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Revision 2 as of 2019-12-18 17:39:53
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Editor: HirotakaYuzurihara
Comment:
Revision 30 as of 2019-12-19 14:16:26
Size: 4922
Editor: HirotakaYuzurihara
Comment:
Deletions are marked like this. Additions are marked like this.
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 * channel name

  * From [[http://gwwiki.icrr.u-tokyo.ac.jp/JGWwiki/KAGRA/Subgroups/DET/RUN#ER_with_MICH_on_Jul._13 | ER2 (DetChar)]]
  * K1:CAL-CS_PROC_MICH_DISPLACEMENT_DQ (We used this channel.)
  * K1:CAL-CS_PROC_IMC_FREQUENCY_DQ

 * Low latency data channels
  * K1:DCS-CALIB_STRAIN_C10 16384
  * K1:DCS-CALIB_STATE_VECTOR_C10 16
  * K1:CAL-CS_PROC_IMC_FREQUENCY_DQ 16384		  * h(t) channel name
  * full : '''K1:CAL-CS_PROC_C00_STRAIN_DBL_DQ'''
  * ll_merged : '''K1:DCS-CALIB_STRAIN_C10'''
Line 33: Line 26:

  * K1:GRD-LSC_LOCK_STATE_N = 157		   * definition : '''K1:GRD-LSC_LOCK_STATE_N = 1000'''
  * Based on this definition, detchar group provides the segment file in m31-01
  * such as /home/detchar/Segments/SegmentList_FPMI_UTC_2019-12-17.txt
Line 37: Line 31:
  * [[http://gwwiki.icrr.u-tokyo.ac.jp/JGWwiki/KAGRA/Subgroups/DET/DataQuality#Online_Data_Quality_Vector | definition]]
  * We cbc group should check the second bit is 1.		   * channel name : '''K1:DET-DQ_STATE_VECTOR'''
  * the definition of DQV in full data : [[http://gwwiki.icrr.u-tokyo.ac.jp/JGWwiki/KAGRA/Subgroups/DET/DataQuality#Engineering_Run_with_FPMI_from_17th_to_23rd_Dec. | definition]]
  * the definition of DQV in ll_merged data is same as full data.
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 * CBC lock segments
  * We checked lock flag of each data and collected the locked data. We considered lock segments by file units for convenience. If compared with [[http://gwwiki.icrr.u-tokyo.ac.jp/JGWwiki/KAGRA/Subgroups/DET/RUN#ER_with_MICH_on_Jul._13 | lock segment(DetChar)]], this lock segment is small slightly.		  * CBC lock segments until '''2019/12/18 JST'''.
  * We checked lock flag of each data and collected the locked data. We considered lock segments by file units for convenience. If compared with [[https://gwdet.icrr.u-tokyo.ac.jp/~controls/summary/day/20191218/#observing|lock segment(DetChar)]], this lock segment is small slightly.
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  || '''#''' || '''start GPS''' || '''stop GPS''' || '''duration''' ||
  || 1 || 1247024288 || 1247043616 || 19328 ||		 /* {{attachment:KAGRA_generalView1_WEB_190326.png|view1|width=240}} */
Line 46: Line 40:
== Off line analysis ==   || '''#''' || '''start GPS''' || '''stop GPS''' || '''duration''' || '''PSD''' ||
  || 0 || 1260604832 || 1260622368 || 17536|| {{attachment:psd_1260622368_17536_1.png | view1 | width=240}} ||
  || 1 || 1260622976 || 1260649952 || 26976|| {{attachment:psd_1260649952_26976_1.png | view1 | width=240}} ||
  || 2 || 1260650400 || 1260661888 || 11488|| {{attachment:psd_1260661888_11488_1.png | view1 | width=240}} ||
  || 3 || 1260662432 || 1260662752 || 320|| {{attachment:psd_1260662752_320_1.png | view1 | width=240}} ||
  || 4 || 1260668608 || 1260669600 || 992|| {{attachment:psd_1260669600_992_1.png | view1 | width=240}} ||
  || 5 || 1260669952 || 1260670272 || 320|| {{attachment:psd_1260670272_320_1.png | view1 | width=240}} ||
  || 6 || 1260671040 || 1260671456 || 416|| {{attachment:psd_1260671456_416_1.png | view1 | width=240}} ||
  || 7 || 1260673184 || 1260674656 || 1472|| {{attachment:psd_1260674656_1472_1.png | view1 | width=240}} ||
  || 8 || 1260675200 || 1260682048 || 6848|| {{attachment:psd_1260682048_6848_1.png | view1 | width=240}} ||
  || 9 || 1260688800 || 1260689472 || 672|| {{attachment:psd_1260689472_672_1.png | view1 | width=240}} ||
  || 10 || 1260688800 || 1260716416 || 27616|| {{attachment:psd_1260716416_27616_1.png | view1 | width=240}} ||




== Offline analysis(yuzurihara) ==
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 * Check the available locked data '''(done)'''
  * Summarize the data length '''(done)'''		 /* '''(done)''' */
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 * Estimate power spectrum density '''(done)'''
  * Summarize information in pdf '''(done)'''		  * Check the available locked data
  * Summarize the data length
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 * Generate lock list and segment list '''(done)'''  * Estimate power spectrum density
  * Summarize plots in pdf
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 * Generate template bank '''(skipped)'''
  * How many waveforms we need? '''(skipped)'''		  * Generate lock list and segment list
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 * Search signals by matched filter and chi^2 '''(done)'''  * Generate template bank
  * How many waveforms we need?
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 * Summary the output of search '''(done)'''
  * histogram of SNR '''(done)'''
  * glitch list(GPS, JST, mass, ISCO frequency, duration) '''(done)'''		  * Search signals by matched filter and chi^2

