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  40m Log, Page 109 of 339  Not logged in ELOG logo
ID Date Authorup Type Category Subject
  11171   Wed Mar 25 18:27:34 2015 KojiSummaryGeneralSome maintainance

- I found that the cable for the AS55 LO signal had the shielding 90% broken. It was fixed.

- The Mon5 monitor in the control room was not functional for months. I found a small CRT down the east arm.
It is now set as MON5 showing the picture from cameras. Steve, do we need any safety measure for this CRT?

  11173   Wed Mar 25 18:48:11 2015 KojiSummaryLSC55MHz demodulators inspection

[Koji Den EricG]

We inspected the {REFL, AS, POP}55 demodulators.

Short in short, we did the following changes:

- The REFL55 PD RF signal is connected to the POP55 demodulator now.
Thus, the POP55 signals should be used at the input matrix of the LSC screens for PRMI tests.

- The POP55 PD RF signal is connected to the REFL55 demodulator now.

- We jiggled the whitening gains and the whitening triggers. Whitening gains for the AS, REFL, POP PDs are set to be 9, 21, 30dB as before.
However, the signal gain may be changed. The optimal gains should be checked through the locking with the interferometer.

- Test 1

Inject 55.3MHz signal to the demodulators. Check the amplitude in the demodulated signal with DTT.
The peak height in the spectrum was calibrated to counts (i.e. it is not counts/rtHz)
We check the amplitude at the input of the input filters (e.g. C1:LSC-REFL55_I_IN1). The whitening gains are set to 0dB.
And the whitening filters were turned off.

f_inj = 55.32961MHz -10dBm
REFL55I @999Hz  22.14 [cnt]
REFL55Q @999Hz  26.21 [cnt]

f_inj = 55.33051MHz -10dBm
REFL55I @ 99Hz  20.26 [cnt]  ~200mVpk at the analog I monitor
REFL55Q @ 99Hz  24.03 [cnt]

f_inj = 55.33060MHz -10dBm
REFL55I @8.5Hz  22.14 [cnt]
REFL55Q @8.5Hz  26.21 [cnt]

f_inj = 55.33051MHz -10dBm
AS55I   @ 99Hz 585.4 [cnt]
AS55Q   @ 99Hz 590.5 [cnt]   ~600mVpk at the analog Q monitor

f_inj = 55.33051MHz -10dBm
POP55I  @ 99Hz 613.9 [cnt]   ~600mVpk at the analog I monitor
POP55Q  @ 99Hz 602.2 [cnt]

We wondered why the REFL55 has such a small response. The other demodulators seems to have some daughter board. (Sigg amp?)
This maybe causing this difference.


- Test 2

We injected 1kHz 1Vpk AF signal into whitening board. The peak height at 1kHz was measured.
The whitening filters/gains were set to be the same condition above.

f_inj = 1kHz 1Vpk
REFL55I 2403 cnt
2374 cnt
AS55I   2374 cnt
AS55Q   2396 cnt
POP55I  2365 cnt
  2350 cnt

So, they look identical. => The difference between REFL55 and others are in the demodulator.

  11174   Wed Mar 25 21:44:20 2015 KojiUpdateLSCIFO recovery / PRFPMI locking activity

[Koji, Den]

- Aligned the arms with ASS. It had alot of offset accumulated. We offloaded it to the suspension.

- We could lock the PRMIsb with the new setup.
PRCL: REFL165I (-14deg, analog +9dB)) -0.1, Locking FM4/5, Triggered FM 2
MICH: REFL165Q (-14deg, analog +9dB) -1.5, Locking FM4/5, Triggered FM2/6/9

- Demod phases at REFL were adjusted such that PRCL in Q signals were minimized :
REFL165 -80deg => -14deg
POP55 -63deg
REFL11 +164 => +7
REFL33 +136 => +133

Note: analog gains: REFL11: +18dB,  REFL33: +30dB, POP55: +12dB, REFL165: +9dB

- Try some transition between REFL signals to check the signal quality.
Measure TFs between the REFL signals

PRCL gain
REFL11I/REFL165I = +58
REFL33I/REFL165I = +8.5
POP55I /REFL165I = -246

MICH gain
REFL11Q/REFL165Q = +11
REFL33Q/REFL165Q = -1.5
POP55Q /REFL165Q = +280

- This resulted us to figure out the relationships of the numbers in the input matrix 

REFL55I/Q -4e-3/4e-3
REFL165I/Q 1.0/1.0 (reference)
REFL11I/Q  0.02/0.1
REFL33I/Q +0.12/-0.7

Full locking trial

Arm locked -> ALS -> Arm offset locked
PRMI locking
REFL165 phase tuned -110deg
PRCL gain -0.1 / MICH gain -2

We needed script editing.
Previous script saved in: /opt/rtcds/caltech/c1/scripts/PRFPMI/carm_cm_up_BACKUP.sh

- PRMI gain setting (input matrix & servo gain)
- CARM/DARM transition setting (see below)

The current CARM/DARM transition procedure:

- CM REFL1 gain is set to be -32
- CARM_B is engaged and the gain is ramped from 0 to +2.5
- Turn on FM7 (integrator)
- MC IN2 (AO path) engaged
- MC IN2 gain increased from -32 to -21

- DARM_B is engaged and the gain is ramped from 0 to +0.1
- Turn on FM7 (integrator)

- CM REFL1 Gain is increased from -32 to -18
- Ramp down CARM A gain to 0

- DARM_B gain is incrased to 0.37. At the same time DARM_A gain is reduced to 0

We succeeded to make the transition several times in the new setting.

- But later the transition got hard. We started to see big jump of the arm trans (TRX/Y 50->100) at the CARM transition.

- We tested the PRCL transition from 165MHz to 55MHz. 55MHz (i.e. POP55 which is REFL55PD) looks alot better now.

- ~1:30 The PMC was realigned. This  increased PMC_TRANS about 10%. This let the Y arm trans recover ~1.00 for the single arm locking

- Decided to end around 3:00AM

  11179   Fri Mar 27 14:47:57 2015 KojiUpdateLSCals->pdh transition, prcl on 1f, alignment

Jenne and I interviewd Den this afternoon to make the things clear

- His "duty cycle" is not about the lengths of the lock stretch. He saids, the transition success probability is improved.

- For this improvement, the CARM transition procedure was modified to include turning on 1:20 (Z1P20) filter in CARM_A (i.e. ALS) once CARM_B (i.e. RF) dominates the loop in all frequency.

- I think this transition can be summarized like the attachment. At STEP4, the integration of the ALS is reduced. This actually does not change the stability of the servo as the servo stability is determined by the stability of the CARM_B loop. But this does further allow CARM_B to supress the noise. Or in other word, we can remove the noise coming from the CARM_A loop.

