NAME

aeaspect -- calculate mean satellite Euler angles for Suzaku (Astro-E2)


USAGE

         aeaspect attitude filelist

DESCRIPTION

Similar to the 'aspect' task, this tool calculates the mean Euler angles and corresponding pointing direction for a given attitude file, designed and tuned for Suzaku. The 'aeaspect' task also has a capability to update the following FITS header keywords: 

     OBS_MODE= 'POINTING'           / observation mode (e.g. POINTING/SLEW)
     OBS_ID  = '100037050'          / Observation Identifier
     OBSERVER= 'Suzaku SWG'         / Principal Investigator
     OBS_REM = '        '           / remark on observation
     NOM_PNT = '(0,0)   '           / AimPointInDETXY:XIS=(0,0),HXD=(-3.5,0)[arcmin]
     OBJECT  = 'GC_BGD3 '           / name of observed object
     RA_OBJ  =             266.5900 / planned target R.A.(deg)
     DEC_OBJ =             -28.6510 / planned target DEC.(deg)
     RA_NOM  =             266.5899 / nominal satellite pointing direction R.A.(deg)
     DEC_NOM =             -28.6514 / nominal satellite pointing direction DEC.(deg)
     PA_NOM  =             -95.1189 / nominal position angle from north to DETY(deg)
     MEAN_EA1=     -93.410106347902 / mean of the 1st ZYZ-Euler angle (deg)
     MEAN_EA2=     118.651370124916 / mean of the 2nd ZYZ-Euler angle (deg)
     MEAN_EA3=    -174.881077222727 / mean of the 3rd ZYZ-Euler angle (deg)
     ATT_FILE=    'ae100037050.att' / name of the satellite attitude file
     DATE-OBS= '2005-10-01T06:22:41'/ start date of observations (UT)
     DATE-END= '2005-10-01T07:35:22'/ end date of observations (UT)
      [XRS]
     TELDEF  = 'ae_xrs_teldef_20050622.fits' / name of the telescope definition file
     RA_PNT  =             266.5899 / average optical axis location R.A.(deg)
     DEC_PNT =             -28.6514 / average optical axis location DEC.(deg)
      [HXD]
     TELDEF  = 'ae_hxd_teldef_20050908.fits' / name of the telescope definition file
     RA_PNT  =             266.5840 / average optical axis location R.A.(deg)
     DEC_PNT =             -28.5933 / average optical axis location DEC.(deg)
      [XIS0]
     TELDEF  = 'ae_xi0_teldef_20051009.fits' / name of the telescope definition file
     RA_PNT  =             266.5953 / average optical axis location R.A.(deg)
     DEC_PNT =             -28.6678 / average optical axis location DEC.(deg)
      [XIS1]
     TELDEF  = 'ae_xi1_teldef_20051009.fits' / name of the telescope definition file
     RA_PNT  =             266.5949 / average optical axis location R.A.(deg)
     DEC_PNT =             -28.6496 / average optical axis location DEC.(deg)
      [XIS2]
     TELDEF  = 'ae_xi2_teldef_20051009.fits' / name of the telescope definition file
     RA_PNT  =             266.5801 / average optical axis location R.A.(deg)
     DEC_PNT =             -28.6451 / average optical axis location DEC.(deg)
      [XIS3]
     TELDEF  = 'ae_xi3_teldef_20051009.fits' / name of the telescope definition file
     RA_PNT  =             266.5813 / average optical axis location R.A.(deg)
     DEC_PNT =             -28.6469 / average optical axis location DEC.(deg)

The resultant `mean' attitude is not always the actual mean (or average) of each temporal value, but the representative attitude of the satellite calculated from certain algorithms. In the calculation, the Euler angles are separated into the pointing direction (RA, DEC) and the position angle ROLL between y-axis and the north direction. In averaging, (RA, DEC) is farther converted into 3-dimensional vector (X, Y, Z) and does averaging for each X, Y, Z element. ROLL is converted into 2-dimensional vector (x, y).

There are two algorithms to calculate the `mean' Euler angles. The 1st one is calculating the median, and this value will be the resultant `mean' when the parameter adopt_median=yes. The Euler angles are sampled with the sample_sec=60.0 sec by default, and each sampled value is converted into 3-dim vector (X, Y, Z) and 2-dim vector (x, y). The X, Y, Z, x, y are sorted individually. When the sampled number N is an odd number, (N+1)/2-th value is adopted as representative. When N is an even number, an average of N/2-th and (N/2+1)-th values is adopted. Using those representative values, Xm, Ym, Zm, xm, ym, the Euler angles are reconstructed.

The second algorithm is to calculate a simple average of X, Y, Z, x, y when adopt_median=no, but when at any of sampled time, the angular distance is larger than offset_tolerance=2.0 arcmin, or the roll angle difference is larger than roll_tolerance=1.0 deg, the average is recalculated splitting the time interval into num_split=4, by default. By calculating the standard deviation of the angular distance, the most stable time interval is selected.

