Prepare h(t) reconstruction review
LIGO time-domain calibration review wiki: https://wiki.ligo.org/Calibration/TDCalibReview
Calibration State Vector (K1:DCS-CALIB_STATE_VECTOR_C10)
(Under preparation. It's planned to be used in O3b)
bit |
Identifier |
Description |
0 |
HOFT_OK |
$h(t)$ was successfully computed (logical AND of bits ...) |
1 |
OBS_INTENT |
The observation intent is set by the operator |
2 |
OBS_READY_OR_OBSERVING |
Interferometer is in observation ready mode: the LSC_LOCK+ guardian is in the nominal (observation) state. |
3 |
NO_STOCHASTIC_HW_INJ |
No stochastic hardware injections present |
4 |
NO_CBC_HW_INJ |
No compact binary coalescence hardware injections present |
5 |
NO_BURST_HW_INJ |
No burst hardware injections present |
6 |
NO_DETCHAR_HW_INJ |
No detector characterization hardware injections present |
7 |
NO_CW_HW_INJ |
No continuous wave characterization hardware injections present |
8 |
TM_LINE_COH_OK |
TM line coherence OK |
9 |
IM_LINE_COH_OK |
IM line coherence OK |
10 |
MN_LINE_COH_OK |
MN line coherence OK |
11 |
PCAL1_LINE_COH_OK |
PCAL1 line coherence OK |
12 |
PCAL2_LINE_COH_OK |
PCAL2 line coherence OK |
13 |
PCAL3_LINE_COH_OK |
PCAL3 line coherence OK |
14 |
PCAL4_LINE_COH_OK |
PCAL4 line coherence OK |
15 |
PCAL5_LINE_COH_OK |
PCAL5 line coherence OK |
16 |
SMOOTH_KAPPA_TM_OK |
TDCF smoothed $\kappa_\mathrm{TM}$ values are in the expected range |
17 |
SMOOTH_KAPPA_IM_OK |
TDCF smoothed $\kappa_\mathrm{IM}$ values are in the expected range |
18 |
SMOOTH_KAPPA_MN_OK |
TDCF smoothed $\kappa_\mathrm{MN}$ values are in the expected range |
19 |
SMOOTH_KAPPA_C_OK |
TDCF smoothed $\kappa_\mathrm{C}$ value is in the expected range |
20 |
SMOOTH_F_CC_OK |
TDCF smoothed $f_\mathrm{cc}$ value is in the expected range |
21 |
SMOOTH_F_S_OK |
(reserved) TDCF smoothed $f_\mathrm{S}$ value is in the expected range |
22 |
SMOOTH_Q_S_OK |
(reserved) TDCF smoothed $Q_\mathrm{S}$ value is in the expected range |
23 |
TDCFS_APPLIED |
Time-dependent calibration factors are being applied |
24 |
LINE_SUBTRACTION_APPLIED |
(reserved) Line subtraction are being applied |
25 |
NO_GAP |
(reserved) Input data has no gaps, underflow, or overflow values |
26 |
(not in use) |
(not in use) |
27 |
(not in use) |
(not in use) |
28 |
(not in use) |
(not in use) |
29 |
(not in use) |
(not in use) |
30 |
(not in use) |
(not in use) |
31 |
(not in use) |
(not in use) |
Some channels were copied from DET channels
K1:DET-DQ_STATE_VECTOR --> CAL state vector
# bit 2 : SDF flag (= K1:GRD-SYS_SDF_OK) --> # bit 2
# bit 7 : NO Stoch injection --> # bit 3
# bit 8 : NO CBC injection --> # bit 4
# bit 9 : NO Burst injection --> # bit 5
# bit 10 : NO DET injection --> # bit 6
# bit 11 : NO CW injection --> # bit 7
K1:DET-OBS_INTENT --> CAL state vector: # bit 1
Question: Would we better to change the channel name from K1:DCS-CALIB_STATE_VECTOR_C10 to K1:DCS-CALIB_STATE_VECTOR ?
At the first half of observing run with PRFPMI for O3 (Late Feb. 2020. - Mid. Mar. 2020),
HOFT_OK bit was computed with the logical AND of bits : 1-7. (All of these bits were just copied from DET channels)
At the latter half of observation (Late Mar. 2020 -),
HOFT_OK bit will be planned to be computed with the logical AND of bits : 1-7, 16-20, 23, 25 (or 1-20, 23, 25).
Low-latency and offline
Channels used for low-latency and offline calibration (July 12 - ...)
