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Dark data processing algorithms include pixel status evaluation which is saved in calibration files of type pixel_status. This note explains how to find definition and statistics of the bad pixel bits.
Algorithm
Dark data processing
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Dark data processing is originaly intended for base signal level a.k.a. pedestal evaluation. In addition quality of pixel response is also evaluated. This algorithm evolved for a long time. The most advanced version implemented for calibration of jungfrau panels is described here.
- dark raw data is accumulated in array
block[nrecs1,<shape-of-data>]
for a portion of events nrecs1=50. It would be nice to accumulate it for entire volume of events (nrecs=1000), but some of detectors are too big and causes problem with memory. - pre-process data from block, use median and quantile for fraclo=0.05 and fcachi=0.95 fractions of spectral events to estimate mean value and gate intensity limits, respectively.
- use gated average algorithm to process events in
block
and all other events (nrecs=1000) requested for dark processing. - at the end of the event loop evaluate mean, rms, max/min values and process a few statistical cumulative arrays which produce information about bad pixels.
Bad pixel status
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For arrays of per-pixel mean intensity and rms, obtained in gated average algorithm, we use parameters of absolute limits and number of sigma for low and hight range
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- finds in repository all available status_* files associated with detector/panel and requested run time-stamp,
- merge them by bits, preserve merged file under status_merged type,
- deploy this file in calibration database with type status_extra.
- <PATHREPO> is defined in Path to data and calibration constants for psana in LCLS1
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/reg/g/psdmRepository, presumably common for most of detectors. Even can be extended to LCLS-II...: <PATHREPO>/detector/calib/constants/ generic path to files: <PATHREPO>/detector/calib/constants/<dettype>/<panel-or-detector-id>/<status_type>/<dettype>_<panel-alias>_<YYYYMMDDHHmmSS-of_run>_<expname>_r<runnum>_<status_type>.txt example: /reg/g/psdm<PATHREPO>/detector/calib/constants/epix100a/3925999616-0996579585-0553648138-1232098304-1221641739-2650251521-3976200215/status_user/epix100a_0001_20160318191036_xpptut15_r0260_status_user.txt /reg/g/psdm<PATHREPO>/detector/calib/constants/epix100a/3925999616-0996579585-0553648138-1232098304-1221641739-2650251521-3976200215/status_extra/epix100a_0001_20160318191036_xpptut15_r0260_status_extra.txt merged to: <PATHREPO>/regdetector/g/psdm/detector/calib/calib/constants/epix100a/3925999616-0996579585-0553648138-1232098304-1221641739-2650251521-3976200215/status_merged/epix100a_0001_20160318191036_xpptut15_r0260_status_merged.txt deployed to: /cds/data/psdm<PATHREPO>/XPP/xpptut15/calib/Epix100a::CalibV1/XcsEndstation.0:Epix100a.1/status_extra/0-end.data |
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Due to algorithms evolution precise the bad pixel bit assignment may be different from description above. The best source of true information about bad pixel content and statistics is the log file. Another option is to look at code. Tables of this note contain references to both sources of information for different type of commands/detectors.
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Detector | Processing command | Log files directory | Log file name | Code |
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epix10ka | epix10ka_pedestals_calibration | /reg/g/psdm<PATHREPO>/detector/gains/epix10k/panels/logs/<year>/ | <timestamp>_log_epix10ka_pedestals_calibration_<uid>.txt | UtilsEpix10kaCalib.py#L522 |
jungfrau | jungfrau_dark_proc | /reg/g/psdm<PATHREPO>/detector/gains/jungfrau/panels/logs/<year>/ | <timestamp>_log_jungfrau_dark_proc_<uid>.txt | UtilsCalib.py#L727 |
other detectors | calibrun → det_ndarr_dark_proc | /reg/g/psdm<PATHREPO>/logs/calibman/<year>/<month>/ | <time-stamp>-log-<login>-<job-id>.txt | det_ndarr_raw_proc#L337 |
other detectors | NEW: det_raw_pixel_status deploy_constants | /reg/g/psdm<PATHREPO>/detector/calib/constants/<dettype>/logs/<year>/ /reg/g/psdm<PATHREPO>/detector/calib/constants/<dettype>/logs/<year>/ | <time-stamp>_log_det_raw_pixel_status_<uid>.txt <time-stamp>_log_deploy_constants_<uid>.txt |
Examples
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process panel:15 id:0000000002-0173621761-3221225494-1014046789-0019435010-0000000000-0000000000 [I] L0111 evaluate_limits RMS: ave=3.418 std=0.344 limits low=1.353 high=5.483 [I] L0111 evaluate_limits AVE: ave=3155.633 std=147.439 limits low=2271.000 high=4040.267 [I] L0528 Bad pixel status: status 1: 35 pixel rms > 5.483 status 2: 0 pixel rms < 1.353 status 4: 0 pixel intensity > 16000 in more than 0.1 fraction of events status 8: 0 pixel intensity < 1 in more than 0.1 fraction of events status 16: 13 pixel average > 4040.27 status 32: 354 pixel average < 2271 |
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raw data found/selected in 999 events [I] L0688 begin data summary stage [I] L0111 evaluate_limits RMS: ave=4.783 std=1.303 limits low=0.001 high=12.604 [I] L0111 evaluate_limits AVE: ave=14191.873 std=457.903 limits low=11444.455 high=16000.000 [I] L0733 bad pixel status: status 1: 244 pixel rms > 12.604 status 2: 550 pixel rms < 0.001 status 4: 418 pixel intensity > 16000 in more than 0.1 fraction of events status 8: 132 pixel intensity < 1 in more than 0.1 fraction of events status 16: 0 pixel average > 16000 status 32: 918 pixel average < 11444.5 [I] L0108 status 64: 139 pixel with bad gain mode switch |
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Raw data for XcsEndstation.0:Epix100a.1 found/selected in 1001 events , begin data summary stage evaluate_limits: RMS ave, std = 3.411, 0.276 low, high limits = 1.500, 7.000 evaluate_limits: AVE ave, std = 4515.065, 203.890 low, high limits = 10.000, 10000.000 Bad pixel status: status 1: 134 pixel rms > 7.000 status 8: 5 pixel rms < 1.500 status 2: 6 pixel intensity > 10000 in more than 0.1 fraction of events status 4: 0 pixel intensity < 10 in more than 0.1 fraction of events status 16: 0 pixel average > 10000 status 32: 5 pixel average < 10 |
LCLS-II
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Command det_raw_pixel_status
Script det_raw_pixel_status is specifically designed to search for bad pixels in dark and light data using different algorithms, named as "features 1-6" after publication [Journal of Applied Crystallography - 2022 - Sadri]. Algorithms of det_raw_pixel_status in for features 1-6 closely follow to this publication. Feature 11 is a new development to search for bad pixels with too low or too high gain factors.