After calculating the `mean' Euler angles, the nominal pointing direction (RA_NOM, DEC_NOM) and the nominal position (roll) angle PA_NOM are calculated using the Euler angle and the satellite alignment information in the XRS teldef file. The (RA_NOM, DEC_NOM) direction corresponds to the center of the FOC coordinates and the PA_NOM repesents the y-axis angle from the north when the `mean' Euler angles are chosen. The RA_NOM, DEC_NOM, PA_NOM have the same value for all sensors (XRS, HXD, XISn), and written to the FITS header of the event files specified by the filelist parameter. These values are also written to the HK files. The RA_PNT, DEC_PNT corresponds to the optical axis of each sensor, where the effective area of the XRT (for XRS, XIS) or the collimator (for HXD) is maximum. The (RA_PNT, DEC_PNT) values are different among sensors and the common instrument HK does not have this keywords. This task also writes the MEAN_EA1, MEAN_EA2, MEAN_EA3 keywords which corresponds to the `mean' Euler angles, and the ATT_FILE and TELDEF keywords corresponding to the attitude file and the teldef file used for the calculation. The OBJECT, OBSERVER, RA_OBJ, DEC_OBJ keywords are copied from the attitude file. These header keywords manipulation can be controlled with the update_obj, update_nom, update_pnt, update_ea keywords, which are all "yes" by default.


PARAMETERS

attitude [file name]
Input attitude file

filelist [file name]
File name or @filelist to modify FITS keywords

(leapfile = CALDB;$ENV{LHEA_DATA}/leapsec.fits) [file name]
Name of the leap second file. The default value is set to indicate that aeaspect will search for the file in CALDB first and then in the LHEA_DATA directory if necessary (the actual path for the HEADAS installation in use will be shown).

(xrs_teldef = CALDB) [file name]
Location of XRS teldef file. CALDB version is used, if available.

(hxd_teldef = CALDB) [file name]
Location of HXD teldef file. CALDB version is used, if available.

(xis0_teldef = CALDB) [file name]
Location of XIS0 teldef file. CALDB version is used, if available.

(xis1_teldef = CALDB) [file name]
Location of XIS1 teldef file. CALDB version is used, if available.

(xis2_teldef = CALDB) [file name]
Location of XIS2 teldef file. CALDB version is used, if available.

(xis3_teldef = CALDB) [file name]
Location of XIS3 teldef file. CALDB version is used, if available.

(sample_sec = 60.0) [real]
Sampling time in second (s).

(offset_tolerance = 2.0) [real]
Offset angle tolerance (arcmin), needed only when adopt_median=no.

(roll_tolerance = 1.0) [real]
Roll angle tolerance (degree), needed only when adopt_median=no.

(num_split = 4) [integer]
Number of splitting time intervals, needed only when adopt_median=no.

(adopt_median = yes) [boolean]
Adopt median instead of average?

(update_obs = yes) [boolean]
Update OBS_MODE/OBS_ID/OBSERVER/OBS_REM/NOM_PNT keywords?

(update_obj = yes) [boolean]
Update OBJECT/RA_OBJ/DEC_OBJ keywords?

(update_nom = yes) [boolean]
Update RA_NOM/DEC_NOM/PA_NOM keywords?

(update_pnt = yes) [boolean]
Update RA_PNT/DEC_PNT keywords?

(update_ea = yes) [boolean]
Update MEAN_EA1/MEAN_EA2/MEAN_EA3 keywords?

(update_date = yes) [boolean]
Update DATE-OBS/DATE-END keywords? TIME-OBS and TIME-END keywords are deleted if they exist.

(date_obs = "none") [string]
String value or keyword name for DATE-OBS

(date_end = "none") [string]
String value or keyword name for DATE-OBS

(anl_verbose = 0) [integer]
ANL verbose level (-1:full, 0:minimum)

(anl_profile = no) [boolean]
Enable ANL module profiling?

(num_event = -1) [integer]
Number of events (-1=all, 0=exit)

(event_freq = 10000) [integer]
Event number printout frequency

(chatter = 2) [integer]
Message chatter level (0:min,2:norm,5:max)


EXAMPLES

1. Compute the mean Euler angles using the attitude file ae100037050.att and modifying all keywords in the list of files given in the file called "filelist" with the date and the end of observation speficied by keywords found in the attitude file.

