971105_1410_2350S001901L.fits Checking the output file ... Extention # 1 ...... OK Extention # 2 ...... OK The program appears to have finished successfully!-> Creating ad55010000s000401m.unf
---- 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 -- ft971105_1410_2350S000301M.fits 2 -- ft971105_1410_2350S000501M.fits Merging binary extension #: 2 1 -- ft971105_1410_2350S000301M.fits 2 -- ft971105_1410_2350S000501M.fits Checking the output file ... Extention # 1 ...... OK Extention # 2 ...... OK The program appears to have finished successfully!-> Creating ad55010000s000501h.unf
---- 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 -- ft971105_1410_2350S003001H.fits 2 -- ft971105_1410_2350S003101H.fits Merging binary extension #: 2 1 -- ft971105_1410_2350S003001H.fits 2 -- ft971105_1410_2350S003101H.fits Checking the output file ... Extention # 1 ...... OK Extention # 2 ...... OK The program appears to have finished successfully!-> Ignoring the following files containing 000000256 events
ft971105_1410_2350S000401H.fits-> Ignoring the following files containing 000000099 events
ft971105_1410_2350S001201L.fits ft971105_1410_2350S001801L.fits-> Ignoring the following files containing 000000056 events
ft971105_1410_2350S002301M.fits ft971105_1410_2350S003401M.fits-> Collecting SIS1 event files by mode
SIS1SORTCODE:LO:Start program SIS1SORTCODE:LO:End program-> Standard Error Output From STOOL sis1sortsplit:
SIS1SORTSPLIT:LO:Start program SIS1SORTSPLIT:LO:s100101h.prelist merge count = 8 photon cnt = 95693 SIS1SORTSPLIT:LO:s100201h.prelist merge count = 2 photon cnt = 13056 SIS1SORTSPLIT:LO:s100301l.prelist merge count = 7 photon cnt = 11846 SIS1SORTSPLIT:LO:s100401l.prelist merge count = 2 photon cnt = 104 SIS1SORTSPLIT:LO:s100501m.prelist merge count = 8 photon cnt = 23399 SIS1SORTSPLIT:LO:s100601m.prelist merge count = 2 photon cnt = 64 SIS1SORTSPLIT:LO:Total filenames split = 29 SIS1SORTSPLIT:LO:Total split file cnt = 6 SIS1SORTSPLIT:LO:End program-> Creating ad55010000s100101h.unf
---- 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 -- ft971105_1410_2350S100101H.fits 2 -- ft971105_1410_2350S100801H.fits 3 -- ft971105_1410_2350S101401H.fits 4 -- ft971105_1410_2350S101901H.fits 5 -- ft971105_1410_2350S102301H.fits 6 -- ft971105_1410_2350S102601H.fits 7 -- ft971105_1410_2350S102901H.fits 8 -- ft971105_1410_2350S103001H.fits Merging binary extension #: 2 1 -- ft971105_1410_2350S100101H.fits 2 -- ft971105_1410_2350S100801H.fits 3 -- ft971105_1410_2350S101401H.fits 4 -- ft971105_1410_2350S101901H.fits 5 -- ft971105_1410_2350S102301H.fits 6 -- ft971105_1410_2350S102601H.fits 7 -- ft971105_1410_2350S102901H.fits 8 -- ft971105_1410_2350S103001H.fits Checking the output file ... Extention # 1 ...... OK Extention # 2 ...... OK The program appears to have finished successfully!-> Creating ad55010000s100201m.unf
---- 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 -- ft971105_1410_2350S100201M.fits 2 -- ft971105_1410_2350S100401M.fits 3 -- ft971105_1410_2350S100601M.fits 4 -- ft971105_1410_2350S101201M.fits 5 -- ft971105_1410_2350S101801M.fits 6 -- ft971105_1410_2350S102001M.fits 7 -- ft971105_1410_2350S102701M.fits 8 -- ft971105_1410_2350S103101M.fits Merging binary extension #: 2 1 -- ft971105_1410_2350S100201M.fits 2 -- ft971105_1410_2350S100401M.fits 3 -- ft971105_1410_2350S100601M.fits 4 -- ft971105_1410_2350S101201M.fits 5 -- ft971105_1410_2350S101801M.fits 6 -- ft971105_1410_2350S102001M.fits 7 -- ft971105_1410_2350S102701M.fits 8 -- ft971105_1410_2350S103101M.fits Checking the output file ... Extention # 1 ...... OK Extention # 2 ...... OK The program appears to have finished successfully!-> Creating ad55010000s100301h.unf
---- 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 -- ft971105_1410_2350S102401H.fits 2 -- ft971105_1410_2350S102501H.fits Merging binary extension #: 2 1 -- ft971105_1410_2350S102401H.fits 2 -- ft971105_1410_2350S102501H.fits Checking the output file ... Extention # 1 ...... OK Extention # 2 ...... OK The program appears to have finished successfully!-> Creating ad55010000s100401l.unf
---- cmerge: version 1.6 ---- A total of 7 fits files ...... Sorting files using KEY: TSTART ... Checking GTI overlap in input files ... Merging binary extension #: 1 1 -- ft971105_1410_2350S100501L.fits 2 -- ft971105_1410_2350S100701L.fits 3 -- ft971105_1410_2350S100901L.fits 4 -- ft971105_1410_2350S101101L.fits 5 -- ft971105_1410_2350S101301L.fits 6 -- ft971105_1410_2350S101501L.fits 7 -- ft971105_1410_2350S101701L.fits Merging binary extension #: 2 1 -- ft971105_1410_2350S100501L.fits 2 -- ft971105_1410_2350S100701L.fits 3 -- ft971105_1410_2350S100901L.fits 4 -- ft971105_1410_2350S101101L.fits 5 -- ft971105_1410_2350S101301L.fits 6 -- ft971105_1410_2350S101501L.fits 7 -- ft971105_1410_2350S101701L.fits Checking the output file ... Extention # 1 ...... OK Extention # 2 ...... OK The program appears to have finished successfully!-> Ignoring the following files containing 000000104 events
ft971105_1410_2350S101001L.fits ft971105_1410_2350S101601L.fits-> Ignoring the following files containing 000000064 events
ft971105_1410_2350S102101M.fits ft971105_1410_2350S103201M.fits-> Tar-ing together the leftover raw files
a ft971105_1410_2350G200570H.fits 31K a ft971105_1410_2350G200670H.fits 31K a ft971105_1410_2350G200870M.fits 31K a ft971105_1410_2350G201070H.fits 31K a ft971105_1410_2350G201170H.fits 31K a ft971105_1410_2350G201570M.fits 31K a ft971105_1410_2350G202070M.fits 31K a ft971105_1410_2350G202270L.fits 31K a ft971105_1410_2350G202470H.fits 31K a ft971105_1410_2350G202670H.fits 31K a ft971105_1410_2350G202870H.fits 31K a ft971105_1410_2350G203370M.fits 31K a ft971105_1410_2350G203570L.fits 31K a ft971105_1410_2350G203770H.fits 31K a ft971105_1410_2350G203870H.fits 31K a ft971105_1410_2350G203970H.fits 31K a ft971105_1410_2350G204170H.fits 31K a ft971105_1410_2350G204870M.fits 31K a ft971105_1410_2350G205370H.fits 31K a ft971105_1410_2350G205970H.fits 31K a ft971105_1410_2350G206070H.fits 31K a ft971105_1410_2350G206170H.fits 31K a ft971105_1410_2350G207170H.fits 31K a ft971105_1410_2350G207270H.fits 31K a ft971105_1410_2350G207370H.fits 31K a ft971105_1410_2350G208470H.fits 31K a ft971105_1410_2350G208570H.fits 31K a ft971105_1410_2350G208870H.fits 31K a ft971105_1410_2350G300470H.fits 31K a ft971105_1410_2350G300570H.fits 31K a ft971105_1410_2350G300670H.fits 31K a ft971105_1410_2350G300870M.fits 31K a ft971105_1410_2350G301070H.fits 31K a ft971105_1410_2350G301170H.fits 31K a ft971105_1410_2350G301270H.fits 31K a ft971105_1410_2350G302070M.fits 31K a ft971105_1410_2350G302270L.fits 31K a ft971105_1410_2350G302470H.fits 31K a ft971105_1410_2350G302570H.fits 31K a ft971105_1410_2350G302670H.fits 31K a ft971105_1410_2350G302870H.fits 31K a ft971105_1410_2350G303370M.fits 31K a ft971105_1410_2350G303570L.fits 31K a ft971105_1410_2350G303770H.fits 31K a ft971105_1410_2350G303870H.fits 31K a ft971105_1410_2350G303970H.fits 31K a ft971105_1410_2350G304870M.fits 31K a ft971105_1410_2350G305370H.fits 31K a ft971105_1410_2350G307070H.fits 31K a ft971105_1410_2350G307170H.fits 31K a ft971105_1410_2350G307370H.fits 31K a ft971105_1410_2350G308670H.fits 31K a ft971105_1410_2350G308870H.fits 31K a ft971105_1410_2350S000401H.fits 37K a ft971105_1410_2350S001201L.fits 31K a ft971105_1410_2350S001801L.fits 29K a ft971105_1410_2350S002301M.fits 29K a ft971105_1410_2350S003401M.fits 29K a ft971105_1410_2350S101001L.fits 31K a ft971105_1410_2350S101601L.fits 29K a ft971105_1410_2350S102101M.fits 29K a ft971105_1410_2350S103201M.fits 29K-> Checking OBJECT keywords in HK and event files
temp2gain v4.3 'ft971105_1410.2350' is successfully opened Data Start Time is 152892609.31 (19971105 141005) Time Margin 2.0 sec included Sync error detected in 5787 th SF 'ft971105_1410.2350' EOF detected, sf=9156 Data End Time is 152927429.20 (19971105 235025) Gain History is written in ft971105_1410_2350.ghf-> Stdout output from ISAS program temp2gain
leapsec FITS data was successfully read-> Checking if column CAL_START in ft971105_1410_2350.ghf[1] is in order
Time column is TIME ORDERED-> Checking if column CAL_STOP in ft971105_1410_2350.ghf[1] is in order
Time column is TIME ORDERED-> Calculating attitude correction from ft971105_1410_2350CMHK.fits
The sum of the selected column is 28822.000 The mean of the selected column is 100.07639 The standard deviation of the selected column is 4.8050204 The minimum of selected column is 95.000000 The maximum of selected column is 114.00000 The number of points used in calculation is 288-> Standard Output From FTOOL fstatistic:
The sum of the selected column is 28822.000 The mean of the selected column is 100.07639 The standard deviation of the selected column is 4.8050204 The minimum of selected column is 95.000000 The maximum of selected column is 114.00000 The number of points used in calculation is 288
ASCALIN_V0.9u(mod)-> Checking if ad55010000g200270l.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55010000g200370m.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55010000g300170h.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55010000g300270l.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55010000g300370m.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55010000s000101h.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55010000s000102h.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55010000s000112h.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55010000s000201m.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55010000s000202m.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55010000s000212m.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55010000s000301l.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55010000s000302l.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55010000s000312l.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55010000s000401m.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55010000s000402m.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55010000s000412m.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55010000s000501h.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55010000s000502h.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55010000s000512h.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55010000s100101h.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55010000s100102h.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55010000s100112h.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55010000s100201m.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55010000s100202m.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55010000s100212m.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55010000s100301h.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55010000s100302h.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55010000s100312h.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55010000s100401l.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55010000s100402l.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55010000s100412l.unf is covered by attitude file
