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CIAO 3.2.2 Release Notes
Return to: Version History
Some tool changes and calibration released in CIAO 3.2.2 and CALDB
3.1.0 affect analyses in progress, i.e. certain processing steps
should be run again for greater accuracy. This section of the
release notes describes those changes, as well as the affected
tasks.
Calibration Improvements for ACIS Front-Illuminated Chips
-
There are several important calibration changes released
in CALDB 3.1.0 which apply to the front-illuminated ACIS chips
(I0-3, S0, S2, S4-5). All of the following
calibration updates apply to -120
observations only.
If you are beginning a new analysis,
reprocess your data with acis_process_events
to apply the newest calibration. You will then be
able to use mkacisrmf to create any RMF
files necessary for your analysis.
If you have an analysis in progress, use the
information in this section to evaluate whether or not the
calibration updates will significantly impact your data.
Applying the new calibration means redoing your entire
analysis from the level=1 event file, and some users may not
benefit from the updates.
-
The following calibration changes for -120 data were released in
CALDB 3.1.0:
-
Time-dependent gain adjustment: new TGAIN
calibration files contain improvements to the calibration
for data taken after August 1, 2004 or any
observations done with the S0, S4, and S5 chips. Prior to
this release, there was no TGAIN adjustment available for
those three chips.
-
CTI correction: new calibration files to
correct for the charge transfer inefficiency (CTI). Prior
to this release, there was no CTI correction available for
the S0, S4, and S5 chips.
-
mkacisrmf "phase 2" response and gain
files: new response files represent a 0.5% change
from the existing calibration. A corresponding "phase 2"
gain file (version 4) was also released.
In conjunction with the CTI and TGAIN improvements,
the mkacisrmf tool can now be used to create RMFs
for all -120 observations, regardless of detector
configuration.
A mkacisrmf software fix in the CIAO
3.2.2 release also repairs the "SegV for ACIS-1 on
node-1" bug listed on the mkacisrmf bug page.
None of the calibration files for the back-illuminated chips
(S1, S3) have changed in the CALDB 3.1.0 release.
Please note that the CALDB 3.0.0 calibration improvements
highlighted in the "New method for creating ACIS
imaging RMFs" section of How CIAO 3.2 and
CALDB 3.0.0 Affect Your Analysis still apply.
-
Who Should Reprocess
Anyone wishing to use mkacisrmf needs to
reprocess the data with acis_process_events
and the default CALDB 3.1.0 gain file (version
4). Otherwise there will be calibration
inconsistencies between the gain file and mkacisrmf
response files applied to the data.
The following users should also reprocess their data:
-
all users working with -120 data on S0, S4, and/or S5 should
reprocess their data to apply the CTI and TGAIN
corrections.
-
users working with -120 data on I0-3 and S2 that was
observed August 1, 2004 or later will benefit from
reprocessing with the TGAIN improvements.
-
Who Does NOT Need to Reprocess
Since the changes in the mkacisrmf response files were
small (~0.5%), it is unnecessary to re-make RMFs for chips I0-I3
and S2 that were created in CIAO 3.2/CALDB 3.0.3.
-
For detailed information on the tools and calibration
discussed here, refer to the following documentation.
- Time-dependent gain adjustment:
-
-
Apply the Time-Dependent
ACIS Gain Correction
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ACIS Time-dependent Gain why
topic
- CTI correction:
-
-
Apply the ACIS CTI
Correction
-
ACIS CTI Correction why topic
- mkacisrmf:
-
-
Creating ACIS RMFs with
mkacisrmf thread
-
Creating ACIS RMFs in CIAO 3.2 why
topic
Bad Pixel Identification in VFAINT Mode Data
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The acis_build_badpix tool -
which is called by acis_run_hotpix - no
longer identifies pixels belonging to the outer 5x5
pixel island in VFAINT mode as bad. It will also clear
those bits from an input file.
Originally, all of the outer 24 pixels of a 5x5 island
in VFAINT mode were checked to make sure that the
"adjacent" pixels to the center were not bad.
However, only the center 3x3 is used to compute the
pulse height and grade; the outer 16 pixels of the 5x5
are only used to search for potential cosmic-ray events
if check_vf_pha=yes. To avoid discarding more events
unnecessarily, the code was changed to only consider the
central pixel and the eight pixels adjacent to the
central pixel when searching for events where one of the
pixels is bad.
This change also became part of SDP at version DS 7.6.
Users working with VFAINT mode data should:
-
run acis_build_badpix in CIAO 3.2.2
(assuming the data was processed with an SDP version
lower than DS 7.6)
-
reprocess the event file with
acis_process_events using the new
bad pixel file in the acis_process_events
badpixfile parameter
-
recreate any images or spectra from that event file
It is not necessary to remake ARFs, instrument maps, or
exposure maps, as the outer 16 pixels of a 5x5
island are not accounted for during those processes.