- The POP22 issue: Jenne has the trigger signal that is immune to this issue by adding some amount of POPDC for the trigger.
We can avoid the trigger issue by this technique. But if the issue is due to the true optical gain fluctuation, this may mean that the 11MHz optical gain is changing too much. This might be helped by PRC angular feedforward or RF 22MHz QPD at POP.

Attachment 1: CARM_transition.pdf
  11180   Fri Mar 27 20:32:17 2015 KojiSummaryLSCLocking activity

- Adjutsed the IMC WFS operating point. The IMC refl is 0.42-0.43.

- The arms are aligned with ASS

- The X arm green was aligned with ASX. PZT offsets slides were adjusted to offload the servo outputs.

- I tried the locking once and the transition was successfull. I even tried the 3f-1f transition but the lock was lost. I wasn't sure what was the real cause.

I need to go now. I leave the IFO at the state that it is waiting for the arms locked with IR for the full locking trial.

  11183   Tue Mar 31 03:02:44 2015 KojiUpdateLSCSome locks

Assuming the carrier mode in PRC is stable and the SB is the one moving, can we just use the POP DC QPD to control PRM?

Can we plot the arm power trend for multiple locks to see if it is associated with any thermal phenomenan in the IFO?
They should be able to fit with an exp + DC.

  11245   Fri Apr 24 21:31:20 2015 KojiSummaryCDSautomatic mxstream resetting

We were too much annoyed by frequent stall of mxstream. We'll update the RCG when time comes (not too much future).

But for now, we need an automatic mxstream resetting.

I found there is such a script already.


So this script was registered to crontab on megatron.
It is invoked every 5 minutes.

# Auto MXstream reset when it fails
0,5,10,15,20,25,30,35,40,45,50,55 * * * * /opt/rtcds/caltech/c1/scripts/cds/autoMX >> /opt/rtcds/caltech/c1/scripts/cds/autoMX.log

  11248   Sat Apr 25 03:32:45 2015 KojiUpdateASCBroken Xass?

I spent a day to fix the XARM ASS, but no real result. If the input of the 6th DOF servo is turned off, the other error signals are happy
to be squished to around their zeros. So this gives us some sort of alignment control. But obviously a particular combination of the
misalignment is left uncontrolled.

This 6th DOF uses BS to minimize the dither in ITMX yaw. I tired to use the other actuators but failed to have linear coupling between
the actuator and the sensor.

During the investigation, I compared TRX/TRY power spectra. TRX had a bump at 30Hz. Further investigation revealed that the POX/POY
had a big bump in the error signals. The POX/POY error signals between 10-100Hz were coherent. This means that this is coming from
the frequency noise stabilized with the MC. (Is this frequency noise level reasonable?)

The mysterious discovery was that the bump in the transmission exist only in TRX. How did the residual frequency noise cause
the intensity noise of the transmission? One way is the PDH offset.

Anyway, Rana pointed out that IMC WFS QPDs had large spot offsets. Rana went to the AS table and fixed the WFS spot centering.
This actually removed the bump in TRX although we still don't know the mechanism of this coupling.

The bump at 30Hz was removed. However, the ASS issue still remains.

  11312   Tue May 19 17:03:34 2015 KojiUpdateCDSMXstream restart script working (beta)

AutoMX is resetting mx_stream every 5 minutes. Basically everytime AutoMX is called,
it resets mx_stream. Is the mx_stream stalling such often? Or the script is detecting false alerms?

> tail -200 /opt/rtcds/caltech/c1/scripts/cds/autoMX.log

Tue May 19 16:43:01 PDT 2015
LSC - FB bad. Runnning restart:
 * Stopping mx_stream ...                                                 [ ok ]
 * Starting mx_stream ...                                                 [ ok ]
Connection to c1sus closed.
 * Stopping mx_stream ...                                                 [ ok ]
 * Starting mx_stream ...                                                 [ ok ]
Connection to c1lsc closed.
 * Stopping mx_stream ...                                                 [ ok ]
 * Starting mx_stream ...                                                 [ ok ]
Connection to c1ioo closed.
 * Stopping mx_stream ...                                                 [ ok ]
 * Starting mx_stream ...                                                 [ ok ]
Connection to c1iscex closed.
 * Stopping mx_stream ...                                                 [ ok ]
 * Starting mx_stream ...                                                 [ ok ]
Connection to c1iscey closed.
Tue May 19 16:48:02 PDT 2015
LSC - FB bad. Runnning restart:
 * Stopping mx_stream ...                                                 [ ok ]
 * Starting mx_stream ...                                                 [ ok ]
Connection to c1sus closed.
 * Stopping mx_stream ...                                                 [ ok ]
 * Starting mx_stream ...                                                 [ ok ]
Connection to c1lsc closed.
ssh_exchange_identification: read: Connection reset by peer
 * Stopping mx_stream ...                                                 [ ok ]
 * Starting mx_stream ...                                                 [ ok ]
Connection to c1iscex closed.
 * Stopping mx_stream ...                                                 [ ok ]
 * Starting mx_stream ...                                                 [ ok ]
Connection to c1iscey closed.
Tue May 19 16:53:01 PDT 2015
LSC - FB bad. Runnning restart:
 * Stopping mx_stream ...                                                 [ ok ]
 * Starting mx_stream ...                                                 [ ok ]
Connection to c1sus closed.
 * Stopping mx_stream ...                                                 [ ok ]
 * Starting mx_stream ...                                                 [ ok ]
Connection to c1lsc closed.
 * Stopping mx_stream ...                                                 [ ok ]
 * Starting mx_stream ...                                                 [ ok ]
Connection to c1ioo closed.
 * Stopping mx_stream ...                                                 [ ok ]
 * Starting mx_stream ...                                                 [ ok ]
Connection to c1iscex closed.
 * Stopping mx_stream ...                                                 [ ok ]
 * Starting mx_stream ...                                                 [ ok ]
Connection to c1iscey closed.

  11323   Sun May 24 14:45:02 2015 KojiHowToGeneralHow to launch StripTools at specified locations

LLO Operator Tips:

koji.arai@cr9:/opt/rtcds/userapps/trunk/asc/l1/scripts/initial_alignment$ cat autostart_strips.sh 


# Baffle window setup 1500x480

StripTool -xrm 'StripTool.StripGraph.geometry:1500x470+0+24' /opt/rtcds/userapps/trunk/asc/l1/scripts/initial_alignment/baffle_pd.stp &
sleep 1

# DC signals setup

StripTool -xrm 'StripTool.StripGraph.geometry:1500x470+0+470' /opt/rtcds/userapps/trunk/asc/l1/scripts/initial_alignment/dc_signals.stp &
sleep 1

# WFS prx mich sry setup

StripTool -xrm 'StripTool.StripGraph.geometry:1500x470+0-24' /opt/rtcds/userapps/trunk/asc/l1/scripts/initial_alignment/wfs_prx_mich_sry.stp &
sleep 1


  11332   Thu May 28 17:00:04 2015 KojiUpdateIOOFSS SLOW not engaged: is this intentional?

I found that FSS SLOW servo is not engaged. Is this intentional test to keep the NPRO temp constant?
This is making the FSS Fast unhappy (~ -7.5V right now).