ASCALIN_V0.9u(mod)
S0-HK file: ft971105_1410_2350S0HK.fits S1-HK file: ft971105_1410_2350S1HK.fits G2-HK file: ft971105_1410_2350G2HK.fits G3-HK file: ft971105_1410_2350G3HK.fits Date and time are: 1997-11-05 14:10:03 mjd=50757.590316 Orbit file name is ./frf.orbit.241 Epoch of Orbital Elements: 1997-11-03 21:59:59 Rigidity Data File: ./rigidity.data.1.23 Attitude FRF: fa971105_1410.2350 output FITS File: ft971105_1410_2350.mkf Total 1089 Data bins were processed.-> Checking if column TIME in ft971105_1410_2350.mkf is in order
Time column is TIME ORDERED-> Calculating dead time values for filter file
The sum of the selected column is 4994.2962 The mean of the selected column is 22.001305 The standard deviation of the selected column is 23.131475 The minimum of selected column is 6.4687696 The maximum of selected column is 306.09467 The number of points used in calculation is 227-> 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<91.3 ) ) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&((T_DY_NT<0)||(T_DY_NT>16)) &&((T_SAA <0)||(T_SAA >16))-> Filtering ad55010000s000112h.unf into ad55010000s000112h.evt
The sum of the selected column is 4994.2962 The mean of the selected column is 22.001305 The standard deviation of the selected column is 23.131475 The minimum of selected column is 6.4687696 The maximum of selected column is 306.09467 The number of points used in calculation is 227-> 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<91.3 ) ) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&((T_DY_NT<0)||(T_DY_NT>16)) &&((T_SAA <0)||(T_SAA >16))-> Skipping ad55010000s000201m.unf because of mode
The sum of the selected column is 1023.5865 The mean of the selected column is 26.936487 The standard deviation of the selected column is 14.607734 The minimum of selected column is 5.8125172 The maximum of selected column is 77.906479 The number of points used in calculation is 38-> 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<70.7 ) ) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&((T_DY_NT<0)||(T_DY_NT>16)) &&((T_SAA <0)||(T_SAA >16))-> Filtering ad55010000s000212m.unf into ad55010000s000212m.evt
The sum of the selected column is 1023.5865 The mean of the selected column is 26.936487 The standard deviation of the selected column is 14.607734 The minimum of selected column is 5.8125172 The maximum of selected column is 77.906479 The number of points used in calculation is 38-> 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<70.7 ) ) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&((T_DY_NT<0)||(T_DY_NT>16)) &&((T_SAA <0)||(T_SAA >16))-> Skipping ad55010000s000301l.unf because of mode
(SAA==0) &&(BR_EARTH>20) &&(ELV>10) &&(COR>6) &&(ACS==0) &&(ANG_DIST>0)&& (ANG_DIST<0.01) &&(FOV==0) && ( (S0_PIXL1>0) )&&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&((T_DY_NT<0)||(T_DY_NT>16)) &&((T_SAA <0)||(T_SAA >16))-> Deleting ad55010000s000302l.evt since it contains 0 events
(SAA==0) &&(BR_EARTH>20) &&(ELV>10) &&(COR>6) &&(ACS==0) &&(ANG_DIST>0)&& (ANG_DIST<0.01) &&(FOV==0) && ( (S0_PIXL1>0) )&&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&((T_DY_NT<0)||(T_DY_NT>16)) &&((T_SAA <0)||(T_SAA >16))-> Deleting ad55010000s000312l.evt since it contains 0 events
(SAA==0) &&(BR_EARTH>20) &&(ELV>10) &&(COR>6) &&(ACS==0) &&(ANG_DIST>0)&& (ANG_DIST<0.01) &&(FOV==0) && ( (S0_PIXL0>0)&&(S0_PIXL1>0)&&(S0_PIXL2>0)&&(S0_PIXL3>0) )&&( (S0_SATF0<1) ||(S0_SATF0>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF2<1) ||(S0_SATF2>1)) &&( (S0_SATF3<1) ||(S0_SATF3>1)) &&((T_DY_NT<0)||(T_DY_NT>64)) &&((T_SAA <0)||(T_SAA >64))-> Filtering ad55010000s000412m.unf into ad55010000s000412m.evt
(SAA==0) &&(BR_EARTH>20) &&(ELV>10) &&(COR>6) &&(ACS==0) &&(ANG_DIST>0)&& (ANG_DIST<0.01) &&(FOV==0) && ( (S0_PIXL0>0)&&(S0_PIXL1>0)&&(S0_PIXL2>0)&&(S0_PIXL3>0) )&&( (S0_SATF0<1) ||(S0_SATF0>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF2<1) ||(S0_SATF2>1)) &&( (S0_SATF3<1) ||(S0_SATF3>1)) &&((T_DY_NT<0)||(T_DY_NT>64)) &&((T_SAA <0)||(T_SAA >64))-> Skipping ad55010000s000501h.unf because of mode
(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))-> Filtering ad55010000s000512h.unf into ad55010000s000512h.evt
(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))-> Skipping ad55010000s100101h.unf because of mode
The sum of the selected column is 8580.0425 The mean of the selected column is 37.797544 The standard deviation of the selected column is 35.552209 The minimum of selected column is 11.062533 The maximum of selected column is 430.25128 The number of points used in calculation is 227-> Using the following selection criteria:
(SAA==0) &&(BR_EARTH>20) &&(ELV>10) &&(COR>6) &&(ACS==0) &&(ANG_DIST>0)&& (ANG_DIST<0.01) &&(FOV==0) && ( (S1_PIXL1>0 && S1_PIXL1<144.4 ) ) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&((T_DY_NT<0)||(T_DY_NT>16)) &&((T_SAA <0)||(T_SAA >16))-> Filtering ad55010000s100112h.unf into ad55010000s100112h.evt
The sum of the selected column is 8580.0425 The mean of the selected column is 37.797544 The standard deviation of the selected column is 35.552209 The minimum of selected column is 11.062533 The maximum of selected column is 430.25128 The number of points used in calculation is 227-> Using the following selection criteria:
(SAA==0) &&(BR_EARTH>20) &&(ELV>10) &&(COR>6) &&(ACS==0) &&(ANG_DIST>0)&& (ANG_DIST<0.01) &&(FOV==0) && ( (S1_PIXL1>0 && S1_PIXL1<144.4 ) ) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&((T_DY_NT<0)||(T_DY_NT>16)) &&((T_SAA <0)||(T_SAA >16))-> Skipping ad55010000s100201m.unf because of mode
The sum of the selected column is 1236.1811 The mean of the selected column is 39.876809 The standard deviation of the selected column is 12.207953 The minimum of selected column is 20.458738 The maximum of selected column is 60.531429 The number of points used in calculation is 31-> 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>3.2 && S1_PIXL1<76.5 ) ) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&((T_DY_NT<0)||(T_DY_NT>16)) &&((T_SAA <0)||(T_SAA >16))-> Filtering ad55010000s100212m.unf into ad55010000s100212m.evt
The sum of the selected column is 1236.1811 The mean of the selected column is 39.876809 The standard deviation of the selected column is 12.207953 The minimum of selected column is 20.458738 The maximum of selected column is 60.531429 The number of points used in calculation is 31-> 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>3.2 && S1_PIXL1<76.5 ) ) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&((T_DY_NT<0)||(T_DY_NT>16)) &&((T_SAA <0)||(T_SAA >16))-> Skipping ad55010000s100301h.unf because of mode
(SAA==0) &&(BR_EARTH>20) &&(ELV>10) &&(COR>6) &&(ACS==0) &&(ANG_DIST>0)&& (ANG_DIST<0.01) &&(FOV==0) && ( (S1_PIXL0>0)&&(S1_PIXL1>0)&&(S1_PIXL2>0)&&(S1_PIXL3>0) )&&( (S1_SATF2<1) ||(S1_SATF2>1)) &&( (S1_SATF3<1) ||(S1_SATF3>1)) &&( (S1_SATF0<1) ||(S1_SATF0>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&((T_DY_NT<0)||(T_DY_NT>64)) &&((T_SAA <0)||(T_SAA >64))-> Filtering ad55010000s100312h.unf into ad55010000s100312h.evt
(SAA==0) &&(BR_EARTH>20) &&(ELV>10) &&(COR>6) &&(ACS==0) &&(ANG_DIST>0)&& (ANG_DIST<0.01) &&(FOV==0) && ( (S1_PIXL0>0)&&(S1_PIXL1>0)&&(S1_PIXL2>0)&&(S1_PIXL3>0) )&&( (S1_SATF2<1) ||(S1_SATF2>1)) &&( (S1_SATF3<1) ||(S1_SATF3>1)) &&( (S1_SATF0<1) ||(S1_SATF0>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&((T_DY_NT<0)||(T_DY_NT>64)) &&((T_SAA <0)||(T_SAA >64))-> Skipping ad55010000s100401l.unf because of mode
(SAA==0) &&(BR_EARTH>20) &&(ELV>10) &&(COR>6) &&(ACS==0) &&(ANG_DIST>0)&& (ANG_DIST<0.01) &&(FOV==0) && ( (S1_PIXL1>0) )&&( (S1_SATF1<1) ||(S1_SATF1>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&((T_DY_NT<0)||(T_DY_NT>16)) &&((T_SAA <0)||(T_SAA >16))-> Deleting ad55010000s100402l.evt since it contains 0 events
(SAA==0) &&(BR_EARTH>20) &&(ELV>10) &&(COR>6) &&(ACS==0) &&(ANG_DIST>0)&& (ANG_DIST<0.01) &&(FOV==0) && ( (S1_PIXL1>0) )&&( (S1_SATF1<1) ||(S1_SATF1>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&((T_DY_NT<0)||(T_DY_NT>16)) &&((T_SAA <0)||(T_SAA >16))-> Deleting ad55010000s100412l.evt since it contains 0 events
(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 ad55010000g200270l.unf into ad55010000g200270l.evt
(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 ad55010000g200370m.unf into ad55010000g200370m.evt
(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 ad55010000g300170h.unf into ad55010000g300170h.evt
(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 ad55010000g300270l.unf into ad55010000g300270l.evt
(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 ad55010000g300370m.unf into ad55010000g300370m.evt
(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)
-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
ASCAEXPO_V0.9b
reading data file: ad55010000g200170h.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: ./fa971105_1410.2350
making an exposure map...
Aspect RA/DEC/ROLL : 295.1400 22.5835 101.7634
Mean RA/DEC/ROLL : 295.1347 22.6146 101.7634
Pnt RA/DEC/ROLL : 295.2140 22.4962 101.7634
Image rebin factor : 1
Attitude Records : 36546
GTI intervals : 8
Total GTI (secs) : 7915.819
Max attitude excursion (arcsecs) : 5.000
0 Percent Complete: Total/live time: 0.00 0.00
10 Percent Complete: Total/live time: 891.00 891.00
20 Percent Complete: Total/live time: 2099.99 2099.99
30 Percent Complete: Total/live time: 3737.93 3737.93
40 Percent Complete: Total/live time: 3737.93 3737.93
50 Percent Complete: Total/live time: 5586.42 5586.42
60 Percent Complete: Total/live time: 5586.42 5586.42
70 Percent Complete: Total/live time: 5623.92 5623.92
80 Percent Complete: Total/live time: 6411.82 6411.82
90 Percent Complete: Total/live time: 7493.32 7493.32
100 Percent Complete: Total/live time: 7915.82 7915.82
Number of attitude steps used: 17
Number of attitude steps avail: 21686
Mean RA/DEC pixel offset: -11.8484 -2.6980
writing expo file: ad55010000g200170h.expo
closing attitude file...
closing data file...
-> Generating low and high energy images for ad55010000g200170h.evt
ASCAEXPO_V0.9b
reading data file: ad55010000g200270l.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: ./fa971105_1410.2350
making an exposure map...
Aspect RA/DEC/ROLL : 295.1400 22.5835 101.7602
Mean RA/DEC/ROLL : 295.1420 22.6095 101.7602
Pnt RA/DEC/ROLL : 295.1409 22.5603 101.7602
Image rebin factor : 1
Attitude Records : 36546
GTI intervals : 2
Total GTI (secs) : 207.929
Max attitude excursion (arcsecs) : 5.000
0 Percent Complete: Total/live time: 0.00 0.00
10 Percent Complete: Total/live time: 87.97 87.97
20 Percent Complete: Total/live time: 87.97 87.97
30 Percent Complete: Total/live time: 207.93 207.93
100 Percent Complete: Total/live time: 207.93 207.93
Number of attitude steps used: 3
Number of attitude steps avail: 3328
Mean RA/DEC pixel offset: -8.1296 -2.6587
writing expo file: ad55010000g200270l.expo
closing attitude file...
closing data file...
-> Generating low and high energy images for ad55010000g200270l.evt
ASCAEXPO_V0.9b
reading data file: ad55010000g200370m.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: ./fa971105_1410.2350
making an exposure map...