You may wish to do so regardless, for the sake of
consistency.
acis_build_badpix
-
No longer identifies pixels belonging to the outer 5x5 pixel island
in VFAINT mode as bad. It will also clear those bits from an input
file.
Originally, all of the outer 24 pixels of a 5x5 island in VFAINT
mode were checked to make sure that the "adjacent" pixels to the
center were not bad. However, only the center 3x3 is used to compute
the pulse height and grade; the outer 16 pixels of the 5x5 are only
used to search for potential cosmic-ray events if check_vf_pha=yes.
To avoid discarding more events unnecessarily, the code was changed
to only consider the central pixel and the eight pixels adjacent to
the central pixel when searching for events where one of the pixels
is bad.
acis_process_events
-
The tool was modified to read a new event- and split-threshold
file, which contains two extensions (one for timed-exposure mode
observations and one for continuous-clocking mode observations)
instead of one. More information on the calibration file is
available in the CALDB
3.1.0 release notes.
The default value of the "threshfile" parameter is now CALDB
instead of NONE. Provided there is a valid calibration file in
the CALDB, the "spthresh" parameter is ignored.
These changes were required for a new bias algorithm in CC-mode
standard data processing. Users cannot reprocess their data with
the new bias algorithm, and so do not need to redo any analyses
because of the changes to this tool.
acis_run _hotpix
-
The acis_build_badpix tool - which is called by
acis_run_hotpix - no longer identifies pixels belonging to
the outer 5x5 pixel island in VFAINT mode as bad. It will also clear
those bits from an input file.
Originally, all of the outer 24 pixels of a 5x5 island in VFAINT
mode were checked to make sure that the "adjacent" pixels to the
center were not bad. However, only the center 3x3 is used to compute
the pulse height and grade; the outer 16 pixels of the 5x5 are only
used to search for potential cosmic-ray events if check_vf_pha=yes.
To avoid discarding more events unnecessarily, the code was changed
to only consider the central pixel and the eight pixels adjacent to
the central pixel when searching for events where one of the pixels
is bad.
asphist
-
The asphist tool has been rolled back to an earlier
version. This was done to resolve a number of problems with
multi-OBI and multi-ObsID datasets.
The delta_xy and delta_roll parameters
introduced in CIAO 3.2 were not available in this version of
asphist, therefore have been removed from the parameter
file.
-
Error reporting was improved to be more consistent with other CIAO
tools.
hrc_process_events
mkacisrmf
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mkacisrmfBug fix:
for the "SegV for ACIS-1 on node-1" bug listed on
the mkacisrmf bug page. When
computing the ideal part of the matrix it was possible that the
"shifts" would result in negative channels which would lead to
corrupted data and/or a crash.
-
Bug fix:
user may create a PI matrix with a grid other than
1:1024:1.
-
Bug fix:
a warning that the requested energy grid is outside of the data
bounds is printed regardless of the verbosity setting.
-
Some integer-value header keywords were being written as strings.
They now have the proper datatype assigned.
-
The tool exits if calibration data is not found for the requested
CCD.
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The tool no longer prompts for ccd_id, chipx, and chipy values if a
WMAP is specified.
-
Speed enhancements for the case where a WMAP is used.
The CIAO contributed scripts package is available from the
CIAO Scripts page and is considered a required part of the
installation. The script
installation instructions explain where the scripts should
be unpacked within the CIAO directory tree.
merge_all
-
The changes to asphist mean it is again possible to use
the merge_all script to create exposure maps (either
single or multiple chip cases) for multiple observations. Note
that no change was required in the merge_all script
itself for this fix.
The Use merge_all Script to Compute
ACIS Exposure Maps and Fluxed Images thread has
information on how to use merge_all.
show_tgain_corr
-
Version 1.3 of the script uses the new time-dependent gain
files released in CALDB 3.1.0.
-
The scriptfile path in show_tgain_corr.par has
also been corrected from "./show_tgain_corr.sl" to
"${ASCDS_CONTRIB}/share/slsh/local-packages/show_tgain_corr.sl"
.
Threads
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Creating ACIS RMFs with
mkacisrmf
-
Apply the ACIS CTI
Correction
-
Apply the Time-Dependent ACIS Gain
Correction
-
Identify ACIS Hot Pixels and
Cosmic Ray Afterglows
-
Use merge_all Script to Compute ACIS
Exposure Maps and Fluxed Images
Why Topics
Manuals
-
The first version of the Chandra ABC Guide to
Pileup (pileup_abc.ps) has been added to the CIAO Manual
page. As
knowledge of how to detect, assess, and correct for the effects of
pileup improves, we will update and expand the procedures
described therein.
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