with 

             %cat filelist 
     test-results/ae100037050.att
     test-results/ae100037050.hk
     test-results/ae100037050.orb
     test-results/ae100037050.tim
     test-results/ae100037050hxd_0.hk
     test-results/ae100037050hxd_0_wam.fff
     test-results/ae100037050hxd_0_wel.fff
     test-results/ae100037050xi0_0.hk
     test-results/ae100037050xi0_0_3x3n000.fff
     test-results/ae100037050xi0_0_5x5n000.fff
     test-results/ae100037050xi0_0_dun000.fff
     test-results/ae100037050xi1_0.hk
     test-results/ae100037050xi1_0_3x3n001.fff
     test-results/ae100037050xi1_0_5x5n001.fff
     test-results/ae100037050xi1_0_dun001.fff
     test-results/ae100037050xi2_0.hk
     test-results/ae100037050xi2_0_3x3n000.fff
     test-results/ae100037050xi2_0_5x5n000.fff
     test-results/ae100037050xi2_0_dun000.fff
     test-results/ae100037050xi3_0.hk
     test-results/ae100037050xi3_0_3x3n000.fff
     test-results/ae100037050xi3_0_5x5n000.fff
     test-results/ae100037050xi3_0_dun000.fff
     test-results/ae100037050xrs_0_all.hk
     test-results/ae100037050xrs_0_dump.hk
     
     
          % aeaspect attitude=test-results/ae100037050.att \
            filelist=@filelist date_obs=MNV_END date_end=MNV_NEXT
     aeaspect version 2006-07-02
     Written by Y.ISHISAKI (TMU)
     Built on ANL HEADAS converter 1.71 for ANL version 1.71
     input attitude file [test-results/ae100037050.att] :  
     file name or @filelist to modify FITS keywords [@filelist] :  
     location of leap-seconds file [CALDB] :  
     location of XRS teldef file [CALDB] :  
     location of HXD teldef file [CALDB] :  
     location of XIS0 teldef file [CALDB] :  
     location of XIS1 teldef file [CALDB] :  
     location of XIS2 teldef file [CALDB] :  
     location of XIS3 teldef file [CALDB] :  
     
     aeaspect: *** show parameter ***
     
                 ATTITUDE   'test-results/ae100037050.att'
            MOD_FILE_LIST   '@filelist'
                 LEAPFILE   '/usr/local/astroe/com/calibration/caldb/2006-07-01/data/gen/bcf/leapsec_010905.fits' (CALDB)
               XRS_TELDEF   '/usr/local/astroe/com/calibration/caldb/2006-07-01/data/suzaku/xrs/bcf/ae_xrs_teldef_20050622.fits.gz' (CALDB)
               XRS_TELDEF   '/usr/local/astroe/com/calibration/caldb/2006-07-01/data/suzaku/hxd/bcf/ae_hxd_teldef_20060516.fits.gz' (CALDB)
              XIS0_TELDEF   '/usr/local/astroe/com/calibration/caldb/2006-07-01/data/suzaku/xis/bcf/ae_xi0_teldef_20060125.fits.gz' (CALDB)
              XIS1_TELDEF   '/usr/local/astroe/com/calibration/caldb/2006-07-01/data/suzaku/xis/bcf/ae_xi1_teldef_20060125.fits.gz' (CALDB)
              XIS2_TELDEF   '/usr/local/astroe/com/calibration/caldb/2006-07-01/data/suzaku/xis/bcf/ae_xi2_teldef_20060125.fits.gz' (CALDB)
              XIS3_TELDEF   '/usr/local/astroe/com/calibration/caldb/2006-07-01/data/suzaku/xis/bcf/ae_xi3_teldef_20060125.fits.gz' (CALDB)
               SAMPLE_SEC   60.000 (s)
         OFFSET_TOLERANCE   2.000000 (arcmin)
           ROLL_TOLERANCE   1.000000 (degree)
             ADOPT_MEDIAN   YES
               UPDATE_OBS   YES
               UPDATE_OBJ   YES
               UPDATE_NOM   YES
               UPDATE_PNT   YES
                UPDATE_EA   YES
              UPDATE_DATE   YES
                 DATE_OBS   'MNV_END'
                 DATE_END   'MNV_NEXT'
     
     atMissionTime: reading leapsec file '/usr/local/astroe/com/calibration/caldb/2006-07-01/data/gen/bcf/leapsec_010905.fits' ...
     01: 1972-01-01 00:00:00.000   +0.0 sec
     02: 1972-07-01 00:00:00.000   +1.0 sec
     03: 1973-01-01 00:00:00.000   +1.0 sec
     04: 1974-01-01 00:00:00.000   +1.0 sec
     05: 1975-01-01 00:00:00.000   +1.0 sec
     06: 1976-01-01 00:00:00.000   +1.0 sec
     07: 1977-01-01 00:00:00.000   +1.0 sec
     08: 1978-01-01 00:00:00.000   +1.0 sec
     09: 1979-01-01 00:00:00.000   +1.0 sec
     10: 1980-01-01 00:00:00.000   +1.0 sec
     11: 1981-07-01 00:00:00.000   +1.0 sec
     12: 1982-07-01 00:00:00.000   +1.0 sec
     13: 1983-07-01 00:00:00.000   +1.0 sec
     14: 1985-07-01 00:00:00.000   +1.0 sec
     15: 1988-01-01 00:00:00.000   +1.0 sec
     16: 1990-01-01 00:00:00.000   +1.0 sec
     17: 1991-01-01 00:00:00.000   +1.0 sec
     18: 1992-07-01 00:00:00.000   +1.0 sec
     19: 1993-07-01 00:00:00.000   +1.0 sec
     20: 1994-07-01 00:00:00.000   +1.0 sec
     21: 1996-01-01 00:00:00.000   +1.0 sec
     22: 1997-07-01 00:00:00.000   +1.0 sec
     23: 1999-01-01 00:00:00.000   +1.0 sec
     24: 2006-01-01 00:00:00.000   +1.0 sec
     atMissionTime: 24 lines were read
     
