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Feedback from users are very welcome ! Please inform C. Kozakai and H. Yuzurihara. |
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*7/10 Changed SNR threshold. *7/9 Bug fix for SNR threshold lowering. |
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7/5~ | 7/10~ |
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||IMC-CAV_TRANS_OUT_DQ||<:> veto ||<:> 10 || ||PSL-PMC_TRANS_DC_OUT_DQ||<:>veto ||<:> 30 || ||PEM-ACC_MCF_TABLE_REFL_Z_OUT_DQ||<:>veto ||<:> 30 || ||PEM-ACC_PSL_PERI_PSL1_Y_OUT_DQ||<:>veto ||<:> 7 || ||PEM-MIC_PSL_TABLE_PSL4_Z_OUT_DQ||<:>veto ||<:> 7 || |
||IMC-CAV_TRANS_OUT_DQ||<:> veto ||<:> 20 || ||PSL-PMC_TRANS_DC_OUT_DQ||<:>veto ||<:> 40 || ||PEM-ACC_MCF_TABLE_REFL_Z_OUT_DQ||<:>veto ||<:> 40 || ||PEM-ACC_PSL_PERI_PSL1_Y_OUT_DQ||<:>veto ||<:> 20 || ||PEM-MIC_PSL_TABLE_PSL4_Z_OUT_DQ||<:>veto ||<:> 20 || |
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{{{ xxx }}} |
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= Info = | The main purpose is to study glitches and lock loss by visual inspection. Also, collecting information for glitch database is done through voting form for each glitch event. Using the result, we aim to do noise hunting, glitch characterization, and labeling for machine learning application. Here is slides describing how to use: [[https://gwdoc.icrr.u-tokyo.ac.jp/cgi-bin/private/DocDB/ShowDocument?docid=10371|slides]] GlitchPlot uses trigger information provided by Omicron. GlitchPlot does clustering of the triggers and summarize the trigger information for each events based on the Omicron output. For each events, plots for triggered channel and relevant channels are provided on [[https://www.icrr.u-tokyo.ac.jp/~yuzu/bKAGRA_summary/html/|Yuzu Summary]]. The relevant channels are basically chosen from * Trigger channel * Unsafe channels * Important upstream channels * Relevant VIS channels * PEM near the trigger channel sensor Following plots are provided: * Time series * Spectrum before trigger and after trigger * Spectrogram * Coherencegram with trigger channel * Q-transform (Under testing) The parameter for plots are determined based on trigger information. == Specification detail == === Trigger clustering === For the trigger clustering method, please refer p3 of [[https://gwdoc.icrr.u-tokyo.ac.jp/cgi-bin/private/DocDB/ShowDocument?docid=10368|slides]]. === Plot channel list === For the exact channel list for each trigger, please refer $channelname.dat in [[https://github.com/gw-detchar/tools/tree/kashiwa/GlitchPlot/Script|GlitchPlot github]]. === Plot parameter === For the exact method for plot parameter determination, please refer plotter.py and condor_jobfile_plotter.sh in [[https://github.com/gw-detchar/tools/tree/kashiwa/GlitchPlot/Script|GlitchPlot github]]. The intent and the variable name in the shell script is as follows. *Time series *GPS start time ($gpsstart), end time ($gpsend) *Output directory ($outdir) *Channel ($chlist[@]) *Spectrum *GPS start time ($gpsstart), end time ($gpsend) *Output directory ($outdir) *Channel ($channel) *Spectrogram *GPS start time ($gpsstart), end time ($gpsend) *Output directory ($outdir) *Channel ($channel) *Coherencegram *GPS start time ($gpsstart), end time ($gpsend) *Output directory ($outdir) *Channel ($channel) *Q-transform *GPS start time ($gpsstart), end time ($gpsend) *Output directory ($outdir) *Channel ($channel) *Lock segment summary *GPS start time ($gpsstart), end time ($gpsend) *Output directory ($outdir) *Channel ($channel) *Trigger time ($gpstime) and duration ($max_duration) === Source code === [[https://github.com/gw-detchar/tools/tree/kashiwa/GlitchPlot/Script|GlitchPlot github]]. Master branch: On Kamioka server, plotter.sh runs by crontab every 15 min. plotter.py is called. it gives clustered Omicron trigger information as a text file. The text files are sent to Kashiwa server by rsync. kashiwa branch: On Kashiwa sercer, GlitchPlot.sh runs by crontab every 15 min. Using text file sent from Kamioka, condor_jobfile_plotter.sh runs to throw jobs into condor to make plots. = Info log = |