  11334   Thu May 28 21:10:46 2015 KojiUpdateGreen LockingALS-X noise hunting

I have been looking at the X-end ALS setup.
I was playing with the control bandwidth to see the effect to the phase tracker output (i.e. ALS err).
For this test the arm was locked with the IR and the green beat note was used as the monitor.

From the shape of the error signal, the UGF of the green PDH was ~10kHz. When I increased the gain
to make the servo peaky, actually the floor level of the ALS err became WORSE. I did not see any improvement
anywhere. So, high residual error RMS cause some broadband noise in the ALS??? This should be checked.
Then when the UGF was lowered to 3kHz, I could see some bump at 3kHz showed up in the ALS error.
I didn't see the change of the PSD below 1kHz. So, more supression of the green PDH does not help
to improve the ALS error?

Then, I started to play with the phase tracker. It seems that someone already added the LF booster
to the phase tracker servo. I checked the phase tracker error  and confirmed it is well supressed.
Further integrator does not help to reduce the phase tracker error.

For the next thing I started to change the offset of the phase tracker. This actually changes
the ALS error level!
The attached plot shows the dependence of the ALS error PSD on the phase tracker
output. At the time of this measurement, the offset of -10 exhibited the best noise level.
This was, indeed, factor of 3~5 improvement compared to the zero offset case below 100Hz.

I'm afraid that this offset changes the beat frequency as I had the best noise level at the offset of -5
with a different lock streatch. We should look at this more carefully. If the beat freq changes the offset,
this give us another reason to fix the beat frequency (i.e. we need the frequency control loop.

= Today's ALSX error would have not been the usual low noise state.
We should recover the nominal state of the ALS and make the same test =

Attachment 1: 150528_ALS.pdf
  11337   Fri May 29 12:49:53 2015 KojiUpdateComputer Scripts / ProgramsChiara Backup Hiccup

In fact, the file access is supposed to be WAY faster now than in the RAID case.

As noted in ELOG 9511, it was SCSI-2(or 3?) that had ~6MB/s thruput. Previously the backup took ~2hours.
This was improved to 30min by SATA HDD on llinux1.

I am looking at /opt/rtcds/caltech/c1/scripts/backup/rsync.backup.cumlog

In fact, this "30-min backup" was true until the end of March. After that the backup is taking 1h~1.5h.

This could be related to the recent NFS issue?

  11338   Fri May 29 15:12:39 2015 KojiUpdateComputer Scripts / ProgramsChiara Backup Hiccup

Actual data

Attachment 1: backup_hours.pdf
  11353   Thu Jun 11 19:40:59 2015 KojiUpdateVACVacuum comp. rebooted

The serial connections to the vacuum gauges were recovered by rebooting c1vac1 and c1vac2.

Steve claimed that the vacuum screen had showed "NO COMM" at the vacuum pressure values.
The epics connection to c1vac was fine. We could logged in to c1vac1 with telnet too although c1vac2 had no response.

After some inspection, we decided to reboot the slow machines. Steve manually XXXed YYY valves (to be described)
to prepare for any possible unwanted switching. Initially Koji thought only c1vac2 can be rebooted. But it was wrong.
If the reset button is pushed, all of the modules on the same crate is reset. So everything was reset. After ~3min we still
don't have the connection to c1vac1 restored. We decided to another reboot. This time I pushed c1vac1 reset button.
After waiting about two minutes, the ADCs started to show green lights and the switch box started scanning.
We recovered the telnet connection to c1vac1 and epics functions. c1vac2 is still note responding to telnet, and
the values associated with c1vac2 are still blank.

Steve restored the valves and everything was back to normal.

  11386   Wed Jul 1 09:33:31 2015 KojiUpdateGeneralShutters closed, watch dogs disabled for the RCG upgrade

I closed the PSL/GREEN shutters and shut off the LSC feedback/SUS watch dogs at 9AM PDT, to allow Jamie to start his disruptive work.

  11394   Tue Jul 7 23:26:19 2015 KojiUpdateCDSAttempt to list CDS issues

As Jamie succeded to realize somewhat workable condition of the 40m CDS, I tried to list the obvious CDS issues so that we can attack them one by one.

  1. c1cal is constantly time-outing now (t>60usec). c1sus is close to it (t=56~57us)
  2. We should check the trends of the CPU meters ("C1:FEC-**_CPU_METER"). In fact this should be listed in the summary pages in a new CDS tab.
  3. Probably this is related to 1): c1lsc is constantly showing IPC error (bit0 = shmem). C1LSC_IPC_STATUS.adl is telling that this is coming from the IPC error between c1lsc and c1cal. ("C1:CAL-LSC_SENSMAT_OSC_****"). This information is found by opning C1LSC_GDS_TP.adl screen and click RT NET STAT button next to the IPC error status.
  4. We wonder how the RFM access is accelerated or decelerated by this upgrade.
  5. We need tests to see if the time delays of the models/IPCs are still reasonable.
  6. LSC Overviw screen has a small digest of the CDS status. Now there are many white boxes that correspond to the channels "C1:FEC-**_DIAG1".
  7. All realtime systems have default (0 or 1) epics channel values (i.e. gains, FM switches, matrices, etc). Need burtrestores.
  8. I tried to burtrestore the models but burtgooey indicated there are some errors.
  9. Detailed check of the snapshot files comparing snapshot files in /opt/rtcds/caltech/c1/burt/autoburt/snapshots/2015/Jul/7/19:07 and /opt/rtcds/caltech/c1/burt/autoburt/snapshots/2015/Jun/1/19:07 :
    • c1alsepics shows bunch of volatile channels to be snapshot. It seems that all of the static epics channels are missing in the snapshot file. Is this related to the current omission of the slow data acquisition? => No actually this must be the modification of the ALS model to accommodate the ALS in the LSC model for the new ALS setup.
    • c1lscepics was checked indeed slow channels were properly snapshot. So what was the problem in burting???
    • I made a simple csh script to restore the snapshots one by one while collecting the error messages.
      This script is located as /users/koji/150707/burtrevert.sh
    • #!/bin/csh
      echo 'This script restores all of the snapshot files found in' $argv[1] '.'
      echo 'Are you sure? y/n'

      set ans = $<

      set ANS = `echo $ans | tr "[:upper:]" "[:lower:]" `
      if ($ANS == y) then
          foreach fname ($argv[1]/*epics.snap)
          echo ''
          echo '#################################'
          echo $fname
          echo '#################################'

              burtwb -f $fname
          echo "exiting..."
    •  Now I ran the command
      ./burtrevert.sh /opt/rtcds/caltech/c1/burt/autoburt/snapshots/2015/Jun/1/19:07 &>burt.log
      This lists up the missing channels. The zipped log is attached to this entry.
    • Burting old snapshot always crashes the RT process "c1sus" (not the c1sus host). If I use the newly generated snapshot today,
      the process does not crash. The process halts at the cycle time of 74us (>60us). I left the process crashed so that we can take a new snapshot with the matrix numbers filled. Once we have the correct snapshot, we don't need to worry about this crash. Let's see.
    • c1sus still crashes with the new burt file. Theremust be a trigeer that makes the model frozen. We need to split the burtfile into pieces
      to figure out which line causes the halt.
Attachment 1: burt.log.zip
  11399   Thu Jul 9 16:39:03 2015 KojiConfigurationGeneralHow to set up your own summary page environment on the LDG cluster