     aeaspect: date_obs='MNV_END ' found in attitude header, t=181462961.0
     aeaspect: date_end='MNV_NEXT' found in attitude header, t=181467322.0
     
     aste_aspect version 1.7
     
     aspecting attitude: test-results/ae100037050.att
       TELESCOP='UNKNOWN', OBJECT='GC_BGD3', (RA,DEC)=(266.5900, -28.6510)
     
     using teldef file: /usr/local/astroe/com/calibration/caldb/2006-07-01/data/suzaku/xrs/bcf/ae_xrs_teldef_20050622.fits.gz
       TELESCOP='SUZAKU', INSTRUME='XRS'
     
     attitude  START STOP dT: 181462964.272009 181467318.271343      4353.999334
       START in yyyy-mm-dd hh:mm:ss (MJD): 2005-10-01 06:22:44 (53644.26579019)
       STOP  in yyyy-mm-dd hh:mm:ss (MJD): 2005-10-01 07:35:18 (53644.31618370)
     
     aspecting START STOP dT: 181462961.000000 181467322.000000      4361.000000
       START in yyyy-mm-dd hh:mm:ss (MJD): 2005-10-01 06:22:41 (53644.26575231)
       STOP  in yyyy-mm-dd hh:mm:ss (MJD): 2005-10-01 07:35:22 (53644.31622685)
     
     averaging attitude in 60 sec sampling, 73 points
     
       Sample Time : 60.0 s   Number of Accept / Sample : 73 / 73
       TIME START STOP TELAPSE (s) : 181462961.0 181467322.0      4361.0
       START DATE TIME in UTC (MJD): 2005-10-01 06:22:41 (53644.26575231)
       STOP  DATE TIME in UTC (MJD): 2005-10-01 07:35:22 (53644.31622685)
     
       Mean [MEDIAN]  Euler angles :  266.590073  118.651407  185.118793
     
                                         RA          DEC      SUN ANGLE
     
       Mean Sun position     (deg) :  187.464565   -3.225327
       Mean aberration    (arcsec) :   -4.557956   -1.744271
     
       Mean satellite X-axis (deg) :  256.007842   60.933134   82.631083
       Mean satellite Y-axis (deg) :  174.130678   -4.490635   13.363298
       Mean satellite Z-axis (deg) :  266.590073  -28.651407   78.914579
     
                        RA(deg)     DEC(deg)    ROLL(deg) OFFSET(arcmin)
     
       Median          266.590073  -28.651407  264.881207
       Average         266.589895  -28.651368  264.881076
       Minimum         266.587951  -28.655192  264.879639
       Maximum         266.591479  -28.649927  264.882308    0.253062
       Sigma (RMS)       0.000985    0.000684    0.000737    0.066850
     
     aeaspect: keywords to be updated are ...
     