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7/5~ |
7/10~ |
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||IMC-CAV_TRANS_OUT_DQ||<:> veto ||<:> 10 || ||PSL-PMC_TRANS_DC_OUT_DQ||<:>veto ||<:> 30 || ||PEM-ACC_MCF_TABLE_REFL_Z_OUT_DQ||<:>veto ||<:> 30 || ||PEM-ACC_PSL_PERI_PSL1_Y_OUT_DQ||<:>veto ||<:> 7 || ||PEM-MIC_PSL_TABLE_PSL4_Z_OUT_DQ||<:>veto ||<:> 7 || |
||IMC-CAV_TRANS_OUT_DQ||<:> veto ||<:> 20 || ||PSL-PMC_TRANS_DC_OUT_DQ||<:>veto ||<:> 40 || ||PEM-ACC_MCF_TABLE_REFL_Z_OUT_DQ||<:>veto ||<:> 40 || ||PEM-ACC_PSL_PERI_PSL1_Y_OUT_DQ||<:>veto ||<:> 20 || ||PEM-MIC_PSL_TABLE_PSL4_Z_OUT_DQ||<:>veto ||<:> 20 || |
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7/5~7/9 (buggy setting) ||<:>'''Channel'''||'''SNR threshold (8:00~24:00)'''||'''SNR threshold (0:00~8:00)'''|| ||IMC-CAV_TRANS_OUT_DQ||<:> 100 ||<:> veto || ||PSL-PMC_TRANS_DC_OUT_DQ||<:>100 ||<:> veto || ||PEM-ACC_MCF_TABLE_REFL_Z_OUT_DQ||<:>100 ||<:> veto || ||PEM-ACC_PSL_PERI_PSL1_Y_OUT_DQ||<:>100 ||<:> veto || ||PEM-MIC_PSL_TABLE_PSL4_Z_OUT_DQ||<:>100 ||<:> veto || ||<:>'''Lock state : IMC'''|| |
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*7/10 Changed SNR threshold. *7/9 Bug fix for SNR threshold lowering. |
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#{{{#!wiki #xxx #}}} |
GlitchPlot
This project is for glitch study. You can see the result on Yuzu Summary.
Feedback from users are very welcome ! Please inform C. Kozakai and H. Yuzurihara.
Recent update
- 7/10 Changed SNR threshold.
- 7/9 Bug fix for SNR threshold lowering.
- 7/5 SNR threshold is lowered during 0am-8am. Instead, daytime events are all rejected.
- 7/5 Missing plot for PEM trigger channel is fixed.
- 7/4 ER events are reprocessed.
Old information is more below.
The latest trigger channel list
7/10~
Channel |
SNR threshold (8:00~24:00) |
SNR threshold (0:00~8:00) |
IMC-CAV_TRANS_OUT_DQ |
veto |
20 |
PSL-PMC_TRANS_DC_OUT_DQ |
veto |
40 |
PEM-ACC_MCF_TABLE_REFL_Z_OUT_DQ |
veto |
40 |
PEM-ACC_PSL_PERI_PSL1_Y_OUT_DQ |
veto |
20 |
PEM-MIC_PSL_TABLE_PSL4_Z_OUT_DQ |
veto |
20 |
Lock state : IMC |
6/8 during ER
Channel |
SNR threshold |
LSC-CARM_SERVO_MIXER_DAQ_OUT_DQ |
10 |
AOS-TMSX_IR_PD_OUT_DQ |
10 |
IMC-MCL_SERVO_OUT_DQ |
30 |
IMC-SERVO_SLOW_DAQ_OUT_DQ |
7 |
IMC-CAV_TRANS_OUT_DQ |
10 |
IMC-CAV_REFL_OUT_DQ |
10 |
PSL-PMC_TRANS_DC_OUT_DQ |
30 |
PSL-PMC_MIXER_MON_OUT_DQ |
10 |
Lock state : IMC |
Old information is more below.
Overview
The main purpose is to study glitches and lock loss by visual inspection. Also, collecting information for glitch database is done through voting form for each glitch event. Using the result, we aim to do noise hunting, glitch characterization, and labeling for machine learning application. Here is slides describing how to use: slides
GlitchPlot uses trigger information provided by Omicron. GlitchPlot does clustering of the triggers and summarize the trigger information for each events based on the Omicron output.
For each events, plots for triggered channel and relevant channels are provided on Yuzu Summary. The relevant channels are basically chosen from
- Trigger channel
- Unsafe channels
- Important upstream channels
- Relevant VIS channels
- PEM near the trigger channel sensor
Following plots are provided:
- Time series
- Spectrum before trigger and after trigger
- Spectrogram
- Coherencegram with trigger channel
- Q-transform (Under testing)
The parameter for plots are determined based on trigger information.
Specification detail
Trigger clustering
For the trigger clustering method, please refer p3 of slides.
Plot channel list
For the exact channel list for each trigger, please refer $channelname.dat in GlitchPlot github.