Aspect RA/DEC/ROLL : 295.1400 22.5835 101.7596
Mean RA/DEC/ROLL : 295.1394 22.6114 101.7596
Pnt RA/DEC/ROLL : 295.1502 22.5569 101.7596
Image rebin factor : 1
Attitude Records : 36546
GTI intervals : 4
Total GTI (secs) : 1096.053
Max attitude excursion (arcsecs) : 5.000
0 Percent Complete: Total/live time: 0.00 0.00
10 Percent Complete: Total/live time: 496.00 496.00
20 Percent Complete: Total/live time: 496.00 496.00
30 Percent Complete: Total/live time: 499.98 499.98
40 Percent Complete: Total/live time: 499.98 499.98
50 Percent Complete: Total/live time: 631.98 631.98
60 Percent Complete: Total/live time: 752.00 752.00
70 Percent Complete: Total/live time: 911.96 911.96
80 Percent Complete: Total/live time: 911.96 911.96
90 Percent Complete: Total/live time: 1040.00 1040.00
100 Percent Complete: Total/live time: 1096.05 1096.05
Number of attitude steps used: 10
Number of attitude steps avail: 566
Mean RA/DEC pixel offset: -11.4303 -2.6836
writing expo file: ad55010000g200370m.expo
closing attitude file...
closing data file...
-> Generating low and high energy images for ad55010000g200370m.evt-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
ASCAEXPO_V0.9b
reading data file: ad55010000g300170h.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: ./fa971105_1410.2350
making an exposure map...
Aspect RA/DEC/ROLL : 295.1400 22.5835 101.7646
Mean RA/DEC/ROLL : 295.1380 22.5896 101.7646
Pnt RA/DEC/ROLL : 295.2111 22.5207 101.7646
Image rebin factor : 1
Attitude Records : 36546
GTI intervals : 8
Total GTI (secs) : 7915.819
Max attitude excursion (arcsecs) : 5.000
0 Percent Complete: Total/live time: 0.00 0.00
10 Percent Complete: Total/live time: 891.00 891.00
20 Percent Complete: Total/live time: 2099.99 2099.99
30 Percent Complete: Total/live time: 3737.93 3737.93
40 Percent Complete: Total/live time: 3737.93 3737.93
50 Percent Complete: Total/live time: 5586.42 5586.42
60 Percent Complete: Total/live time: 5586.42 5586.42
70 Percent Complete: Total/live time: 5623.92 5623.92
80 Percent Complete: Total/live time: 6411.82 6411.82
90 Percent Complete: Total/live time: 7493.32 7493.32
100 Percent Complete: Total/live time: 7915.82 7915.82
Number of attitude steps used: 17
Number of attitude steps avail: 21686
Mean RA/DEC pixel offset: -0.4802 -1.5687
writing expo file: ad55010000g300170h.expo
closing attitude file...
closing data file...
-> Generating low and high energy images for ad55010000g300170h.evt
ASCAEXPO_V0.9b
reading data file: ad55010000g300270l.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: ./fa971105_1410.2350
making an exposure map...
Aspect RA/DEC/ROLL : 295.1400 22.5835 101.7614
Mean RA/DEC/ROLL : 295.1448 22.5849 101.7614
Pnt RA/DEC/ROLL : 295.1381 22.5850 101.7614
Image rebin factor : 1
Attitude Records : 36546
GTI intervals : 2
Total GTI (secs) : 207.929
Max attitude excursion (arcsecs) : 5.000
0 Percent Complete: Total/live time: 0.00 0.00
10 Percent Complete: Total/live time: 87.97 87.97
20 Percent Complete: Total/live time: 87.97 87.97
30 Percent Complete: Total/live time: 207.93 207.93
100 Percent Complete: Total/live time: 207.93 207.93
Number of attitude steps used: 3
Number of attitude steps avail: 3328
Mean RA/DEC pixel offset: -0.0772 -1.8588
writing expo file: ad55010000g300270l.expo
closing attitude file...
closing data file...
-> Generating low and high energy images for ad55010000g300270l.evt
ASCAEXPO_V0.9b
reading data file: ad55010000g300370m.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: ./fa971105_1410.2350
making an exposure map...
Aspect RA/DEC/ROLL : 295.1400 22.5835 101.7608
Mean RA/DEC/ROLL : 295.1423 22.5867 101.7608
Pnt RA/DEC/ROLL : 295.1473 22.5816 101.7608
Image rebin factor : 1
Attitude Records : 36546
GTI intervals : 4
Total GTI (secs) : 1096.053
Max attitude excursion (arcsecs) : 5.000
0 Percent Complete: Total/live time: 0.00 0.00
10 Percent Complete: Total/live time: 496.00 496.00
20 Percent Complete: Total/live time: 496.00 496.00
30 Percent Complete: Total/live time: 499.98 499.98
40 Percent Complete: Total/live time: 499.98 499.98
50 Percent Complete: Total/live time: 631.98 631.98
60 Percent Complete: Total/live time: 752.00 752.00
70 Percent Complete: Total/live time: 911.96 911.96
80 Percent Complete: Total/live time: 911.96 911.96
90 Percent Complete: Total/live time: 1040.00 1040.00
100 Percent Complete: Total/live time: 1096.05 1096.05
Number of attitude steps used: 10
Number of attitude steps avail: 566
Mean RA/DEC pixel offset: -0.5595 -1.6037
writing expo file: ad55010000g300370m.expo
closing attitude file...
closing data file...
-> Generating low and high energy images for ad55010000g300370m.evt
ASCAEXPO_V0.9b
reading data file: ad55010000s000102h.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 OFF 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: ./fa971105_1410.2350
making an exposure map...
Aspect RA/DEC/ROLL : 295.1400 22.5835 101.7713
Mean RA/DEC/ROLL : 295.1519 22.6060 101.7713
Pnt RA/DEC/ROLL : 295.1986 22.5083 101.7713
Image rebin factor : 4
Attitude Records : 36546
Hot Pixels : 7
GTI intervals : 6
Total GTI (secs) : 7215.772
Max attitude excursion (arcsecs) : 5.000
0 Percent Complete: Total/live time: 0.00 0.00
10 Percent Complete: Total/live time: 2016.00 2016.00
20 Percent Complete: Total/live time: 2016.00 2016.00
30 Percent Complete: Total/live time: 3392.00 3392.00
40 Percent Complete: Total/live time: 3392.00 3392.00
50 Percent Complete: Total/live time: 4896.42 4896.42
60 Percent Complete: Total/live time: 4896.42 4896.42
70 Percent Complete: Total/live time: 5152.00 5152.00
80 Percent Complete: Total/live time: 7215.77 7215.77
100 Percent Complete: Total/live time: 7215.77 7215.77
Number of attitude steps used: 8
Number of attitude steps avail: 18148
Mean RA/DEC pixel offset: -51.6552 -81.4307
writing expo file: ad55010000s000102h.expo
closing attitude file...
closing data file...
-> Generating low and high energy images for ad55010000s000102h.evt
ASCAEXPO_V0.9b
reading data file: ad55010000s000202m.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 OFF 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: ./fa971105_1410.2350
making an exposure map...
Aspect RA/DEC/ROLL : 295.1400 22.5835 101.7663
Mean RA/DEC/ROLL : 295.1577 22.6019 101.7663
Pnt RA/DEC/ROLL : 295.1336 22.5657 101.7663
Image rebin factor : 4
Attitude Records : 36546
Hot Pixels : 7
GTI intervals : 7
Total GTI (secs) : 1248.000
Max attitude excursion (arcsecs) : 5.000
0 Percent Complete: Total/live time: 0.00 0.00
10 Percent Complete: Total/live time: 704.00 704.00
20 Percent Complete: Total/live time: 704.00 704.00
30 Percent Complete: Total/live time: 707.98 707.98
40 Percent Complete: Total/live time: 707.98 707.98
50 Percent Complete: Total/live time: 807.98 807.98
60 Percent Complete: Total/live time: 807.98 807.98
70 Percent Complete: Total/live time: 931.96 931.96
80 Percent Complete: Total/live time: 1056.00 1056.00
90 Percent Complete: Total/live time: 1184.00 1184.00
100 Percent Complete: Total/live time: 1248.00 1248.00
Number of attitude steps used: 12
Number of attitude steps avail: 510
Mean RA/DEC pixel offset: -56.0099 -82.8480
writing expo file: ad55010000s000202m.expo
closing attitude file...
closing data file...
-> Generating low and high energy images for ad55010000s000202m.evt
ASCAEXPO_V0.9b
reading data file: ad55010000s100102h.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 OFF 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: ./fa971105_1410.2350
making an exposure map...
Aspect RA/DEC/ROLL : 295.1400 22.5835 101.7647
Mean RA/DEC/ROLL : 295.1334 22.6050 101.7647
Pnt RA/DEC/ROLL : 295.2157 22.5106 101.7647
Image rebin factor : 4
Attitude Records : 36546
Hot Pixels : 21
GTI intervals : 7
Total GTI (secs) : 7143.772
Max attitude excursion (arcsecs) : 5.000
0 Percent Complete: Total/live time: 0.00 0.00
10 Percent Complete: Total/live time: 1984.00 1984.00
20 Percent Complete: Total/live time: 1984.00 1984.00
30 Percent Complete: Total/live time: 3360.00 3360.00
40 Percent Complete: Total/live time: 3360.00 3360.00
50 Percent Complete: Total/live time: 4864.42 4864.42
60 Percent Complete: Total/live time: 4864.42 4864.42
70 Percent Complete: Total/live time: 5084.00 5084.00
80 Percent Complete: Total/live time: 7143.77 7143.77
100 Percent Complete: Total/live time: 7143.77 7143.77
Number of attitude steps used: 8
Number of attitude steps avail: 18148
Mean RA/DEC pixel offset: -55.5440 -18.5610
writing expo file: ad55010000s100102h.expo
closing attitude file...
closing data file...
-> Generating low and high energy images for ad55010000s100102h.evt
ASCAEXPO_V0.9b
reading data file: ad55010000s100202m.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 OFF 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: ./fa971105_1410.2350
making an exposure map...
Aspect RA/DEC/ROLL : 295.1400 22.5835 101.7597
Mean RA/DEC/ROLL : 295.1401 22.5998 101.7597
Pnt RA/DEC/ROLL : 295.1507 22.5679 101.7597
Image rebin factor : 4
Attitude Records : 36546
Hot Pixels : 22
GTI intervals : 10
Total GTI (secs) : 1056.228
Max attitude excursion (arcsecs) : 5.000
0 Percent Complete: Total/live time: 0.00 0.00
10 Percent Complete: Total/live time: 544.00 544.00
20 Percent Complete: Total/live time: 544.00 544.00
30 Percent Complete: Total/live time: 547.98 547.98
40 Percent Complete: Total/live time: 547.98 547.98
50 Percent Complete: Total/live time: 672.00 672.00
60 Percent Complete: Total/live time: 672.00 672.00
70 Percent Complete: Total/live time: 768.00 768.00
80 Percent Complete: Total/live time: 864.00 864.00
90 Percent Complete: Total/live time: 992.00 992.00
100 Percent Complete: Total/live time: 1056.23 1056.23
Number of attitude steps used: 11
Number of attitude steps avail: 425
Mean RA/DEC pixel offset: -59.2442 -16.9556
writing expo file: ad55010000s100202m.expo
closing attitude file...
closing data file...