     OBS_MODE= 'POINTING'           / observation mode (e.g. POINTING/SLEW)
     OBS_ID  = '100037050'          / Observation Identifier
     OBSERVER= 'Suzaku SWG'         / Principal Investigator
     OBS_REM = '        '           / remark on observation
     NOM_PNT = '(0,0)   '           / AimPointInDETXY:XIS=(0,0),HXD=(-3.5,0)[arcmin]
     OBJECT  = 'GC_BGD3 '           / name of observed object
     RA_OBJ  =             266.5900 / planned target R.A.(deg)
     DEC_OBJ =             -28.6510 / planned target DEC.(deg)
     RA_NOM  =             266.5901 / nominal satellite pointing direction R.A.(deg)
     DEC_NOM =             -28.6514 / nominal satellite pointing direction DEC.(deg)
     PA_NOM  =             264.8812 / nominal position angle from north to DETY(deg)
     MEAN_EA1=     266.590073120327 / mean of the 1st ZYZ-Euler angle (deg)
     MEAN_EA2=     118.651407053459 / mean of the 2nd ZYZ-Euler angle (deg)
     MEAN_EA3=     185.118792652151 / mean of the 3rd ZYZ-Euler angle (deg)
     ATT_FILE=    'ae100037050.att' / name of the satellite attitude file
     DATE-OBS= '2005-10-01T06:22:41'/ start date of observations (UT)
     DATE-END= '2005-10-01T07:35:22'/ end date of observations (UT)
      [XRS]
     TELDEF  = 'ae_xrs_teldef_20050622.fits.gz' / name of the telescope definition file
     RA_PNT  =             266.5901 / average optical axis location R.A.(deg)
     DEC_PNT =             -28.6514 / average optical axis location DEC.(deg)
      [HXD]
     TELDEF  = 'ae_hxd_teldef_20060516.fits.gz' / name of the telescope definition file
     RA_PNT  =             266.5841 / average optical axis location R.A.(deg)
     DEC_PNT =             -28.5933 / average optical axis location DEC.(deg)
      [XIS0]
     TELDEF  = 'ae_xi0_teldef_20060125.fits.gz' / name of the telescope definition file
     RA_PNT  =             266.5897 / average optical axis location R.A.(deg)
     DEC_PNT =             -28.6738 / average optical axis location DEC.(deg)
      [XIS1]
     TELDEF  = 'ae_xi1_teldef_20060125.fits.gz' / name of the telescope definition file
     RA_PNT  =             266.5964 / average optical axis location R.A.(deg)
     DEC_PNT =             -28.6646 / average optical axis location DEC.(deg)
      [XIS2]
     TELDEF  = 'ae_xi2_teldef_20060125.fits.gz' / name of the telescope definition file
     RA_PNT  =             266.5754 / average optical axis location R.A.(deg)
     DEC_PNT =             -28.6476 / average optical axis location DEC.(deg)
      [XIS3]
     TELDEF  = 'ae_xi3_teldef_20060125.fits.gz' / name of the telescope definition file
     RA_PNT  =             266.5796 / average optical axis location R.A.(deg)
     DEC_PNT =             -28.6525 / average optical axis location DEC.(deg)
     