Here is the summary of my investigation how to set up my own "summary page" environment on the LDG (LIGO Data Grid) cluster.

Here all albert.einstein must be replaced with your own LIGO.ORG user name.

1. Obtain LDAS cluster account

Run the following from any of the terminal and use your LIGO.ORG credential
ssh albert.einstein@ssh.ligo.org
You will be suggested to visit a particular web site. Fill the form on the web site and wait for the approval e-mails.

2. Use LDG SSH login portal

Once you received the approval of the account, you should be able to log in to the system. Type the following command again from your local terminal
ssh albert.einstein@ssh.ligo.org
You are asked to select the site and machines. Select 2- CIT and b. ldas-pcdev1, c. ldas-pcdev2, or d. ldas-pcdev3.

3. Setup bash environment

Setting up the python library path is very important for the proper processing.

Here is my setup for .bash_profile

# .bash_profile
# Get the aliases and functions
if [ -f ~/.bashrc ]; then
    . ~/.bashrc

if [ -f ~/.profile ]; then
        . ~/.profile

# User specific environment and startup programs
export PATH

# So that ssh will work, take care with X logins - see .xsession
[[ -z $SSH_AGENT_PID && -z $DISPLAY ]] &&
  exec -l ssh-agent $SHELL -c "bash --login"

and .bashrc

# .bashrc

# Source global definitions
if [ -f /etc/bashrc ]; then
    . /etc/bashrc

# Set Python environment (based on gpwy-env script)

# clean path environment variable of duplicate entries
cleanpath() {
    if [[ -z "$1" ]]; then
    # map to local variable
    local badpath=$(eval echo \$$1)
    # remove duplicates
    badpath="$(echo "${badpath}" | awk -v RS=':' -v ORS=":" '!a[$1]++')"
    # remove trailing colon
    # reset variable and export
    eval $1=${badpath}
    eval export $1

# set PATH
cleanpath PATH
cleanpath PYTHONPATH


The order of cleanpath and PYTHONPATH= is important as we want to use the local library installation before anything kicks in.

4. Install required Python libraries

Run the following lines with this order so that they are installed in your "~/local"

# PIP installation
wget https://bootstrap.pypa.io/get-pip.py
python get-pip.py --user
# numpy, scipy, distribute, matplotlib, astropy, importlib installation
pip install numpy --upgrade --user
pip install scipy --upgrade --user
pip install distribute --upgrade --user
pip install matplotlib --user --upgrade
pip install astropy --upgrade --user
pip install importlib --user --upgrade

# We need to use dev branch of gwpy to run gwsumm propery
cp -r /home/detchar/opt/gwpysoft/lib/python2.6/site-packages/gwpy* ~/.local/lib/python2.6/site-packages/

# gwsumm installation
pip install --user git+https://github.com/gwpy/gwsumm

5. Setup summary pages for the 40m

Copy summary page setting from Max's directory.

cp -r ~max.isi/summary ~/

And make temporary directory for the summary pages.

mkdir /usr1/albert.einstein/summary

6. Modify typos in gw_summary_custon

Use your own editor to fix typos

emacs ~/summary/bin/gw_daily_summary_custom

replace max.isi to albert.einstein
change summary40m -> summary

Now the installation is done. From here, the description is for the routine procedure.

7. Run your summary page code

Run Kerberos authentication
kinit albert.einstein@LIGO.ORG

Run a summary page code for a specific date (e.g. for Jul 1st, 2015)
bash ${HOME}/summary/bin/gw_daily_summary_custom --day 20150701

The result can be checked under


Rerun a code for a specific page. This requires the page structure already exists.
The red texts should be modified depending on what ini file you want to run for what day.

/home/albert.einstein/.local/bin/gw_summary day --on-segdb-error warn --verbose  --output-dir . --multi-process 20 --no-html  --ifo C1 --archive C1EVE 20150630  --config-file /mnt/qfs2/albert.einstein/public_html/summary/etc/defaults.ini,/mnt/qfs2/albert.einstein/public_html/summary/etc/c1eve.ini

This command can actually be found in

8. Some useful command

To check which python library is used
python -c 'import gwpy; print gwpy.__file__'

To list installed python libraries and versions
pip list

This should return the list like the following.

astropy (1.0.3)
gwpy (0.1b1.dev121)
gwsumm (0.0.0.dev854)
matplotlib (1.4.3)
numpy (1.9.2)
scipy (0.15.1)



  11461   Wed Jul 29 21:40:39 2015 KojiSummaryCDSStatus of the frame data syncing

The trend data hasn't been synced with LDAS since Jul 27 5AM local.


controls@nodus|minute > pwd
controls@nodus|minute > ls -l 11222 | tail
total 590432
-rw-r--r-- 1 controls controls 35758781 Jul 29 11:59 C-M-1122228000-3600.gwf
-rw-r--r-- 1 controls controls 35501472 Jul 29 12:59 C-M-1122231600-3600.gwf
-rw-r--r-- 1 controls controls 35296271 Jul 29 13:59 C-M-1122235200-3600.gwf
-rw-r--r-- 1 controls controls 35459901 Jul 29 14:59 C-M-1122238800-3600.gwf
-rw-r--r-- 1 controls controls 35550346 Jul 29 15:59 C-M-1122242400-3600.gwf
-rw-r--r-- 1 controls controls 35699944 Jul 29 16:59 C-M-1122246000-3600.gwf
-rw-r--r-- 1 controls controls 35549480 Jul 29 17:59 C-M-1122249600-3600.gwf
-rw-r--r-- 1 controls controls 35481070 Jul 29 18:59 C-M-1122253200-3600.gwf
-rw-r--r-- 1 controls controls 35518238 Jul 29 19:59 C-M-1122256800-3600.gwf
-rw-r--r-- 1 controls controls 35514930 Jul 29 20:59 C-M-1122260400-3600.gwf