Channel Name |
Rate |
Format |
Description |
K1:CAL-CS_PROC_MICH_RESIDUAL_DBL_DQ |
16384 |
F64LE |
MICH error |
K1:CAL-CS_PROC_MICH_DELTA_CTRL_TM_DBL_DQ |
4096 |
F64LE |
MICH TM stage control |
K1:CAL-CS_PROC_MICH_DELTA_CTRL_IM_DBL_DQ |
4096 |
F64LE |
MICH IM stage control |
K1:CAL-CS_PROC_MICH_DISPLACEMENT_DQ |
16384 |
F32LE |
MICH displacement (optional) |
K1:CAL-CS_PROC_IMC_RESIDUAL_DQ |
16384 |
F32LE |
IMC error |
K1:CAL-CS_PROC_IMC_DELTA_CTRL_AOM_DQ |
4096 |
F32LE |
IMC AOM frequency control |
K1:CAL-CS_PROC_IMC_DELTA_CTRL_TM_DQ |
4096 |
F32LE |
IMC TM stage control |
K1:CAL-CS_PROC_IMC_FREQUENCY_DQ |
16384 |
F32LE |
Laser frequency (optional) |
K1:GRD-LSC_LOCK_OK |
16 |
F32LE |
LSC Guardian OK status |
K1:GRD-LSC_LOCK_STATE_N |
16 |
F32LE |
LSC lock state |
K1:GRD-IO_OK |
16 |
F32LE |
IMC Guardian OK status |
K1:GRD-IO_STATE_N |
16 |
F32LE |
IMC state |
Where F32LE and F64LE means: floating-point 32-bit and 64-bit numbers in Little-Endian format.
Channels marked "optional" will not be used in the low-latency and offline computations, K1:CAL-CS_PROC_MICH_DISPLACEMENT_DQ and K1:CAL-CS_PROC_IMC_FREQUENCY_DQ in particular are the channels calibrated with the online system.
Low-latency h(t) reconstruction server (Aug - Oct/31: DT,SH,TY,NK,...)
We already have three computing nodes to test the offline h(t) reconstruction via frame file but we need to install another for the low-latency h(t) reconstruction via shared memory inside the tunnel
- (Aug/20-) Connection and software test between a prototype PC and a test bench
- Prototype PC is just a standard desktop PC and will be prepared by SH
- (Aug-Sep) Procurement of server (2U height, at least two 10G network card, standard CPU,memory and disk)
- According to Darkhan’s test with LIGO data and discussion with LIGO people, standard spec should be OK.
- DT is working to figure out the spec and model.
- Academia Sinica will make the procurement
- (Mid.Sep) Connection test between the server and the test bench
- We also need the collaboration with DMG people for the data transfer
- (Sep-Oct) Connection test between the server and the KAGRA online system
- We also need the collaboration with DMG people for the data transfer
Current tasks (May 26 - July 15):
Ask to LIGO CAL team for the detailed information of gstlal-calibration (DT) [status: ongoing | expected finish: N/A]
Make gstlal-calibration running on a machine at KAGRA (DT, SH) [status: ongoing | expected finish: Jul 15]
- Find names and versions of all prerequisite libraries
- Install prerequisites and gstlal-cal package on a machine at AS
- Test gstlal-cal pipeline on an AS machine
- Install prerequisites and gstlal-cal package on a machine at KAGRA
- Test the pipeline on a KAGRA machine
Progress so far (June 21):
- Ask LIGO CAL team for the detailed information of gstlal-calibration
(ongoing) gstlal-calibration maintainers in LIGO are helping to resolve some installation and testing issues.
- Find names and versions of all prerequisite libraries,
(done, entry from June 7) SH made progress on this, see gstlal installation
- Install required packages and the gstlal-cal package on a machine at AS
DT has written scripts for installing lalsuite and gstlal software on a clean CentOS7 distro based on SH's instructions. Scripts were uploaded to KAGRA-AS group's Gitlab repositories:
CI pipelines that build docker-lalsuite-cold and docker-gstlal-cold containers were set up to run on AS IoP machine.
- Test gstlal-cal pipeline on an AS machine
As a prerequisite to this task, DT reproduced a portion of LIGO h(t) from raw data with gstlal-calibration-v1.1.8 (w/ a "docker-gstlal-cold" image). This test was done on a private server (2-cores on Intel Xeon 2.4GHz, 8GB RAM).
Downloaded a few hours of bKAGRA Phase-1 data on AS machine.
(doing) Will try to reproduce C00 with gstlal-calibration. Details in
(to do) Verify the output of gstlal-calibration.
- Install prerequisites and gstlal-cal package on a machine at KAGRA
(done, entry from June 7) SH made progress on this, see gstlal installation.
Test the pipeline on a KAGRA machine gstlal tests
to do
- Documentation
(doing) Started documenting the work in KAGRA-AS group's Gitlab repositories:
Progress so far (June 7):
- Ask LIGO CAL team for the detailed information of gstlal-calibration
Communication with people working on LIGO gstlal has been initiated.
- Find names and versions of all prerequisite libraries,
SH made progress on this, see gstlal installation
- Install prerequisites and gstlal-cal package on a machine at AS
As a prerequisite to this task, SH worked on installation process for CentOS, DT for Debian.
The goal is to have a better understanding of what is happening under the hood when the gstlal-calibration package is compiled.
- Test gstlal-cal pipeline on an AS machine
As a prerequisite to this task, DT is currently trying to reproduce LIGO h(t) from raw data.
A sub-goal of this task is to come up with a gstlal code testing procedure.
DT addressed some questions to LIGO gstlal people.
- Install prerequisites and gstlal-cal package on a machine at KAGRA
SH made progress on this, see gstlal installation
Test the pipeline on a KAGRA machine gstlal tests
to do
New tasks:
- Put more effort on documentation.