      [ 1] Processing 'test-results/ae100037050.att'
           +1: TELESCOP='SUZAKU', INSTRUME=''
      [ 2] Processing 'test-results/ae100037050.hk'
           +1: TELESCOP='SUZAKU', INSTRUME=''
           +2: TELESCOP='SUZAKU', INSTRUME=''
           +3: TELESCOP='SUZAKU', INSTRUME=''
           +4: TELESCOP='SUZAKU', INSTRUME=''
           +5: TELESCOP='SUZAKU', INSTRUME=''
           +6: TELESCOP='SUZAKU', INSTRUME=''
           +7: TELESCOP='SUZAKU', INSTRUME=''
           +8: TELESCOP='SUZAKU', INSTRUME=''
           +9: TELESCOP='SUZAKU', INSTRUME=''
          +10: TELESCOP='SUZAKU', INSTRUME=''
          +11: TELESCOP='SUZAKU', INSTRUME=''
          +12: TELESCOP='SUZAKU', INSTRUME=''
          +13: TELESCOP='SUZAKU', INSTRUME=''
          +14: TELESCOP='SUZAKU', INSTRUME=''
          +15: TELESCOP='SUZAKU', INSTRUME=''
          +16: TELESCOP='SUZAKU', INSTRUME=''
          +17: TELESCOP='SUZAKU', INSTRUME=''
          +18: TELESCOP='SUZAKU', INSTRUME=''
          +19: TELESCOP='SUZAKU', INSTRUME=''
          +20: TELESCOP='SUZAKU', INSTRUME=''
          +21: TELESCOP='SUZAKU', INSTRUME=''
          +22: TELESCOP='SUZAKU', INSTRUME=''
          +23: TELESCOP='SUZAKU', INSTRUME=''
      [ 3] Processing 'test-results/ae100037050.orb'
           +1: TELESCOP='SUZAKU', INSTRUME=''
           +2: TELESCOP='SUZAKU', INSTRUME=''
      [ 4] Processing 'test-results/ae100037050.tim'
           +1: TELESCOP='SUZAKU', INSTRUME=''
           +2: TELESCOP='SUZAKU', INSTRUME=''
           +3: TELESCOP='SUZAKU', INSTRUME=''
           +4: TELESCOP='SUZAKU', INSTRUME=''
      [ 5] Processing 'test-results/ae100037050hxd_0.hk'
           +0: TELESCOP='SUZAKU', INSTRUME='HXD'
           +1: TELESCOP='SUZAKU', INSTRUME='HXD'
           +2: TELESCOP='SUZAKU', INSTRUME='HXD'
           +3: TELESCOP='SUZAKU', INSTRUME='HXD'
           +4: TELESCOP='SUZAKU', INSTRUME='HXD'
           +5: TELESCOP='SUZAKU', INSTRUME='HXD'
           +6: TELESCOP='SUZAKU', INSTRUME='HXD'
           +7: TELESCOP='SUZAKU', INSTRUME='HXD'
           +8: TELESCOP='SUZAKU', INSTRUME='HXD'
           +9: TELESCOP='SUZAKU', INSTRUME='HXD'
          +10: TELESCOP='SUZAKU', INSTRUME='HXD'
          +11: TELESCOP='SUZAKU', INSTRUME='HXD'
          +12: TELESCOP='SUZAKU', INSTRUME='HXD'
          +13: TELESCOP='SUZAKU', INSTRUME='HXD'
          +14: TELESCOP='SUZAKU', INSTRUME='HXD'
          +15: TELESCOP='SUZAKU', INSTRUME='HXD'
          +16: TELESCOP='SUZAKU', INSTRUME='HXD'
          +17: TELESCOP='SUZAKU', INSTRUME='HXD'
          +18: TELESCOP='SUZAKU', INSTRUME='HXD'
          +19: TELESCOP='SUZAKU', INSTRUME='HXD'
          +20: TELESCOP='SUZAKU', INSTRUME='HXD'
          +21: TELESCOP='SUZAKU', INSTRUME='HXD'
          +22: TELESCOP='SUZAKU', INSTRUME='HXD'
      [ 6] Processing 'test-results/ae100037050hxd_0_wam.fff'
           +0: TELESCOP='SUZAKU', INSTRUME='HXD'
           +1: TELESCOP='SUZAKU', INSTRUME='HXD'
           +2: TELESCOP='SUZAKU', INSTRUME='HXD'
      [ 7] Processing 'test-results/ae100037050hxd_0_wel.fff'
           +0: TELESCOP='SUZAKU', INSTRUME='HXD'
           +1: TELESCOP='SUZAKU', INSTRUME='HXD'
           +2: TELESCOP='SUZAKU', INSTRUME='HXD'
      [ 8] Processing 'test-results/ae100037050xi0_0.hk'
           +0: TELESCOP='SUZAKU', INSTRUME='XIS0'
           +1: TELESCOP='SUZAKU', INSTRUME='XIS0'
           +2: TELESCOP='SUZAKU', INSTRUME='XIS0'
           +3: TELESCOP='SUZAKU', INSTRUME='XIS0'
           +4: TELESCOP='SUZAKU', INSTRUME='XIS0'
           +5: TELESCOP='SUZAKU', INSTRUME='XIS0'
           +6: TELESCOP='SUZAKU', INSTRUME='XIS0'
           +7: TELESCOP='SUZAKU', INSTRUME='XIS0'
           +8: TELESCOP='SUZAKU', INSTRUME='XIS0'
           +9: TELESCOP='SUZAKU', INSTRUME='XIS0'
      [ 9] Processing 'test-results/ae100037050xi0_0_3x3n000.fff'
           +0: TELESCOP='SUZAKU', INSTRUME='XIS0'
           +1: TELESCOP='SUZAKU', INSTRUME='XIS0'