-> Generating low and high energy images for ad55010000s100202m.evtad55010000s000102h.expo ad55010000s000202m.expo ad55010000s100102h.expo ad55010000s100202m.expo-> Summing the following images to produce ad55010000sis32002_all.totsky
ad55010000s000102h.img ad55010000s000202m.img ad55010000s100102h.img ad55010000s100202m.img-> Summing the following images to produce ad55010000sis32002_lo.totsky
ad55010000s000102h_lo.img ad55010000s000202m_lo.img ad55010000s100102h_lo.img ad55010000s100202m_lo.img-> Summing the following images to produce ad55010000sis32002_hi.totsky
ad55010000s000102h_hi.img ad55010000s000202m_hi.img ad55010000s100102h_hi.img ad55010000s100202m_hi.img-> Running XIMAGE to create ad55010000sis32002.gif
No of detectors read in: 20 ![1]XIMAGE> read/fits ad55010000sis32002_all.totsky Reading an image Telescope ASCA SIS0 Image display size = 320 Done, closing file Largest, Smallest 2.00000 0. Bscale, Bzero from file 1.0000000000000 0. After internal scaling Bscale and Bzero 1.0000000000000 0. Image level, max: 2 min: 0 ![2]XIMAGE> read/exp_map ad55010000sis32002.totexpo Reading an image Telescope ASCA SIS0 Image display size = 320 Done, closing file Largest, Smallest 141.063 0. Bscale, Bzero from file 1.0000000000000 0. After internal scaling Bscale and Bzero 1.0000000000000 0. Image level, max: 141 min: 0 ![3]XIMAGE> smooth ![4]XIMAGE> cpd /ppm ![5]XIMAGE> cey 2000 ![6]XIMAGE> title "RIDGE_EDGE1" ![7]XIMAGE> title/lower "ASCA SIS0,SIS1 November 5, 1997 Exposure: 16663.7 s" ![8]XIMAGE> disp/correct/noframe Displaying image The image is exposure corrected Min = 0 max = 32767 ![9]XIMAGE> grid ![10]XIMAGE> scale scal_f, min_inten 1.00000 0. i,inten,mm,pp 1 0. 0 0 i,inten,mm,pp 2 4.00000 40 -1 i,inten,mm,pp 3 8.00000 80 -1 i,inten,mm,pp 4 19.0000 19 0 ![11]XIMAGE> exit-> Summing gis images
ad55010000g200170h.expo ad55010000g200270l.expo ad55010000g200370m.expo ad55010000g300170h.expo ad55010000g300270l.expo ad55010000g300370m.expo-> Summing the following images to produce ad55010000gis25670_all.totsky
ad55010000g200170h.img ad55010000g200270l.img ad55010000g200370m.img ad55010000g300170h.img ad55010000g300270l.img ad55010000g300370m.img-> Summing the following images to produce ad55010000gis25670_lo.totsky
ad55010000g200170h_lo.img ad55010000g200270l_lo.img ad55010000g200370m_lo.img ad55010000g300170h_lo.img ad55010000g300270l_lo.img ad55010000g300370m_lo.img-> Summing the following images to produce ad55010000gis25670_hi.totsky
ad55010000g200170h_hi.img ad55010000g200270l_hi.img ad55010000g200370m_hi.img ad55010000g300170h_hi.img ad55010000g300270l_hi.img ad55010000g300370m_hi.img-> Running XIMAGE to create ad55010000gis25670.gif
No of detectors read in: 20 ![1]XIMAGE> read/fits ad55010000gis25670_all.totsky Reading an image Telescope ASCA GIS2 Image display size = 256 Done, closing file Largest, Smallest 4.00000 0. Bscale, Bzero from file 1.0000000000000 0. After internal scaling Bscale and Bzero 1.0000000000000 0. Image level, max: 4 min: 0 ![2]XIMAGE> read/exp_map ad55010000gis25670.totexpo Reading an image Telescope ASCA GIS2 Image display size = 256 Done, closing file Largest, Smallest 307.327 0. Bscale, Bzero from file 1.0000000000000 0. After internal scaling Bscale and Bzero 1.0000000000000 0. Image level, max: 307 min: 0 ![3]XIMAGE> smooth ![4]XIMAGE> cpd /ppm ![5]XIMAGE> cey 2000 ![6]XIMAGE> title "RIDGE_EDGE1" ![7]XIMAGE> title/lower "ASCA GIS2,GIS3 November 5, 1997 Exposure: 18439.6 s" ![8]XIMAGE> disp/correct/noframe Displaying image The image is exposure corrected Min = 0 max = 32767 ![9]XIMAGE> grid ![10]XIMAGE> scale scal_f, min_inten 1.00000 0. i,inten,mm,pp 1 0. 0 0 i,inten,mm,pp 2 4.00000 40 -1 i,inten,mm,pp 3 8.00000 80 -1 i,inten,mm,pp 4 26.0000 26 0 ![11]XIMAGE> exit
-> Standard Output From STOOL colorpic:
color plane 0 color plane 1 color plane 2 writing image image written-> Creating fits catalog of sources: ad55010000gis25670.src
-> Standard Output From STOOL colorpic:
color plane 0 color plane 1 color plane 2 writing image image written-> Creating fits catalog of sources: ad55010000sis32002.src
1 ad55010000s000102h.evt 370 1 ad55010000s000202m.evt 370-> Standard Output From STOOL group_event_files:
1 ad55010000s000112h.evt 394 1 ad55010000s000212m.evt 394-> Standard Output From STOOL group_event_files:
1 ad55010000s100102h.evt 389 1 ad55010000s100202m.evt 389-> Standard Output From STOOL group_event_files:
1 ad55010000s100112h.evt 407 1 ad55010000s100212m.evt 407-> Standard Output From STOOL group_event_files:
1 ad55010000g200170h.evt 2924 1 ad55010000g200270l.evt 2924 1 ad55010000g200370m.evt 2924-> GIS2_REGION256.4 already present in current directory
ad55010000g200170h.evt ad55010000g200270l.evt ad55010000g200370m.evt-> Correcting ad55010000g210170_0.pi for dead time
... read all the files from deadlist.tmp-> Grouping ad55010000g210170_0.pi to 40 counts/bin
------------------------- 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 - 9219.8 Integration time (in secs) of PHA data AREASCAL - 1.0000 Area scaling factor BACKSCAL - 0.36888 Background scaling factor BACKFILE - NONE Associated background file CORRSCAL - 1.0000 Correlation scaling factor CORRFILE - none Associated correlation file RESPFILE - NONE Associated redistribution matrix file ANCRFILE - none Associated ancillary response file XFLT0001 - none XSPEC selection filter POISSERR - TRUE Whether Poissonian errors apply CHANTYPE - PI Whether channels have been corrected TLMIN1 - 0 First legal Detector channel DETCHANS - 1024 No. of legal detector channels NCHAN - 1024 No. of detector channels in dataset PHAVERSN - 1.1.0 OGIP FITS version number STAT_ERR - FALSE Statistical Error SYS_ERR - TRUE Fractional Systematic Error QUALITY - TRUE Quality Flag GROUPING - TRUE Grouping Flag -------------------------------------------------------------------- -------------------------------------------------------------------- ... ... -------- ... GROUPING ... -------- ... --------------------------------------------- ... Channel Grouping (Channel-Channel) : ... 0 - 23 are grouped by a factor 24 ... 24 - 27 are grouped by a factor 4 ... 28 - 33 are grouped by a factor 6 ... 34 - 49 are grouped by a factor 8 ... 50 - 59 are grouped by a factor 10 ... 60 - 80 are grouped by a factor 7 ... 81 - 90 are grouped by a factor 5 ... 91 - 102 are grouped by a factor 6 ... 103 - 107 are grouped by a factor 5 ... 108 - 113 are grouped by a factor 6 ... 114 - 121 are grouped by a factor 4 ... 122 - 136 are grouped by a factor 5 ... 137 - 142 are grouped by a factor 6 ... 143 - 147 are grouped by a factor 5 ... 148 - 153 are grouped by a factor 6 ... 154 - 157 are grouped by a factor 4 ... 158 - 162 are grouped by a factor 5 ... 163 - 168 are grouped by a factor 6 ... 169 - 175 are grouped by a factor 7 ... 176 - 179 are grouped by a factor 4 ... 180 - 200 are grouped by a factor 7 ... 201 - 209 are grouped by a factor 9 ... 210 - 216 are grouped by a factor 7 ... 217 - 227 are grouped by a factor 11 ... 228 - 243 are grouped by a factor 8 ... 244 - 250 are grouped by a factor 7 ... 251 - 259 are grouped by a factor 9 ... 260 - 266 are grouped by a factor 7 ... 267 - 277 are grouped by a factor 11 ... 278 - 291 are grouped by a factor 14 ... 292 - 302 are grouped by a factor 11 ... 303 - 338 are grouped by a factor 12 ... 339 - 366 are grouped by a factor 14 ... 367 - 382 are grouped by a factor 16 ... 383 - 394 are grouped by a factor 12 ... 395 - 405 are grouped by a factor 11 ... 406 - 420 are grouped by a factor 15 ... 421 - 434 are grouped by a factor 14 ... 435 - 449 are grouped by a factor 15 ... 450 - 468 are grouped by a factor 19 ... 469 - 491 are grouped by a factor 23 ... 492 - 512 are grouped by a factor 21 ... 513 - 536 are grouped by a factor 24 ... 537 - 561 are grouped by a factor 25 ... 562 - 595 are grouped by a factor 34 ... 596 - 625 are grouped by a factor 30 ... 626 - 656 are grouped by a factor 31 ... 657 - 681 are grouped by a factor 25 ... 682 - 720 are grouped by a factor 39 ... 721 - 760 are grouped by a factor 40 ... 761 - 801 are grouped by a factor 41 ... 802 - 840 are grouped by a factor 39 ... 841 - 928 are grouped by a factor 88 ... 929 - 1010 are grouped by a factor 82 ... 1011 - 1023 of undefined grouping (Channel quality=bad) ... --------------------------------------------- ... ...... exiting, changes written to file : ad55010000g210170_0.pi ** grppha 2.8.1 completed successfully-> Fetching gis2v4_0.rmf
ASCAARF vers 2.81 28 Aug 1998.
Input WMAP array has size 177 by 178 bins
expanded to 256 by 256 bins
First WMAP bin is at detector pixel 1 1
1 detector pixels per WMAP bin
WMAP bin size is 0.25000 mm
0.24555 arcmin
Selected region size is 1458.0 arcmin^2
Optical axis is detector pixel 133.00 130.96
201 energies from RMF file
Effective area fudge applied
Arf filter applied
Total counts in region = 2.92400E+03
Weighted mean angle from optical axis = 13.968 arcmin
-> Standard Output From STOOL group_event_files:1 ad55010000g300170h.evt 2945 1 ad55010000g300270l.evt 2945 1 ad55010000g300370m.evt 2945-> GIS3_REGION256.4 already present in current directory
ad55010000g300170h.evt ad55010000g300270l.evt ad55010000g300370m.evt-> Correcting ad55010000g310170_0.pi for dead time
... read all the files from deadlist.tmp-> Grouping ad55010000g310170_0.pi to 40 counts/bin
------------------------- 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 - 9219.8 Integration time (in secs) of PHA data AREASCAL - 1.0000 Area scaling factor BACKSCAL - 0.36783 Background scaling factor BACKFILE - NONE Associated background file CORRSCAL - 1.0000 Correlation scaling factor CORRFILE - none Associated correlation file RESPFILE - NONE Associated redistribution matrix file ANCRFILE - none Associated ancillary response file XFLT0001 - none XSPEC selection filter POISSERR - TRUE Whether Poissonian errors apply CHANTYPE - PI Whether channels have been corrected TLMIN1 - 0 First legal Detector channel DETCHANS - 1024 No. of legal detector channels NCHAN - 1024 No. of detector channels in dataset PHAVERSN - 1.1.0 OGIP FITS version number STAT_ERR - FALSE Statistical Error SYS_ERR - TRUE Fractional Systematic Error QUALITY - TRUE Quality Flag GROUPING - TRUE Grouping Flag -------------------------------------------------------------------- -------------------------------------------------------------------- ... ... -------- ... GROUPING ... -------- ... --------------------------------------------- ... Channel Grouping (Channel-Channel) : ... 0 - 24 are grouped by a factor 25 ... 25 - 28 are grouped by a factor 4 ... 29 - 40 are grouped by a factor 6 ... 41 - 49 are grouped by a factor 9 ... 50 - 60 are grouped by a factor 11 ... 61 - 74 are grouped by a factor 7 ... 75 - 78 are grouped by a factor 4 ... 79 - 84 are grouped by a factor 6 ... 85 - 109 are grouped by a factor 5 ... 110 - 115 are grouped by a factor 6 ... 116 - 120 are grouped by a factor 5 ... 121 - 132 are grouped by a factor 6 ... 133 - 142 are grouped by a factor 5 ... 143 - 146 are grouped by a factor 4 ... 147 - 166 are grouped by a factor 5 ... 167 - 173 are grouped by a factor 7 ... 174 - 178 are grouped by a factor 5 ... 179 - 184 are grouped by a factor 6 ... 185 - 191 are grouped by a factor 7 ... 192 - 197 are grouped by a factor 6 ... 198 - 206 are grouped by a factor 9 ... 207 - 213 are grouped by a factor 7 ... 214 - 219 are grouped by a factor 6 ... 220 - 228 are grouped by a factor 9 ... 229 - 238 are grouped by a factor 10 ... 239 - 246 are grouped by a factor 8 ... 247 - 255 are grouped by a factor 9 ... 256 - 267 are grouped by a factor 12 ... 268 - 280 are grouped by a factor 13 ... 281 - 291 are grouped by a factor 11 ... 292 - 301 are grouped by a factor 10 ... 302 - 312 are grouped by a factor 11 ... 313 - 325 are grouped by a factor 13 ... 326 - 335 are grouped by a factor 10 ... 336 - 347 are grouped by a factor 12 ... 348 - 361 are grouped by a factor 14 ... 362 - 373 are grouped by a factor 12 ... 374 - 383 are grouped by a factor 10 ... 384 - 396 are grouped by a factor 13 ... 397 - 408 are grouped by a factor 12 ... 409 - 421 are grouped by a factor 13 ... 422 - 432 are grouped by a factor 11 ... 433 - 447 are grouped by a factor 15 ... 448 - 460 are grouped by a factor 13 ... 461 - 474 are grouped by a factor 14 ... 475 - 491 are grouped by a factor 17 ... 492 - 517 are grouped by a factor 26 ... 518 - 546 are grouped by a factor 29 ... 547 - 577 are grouped by a factor 31 ... 578 - 598 are grouped by a factor 21 ... 599 - 631 are grouped by a factor 33 ... 632 - 669 are grouped by a factor 38 ... 670 - 710 are grouped by a factor 41 ... 711 - 745 are grouped by a factor 35 ... 746 - 796 are grouped by a factor 51 ... 797 - 844 are grouped by a factor 48 ... 845 - 898 are grouped by a factor 54 ... 899 - 963 are grouped by a factor 65 ... 964 - 1023 are grouped by a factor 60 ... --------------------------------------------- ... ...... exiting, changes written to file : ad55010000g310170_0.pi ** grppha 2.8.1 completed successfully-> Fetching gis3v4_0.rmf
ASCAARF vers 2.81 28 Aug 1998.