 * Summary the output of search
  * histogram of SNR
  * glitch list(GPS, JST, mass, ISCO frequency, duration)
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 * Summary of locked data [[http://gwwiki.icrr.u-tokyo.ac.jp/JGWwiki/KAGRA/DAWG/CBC/ER2#Data_related | CBC locked segment]]  * Summary of locked data
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 * Averaged PSD [[https://gwdoc.icrr.u-tokyo.ac.jp/cgi-bin/private/DocDB/ShowDocument?docid=10448 | JGWdoc]]  * Averaged PSD
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 * Histogram of detection statistics [[https://gwdoc.icrr.u-tokyo.ac.jp/cgi-bin/private/DocDB/ShowDocument?docid=10448 | JGWdoc]]  * Histogram of detection statistics
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 * Time series of detection statistics [[https://gwdoc.icrr.u-tokyo.ac.jp/cgi-bin/private/DocDB/ShowDocument?docid=10448 | JGWdoc]]  * Time series of detection statistics
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 * Online matched filtering
  * July 13, 17:08 - 18:00 JST
  * Using low latency data files (1 sec) dumped from shared memory
  * About 1 minutes deley
  * CH: K1:DCS-CALIB_STRAIN_C10
  * Template: (30,30)Msun, no spin, Waveform: IMRPhenomD
  * Used pre-computed PSD
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 * [[http://gwwiki.icrr.u-tokyo.ac.jp/JGWwiki/KAGRA/DAWG/CBC/ER2 | CBC search in ER2]]

Engineering Run December 2019

Contents

  1. Engineering Run December 2019
    1. Data related
    2. Offline analysis(yuzurihara)
    3. Online analysis
    4. Link

  • JST: Dec. 17, 2019, 17:00 -- Dec. 24, 2019, 9:00
  • GPS:

  • KAGRA full data
    • m31:/data/full : Full KAGRA data
  • Low latency data
    • m31:/data/ll_merged/ : Low latency data packed in 4096 seconds
    • hydra:/data/ll_merged/ : Low latency data packed in 4096 seconds
    • hydra: /data/ll-sharing/shm/llhoft/ : Low latency data (1 second) dumped from shared memory (retained only for 8192 seconds)
  • h(t) channel name

    • full : K1:CAL-CS_PROC_C00_STRAIN_DBL_DQ

    • ll_merged : K1:DCS-CALIB_STRAIN_C10

  • lock flag

    • definition : K1:GRD-LSC_LOCK_STATE_N = 1000

    • Based on this definition, detchar group provides the segment file in m31-01
    • such as /home/detchar/Segments/SegmentList_FPMI_UTC_2019-12-17.txt
  • data quality vector

    • channel name : K1:DET-DQ_STATE_VECTOR

    • the definition of DQV in full data : definition

    • the definition of DQV in ll_merged data is same as full data.

  • CBC lock segments until 2019/12/18 JST.

    • We checked lock flag of each data and collected the locked data. We considered lock segments by file units for convenience. If compared with lock segment(DetChar), this lock segment is small slightly.

  • #

    start GPS

    stop GPS

    duration

    PSD

    0

    1260604832

    1260622368

    17536

    1

    1260622976

    1260649952

    26976

    2

    1260650400

    1260661888

    11488

    3

    1260662432

    1260662752

    320

    4

    1260668608

    1260669600

    992

    5

    1260669952

    1260670272

    320

    6

    1260671040

    1260671456

    416

    7

    1260673184

    1260674656

    1472

    8

    1260675200

    1260682048

    6848

    9

    1260688800

    1260689472

    672

    10

    1260688800

    1260716416

    27616

Offline analysis(yuzurihara)

Check point

  • Check the available locked data
    • Summarize the data length
  • Estimate power spectrum density
    • Summarize plots in pdf
  • Generate lock list and segment list
  • Generate template bank
    • How many waveforms we need?
  • Search signals by matched filter and chi^2
  • Summary the output of search
    • histogram of SNR
    • glitch list(GPS, JST, mass, ISCO frequency, duration)

  • Summary of locked data
  • Averaged PSD
    • Power spectrum density (PSD) is averaged over 1 sec chunks by taking median.
  • Calculation time to search for signals

    • Read 500 sec data : < 1 min

    • Estimate PSD : 2~3 min.

    • matched filter+chi^2 with single waveform (not bank) : < 1 min

  • Histogram of detection statistics

    • If data is Gaussian, <snr>=1.

  • Time series of detection statistics
    • waveform : 1.4 - 1.4 Msun
    • Beginning and ending 50 sec data were removed from the result.
    • We uploaded the 3 kinds of time series results which were maximized over rho(matched filter), chi square, rhohat(detection statistics) during 1 second window.
      • We added time series of rho and chi square, because time series of rhohat don't contain the information of the glitch.
    • File names are
      • "cbc_max_rho_ER2.txt" (this data indicates the time when data contains high power)
      • "cbc_max_chi2_ER2.txt" (this data indicates the time when data contains high power in specific frequency band)
      • "cbc_max_rhohat_ER2.txt" (this data indicates the time when data "might" contains gravitational wave signal)

Online analysis

  • Plots

KAGRA/DAWG/CBC/ER-Dec-2019 (last edited 2020-01-08 12:59:52 by HirotakaYuzurihara)