           +2: TELESCOP='SUZAKU', INSTRUME='XIS0'
           +3: TELESCOP='SUZAKU', INSTRUME='XIS0'
           +4: TELESCOP='SUZAKU', INSTRUME='XIS0'
           +5: TELESCOP='SUZAKU', INSTRUME='XIS0'
      [10] Processing 'test-results/ae100037050xi0_0_5x5n000.fff'
           +0: TELESCOP='SUZAKU', INSTRUME='XIS0'
           +1: TELESCOP='SUZAKU', INSTRUME='XIS0'
           +2: TELESCOP='SUZAKU', INSTRUME='XIS0'
           +3: TELESCOP='SUZAKU', INSTRUME='XIS0'
           +4: TELESCOP='SUZAKU', INSTRUME='XIS0'
           +5: TELESCOP='SUZAKU', INSTRUME='XIS0'
      [11] Processing 'test-results/ae100037050xi0_0_dun000.fff'
           +0: TELESCOP='SUZAKU', INSTRUME='XIS0'
           +1: TELESCOP='SUZAKU', INSTRUME='XIS0'
           +2: TELESCOP='SUZAKU', INSTRUME='XIS0'
           +3: TELESCOP='SUZAKU', INSTRUME='XIS0'
           +4: TELESCOP='SUZAKU', INSTRUME='XIS0'
           +5: TELESCOP='SUZAKU', INSTRUME='XIS0'
      [12] Processing 'test-results/ae100037050xi1_0.hk'
           +0: TELESCOP='SUZAKU', INSTRUME='XIS1'
           +1: TELESCOP='SUZAKU', INSTRUME='XIS1'
           +2: TELESCOP='SUZAKU', INSTRUME='XIS1'
           +3: TELESCOP='SUZAKU', INSTRUME='XIS1'
           +4: TELESCOP='SUZAKU', INSTRUME='XIS1'
           +5: TELESCOP='SUZAKU', INSTRUME='XIS1'
           +6: TELESCOP='SUZAKU', INSTRUME='XIS1'
           +7: TELESCOP='SUZAKU', INSTRUME='XIS1'
           +8: TELESCOP='SUZAKU', INSTRUME='XIS1'
           +9: TELESCOP='SUZAKU', INSTRUME='XIS1'
      [13] Processing 'test-results/ae100037050xi1_0_3x3n001.fff'
           +0: TELESCOP='SUZAKU', INSTRUME='XIS1'
           +1: TELESCOP='SUZAKU', INSTRUME='XIS1'
           +2: TELESCOP='SUZAKU', INSTRUME='XIS1'
           +3: TELESCOP='SUZAKU', INSTRUME='XIS1'
           +4: TELESCOP='SUZAKU', INSTRUME='XIS1'
           +5: TELESCOP='SUZAKU', INSTRUME='XIS1'
      [14] Processing 'test-results/ae100037050xi1_0_5x5n001.fff'
           +0: TELESCOP='SUZAKU', INSTRUME='XIS1'
           +1: TELESCOP='SUZAKU', INSTRUME='XIS1'
           +2: TELESCOP='SUZAKU', INSTRUME='XIS1'
           +3: TELESCOP='SUZAKU', INSTRUME='XIS1'
           +4: TELESCOP='SUZAKU', INSTRUME='XIS1'
           +5: TELESCOP='SUZAKU', INSTRUME='XIS1'
      [15] Processing 'test-results/ae100037050xi1_0_dun001.fff'
           +0: TELESCOP='SUZAKU', INSTRUME='XIS1'
           +1: TELESCOP='SUZAKU', INSTRUME='XIS1'
           +2: TELESCOP='SUZAKU', INSTRUME='XIS1'
           +3: TELESCOP='SUZAKU', INSTRUME='XIS1'
           +4: TELESCOP='SUZAKU', INSTRUME='XIS1'
           +5: TELESCOP='SUZAKU', INSTRUME='XIS1'
      [16] Processing 'test-results/ae100037050xi2_0.hk'
           +0: TELESCOP='SUZAKU', INSTRUME='XIS2'
           +1: TELESCOP='SUZAKU', INSTRUME='XIS2'
           +2: TELESCOP='SUZAKU', INSTRUME='XIS2'
           +3: TELESCOP='SUZAKU', INSTRUME='XIS2'
           +4: TELESCOP='SUZAKU', INSTRUME='XIS2'
           +5: TELESCOP='SUZAKU', INSTRUME='XIS2'
           +6: TELESCOP='SUZAKU', INSTRUME='XIS2'
           +7: TELESCOP='SUZAKU', INSTRUME='XIS2'
           +8: TELESCOP='SUZAKU', INSTRUME='XIS2'
           +9: TELESCOP='SUZAKU', INSTRUME='XIS2'
      [17] Processing 'test-results/ae100037050xi2_0_3x3n000.fff'
           +0: TELESCOP='SUZAKU', INSTRUME='XIS2'
           +1: TELESCOP='SUZAKU', INSTRUME='XIS2'
           +2: TELESCOP='SUZAKU', INSTRUME='XIS2'
           +3: TELESCOP='SUZAKU', INSTRUME='XIS2'
           +4: TELESCOP='SUZAKU', INSTRUME='XIS2'
           +5: TELESCOP='SUZAKU', INSTRUME='XIS2'
      [18] Processing 'test-results/ae100037050xi2_0_5x5n000.fff'
           +0: TELESCOP='SUZAKU', INSTRUME='XIS2'
           +1: TELESCOP='SUZAKU', INSTRUME='XIS2'
           +2: TELESCOP='SUZAKU', INSTRUME='XIS2'
           +3: TELESCOP='SUZAKU', INSTRUME='XIS2'
           +4: TELESCOP='SUZAKU', INSTRUME='XIS2'
           +5: TELESCOP='SUZAKU', INSTRUME='XIS2'
      [19] Processing 'test-results/ae100037050xi2_0_dun000.fff'