Input WMAP array has size 177 by 178 bins
expanded to 256 by 256 bins
First WMAP bin is at detector pixel 1 1
1 detector pixels per WMAP bin
WMAP bin size is 0.25000 mm
0.24555 arcmin
Selected region size is 1453.8 arcmin^2
Optical axis is detector pixel 119.36 134.44
201 energies from RMF file
Effective area fudge applied
Arf filter applied
Total counts in region = 2.94500E+03
Weighted mean angle from optical axis = 13.980 arcmin
-> Plotting ad55010000g210170_0_pi.ps from ad55010000g210170_0.pi
XSPEC 9.01 17:17:47 29-Dec-99
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
!XSPEC> data ad55010000g210170_0.pi
Net count rate (cts/s) for file 1 0.3171 +/- 5.8760E-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 ad55010000g310170_0_pi.ps from ad55010000g310170_0.pi
XSPEC 9.01 17:17:58 29-Dec-99
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
!XSPEC> data ad55010000g310170_0.pi
Net count rate (cts/s) for file 1 0.3194 +/- 5.8860E-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
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]=> ad55010000g200070_0.lc
Selected FITS extensions: 1 - RATE TABLE;
Source ............ RIDGE_EDGE1 Start Time (d) .... 10757 15:18:59.293
FITS Extension .... 1 - `RATE ` Stop Time (d) ..... 10757 23:43:29.203
No. of Rows ....... 59 Bin Time (s) ...... 157.7
Right Ascension ... 2.9514E+02 Internal time sys.. Converted to TJD
Declination ....... 2.2584E+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 192 Newbins of 157.657 (s)
Intv 1 Start10757 15:20:18
Ser.1 Avg 0.3175 Chisq 77.63 Var 0.2804E-02 Newbs. 59
Min 0.2157 Max 0.4503 expVar 0.2131E-02 Bins 59
Results from Statistical Analysis
Newbin Integration Time (s).. 157.66
Interval Duration (s)........ 30113.
No. of Newbins .............. 59
Average (c/s) ............... 0.31753 +/- 0.61E-02
Standard Deviation (c/s)..... 0.52955E-01
Minimum (c/s)................ 0.21566
Maximum (c/s)................ 0.45034
Variance ((c/s)**2).......... 0.28042E-02 +/- 0.52E-03
Expected Variance ((c/s)**2). 0.21313E-02 +/- 0.40E-03
Third Moment ((c/s)**3)...... 0.58455E-04
Average Deviation (c/s)...... 0.41608E-01
Skewness..................... 0.39365 +/- 0.32
Kurtosis.....................-0.12678 +/- 0.64
RMS fractional variation....< 0.83997E-01 (3 sigma)
Chi-Square................... 77.628 dof 58
Chi-Square Prob of constancy. 0.43621E-01 (0 means < 1.e-38)
Kolm.-Smir. Prob of constancy 0.58191E-02 (0 means < 1.e-38)
[4]xronos> [5]xronos>
Maximum of 1 Intvs. with 192 Newbins of 157.657 (s)
Intv 1 Start10757 15:20:18
Ser.1 Avg 0.3175 Chisq 77.63 Var 0.2804E-02 Newbs. 59
Min 0.2157 Max 0.4503 expVar 0.2131E-02 Bins 59
Light curve ready !
Frme 1 Written to output file : xronos.qlc1
PLT> LA File ad55010000g200070_0.lc
PLT> hard /ps
PLT> [6]xronos>
-> TIMEDEL=6.2500000000E-02 for ad55010000g300170h.evt
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]=> ad55010000g300070_0.lc
Selected FITS extensions: 1 - RATE TABLE;
Source ............ RIDGE_EDGE1 Start Time (d) .... 10757 15:18:59.293
FITS Extension .... 1 - `RATE ` Stop Time (d) ..... 10757 23:43:29.203
No. of Rows ....... 59 Bin Time (s) ...... 156.5
Right Ascension ... 2.9514E+02 Internal time sys.. Converted to TJD
Declination ....... 2.2584E+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 194 Newbins of 156.533 (s)
Intv 1 Start10757 15:20:17
Ser.1 Avg 0.3198 Chisq 81.09 Var 0.2972E-02 Newbs. 59
Min 0.2148 Max 0.4315 expVar 0.2163E-02 Bins 59
Results from Statistical Analysis
Newbin Integration Time (s).. 156.53
Interval Duration (s)........ 30054.
No. of Newbins .............. 59
Average (c/s) ............... 0.31978 +/- 0.61E-02
Standard Deviation (c/s)..... 0.54519E-01
Minimum (c/s)................ 0.21482
Maximum (c/s)................ 0.43154
Variance ((c/s)**2).......... 0.29723E-02 +/- 0.55E-03
Expected Variance ((c/s)**2). 0.21625E-02 +/- 0.40E-03
Third Moment ((c/s)**3)...... 0.39008E-04
Average Deviation (c/s)...... 0.44581E-01
Skewness..................... 0.24072 +/- 0.32
Kurtosis.....................-0.66222 +/- 0.64
RMS fractional variation....< 0.76266E-01 (3 sigma)
Chi-Square................... 81.092 dof 58
Chi-Square Prob of constancy. 0.24328E-01 (0 means < 1.e-38)
Kolm.-Smir. Prob of constancy 0.40287E-02 (0 means < 1.e-38)
[4]xronos> [5]xronos>
Maximum of 1 Intvs. with 194 Newbins of 156.533 (s)
Intv 1 Start10757 15:20:17
Ser.1 Avg 0.3198 Chisq 81.09 Var 0.2972E-02 Newbs. 59
Min 0.2148 Max 0.4315 expVar 0.2163E-02 Bins 59
Light curve ready !
Frme 1 Written to output file : xronos.qlc1
PLT> LA File ad55010000g300070_0.lc
PLT> hard /ps
PLT> [6]xronos>
-> Merging GTIs from the following files:ad55010000g200170h.evt[2] ad55010000g200270l.evt[2] ad55010000g200370m.evt[2]-> Making L1 light curve of ft971105_1410_2350G2HK.fits with irate=HIGH
ghkcurve: ALLGTI found in input HK file, will be applied to data. ghkcurve: 15319 output records from 15327 good input G2_L1 records.-> Making L1 light curve of ft971105_1410_2350G2HK.fits with irate=HI+MED
ghkcurve: ALLGTI found in input HK file, will be applied to data. ghkcurve: 8029 output records from 16348 good input G2_L1 records.-> Merging GTIs from the following files:
ad55010000g300170h.evt[2] ad55010000g300270l.evt[2] ad55010000g300370m.evt[2]-> Making L1 light curve of ft971105_1410_2350G3HK.fits with irate=HIGH
ghkcurve: ALLGTI found in input HK file, will be applied to data. ghkcurve: 14665 output records from 14673 good input G3_L1 records.-> Making L1 light curve of ft971105_1410_2350G3HK.fits with irate=HI+MED
ghkcurve: ALLGTI found in input HK file, will be applied to data. ghkcurve: 7884 output records from 15655 good input G3_L1 records.
*** tlmFrm Version 1.1 (1997-08-25) ***
total number of superframes: 9156
frame data: 152894215.300259 ---> 152894359.299832
S0, C0, 4 ccd mode; Output File = fr971105_1410.2350_s0c0m4a.fits
frame data: 152894379.299773 ---> 152894523.299347
S0, C1, 4 ccd mode; Output File = fr971105_1410.2350_s0c1m4a.fits
frame data: 152894543.299287 ---> 152894687.298861
S0, C2, 4 ccd mode; Output File = fr971105_1410.2350_s0c2m4a.fits
frame data: 152894707.298802 ---> 152894851.298375
S0, C3, 4 ccd mode; Output File = fr971105_1410.2350_s0c3m4a.fits
frame data: 152917215.232037 ---> 152917359.231606
S1, C2, 4 ccd mode; Output File = fr971105_1410.2350_s1c2m4a.fits
frame data: 152917379.231546 ---> 152917523.231116
S1, C3, 4 ccd mode; Output File = fr971105_1410.2350_s1c3m4a.fits
frame data: 152917543.231056 ---> 152917687.230627
S1, C0, 4 ccd mode; Output File = fr971105_1410.2350_s1c0m4a.fits
frame data: 152917707.230567 ---> 152917851.230137
S1, C1, 4 ccd mode; Output File = fr971105_1410.2350_s1c1m4a.fits
frame data: 152923075.214509 ---> 152923219.214078
S0, C1, 2 ccd mode; Output File = fr971105_1410.2350_s0c1m2a.fits
frame data: 152923239.214019 ---> 152923383.213588
S0, C2, 2 ccd mode; Output File = fr971105_1410.2350_s0c2m2a.fits
frame data: 152923403.213528 ---> 152923547.213096
S0, C1, 2 ccd mode; Output File = fr971105_1410.2350_s0c1m2b.fits
frame data: 152923567.213036 ---> 152923711.212604
S0, C2, 2 ccd mode; Output File = fr971105_1410.2350_s0c2m2b.fits
Total of 12 sets of frame data are extracted.