LDAS Minute trend:

[koji.arai@ldas-pcdev3 C-M-11]$ pwd
[koji.arai@ldas-pcdev3 C-M-11]$ ls -l | tail
-rw-r--r-- 1 1001 1001 35488497 Jul 26 19:59 C-M-1121997600-3600.gwf
-rw-r--r-- 1 1001 1001 35477333 Jul 26 21:00 C-M-1122001200-3600.gwf
-rw-r--r-- 1 1001 1001 35498259 Jul 26 21:59 C-M-1122004800-3600.gwf
-rw-r--r-- 1 1001 1001 35509729 Jul 26 22:59 C-M-1122008400-3600.gwf
-rw-r--r-- 1 1001 1001 35472432 Jul 26 23:59 C-M-1122012000-3600.gwf
-rw-r--r-- 1 1001 1001 35472230 Jul 27 00:59 C-M-1122015600-3600.gwf
-rw-r--r-- 1 1001 1001 35468199 Jul 27 01:59 C-M-1122019200-3600.gwf
-rw-r--r-- 1 1001 1001 35461729 Jul 27 02:59 C-M-1122022800-3600.gwf
-rw-r--r-- 1 1001 1001 35486755 Jul 27 03:59 C-M-1122026400-3600.gwf
-rw-r--r-- 1 1001 1001 35467084 Jul 27 04:59 C-M-1122030000-3600.gwf


  11465   Thu Jul 30 11:47:54 2015 KojiSummaryCDSStatus of the frame data syncing

Today it was synced at 5AM but that was all.


controls@nodus|minute > pwd
controls@nodus|minute > ls -l 11222|tail
-rw-r--r-- 1 controls controls 35521183 Jul 29 21:59 C-M-1122264000-3600.gwf
-rw-r--r-- 1 controls controls 35509281 Jul 29 22:59 C-M-1122267600-3600.gwf
-rw-r--r-- 1 controls controls 35511705 Jul 29 23:59 C-M-1122271200-3600.gwf
-rw-r--r-- 1 controls controls 35809690 Jul 30 00:59 C-M-1122274800-3600.gwf
-rw-r--r-- 1 controls controls 35752082 Jul 30 01:59 C-M-1122278400-3600.gwf
-rw-r--r-- 1 controls controls 35927246 Jul 30 02:59 C-M-1122282000-3600.gwf
-rw-r--r-- 1 controls controls 35775843 Jul 30 03:59 C-M-1122285600-3600.gwf
-rw-r--r-- 1 controls controls 35648583 Jul 30 04:59 C-M-1122289200-3600.gwf
-rw-r--r-- 1 controls controls 35643898 Jul 30 05:59 C-M-1122292800-3600.gwf
-rw-r--r-- 1 controls controls 35704049 Jul 30 06:59 C-M-1122296400-3600.gwf
controls@nodus|minute > ls -l 11223|tail
total 139616
-rw-r--r-- 1 controls controls 35696854 Jul 30 08:02 C-M-1122300000-3600.gwf
-rw-r--r-- 1 controls controls 35675136 Jul 30 08:59 C-M-1122303600-3600.gwf
-rw-r--r-- 1 controls controls 35701754 Jul 30 09:59 C-M-1122307200-3600.gwf
-rw-r--r-- 1 controls controls 35718038 Jul 30 10:59 C-M-1122310800-3600.gwf

LDAS Minute trend:

[koji.arai@ldas-pcdev3 C-M-11]$ pwd
[koji.arai@ldas-pcdev3 C-M-11]$ ls -l |tail
-rw-r--r-- 1 1001 1001 35518238 Jul 29 19:59 C-M-1122256800-3600.gwf
-rw-r--r-- 1 1001 1001 35514930 Jul 29 20:59 C-M-1122260400-3600.gwf
-rw-r--r-- 1 1001 1001 35521183 Jul 29 21:59 C-M-1122264000-3600.gwf
-rw-r--r-- 1 1001 1001 35509281 Jul 29 22:59 C-M-1122267600-3600.gwf
-rw-r--r-- 1 1001 1001 35511705 Jul 29 23:59 C-M-1122271200-3600.gwf
-rw-r--r-- 1 1001 1001 35809690 Jul 30 00:59 C-M-1122274800-3600.gwf
-rw-r--r-- 1 1001 1001 35752082 Jul 30 01:59 C-M-1122278400-3600.gwf
-rw-r--r-- 1 1001 1001 35927246 Jul 30 02:59 C-M-1122282000-3600.gwf
-rw-r--r-- 1 1001 1001 35775843 Jul 30 03:59 C-M-1122285600-3600.gwf
-rw-r--r-- 1 1001 1001 35648583 Jul 30 04:59 C-M-1122289200-3600.gwf

  11466   Thu Jul 30 13:34:52 2015 KojiUpdatePEMY sesimostation is back on

Please check the spectra. If something is wrong, please swap the cables between X and Y in order to see if the cable is still the issue. I believe the cable was nicely made as I carefully checked the connection twice or more during and after the soldering work.

  11475   Sat Aug 1 20:46:29 2015 KojiUpdatePEMX seismo station short cable removed


  11506   Fri Aug 14 12:10:08 2015 KojiUpdatePEMGur interface box is wonky

Let's dismantle the I/F unit from the rack and connect the cable with the lid open.
We need to trace the signal.

  11509   Fri Aug 14 23:49:34 2015 KojiSummaryGeneralB&K Shaker fixed

I fixed a shaker that was claimed to be broken. I had to cut the rubber membrane to open the head.

Once it was opened, the cause of the trouble was obvious. The soldering joint could not put up with the motion of the head.

It is interesting to see that the spring has the damping layer between the metal sheets.

After the repair the DC resistance was measured. It was 1.9Ohm. The side of the shaker chassis said "3.5Ohm, Max 15VA". So it can take more than 4A (wow).

I gave 2A DC from the bench top supply and turn the current on and off. I could confirm the head was moving.

I'll claim the use of this shaker for the seismometer development.

Attachment 1: IMG_1947.JPG
  11512   Mon Aug 17 17:48:12 2015 KojiUpdatePEMWasps obliterated maybe...

We found the same wasp in the 40m. Megan found it walking behind Steve desk!

  11520   Thu Aug 20 11:31:55 2015 KojiUpdatePEMGur interface box

As reported previously, the transfer functions of the channels look fine. (i.e. All channels almost identical.)
I checked the chain from the unit input to the DAQ BNC connectors. They were all OK.

Today I have been checking the signals on the unit with the long DB37 cables connected.
I could not see anything on the Gur2 channels on the board. I looked at the DB37 for Gur2 and felt something is wrong.

I opened the housing of the cable and realized that all the pins are not fully inserted.
The wires were crimped improperly and prevents them to be fully inserted.