Plot parameter
For the exact method for plot parameter determination, please refer plotter.py and condor_jobfile_plotter.sh in GlitchPlot github. The intent and the variable name in the shell script is as follows.
- Time series
- GPS start time ($gpsstart), end time ($gpsend)
- Output directory ($outdir)
- Channel ($chlist[@])
- Spectrum
- GPS start time ($gpsstart), end time ($gpsend)
- Output directory ($outdir)
- Channel ($channel)
- Spectrogram
- GPS start time ($gpsstart), end time ($gpsend)
- Output directory ($outdir)
- Channel ($channel)
- Coherencegram
- GPS start time ($gpsstart), end time ($gpsend)
- Output directory ($outdir)
- Channel ($channel)
- Q-transform
- GPS start time ($gpsstart), end time ($gpsend)
- Output directory ($outdir)
- Channel ($channel)
- Lock segment summary
- GPS start time ($gpsstart), end time ($gpsend)
- Output directory ($outdir)
- Channel ($channel)
- Trigger time ($gpstime) and duration ($max_duration)
Source code
Master branch: On Kamioka server, plotter.sh runs by crontab every 15 min. plotter.py is called. it gives clustered Omicron trigger information as a text file. The text files are sent to Kashiwa server by rsync.
kashiwa branch: On Kashiwa sercer, GlitchPlot.sh runs by crontab every 15 min. Using text file sent from Kamioka, condor_jobfile_plotter.sh runs to throw jobs into condor to make plots.
Info log
Trigger channel list log
7/10~
Channel |
SNR threshold (8:00~24:00) |
SNR threshold (0:00~8:00) |
IMC-CAV_TRANS_OUT_DQ |
veto |
20 |
PSL-PMC_TRANS_DC_OUT_DQ |
veto |
40 |
PEM-ACC_MCF_TABLE_REFL_Z_OUT_DQ |
veto |
40 |
PEM-ACC_PSL_PERI_PSL1_Y_OUT_DQ |
veto |
20 |
PEM-MIC_PSL_TABLE_PSL4_Z_OUT_DQ |
veto |
20 |
Lock state : IMC |
7/5~7/9 (buggy setting)
Channel |
SNR threshold (8:00~24:00) |
SNR threshold (0:00~8:00) |
IMC-CAV_TRANS_OUT_DQ |
100 |
veto |
PSL-PMC_TRANS_DC_OUT_DQ |
100 |
veto |
PEM-ACC_MCF_TABLE_REFL_Z_OUT_DQ |
100 |
veto |
PEM-ACC_PSL_PERI_PSL1_Y_OUT_DQ |
100 |
veto |
PEM-MIC_PSL_TABLE_PSL4_Z_OUT_DQ |
100 |
veto |
Lock state : IMC |
6/8 during ER
Channel |
SNR threshold |
LSC-CARM_SERVO_MIXER_DAQ_OUT_DQ |
10 |
AOS-TMSX_IR_PD_OUT_DQ |
10 |
IMC-MCL_SERVO_OUT_DQ |
30 |
IMC-SERVO_SLOW_DAQ_OUT_DQ |
7 |
IMC-CAV_TRANS_OUT_DQ |
10 |
IMC-CAV_REFL_OUT_DQ |
10 |
PSL-PMC_TRANS_DC_OUT_DQ |
30 |
PSL-PMC_MIXER_MON_OUT_DQ |
10 |
Lock state : IMC |
6/12~7/5
Channel |
SNR threshold |
IMC-CAV_TRANS_OUT_DQ |
100 |
PSL-PMC_TRANS_DC_OUT_DQ |
100 |
PEM-ACC_MCF_TABLE_REFL_Z_OUT_DQ |
100 |
PEM-ACC_PSL_PERI_PSL1_Y_OUT_DQ |
100 |
PEM-MIC_PSL_TABLE_PSL4_Z_OUT_DQ |
100 |
Lock state : IMC |
6/7~6/12
Channel |
SNR threshold |
LSC-CARM_SERVO_MIXER_DAQ_OUT_DQ |
100 |
AOS-TMSX_IR_PD_OUT_DQ |
100 |
IMC-MCL_SERVO_OUT_DQ |
30 |
IMC-SERVO_SLOW_DAQ_OUT_DQ |
7 |
IMC-CAV_TRANS_OUT_DQ |
10 |
IMC-CAV_REFL_OUT_DQ |
10 |
PSL-PMC_TRANS_DC_OUT_DQ |
30 |
PSL-PMC_MIXER_MON_OUT_DQ |
10 |
Lock state : X-arm |
Update log
- 7/10 Changed SNR threshold.
- 7/9 Bug fix for SNR threshold lowering.
- 7/5 SNR threshold is lowered during 0am-8am. Instead, daytime events are all rejected.
- 7/5 Missing plot for PEM trigger channel is fixed.
- 7/4 ER events are reprocessed.