-> Processing fr971105_1410.2350_s0c0m4a.fitsDark upper (ADU) : 40 Dark lower (ADU) : -40 Input frame data : fr971105_1410.2350_s0c0m4a.fits Output zero level image : rdd.tmp Bias level = 316-> Adding keywords to header of fr971105_1410.2350_s0c0m4a.fits
Dark upper (ADU) : 40 Dark lower (ADU) : -40 Input frame data : fr971105_1410.2350_s0c1m2a.fits Output zero level image : rdd.tmp Bias level = 296-> Adding keywords to header of fr971105_1410.2350_s0c1m2a.fits
Dark upper (ADU) : 40 Dark lower (ADU) : -40 Input frame data : fr971105_1410.2350_s0c1m2b.fits Output zero level image : rdd.tmp Bias level = 296-> Adding keywords to header of fr971105_1410.2350_s0c1m2b.fits
Dark upper (ADU) : 40 Dark lower (ADU) : -40 Input frame data : fr971105_1410.2350_s0c1m4a.fits Output zero level image : rdd.tmp Bias level = 279-> Adding keywords to header of fr971105_1410.2350_s0c1m4a.fits
Dark upper (ADU) : 40 Dark lower (ADU) : -40 Input frame data : fr971105_1410.2350_s0c2m2a.fits Output zero level image : rdd.tmp Bias level = 332-> Adding keywords to header of fr971105_1410.2350_s0c2m2a.fits
Dark upper (ADU) : 40 Dark lower (ADU) : -40 Input frame data : fr971105_1410.2350_s0c2m2b.fits Output zero level image : rdd.tmp Bias level = 331-> Adding keywords to header of fr971105_1410.2350_s0c2m2b.fits
Dark upper (ADU) : 40 Dark lower (ADU) : -40 Input frame data : fr971105_1410.2350_s0c2m4a.fits Output zero level image : rdd.tmp Bias level = 308-> Adding keywords to header of fr971105_1410.2350_s0c2m4a.fits
Dark upper (ADU) : 40 Dark lower (ADU) : -40 Input frame data : fr971105_1410.2350_s0c3m4a.fits Output zero level image : rdd.tmp Bias level = 288-> Adding keywords to header of fr971105_1410.2350_s0c3m4a.fits
Dark upper (ADU) : 40 Dark lower (ADU) : -40 Input frame data : fr971105_1410.2350_s1c0m4a.fits Output zero level image : rdd.tmp Bias level = 224-> Adding keywords to header of fr971105_1410.2350_s1c0m4a.fits
Dark upper (ADU) : 40 Dark lower (ADU) : -40 Input frame data : fr971105_1410.2350_s1c1m4a.fits Output zero level image : rdd.tmp Bias level = 192-> Adding keywords to header of fr971105_1410.2350_s1c1m4a.fits
Dark upper (ADU) : 40 Dark lower (ADU) : -40 Input frame data : fr971105_1410.2350_s1c2m4a.fits Output zero level image : rdd.tmp Bias level = 183-> Adding keywords to header of fr971105_1410.2350_s1c2m4a.fits
Dark upper (ADU) : 40 Dark lower (ADU) : -40 Input frame data : fr971105_1410.2350_s1c3m4a.fits Output zero level image : rdd.tmp Bias level = 220-> Adding keywords to header of fr971105_1410.2350_s1c3m4a.fits
SUNSHINE==0 && T_DY_NT>64 && T_SAA>64 && SAA==0 && COR>6 && (ELV>10 || ELV<10 )-> Extracting GTIs from ft971105_1410_2350.mkf
1 ad55010000g200170h.unf 21423 1 ad55010000g200270l.unf 21423 1 ad55010000g200370m.unf 21423-> Fetching GIS2_CALSRC256.2
XSPEC 9.01 17:40:30 29-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 ad55010000g220170.cal
Net count rate (cts/s) for file 1 0.1548 +/- 2.6630E-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 = 1.0400E+06 using 84 PHA bins.
Reduced chi-squared = 1.3506E+04
!XSPEC> newpar 5 = 2 1.101005
6 variable fit parameters
Chi-Squared = 1.0314E+06 using 84 PHA bins.
Reduced chi-squared = 1.3223E+04
!XSPEC> newpar 6 = 3 1.049288
5 variable fit parameters
Chi-Squared = 1.0314E+06 using 84 PHA bins.
Reduced chi-squared = 1.3056E+04
!XSPEC> renorm
Chi-Squared = 930.9 using 84 PHA bins.
Reduced chi-squared = 11.78
!XSPEC> fit
Chi-Squared Lvl Fit param # 1 2 3 4
5
Due to zero model norms
fit parameter 1 is temporarily frozen
718.65 0 1.000 5.892 0.1186 4.2113E-02
3.7158E-02
Due to zero model norms
fit parameter 1 is temporarily frozen
366.66 0 1.000 5.868 0.1639 6.1594E-02
3.3126E-02
Due to zero model norms
fit parameter 1 is temporarily frozen
175.11 -1 1.000 5.940 0.1777 8.7343E-02
2.0978E-02
Due to zero model norms
fit parameter 1 is temporarily frozen
152.12 -2 1.000 5.988 0.2006 0.1005
1.2979E-02
Due to zero model norms
fit parameter 1 is temporarily frozen
149.47 -3 1.000 5.970 0.1844 9.7456E-02
1.5946E-02
Due to zero model norms
fit parameter 1 is temporarily frozen
149.22 -4 1.000 5.977 0.1895 9.8816E-02
1.4573E-02
Due to zero model norms
fit parameter 1 is temporarily frozen
149.10 -5 1.000 5.974 0.1871 9.8307E-02
1.5069E-02
Due to zero model norms
fit parameter 1 is temporarily frozen
149.10 0 1.000 5.974 0.1872 9.8335E-02
1.5035E-02
---------------------------------------------------------------------------
---------------------------------------------------------------------------
mo = constant[1] ) + gaussian/b[2] + gaussian/b[3]
Model Fit Model Component Parameter Value
par par comp
1 1 1 constant factor 1.00000 +/- -1.0000
2 2 2 gaussian/b LineE 5.97428 +/- 0.10134E-01
3 3 2 gaussian/b Sigma 0.187186 +/- 0.10868E-01
4 4 2 gaussian/b norm 9.833537E-02 +/- 0.26787E-02
5 2 3 gaussian/b LineE 6.57771 = par 2 * 1.1010
6 3 3 gaussian/b Sigma 0.196412 = par 3 * 1.0493
7 5 3 gaussian/b norm 1.503483E-02 +/- 0.18010E-02
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 149.1 using 84 PHA bins.
Reduced chi-squared = 1.887
!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 ad55010000g220170.cal peaks at 5.97428 +/- 0.010134 keV1 ad55010000g300170h.unf 19738 1 ad55010000g300270l.unf 19738 1 ad55010000g300370m.unf 19738-> Fetching GIS3_CALSRC256.2
XSPEC 9.01 17:41:18 29-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 ad55010000g320170.cal
Net count rate (cts/s) for file 1 0.1359 +/- 2.5026E-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 = 1.2514E+06 using 84 PHA bins.
Reduced chi-squared = 1.6253E+04
!XSPEC> newpar 5 = 2 1.101005
6 variable fit parameters
Chi-Squared = 1.2409E+06 using 84 PHA bins.
Reduced chi-squared = 1.5909E+04
!XSPEC> newpar 6 = 3 1.049288
5 variable fit parameters
Chi-Squared = 1.2409E+06 using 84 PHA bins.
Reduced chi-squared = 1.5708E+04
!XSPEC> renorm
Chi-Squared = 974.9 using 84 PHA bins.
Reduced chi-squared = 12.34
!XSPEC> fit
Chi-Squared Lvl Fit param # 1 2 3 4
5
Due to zero model norms
fit parameter 1 is temporarily frozen
794.97 0 1.000 5.892 8.0310E-02 3.6704E-02
3.1145E-02
Due to zero model norms
fit parameter 1 is temporarily frozen
285.34 0 1.000 5.860 0.1329 5.9627E-02
2.6722E-02
Due to zero model norms
fit parameter 1 is temporarily frozen
109.00 -1 1.000 5.893 0.1449 8.4865E-02
1.8097E-02
Due to zero model norms
fit parameter 1 is temporarily frozen
99.519 -2 1.000 5.913 0.1563 9.1373E-02
1.4304E-02
Due to zero model norms
fit parameter 1 is temporarily frozen
99.445 -3 1.000 5.911 0.1545 9.1179E-02
1.4516E-02
Due to zero model norms
fit parameter 1 is temporarily frozen
99.443 -4 1.000 5.911 0.1544 9.1198E-02
1.4499E-02
---------------------------------------------------------------------------
---------------------------------------------------------------------------
mo = constant[1] ) + gaussian/b[2] + gaussian/b[3]
Model Fit Model Component Parameter Value
par par comp
1 1 1 constant factor 1.00000 +/- -1.0000
2 2 2 gaussian/b LineE 5.91139 +/- 0.87914E-02
3 3 2 gaussian/b Sigma 0.154378 +/- 0.10784E-01
4 4 2 gaussian/b norm 9.119794E-02 +/- 0.24320E-02
5 2 3 gaussian/b LineE 6.50847 = par 2 * 1.1010
6 3 3 gaussian/b Sigma 0.161987 = par 3 * 1.0493
7 5 3 gaussian/b norm 1.449857E-02 +/- 0.15170E-02
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 99.44 using 84 PHA bins.
Reduced chi-squared = 1.259
!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 ad55010000g320170.cal peaks at 5.91139 +/- 0.0087914 keV
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: ad55010000s000102h.drk
reading data file: event.tmp
copying primary header to output file...
making chip image...
Total counts in chip images : 1470
copy bad pix array...
cleaning chip # 0
cleaning chip # 1
Hot pixels & counts : 4 1343
Flickering pixels iter, pixels & cnts : 1 2 10
cleaning chip # 2
cleaning chip # 3
Number of pixels rejected : 6
Number of (internal) image counts : 1470
Number of image cts rejected (N, %) : 135392.04
By chip : 0 1 2 3
Pixels rejected : 0 6 0 0
Image counts : 0 1470 0 0
Image cts rejected: 0 1353 0 0
Image cts rej (%) : 0.00 92.04 0.00 0.00
filtering data...
Total counts : 0 1470 0 0
Total cts rejected: 0 1353 0 0
Total cts rej (%) : 0.00 92.04 0.00 0.00
Number of clean counts accepted : 117
writing history cards...
copying extensions...
writing out hot pixs...
Number of rejected pixels : 6
updating NEVENTS keywords...
closing data file...
closing clean file...
-> Extracting bright and dark Earth events from ad55010000s000112h.unf
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: ad55010000s000112h.drk
reading data file: event.tmp
copying primary header to output file...
making chip image...
Total counts in chip images : 1486
copy bad pix array...
cleaning chip # 0
cleaning chip # 1
Hot pixels & counts : 4 1343
Flickering pixels iter, pixels & cnts : 1 2 10
cleaning chip # 2
cleaning chip # 3
Number of pixels rejected : 6
Number of (internal) image counts : 1486
Number of image cts rejected (N, %) : 135391.05
By chip : 0 1 2 3
Pixels rejected : 0 6 0 0
Image counts : 0 1486 0 0
Image cts rejected: 0 1353 0 0
Image cts rej (%) : 0.00 91.05 0.00 0.00
filtering data...
Total counts : 0 1486 0 0
Total cts rejected: 0 1353 0 0
Total cts rej (%) : 0.00 91.05 0.00 0.00
Number of clean counts accepted : 133
writing history cards...
copying extensions...
writing out hot pixs...
Number of rejected pixels : 6
updating NEVENTS keywords...
closing data file...
closing clean file...
-> Extracting bright and dark Earth events from ad55010000s000202m.unf
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: ad55010000s000202m.drk
reading data file: event.tmp
copying primary header to output file...
making chip image...
Total counts in chip images : 853
copy bad pix array...
cleaning chip # 0
cleaning chip # 1
Hot pixels & counts : 7 778
Flickering pixels iter, pixels & cnts : 1 4 24
cleaning chip # 2
cleaning chip # 3
Number of pixels rejected : 11
Number of (internal) image counts : 853
Number of image cts rejected (N, %) : 80294.02
By chip : 0 1 2 3
Pixels rejected : 0 11 0 0
Image counts : 0 853 0 0
Image cts rejected: 0 802 0 0
Image cts rej (%) : 0.00 94.02 0.00 0.00
filtering data...
Total counts : 0 853 0 0
Total cts rejected: 0 802 0 0
Total cts rej (%) : 0.00 94.02 0.00 0.00
Number of clean counts accepted : 51
writing history cards...
copying extensions...
writing out hot pixs...
Number of rejected pixels : 11
updating NEVENTS keywords...
closing data file...
closing clean file...
-> Extracting bright and dark Earth events from ad55010000s000212m.unf
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: ad55010000s000212m.drk
reading data file: event.tmp
copying primary header to output file...
making chip image...
File NEVENTS keyword value : 861
Total counts in chip images : 860
copy bad pix array...
cleaning chip # 0
cleaning chip # 1
Hot pixels & counts : 7 778
Flickering pixels iter, pixels & cnts : 1 4 24
cleaning chip # 2
cleaning chip # 3
Number of pixels rejected : 11
Number of (internal) image counts : 860
Number of image cts rejected (N, %) : 80293.26
By chip : 0 1 2 3
Pixels rejected : 0 11 0 0
Image counts : 0 860 0 0
Image cts rejected: 0 802 0 0
Image cts rej (%) : 0.00 93.26 0.00 0.00
filtering data...