=> We need to redo the crimping to insert them.
=> We need to check the other side too.

Attachment 1: IMG_1958.JPG
  11524   Sat Aug 22 15:48:32 2015 KojiSummaryLSCArm locking recovery

As per Ignacio's request, I restored the arm locking.

- MC WFS relief

- Slow DC restored to ~0V

- Turned off DARM/CARM

- XARM/YARM turned on

- XARM/YARM ASS& Offset offloading

  11551   Tue Sep 1 02:44:44 2015 KojiSummaryCDSc1oaf, c1mcs modified for the IMC angular FF

[Koji, Ignacio]

In order to allow us to work on the IMC angular FF, we made the signal paths from PEM to MC SUSs.
In fact, there already were the paths from c1pem to c1oaf. So, the new paths were made from c1oaf to c1mcs. (Attachment 1~3)

After some debugging those two models started running. The additional cost of the processing time is insignificant.
FB was restarted to accomodate the change.

Once the modification of the models was completed, the OAF screens were modified. It seemed that the Kissel button
for the output matrix haven't been updated for the PRM ASC implementation. This was fixed as the button was updated this time.
In addition, the button for the FM matrix was also made and pasted.


Attachment 1: c1oaf_screenshot1.png
Attachment 2: c1oaf_screenshot2.png
Attachment 3: c1mcs_screenshot.png
Attachment 4: OAF_MEDM1.png
Attachment 5: OAF_MEDM2.png
  11604   Wed Sep 16 03:37:06 2015 KojiSummaryGreen LockingWorkable delay line setup prepared

[Koji Gautam]

The variable delay line has been setup for practical use. The hardware and basic software are ready.

The delay time is given by [512-1-mod(C1:LSC-BO_1_0_SET, 512)]*(1/16) ns

Giving 511 (LLLL LLLH HHHH HHHH) to C1:LSC-BO_1_0_SET makes the delayline shortest (+0ns).
Giving 0 (LLLL LLLL LLLL LLLL) to C1:LSC-BO_1_0_SET makes the delayline longest (~32ns).

The SR785 was removed from the rack for our access >> Eric

DO setup

- Three CONTEC DO-32L-PE cards are found in the Yarm digital cabinet. (I brought a card from WB, but will bring it back).
- The card was installed in the C1LSC chassis.

- The models for c1x04 and c1lsc were modified to include the card. Once they are restarted, the card was recognized without problem.
  The frame builder also needed to be restarted (Attachment 1&2). The changes were committed to the repository.

- MEDM screen "CDS_BO_STATUS.adl" has been modified to include the bit monitors for the new DO card. (Attachment 3)

Epics values "C1:LSC-BO_1_0_SET" and "C1:LSC-BO_1_1_SET" are hooked up to the DO block.


- The DO board has DB37(F). I made a I/F cable with a DB37(M) crimp connector, DB25 breakout board, and a ribbon cable.
  Pin 1 is connected to pin 14 of the DB25 (GND of the delayline circuit).
  Pin 2~10 are connected to pin 1~9 of the DB25 (Switch 1~9 of the delayline circuit)
  Pin 18 is connected to X01 (external = spare) (Attachment 4)

- [CONFESSION] A bench +15V power supply was prepared to power the transisters of the DO (Attachment 6). The hot side is connected to X01 (not connected to the DB25),
  and the cold side is connected to pin 14 of the DB25. Once we find this is a useful setup we need to make a dedicated interface unit to convert DB37
  into DB25 (and provide more connectivities).

- A DB25 M-F cable was installed on the cable tray above the LSC racks.

Delay line unit

- The delay line box was mounted on 34H of the LSC analog rack (Attachment 5).

- The side cross connect power supply was not available (to be described later). Therefore we decided to use the same +15V supply as the one for the DO card.

- Checked the functionarity of the local switches using a function generator @30MHz and the front panel switches. The maximum (~32ns) delay was confirmed.
  (Just not enough to have 360 deg shift).

- Now the delay line function was tested with the front panel swicth at "ext". We confirmed that the delay time changes with the number given to C1:LSC-BO_1_0_SET.

What we need further

- Implement delay time slider control (511 = 0ns, 0 = 31.94ns). The delay time is given by
  [512-1-mod(C1:LSC-BO_1_0_SET, 512)]*(1/16) ns

- Some independent RF issues I found. (Next entry)

Attachment 1: 21.png
Attachment 2: 51.png
Attachment 3: 46.png
Attachment 4: IMG_20150915_222236066.jpg
Attachment 5: IMG_20150915_234222349.jpg
Attachment 6: IMG_20150915_234323363.jpg
  11605   Wed Sep 16 03:44:18 2015 KojiUpdateLSCRF micky mouse

1. POP110 RF amps are powered from the cross connect. But that +15V block has GND connections that are not connected to the ground.
    i.e. The ground potential is given by the signal ground. (Attachment 1)

    This is caused by the misuse of the DIN connector  blocks. The hod side uses an isolated block assuming a fuse is inserted.
    However, the ground sides also have the isolated blocks

2. One of the POP110 RF cable has a suspicious shiled. The rigidity of the cable is low, suggesting the broken shield. (Attachment 2)

Attachment 1: IMG_20150915_231038191.jpg
Attachment 2: IMG_20150915_234257144.jpg
  11614   Thu Sep 17 19:42:43 2015 KojiUpdateLSCRF micky mouse - dodgy DIN connector blocks fixed

1. The delay-line box is now hooked up to the cross connect +15V supply.

2. The broken RF cable was fixed.

It is actually the POP22 cable.
Therefore, we might see significant change of the signal size for POP22.
Be aware.

RG405 + SMA connector rule

- Don't bend the cable at the connector.

- Always use a cap on the connector. It is a part of the impedance matching.

- Use transparent shrink tube for strain relieving and isolation. This allow us to check the condition of the shield without removing the cover.

Attachment 1: IMG_20150917_190635033.jpg
Attachment 2: IMG_20150917_192551919.jpg
  11672   Thu Oct 8 13:13:20 2015 KojiUpdateLSCDRFPMI Progress

Please clarify: I wonder if you were at the zero offset for CARM and DARM or not. I am 25% excited right now.

  11674   Thu Oct 8 16:48:23 2015 KojiUpdateLSCDRFPMI Progress


  11680   Fri Oct 9 14:50:18 2015 KojiUpdateLSCALS plant shape

ALS is the comparison of the PSL laser freq vs the end laser freq that is locked to the arm cavity resonant freq

On the other hand, the AS55 PDH is the comparison of the PSL laser freq after the IMC vs the arm cavity resonant freq. Here the PDH signal involves the arm cavity pole.

In total you observe the difference by the IMC cav pole + the arm cav pole.