Meaning and application of features in det_raw_pixel_status can be briefly listed as
Feature # | Data type | Description | # of events | status type in repository | Comments |
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1 | dark | mean intensity of frames should be in good range | ~1000 | status_dark | |
2 | dark | pixel mean intensity should be in good range | ~1000 | status_dark | |
3 | dark | pixel rms intensity should be in good range | ~1000 | status_dark | |
4 | gain stage indicators between stages | for gain switching detectors only, TBD | |||
5 | gain stage indicators for each gain stage | for gain switching detectors only, TBD | |||
6 | light | average SNR of pixels over time | ~1000 | status_light | |
11 | light | pedestal subtracted pixel intensity max value for entire run should be in good range | entire run sample >10k | status_max | [Bad pixel mask for epix100a xpplw3319] |
where "good range" is equivalent to the "robust statistics" in publication to the bulk of data.
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det_raw_pixel_status
det_raw_pixel_status -h
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det_raw_pixel_status <dark-data> ... -F 1,2,3 # creates status file of type status_dark
det_raw_pixel_status <light-data> ... -F 1,6 # creates status file of type status_light
det_raw_pixel_status <light-data> ... -F 11 -n 1000000 # creates status file of type status_max
deploy_constants ... # merges all status_* constants from repository to calib directory type status_extra |
LCLS-II
Detector | Dark processing command | Log file directory | Log file name | Code |
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epix10ka | epix10ka_pedestals_calibration | <PATHREPO>/detector/gains2/epix10ka/panels/logs/<year>/ | <time-stamp>_log_epix10ka_pedestals_calibration_<uid>txt | UtilsEpix10kaCalib.py#L355 |
epix100a/opal/etc | det_dark_proc | <PATHREPO>/detector/calib2/epix100/logs/<year>/ | <time-stamp>_log_det_dark_proc_<uid>.txt | UtilsCalib.py#L281 |
Examples
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[I] L0230 _____ |
Examples
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[I] L0230 ________________________________________________________________________________
raw data found/selected in 1000 events
[I] L0233 begin data summary stage
[I] L0279 bad pixel status:
status 1: 300 pixel rms > 6.533
status 2: 1 pixel rms < 0.001
status 4: 1434 pixel intensity > 16000 in more than 0.1 fraction of events
status 8: 10170 pixel intensity < 1 in more than 0.1 fraction of events
status 16: 31 pixel average > 5280.34
status 32: 2 pixel average < 2692.9 |
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[I] L0275 Pre-processing time 16.339 sec
Results for median over pixels intensities:
0.500 fraction of the event spectrum is below 2901.542 ADU - pedestal estimator
0.050 fraction of the event spectrum is below 2896.826 ADU - gate low limit
0.950 fraction of the event spectrum is below 2906.187 ADU - gate upper limit
event spectrum spread median(abs(raw-med)): 1.869 ADU - spectral peak width estimator
[I] L0361 Bad pixel status:
status 1: 6 pixel rms > 3.898
status 2: 0 pixel rms < 0.944
status 4: 0 pixel intensity > 16000 in more than 0.1 fraction of events
status 8: 0 pixel intensity < 1 in more than 0.1 fraction of events
status 16: 2 pixel average > 3821.78
status 32: 0 pixel average < 1986.12 |
References
than 0.1 fraction of events
status 16: 2 pixel average > 3821.78
status 32: 0 pixel average < 1986.12 |
References
- Calibration Scripts Repository and Logging
- calibrun - LCLS CLI for dark processing
- Dark processing for LCLS2 area detectors
- Jungfrau and Epix10ka Calibration
- save_constants_in_repository - user's helper to save constants in repository
- det_raw_pixel_status - generates status_data - new algorithms in development
- deploy_constants - deploys constants from repository to DB
- Bad pixel mask - new development
- Paper in JAC: Automatic bad-pixel mask maker for X-ray pixel detectors with application to serial crystallography,
- Journal of Applied Crystallography - 2022 - Sadri - Automatic bad‐pixel mask maker for X‐ray pixel detectors with.pdf
- Bad pixel mask for epix100a xpplw3319
- Path to data and calibration constants for psana in LCLS1
- Calibration Scripts Repository and Logging
- calibrun - LCLS CLI for dark processing
- Dark processing for LCLS2 area detectors
- Jungfrau and Epix10ka Calibration
- save_constants_in_repository - user's helper to save constants in repository
- det_raw_pixel_status - generates status_data - new algorithms in development
- deploy_constants - deploys constants from repository to DB