Total counts : 0 861 0 0
Total cts rejected: 0 802 0 0
Total cts rej (%) : 0.00 93.15 0.00 0.00
Number of clean counts accepted : 59
writing history cards...
copying extensions...
writing out hot pixs...
Number of rejected pixels : 11
updating NEVENTS keywords...
closing data file...
closing clean file...
-> Extracting bright and dark Earth events from ad55010000s000302l.unf
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: ad55010000s000302l.drk
reading data file: event.tmp
copying primary header to output file...
making chip image...
Total counts in chip images : 2260
copy bad pix array...
cleaning chip # 0
cleaning chip # 1
Hot pixels & counts : 7 2105
Flickering pixels iter, pixels & cnts : 1 1 12
cleaning chip # 2
cleaning chip # 3
Number of pixels rejected : 8
Number of (internal) image counts : 2260
Number of image cts rejected (N, %) : 211793.67
By chip : 0 1 2 3
Pixels rejected : 0 8 0 0
Image counts : 0 2260 0 0
Image cts rejected: 0 2117 0 0
Image cts rej (%) : 0.00 93.67 0.00 0.00
filtering data...
Total counts : 0 2260 0 0
Total cts rejected: 0 2117 0 0
Total cts rej (%) : 0.00 93.67 0.00 0.00
Number of clean counts accepted : 143
writing history cards...
copying extensions...
writing out hot pixs...
Number of rejected pixels : 8
updating NEVENTS keywords...
closing data file...
closing clean file...
-> Extracting bright and dark Earth events from ad55010000s000312l.unf
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: ad55010000s000312l.drk
reading data file: event.tmp
copying primary header to output file...
making chip image...
File NEVENTS keyword value : 2281
Total counts in chip images : 2280
copy bad pix array...
cleaning chip # 0
cleaning chip # 1
Hot pixels & counts : 7 2104
Flickering pixels iter, pixels & cnts : 1 1 12
cleaning chip # 2
cleaning chip # 3
Number of pixels rejected : 8
Number of (internal) image counts : 2280
Number of image cts rejected (N, %) : 211692.81
By chip : 0 1 2 3
Pixels rejected : 0 8 0 0
Image counts : 0 2280 0 0
Image cts rejected: 0 2116 0 0
Image cts rej (%) : 0.00 92.81 0.00 0.00
filtering data...
Total counts : 0 2281 0 0
Total cts rejected: 0 2117 0 0
Total cts rej (%) : 0.00 92.81 0.00 0.00
Number of clean counts accepted : 164
writing history cards...
copying extensions...
writing out hot pixs...
Number of rejected pixels : 8
updating NEVENTS keywords...
closing data file...
closing clean file...
-> Extracting bright and dark Earth events from ad55010000s000402m.unf
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: ad55010000s000402m.drk
reading data file: event.tmp
copying primary header to output file...
making chip image...
Total counts in chip images : 1525
copy bad pix array...
cleaning chip # 0
Hot pixels & counts : 0 0
Flickering pixels iter, pixels & cnts : 1 11 38
cleaning chip # 1
Hot pixels & counts : 11 84
Flickering pixels iter, pixels & cnts : 1 20 85
cleaning chip # 2
Hot pixels & counts : 0 0
Flickering pixels iter, pixels & cnts : 1 33 284
cleaning chip # 3
Hot pixels & counts : 0 0
Flickering pixels iter, pixels & cnts : 1 39 380
Number of pixels rejected : 114
Number of (internal) image counts : 1525
Number of image cts rejected (N, %) : 87157.11
By chip : 0 1 2 3
Pixels rejected : 11 31 33 39
Image counts : 332 425 339 429
Image cts rejected: 38 169 284 380
Image cts rej (%) : 11.45 39.76 83.78 88.58
filtering data...
Total counts : 332 425 339 429
Total cts rejected: 38 169 284 380
Total cts rej (%) : 11.45 39.76 83.78 88.58
Number of clean counts accepted : 654
writing history cards...
copying extensions...
writing out hot pixs...
Number of rejected pixels : 114
updating NEVENTS keywords...
closing data file...
closing clean file...
-> Extracting bright and dark Earth events from ad55010000s000412m.unf
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: ad55010000s000412m.drk
reading data file: event.tmp
copying primary header to output file...
making chip image...
Total counts in chip images : 1879
copy bad pix array...
cleaning chip # 0
Hot pixels & counts : 0 0
Flickering pixels iter, pixels & cnts : 1 23 79
cleaning chip # 1
Hot pixels & counts : 14 106
Flickering pixels iter, pixels & cnts : 1 18 77
cleaning chip # 2
Hot pixels & counts : 30 351
Flickering pixels iter, pixels & cnts : 1 9 41
cleaning chip # 3
Hot pixels & counts : 0 0
Flickering pixels iter, pixels & cnts : 1 41 424
Number of pixels rejected : 135
Number of (internal) image counts : 1879
Number of image cts rejected (N, %) : 107857.37
By chip : 0 1 2 3
Pixels rejected : 23 32 39 41
Image counts : 456 490 448 485
Image cts rejected: 79 183 392 424
Image cts rej (%) : 17.32 37.35 87.50 87.42
filtering data...
Total counts : 456 490 448 485
Total cts rejected: 79 183 392 424
Total cts rej (%) : 17.32 37.35 87.50 87.42
Number of clean counts accepted : 801
writing history cards...
copying extensions...
writing out hot pixs...
Number of rejected pixels : 135
updating NEVENTS keywords...
closing data file...
closing clean file...
-> Extracting bright and dark Earth events from ad55010000s000502h.unf
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: ad55010000s000502h.drk
reading data file: event.tmp
copying primary header to output file...
making chip image...
Total counts in chip images : 1097
copy bad pix array...
cleaning chip # 0
cleaning chip # 1
Hot pixels & counts : 27 531
Flickering pixels iter, pixels & cnts : 1 11 44
cleaning chip # 2
Hot pixels & counts : 16 325
Flickering pixels iter, pixels & cnts : 1 5 21
cleaning chip # 3
Number of pixels rejected : 59
Number of (internal) image counts : 1097
Number of image cts rejected (N, %) : 92183.96
By chip : 0 1 2 3
Pixels rejected : 0 38 21 0
Image counts : 0 598 499 0
Image cts rejected: 0 575 346 0
Image cts rej (%) : 0.00 96.15 69.34 0.00
filtering data...
Total counts : 0 598 499 0
Total cts rejected: 0 575 346 0
Total cts rej (%) : 0.00 96.15 69.34 0.00
Number of clean counts accepted : 176
writing history cards...
copying extensions...
writing out hot pixs...
Number of rejected pixels : 59
updating NEVENTS keywords...
closing data file...
closing clean file...
-> Extracting bright and dark Earth events from ad55010000s000512h.unf
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: ad55010000s000512h.drk
reading data file: event.tmp
copying primary header to output file...
making chip image...
Total counts in chip images : 1113
copy bad pix array...
cleaning chip # 0
cleaning chip # 1
Hot pixels & counts : 27 531
Flickering pixels iter, pixels & cnts : 1 11 44
cleaning chip # 2
Hot pixels & counts : 16 325
Flickering pixels iter, pixels & cnts : 1 5 22
cleaning chip # 3
Number of pixels rejected : 59
Number of (internal) image counts : 1113
Number of image cts rejected (N, %) : 92282.84
By chip : 0 1 2 3
Pixels rejected : 0 38 21 0
Image counts : 0 601 512 0
Image cts rejected: 0 575 347 0
Image cts rej (%) : 0.00 95.67 67.77 0.00
filtering data...
Total counts : 0 601 512 0
Total cts rejected: 0 575 347 0
Total cts rej (%) : 0.00 95.67 67.77 0.00
Number of clean counts accepted : 191
writing history cards...
copying extensions...
writing out hot pixs...
Number of rejected pixels : 59
updating NEVENTS keywords...
closing data file...
closing clean file...
-> Extracting bright and dark Earth events from ad55010000s100102h.unf
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: ad55010000s100102h.drk
reading data file: event.tmp
copying primary header to output file...
making chip image...
Total counts in chip images : 3536
copy bad pix array...
cleaning chip # 0
cleaning chip # 1
Hot pixels & counts : 10 3368
Flickering pixels iter, pixels & cnts : 1 4 30
cleaning chip # 2
cleaning chip # 3
Number of pixels rejected : 14
Number of (internal) image counts : 3536
Number of image cts rejected (N, %) : 339896.10
By chip : 0 1 2 3
Pixels rejected : 0 14 0 0
Image counts : 0 3536 0 0
Image cts rejected: 0 3398 0 0
Image cts rej (%) : 0.00 96.10 0.00 0.00
filtering data...
Total counts : 0 3536 0 0
Total cts rejected: 0 3398 0 0
Total cts rej (%) : 0.00 96.10 0.00 0.00
Number of clean counts accepted : 138
writing history cards...
copying extensions...
writing out hot pixs...
Number of rejected pixels : 14
updating NEVENTS keywords...
closing data file...
closing clean file...
-> Extracting bright and dark Earth events from ad55010000s100112h.unf
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: ad55010000s100112h.drk
reading data file: event.tmp
copying primary header to output file...
making chip image...
Total counts in chip images : 3546
copy bad pix array...
cleaning chip # 0
cleaning chip # 1
Hot pixels & counts : 10 3368
Flickering pixels iter, pixels & cnts : 1 4 30
cleaning chip # 2
cleaning chip # 3
Number of pixels rejected : 14
Number of (internal) image counts : 3546
Number of image cts rejected (N, %) : 339895.83
By chip : 0 1 2 3
Pixels rejected : 0 14 0 0
Image counts : 0 3546 0 0
Image cts rejected: 0 3398 0 0
Image cts rej (%) : 0.00 95.83 0.00 0.00
filtering data...
Total counts : 0 3546 0 0
Total cts rejected: 0 3398 0 0
Total cts rej (%) : 0.00 95.83 0.00 0.00
Number of clean counts accepted : 148
writing history cards...
copying extensions...
writing out hot pixs...
Number of rejected pixels : 14
updating NEVENTS keywords...
closing data file...
closing clean file...
-> Extracting bright and dark Earth events from ad55010000s100202m.unf
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: ad55010000s100202m.drk
reading data file: event.tmp
copying primary header to output file...
making chip image...
Total counts in chip images : 3647
copy bad pix array...
cleaning chip # 0
cleaning chip # 1
Hot pixels & counts : 18 3483
Flickering pixels iter, pixels & cnts : 1 10 97
cleaning chip # 2
cleaning chip # 3
Number of pixels rejected : 28
Number of (internal) image counts : 3647
Number of image cts rejected (N, %) : 358098.16
By chip : 0 1 2 3
Pixels rejected : 0 28 0 0
Image counts : 0 3647 0 0
Image cts rejected: 0 3580 0 0
Image cts rej (%) : 0.00 98.16 0.00 0.00
filtering data...
Total counts : 0 3647 0 0
Total cts rejected: 0 3580 0 0
Total cts rej (%) : 0.00 98.16 0.00 0.00
Number of clean counts accepted : 67
writing history cards...
copying extensions...
writing out hot pixs...
Number of rejected pixels : 28
updating NEVENTS keywords...
closing data file...
closing clean file...
-> Extracting bright and dark Earth events from ad55010000s100212m.unf
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: ad55010000s100212m.drk
reading data file: event.tmp
copying primary header to output file...
making chip image...
Total counts in chip images : 3657
copy bad pix array...
cleaning chip # 0
cleaning chip # 1
Hot pixels & counts : 18 3483
Flickering pixels iter, pixels & cnts : 1 10 97
cleaning chip # 2
cleaning chip # 3
Number of pixels rejected : 28
Number of (internal) image counts : 3657
Number of image cts rejected (N, %) : 358097.89
By chip : 0 1 2 3
Pixels rejected : 0 28 0 0
Image counts : 0 3657 0 0
Image cts rejected: 0 3580 0 0
Image cts rej (%) : 0.00 97.89 0.00 0.00
filtering data...