  11689   Wed Oct 14 16:53:22 2015 KojiUpdateGeneralNon inverting buffer for SR560

Eric needed a buffer to drive low input impedance (~130Ohm) of his pomona box, I quickly made a non-iverting buffer with G=+10. The DC power is obtained from the back of SR560. It uses 1.02K and 9.09K
to have the gain of ~10. The chip is OP27. In fact this limits the output swing to be +/-5V for the load resistance of 130Ohm. Eric thinks this is enough. If we need more, we need to swap the chip.

As SR560s tend to saturate too quickly, it would be very useful to have this kind of kit in all the labs
once it is packed in a box.

Attachment 1: IMG_20151014_145608547.jpg
Attachment 2: IMG_20151014_145548751.jpg
  11693   Thu Oct 15 10:59:12 2015 KojiUpdateLSCDRFPMI Locked for 20 sec

Great job!
Many thanks Eric, Gautam, and all the current and past colleagues
for your tremendous contributions to bring the 40m to this achievement.

  11710   Fri Oct 23 19:27:19 2015 KojiUpdateCDSFrequency counting - workable setup prepared

It is a nice scan. I'm still thinking about the equivalence of the moving average and the FIR low pass that I have mentioned in the meeting.


I'm confused by the plot. The bottom axis says "green beat frequency".
If you scan the IR laser frequency by df, you get 2*df shift of the green beatnote. You need to have this factor of two somewhere.
If you are looking at the IR beat freq, just the label is not correct. (I believe this is the case.)

Accepting the rather-too-low finesse of 363 (nominally 450), the total round trip loss is said to be 0.0173.
If we subtract the front transmission of 1.38% (and ignoring the transmission loss from the ETM),
the round trip loss is 3500ppm. Is this compatible with the following elog?
In fact, I'm afraid that the loss number in the above elog 11111 was not correct by a factor of 10.
Then, if so, can we believe this high loss number? (Nominally we expect ~100ppm loss per round trip...)

  11720   Wed Oct 28 14:07:44 2015 KojiUpdateIOOMC WFS Offsets update

MC WFS offsets were updated to have a better operating point.

  11725   Mon Nov 2 17:39:01 2015 KojiFrogsGeneralDRFPMI celebration


Attachment 1: yatta.jpg
  11747   Tue Nov 10 11:40:03 2015 KojiUpdateLSCUpdated interpretation of peaks

What is the uncertainty of your RoC estimation?

One measurement of the ETMY ROC was 57.6m, but we trust another measured value of 60.26m than the other.
The value is always dependent on the spotposition on the mirror and how the ROC is calculated from the mirror phase map (e.g. spotsize, averaging method).
So I don't think this is a huge deviation from the spec.

  11748   Tue Nov 10 11:41:56 2015 KojiUpdateLSCUpdated interpretation of peaks

FYI: I've also reported the similar mod depths of

11M: 0.194
55M: 0.234

in ELOG11036 with a different kind of measurement method.

  11753   Wed Nov 11 22:11:15 2015 KojiUpdateSUSPSL/IOO maintenance, TM SUS check up


- Before any of the following work, I went to the PSL table and aligned the PMC. In fact, it has not been misaligned.


- It was claimed in the meeting today that the IMC had not been happy thesedays. I checked out what's happening.

- I found the IMC was still well aligned. Autolocker frequently stuck on a weak higher-order mode and couldn't recover TEM00 locking without help.

- I modified /opt/rtcds/caltech/c1/scripts/MC/mcdown for easier relocking on TEM00.

The MC_REFL_GAIN and MC_VCO_GAIN for relocking was set to be 27 and -3, in stead of 0 and 10, respectively.
This means that REFL_GAIN is not changed before and after the locking. Only VCO_GAIN is lowered for lock acquisition.
The corresponding lines in mcdown are excerpted here.

#set servo and boost gains for re-acquisition
#${ewrite} C1:IOO-MC_REFL_GAIN 0 &
${ewrite} C1:IOO-MC_REFL_GAIN 27 &
#${ewrite} C1:IOO-MC_VCO_GAIN 10 &
${ewrite} C1:IOO-MC_VCO_GAIN -3 &

We still have some chance of locking on higher-order modes. If I jiggle the VCO gain slider from -31 to 0, eventually I find TEM00.
I don't know how to do it in the script yet. For now, I increased tickle amplitude from 300 to 500.




- IMC was locked and aligned with the WFS. The WFS feedback offsets were offloaded to the alignment slider (via the MEDM button as usual).


- I wanted to use ASS. => The OL damping and ASC inputs are enabled for ETMX. The filter bank output of the ASS servos are all turned on.
- The arms were locked and aligned with ASS. The ASS servo offsets were offloaded to the ASC offset sliders (as usual).

- I found the X arm spot positionis moving slowly in pitch. I wanted to know what is causing this.

- Turned off all the OPLEV dampings for the four test masses.
- Took the power spectra of the OSEM output (e.g. C1:SUS-ITMX_LLSEN_OUT)

See attachment 1 (The DTT XML file can be found as /users/koji/151111/TM_SUS.xml )

- It seems that something is wrong with ITMX UL OSEM
  The signal level seems to be identical with the others. However, the noise level is huge. We need to check if the cable connection is OK.

- ITMY LL shows remarkably higher bounce mode although I can't tell if this is normal or not.

- The OPLEV dampings have been restored.

Attachment 1: TM_SUS.pdf
Attachment 2: TM_SUS_SD.pdf
  11754   Wed Nov 11 22:50:39 2015 KojiConfigurationCDSSlow machine time&date

I was gazing at the log file for Autolocker script (/opt/rtcds/caltech/c1/scripts/MC/logs/AutoLocker.log )
and found quite old time stamps. e.g.

Old : C1:IOO-MC_VCO_GAIN             1991-08-08 14:36:28.889032 -3
New : C1:IOO-MC_VCO_GAIN             1991-08-08 14:36:36.705699 18
Old : C1:PSL-FSS_FASTGAIN            1991-08-09 19:05:39.972376 14
New : C1:PSL-FSS_FASTGAIN            1991-08-09 19:05:44.939043 18

It was found that the date/time setting of some of the slow machines (at least c1psl and c1iool0) is not correct.
I could not figure out how to fix it.

Question: Is this anything critical?

Another thing: While I was in c1iool0 I frequently saw the message like

c1iool0 > 0xc461f0 (CA event): Events lost, discard count was 514

Is this anything related to EPICS Freeze?

controls@nodus|~ > telnet c1psl.martian
Connected to c1psl.martian.
Escape character is '^]'.
c1psl > date
Aug 09, 1991 19:13:26.439024274
value = 32 = 0x20 = ' '
c1psl >
telnet> q
Connection closed.

controls@nodus|~ > telnet c1iool0.martian
Connected to c1iool0.martian.
Escape character is '^]'.

c1iool0 > date
Aug 08, 1991 14:44:39.755679528
value = 32 = 0x20 = ' '
c1iool0 > 0xc461f0 (CA event): Events lost, discard count was 514
Change MC VCO gain to -3.
0xc461f0 (CA event): Events lost, discard count was 423
Change MC VCO gain to 18.
Change boost gain to 1.
Change boost gain to 2.