           +0: TELESCOP='SUZAKU', INSTRUME='XIS2'
           +1: TELESCOP='SUZAKU', INSTRUME='XIS2'
           +2: TELESCOP='SUZAKU', INSTRUME='XIS2'
           +3: TELESCOP='SUZAKU', INSTRUME='XIS2'
           +4: TELESCOP='SUZAKU', INSTRUME='XIS2'
           +5: TELESCOP='SUZAKU', INSTRUME='XIS2'
      [20] Processing 'test-results/ae100037050xi3_0.hk'
           +0: TELESCOP='SUZAKU', INSTRUME='XIS3'
           +1: TELESCOP='SUZAKU', INSTRUME='XIS3'
           +2: TELESCOP='SUZAKU', INSTRUME='XIS3'
           +3: TELESCOP='SUZAKU', INSTRUME='XIS3'
           +4: TELESCOP='SUZAKU', INSTRUME='XIS3'
           +5: TELESCOP='SUZAKU', INSTRUME='XIS3'
           +6: TELESCOP='SUZAKU', INSTRUME='XIS3'
           +7: TELESCOP='SUZAKU', INSTRUME='XIS3'
           +8: TELESCOP='SUZAKU', INSTRUME='XIS3'
           +9: TELESCOP='SUZAKU', INSTRUME='XIS3'
      [21] Processing 'test-results/ae100037050xi3_0_3x3n000.fff'
           +0: TELESCOP='SUZAKU', INSTRUME='XIS3'
           +1: TELESCOP='SUZAKU', INSTRUME='XIS3'
           +2: TELESCOP='SUZAKU', INSTRUME='XIS3'
           +3: TELESCOP='SUZAKU', INSTRUME='XIS3'
           +4: TELESCOP='SUZAKU', INSTRUME='XIS3'
           +5: TELESCOP='SUZAKU', INSTRUME='XIS3'
      [22] Processing 'test-results/ae100037050xi3_0_5x5n000.fff'
           +0: TELESCOP='SUZAKU', INSTRUME='XIS3'
           +1: TELESCOP='SUZAKU', INSTRUME='XIS3'
           +2: TELESCOP='SUZAKU', INSTRUME='XIS3'
           +3: TELESCOP='SUZAKU', INSTRUME='XIS3'
           +4: TELESCOP='SUZAKU', INSTRUME='XIS3'
           +5: TELESCOP='SUZAKU', INSTRUME='XIS3'
      [23] Processing 'test-results/ae100037050xi3_0_dun000.fff'
           +0: TELESCOP='SUZAKU', INSTRUME='XIS3'
           +1: TELESCOP='SUZAKU', INSTRUME='XIS3'
           +2: TELESCOP='SUZAKU', INSTRUME='XIS3'
           +3: TELESCOP='SUZAKU', INSTRUME='XIS3'
           +4: TELESCOP='SUZAKU', INSTRUME='XIS3'
           +5: TELESCOP='SUZAKU', INSTRUME='XIS3'
      [24] Processing 'test-results/ae100037050xrs_0_all.hk'
           +1: TELESCOP='SUZAKU', INSTRUME='XRS'
           +2: TELESCOP='SUZAKU', INSTRUME='XRS'
           +3: TELESCOP='SUZAKU', INSTRUME='XRS'
           +4: TELESCOP='SUZAKU', INSTRUME='XRS'
           +5: TELESCOP='SUZAKU', INSTRUME='XRS'
           +6: TELESCOP='SUZAKU', INSTRUME='XRS'
           +7: TELESCOP='SUZAKU', INSTRUME='XRS'
           +8: TELESCOP='SUZAKU', INSTRUME='XRS'
           +9: TELESCOP='SUZAKU', INSTRUME='XRS'
          +10: TELESCOP='SUZAKU', INSTRUME='XRS'
          +11: TELESCOP='SUZAKU', INSTRUME='XRS'
          +12: TELESCOP='SUZAKU', INSTRUME='XRS'
          +13: TELESCOP='SUZAKU', INSTRUME='XRS'
          +14: TELESCOP='SUZAKU', INSTRUME='XRS'
          +15: TELESCOP='SUZAKU', INSTRUME='XRS'
          +16: TELESCOP='SUZAKU', INSTRUME='XRS'
          +17: TELESCOP='SUZAKU', INSTRUME='XRS'
      [25] Processing 'test-results/ae100037050xrs_0_dump.hk'
           +1: TELESCOP='SUZAKU', INSTRUME='XRS'
           +2: TELESCOP='SUZAKU', INSTRUME='XRS'
           +3: TELESCOP='SUZAKU', INSTRUME='XRS'
           +4: TELESCOP='SUZAKU', INSTRUME='XRS'
           +5: TELESCOP='SUZAKU', INSTRUME='XRS'
           +6: TELESCOP='SUZAKU', INSTRUME='XRS'
           +7: TELESCOP='SUZAKU', INSTRUME='XRS'
           +8: TELESCOP='SUZAKU', INSTRUME='XRS'
           +9: TELESCOP='SUZAKU', INSTRUME='XRS'
          +10: TELESCOP='SUZAKU', INSTRUME='XRS'
          +11: TELESCOP='SUZAKU', INSTRUME='XRS'
          +12: TELESCOP='SUZAKU', INSTRUME='XRS'
          +13: TELESCOP='SUZAKU', INSTRUME='XRS'
          +14: TELESCOP='SUZAKU', INSTRUME='XRS'
          +15: TELESCOP='SUZAKU', INSTRUME='XRS'
     
     Finished.


BUGS

None reported.


SEE ALSO

aspect


AUTHOR

This program was developed primarily in the ASTRO-E ANL environment by Yoshitaka Ishisaki (Tokyo Metropolitan University).


LAST MODIFIED

May 2007

CATEGORY

May2007 ftools.suzaku