Total counts : 0 3657 0 0
Total cts rejected: 0 3580 0 0
Total cts rej (%) : 0.00 97.89 0.00 0.00
Number of clean counts accepted : 77
writing history cards...
copying extensions...
writing out hot pixs...
Number of rejected pixels : 28
updating NEVENTS keywords...
closing data file...
closing clean file...
-> Extracting bright and dark Earth events from ad55010000s100302h.unf
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: ad55010000s100302h.drk
reading data file: event.tmp
copying primary header to output file...
making chip image...
Total counts in chip images : 9708
copy bad pix array...
cleaning chip # 0
Hot pixels & counts : 0 0
Flickering pixels iter, pixels & cnts : 1 262 1816
cleaning chip # 1
Hot pixels & counts : 0 0
Flickering pixels iter, pixels & cnts : 1 295 1899
cleaning chip # 2
Hot pixels & counts : 0 0
Flickering pixels iter, pixels & cnts : 1 303 2194
cleaning chip # 3
Hot pixels & counts : 0 0
Flickering pixels iter, pixels & cnts : 1 282 1817
Number of pixels rejected : 1142
Number of (internal) image counts : 9708
Number of image cts rejected (N, %) : 772679.58
By chip : 0 1 2 3
Pixels rejected : 262 295 303 282
Image counts : 2244 2750 2549 2165
Image cts rejected: 1816 1899 2194 1817
Image cts rej (%) : 80.93 69.05 86.07 83.93
filtering data...
Total counts : 2244 2750 2549 2165
Total cts rejected: 1816 1899 2194 1817
Total cts rej (%) : 80.93 69.05 86.07 83.93
Number of clean counts accepted : 1982
writing history cards...
copying extensions...
writing out hot pixs...
Number of rejected pixels : 1142
updating NEVENTS keywords...
closing data file...
closing clean file...
-> Extracting bright and dark Earth events from ad55010000s100312h.unf
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: ad55010000s100312h.drk
reading data file: event.tmp
copying primary header to output file...
making chip image...
Total counts in chip images : 11488
copy bad pix array...
cleaning chip # 0
Hot pixels & counts : 0 0
Flickering pixels iter, pixels & cnts : 1 313 2298
cleaning chip # 1
Hot pixels & counts : 0 0
Flickering pixels iter, pixels & cnts : 1 319 2101
cleaning chip # 2
Hot pixels & counts : 0 0
Flickering pixels iter, pixels & cnts : 1 334 2550
cleaning chip # 3
Hot pixels & counts : 0 0
Flickering pixels iter, pixels & cnts : 1 312 2109
Number of pixels rejected : 1278
Number of (internal) image counts : 11488
Number of image cts rejected (N, %) : 905878.85
By chip : 0 1 2 3
Pixels rejected : 313 319 334 312
Image counts : 2872 3159 2945 2512
Image cts rejected: 2298 2101 2550 2109
Image cts rej (%) : 80.01 66.51 86.59 83.96
filtering data...
Total counts : 2872 3159 2945 2512
Total cts rejected: 2298 2101 2550 2109
Total cts rej (%) : 80.01 66.51 86.59 83.96
Number of clean counts accepted : 2430
writing history cards...
copying extensions...
writing out hot pixs...
Number of rejected pixels : 1278
updating NEVENTS keywords...
closing data file...
closing clean file...
-> Extracting bright and dark Earth events from ad55010000s100402l.unf
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: ad55010000s100402l.drk
reading data file: event.tmp
copying primary header to output file...
making chip image...
Total counts in chip images : 5592
copy bad pix array...
cleaning chip # 0
cleaning chip # 1
Hot pixels & counts : 15 5480
Flickering pixels iter, pixels & cnts : 1 6 64
cleaning chip # 2
cleaning chip # 3
Number of pixels rejected : 21
Number of (internal) image counts : 5592
Number of image cts rejected (N, %) : 554499.14
By chip : 0 1 2 3
Pixels rejected : 0 21 0 0
Image counts : 0 5592 0 0
Image cts rejected: 0 5544 0 0
Image cts rej (%) : 0.00 99.14 0.00 0.00
filtering data...
Total counts : 0 5592 0 0
Total cts rejected: 0 5544 0 0
Total cts rej (%) : 0.00 99.14 0.00 0.00
Number of clean counts accepted : 48
writing history cards...
copying extensions...
writing out hot pixs...
Number of rejected pixels : 21
updating NEVENTS keywords...
closing data file...
closing clean file...
-> Extracting bright and dark Earth events from ad55010000s100412l.unf
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: ad55010000s100412l.drk
reading data file: event.tmp
copying primary header to output file...
making chip image...
Total counts in chip images : 5595
copy bad pix array...
cleaning chip # 0
cleaning chip # 1
Hot pixels & counts : 15 5480
Flickering pixels iter, pixels & cnts : 1 6 64
cleaning chip # 2
cleaning chip # 3
Number of pixels rejected : 21
Number of (internal) image counts : 5595
Number of image cts rejected (N, %) : 554499.09
By chip : 0 1 2 3
Pixels rejected : 0 21 0 0
Image counts : 0 5595 0 0
Image cts rejected: 0 5544 0 0
Image cts rej (%) : 0.00 99.09 0.00 0.00
filtering data...
Total counts : 0 5595 0 0
Total cts rejected: 0 5544 0 0
Total cts rej (%) : 0.00 99.09 0.00 0.00
Number of clean counts accepted : 51
writing history cards...
copying extensions...
writing out hot pixs...
Number of rejected pixels : 21
updating NEVENTS keywords...
closing data file...
closing clean file...
-> Extracting bright and dark Earth events from ad55010000g200170h.unfOffset of 213408004.000000 from 1993-01-01 00:00:00 is date and time (including leapseconds) = 1999-10-07 00:00:00.00000 Modified Julian Day = 51458.000000000000000-> leapsec.fits already present in current directory
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
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
ad55010000s000102h.unf|S0CCDPOW|0100|Which S0 CCDs are in use(0123): 0=OFF 1=ON ad55010000s000502h.unf|S0CCDPOW|0110|Which S0 CCDs are in use(0123): 0=OFF 1=ON ad55010000s000102h.unf|S0CCDMOD|1|How many S0 CCDs are in use: 1, 2, or 4 ad55010000s000502h.unf|S0CCDMOD|2|How many S0 CCDs are in use: 1, 2, or 4 ad55010000s000102h.unf|S0CCDLST|1 1 1 1|S0 CCD readout order ad55010000s000502h.unf|S0CCDLST|1 2 1 2|S0 CCD readout order-> listing ad55010000s000102h.unf
ad55010000s000202m.unf|S0CCDPOW|0100|Which S0 CCDs are in use(0123): 0=OFF 1=ON ad55010000s000402m.unf|S0CCDPOW|1111|Which S0 CCDs are in use(0123): 0=OFF 1=ON ad55010000s000202m.unf|S0CCDMOD|1|How many S0 CCDs are in use: 1, 2, or 4 ad55010000s000402m.unf|S0CCDMOD|4|How many S0 CCDs are in use: 1, 2, or 4 ad55010000s000202m.unf|S0CCDLST|1 1 1 1|S0 CCD readout order ad55010000s000402m.unf|S0CCDLST|0 1 2 3|S0 CCD readout order-> listing ad55010000s000202m.unf
ad55010000s000112h.unf|S0CCDPOW|0100|Which S0 CCDs are in use(0123): 0=OFF 1=ON ad55010000s000512h.unf|S0CCDPOW|0110|Which S0 CCDs are in use(0123): 0=OFF 1=ON ad55010000s000112h.unf|S0CCDMOD|1|How many S0 CCDs are in use: 1, 2, or 4 ad55010000s000512h.unf|S0CCDMOD|2|How many S0 CCDs are in use: 1, 2, or 4 ad55010000s000112h.unf|S0CCDLST|1 1 1 1|S0 CCD readout order ad55010000s000512h.unf|S0CCDLST|1 2 1 2|S0 CCD readout order-> listing ad55010000s000112h.unf
ad55010000s000212m.unf|S0CCDPOW|0100|Which S0 CCDs are in use(0123): 0=OFF 1=ON ad55010000s000412m.unf|S0CCDPOW|1111|Which S0 CCDs are in use(0123): 0=OFF 1=ON ad55010000s000212m.unf|S0CCDMOD|1|How many S0 CCDs are in use: 1, 2, or 4 ad55010000s000412m.unf|S0CCDMOD|4|How many S0 CCDs are in use: 1, 2, or 4 ad55010000s000212m.unf|S0CCDLST|1 1 1 1|S0 CCD readout order ad55010000s000412m.unf|S0CCDLST|0 1 2 3|S0 CCD readout order-> listing ad55010000s000212m.unf
ad55010000s000101h.unf|S0CCDPOW|0100|Which S0 CCDs are in use(0123): 0=OFF 1=ON ad55010000s000501h.unf|S0CCDPOW|0110|Which S0 CCDs are in use(0123): 0=OFF 1=ON ad55010000s000101h.unf|S0CCDMOD|1|How many S0 CCDs are in use: 1, 2, or 4 ad55010000s000501h.unf|S0CCDMOD|2|How many S0 CCDs are in use: 1, 2, or 4 ad55010000s000101h.unf|S0CCDLST|1 1 1 1|S0 CCD readout order ad55010000s000501h.unf|S0CCDLST|1 2 1 2|S0 CCD readout order-> listing ad55010000s000101h.unf
ad55010000s000201m.unf|S0CCDPOW|0100|Which S0 CCDs are in use(0123): 0=OFF 1=ON ad55010000s000401m.unf|S0CCDPOW|1111|Which S0 CCDs are in use(0123): 0=OFF 1=ON ad55010000s000201m.unf|S0CCDMOD|1|How many S0 CCDs are in use: 1, 2, or 4 ad55010000s000401m.unf|S0CCDMOD|4|How many S0 CCDs are in use: 1, 2, or 4 ad55010000s000201m.unf|S0CCDLST|1 1 1 1|S0 CCD readout order ad55010000s000401m.unf|S0CCDLST|0 1 2 3|S0 CCD readout order-> listing ad55010000s000201m.unf
ad55010000s100102h.unf|S1CCDPOW|0100|Which S1 CCDs are in use(0123): 0=OFF 1=ON ad55010000s100302h.unf|S1CCDPOW|1111|Which S1 CCDs are in use(0123): 0=OFF 1=ON ad55010000s100102h.unf|S1CCDMOD|1|How many S1 CCDs are in use: 1, 2, or 4 ad55010000s100302h.unf|S1CCDMOD|4|How many S1 CCDs are in use: 1, 2, or 4 ad55010000s100102h.unf|S1CCDLST|1 1 1 1|S1 CCD readout order ad55010000s100302h.unf|S1CCDLST|2 3 0 1|S1 CCD readout order-> listing ad55010000s100102h.unf
ad55010000s100112h.unf|S1CCDPOW|0100|Which S1 CCDs are in use(0123): 0=OFF 1=ON ad55010000s100312h.unf|S1CCDPOW|1111|Which S1 CCDs are in use(0123): 0=OFF 1=ON ad55010000s100112h.unf|S1CCDMOD|1|How many S1 CCDs are in use: 1, 2, or 4 ad55010000s100312h.unf|S1CCDMOD|4|How many S1 CCDs are in use: 1, 2, or 4 ad55010000s100112h.unf|S1CCDLST|1 1 1 1|S1 CCD readout order ad55010000s100312h.unf|S1CCDLST|2 3 0 1|S1 CCD readout order-> listing ad55010000s100112h.unf
ad55010000s100101h.unf|S1CCDPOW|0100|Which S1 CCDs are in use(0123): 0=OFF 1=ON ad55010000s100301h.unf|S1CCDPOW|1111|Which S1 CCDs are in use(0123): 0=OFF 1=ON ad55010000s100101h.unf|S1CCDMOD|1|How many S1 CCDs are in use: 1, 2, or 4 ad55010000s100301h.unf|S1CCDMOD|4|How many S1 CCDs are in use: 1, 2, or 4 ad55010000s100101h.unf|S1CCDLST|1 1 1 1|S1 CCD readout order ad55010000s100301h.unf|S1CCDLST|2 3 0 1|S1 CCD readout order-> listing ad55010000s100101h.unf
1122 624 5446 112 7759 84 1
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From 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