  11763   Fri Nov 13 22:32:54 2015 KojiSummaryPSLPMC LO degraded, usual ERA-5 replacement, LO recovered

[Yutaro, Koji]

We found that the PMC LO level was fluctuating in a strage way (it was not stable but had many clitches like an exponential decay), we suspected the infamous PMC LO level decay. In fact, in June 2014 when Rana recalibrated the LO level,  the number on the medm screen (C1:PSL-PMC_LO_CALC) was about 11dBm. However, today it was about 6dBm. So we decided to jump in to the 1X1 rack.

The LO and PC outputs of the PMC Crystal module (D980353) were measured to be 6.2dBm and 13.3dBm. Rana reported in ELOG 10160 that it was measured to be 11.5dBm. So apparently the LO level decayed. Unfortunately, there was no record of the PC output level. In any case, we decided to pull the module for the replacement of ERA-5 chips.

Once we opened the box we found that the board was covered by some greasy material. The ERA-5 chip on the LO chain seemed unreasonably brittle. It was destryed during desoldering. We also replaced the ERA-5 chip in the PC chain, just in case. The board was cleaned by the defluxing liquids.

Taking an advatage of this chance, the SMA  cables around the PMC were checked. By removing some of the heat shrinks, suspicious broken shields of the connectors were found. We provided additional solder to repair them.

After the repair, the LO and PC output levels became icreased to 17.0dBm(!) and 13.8dBm, respectively. (Victory)
This LO level is way too much compared to Rana's value. The MEDM LO power adj has little effect and the adj range was 16dBm~17dBm. Therefore we moved the slider to 10, which yields 16dBm out, and added a 5dB attenuator. The measured LO level after the attenuator was measured to be 11.2dBm.

Locking of the PMC was tried and immediately acquired the lock. However, we noticed that the nomoinal gain of 10dB cause the oscillation of the servo. As we already adjusted the LO level to recover the nominal value, we suspeced that the modulation depth could be larger than before. We left the gain at 0dB that doesn't cause the oscillation. It should be noted that the demodulation phase and the openloop gain were optimized. This should be done in the day time as soon as possible.

When the PMC LO repair was completed, the transmission of the PMC got decreased to 0.700V. The input alignment has been adjusted and the transmission level of 0.739V has been recovered.

The IMC lock stretch is not stable as before yet. Therefore, there would still be the issue somewhere else.

Attachment 1: PMC_LO.png
Attachment 2: IMG_2093.JPG
Attachment 3: IMG_2091.JPG
Attachment 4: IMG_2095.JPG
Attachment 5: IMG_2096.JPG
  11764   Sat Nov 14 00:52:25 2015 KojiSummaryCDSInvestion on EPICS freeze

[Yutaro, Koji]

Recently "EPICS Freeze" is so frequent and the normal work on the MEDM screen became almost impossible.

As a part of the investigation, all 19 realtime processes were stopped in order to see any effect on the probem.

IN FACT, when the realtime processes were absent (still slow machines were running), frequency of EPICS Freeze
became much less. This might mean that the issue is related to the data collection of the slow channels. We need more investigation.

After the testing, all the processes were restored although it was not so straghtforward. Particularly, c1sus DAC had an error which was
not visible from the CDS Status screen. We noticed it as suspension damping was not effective on any of the vertex suspensions.
This has been solved by restarting c1x02 process.

  11765   Sun Nov 15 22:43:48 2015 KojiSummaryPSLPMC LO degraded, usual ERA-5 replacement, LO recovered

I think the IMC locking was somewhat improved. Still it is not solid as long time before.

Before the PMC fix (attachment 1)
After the PMC fix (attachment 2)

To do
- PMC loop inspection / phase check / spectral measurements
- PMC / IMC interaction
- IMC loop check

Attachment 1: C1-MULTI_E6875C_TIMESERIES-1131408017-86400.png
Attachment 2: C1-MULTI_E6875C_TIMESERIES-1131580817-86400.png
  11768   Mon Nov 16 19:05:59 2015 KojiSummaryPSLPMC servo circuit review, follow up measurements

PMC follow up measurements have been done. The servo circuit was reviewed.

Now the PMC, IMC, X/Y arms are locked and aligned waiting for the IFO work although I still think something is moving (ITMX?)
as the FPMI fringe is quite fast.

  11769   Mon Nov 16 21:32:49 2015 KojiSummaryPSLPMC servo circuit review, follow up measurements

The result of the precise inspection for the PMC servo board for the 40m was done.

The record, including the photo of the board, can be found at https://dcc.ligo.org/D1400221-v2

- I found some ceramic 1uF caps are used in the signal path. They have been replaced with film caps by WIMA.

- In later measurements with the openloop TF measurement, it was found that the notch frequency (14.6kHz) was off from the a sharp PZT resonance at 12.2kHz.
I replaced the combined caps of 1220pF to 1742pF. This resulted nice agreement of the notch freq with the PZT resonant freq.

Past related elogs:

SRA-3MH mixer installed in 2009: http://nodus.ligo.caltech.edu:8080/40m/1502

R20 increased for more LO Mon gain: http://nodus.ligo.caltech.edu:8080/40m/10172

  11773   Tue Nov 17 15:49:23 2015 KojiConfigurationIOOMC Autolocker modified

/opt/rtcds/caltech/c1/scripts/MC/AutoLockMC.csh  was modified last night.

1. Autolocker sometimes forget to turn off the MC2Tickle. I added the following lines to make sure to turn it off.

    echo autolockMCmain: MC locked, nothing for me to do >> ${lfnam}
    echo just in case turn off MC2 tickle >> ${lfnam}

2. During the lock acquisition, Autolocker frequently stuck on a weak mode. So the following lines were added
so that the Autolocker toggles the servo switch while waiting for the lock.

    echo autolockMCmain: Mon=$mclockstatus, Waiting for MC to lock .. >> ${lfnam}
    # Turn off MC Servo Input button
    ezcawrite C1:IOO-MC_SW1 1
    date >> ${lfnam}
    sleep 0.5;
    # Turn on MC Servo Input button
    ezcawrite C1:IOO-MC_SW1 0
    sleep 0.5;

  11775   Tue Nov 17 16:21:10 2015 KojiSummaryPSLPMC servo circuit review, follow up measurements

I'm still analyzing the open loop TF data. Here I report some nominal settings of the PMC servo

Nominal phase setting: 5.7
Nominal gain setting: 3dB

After the tuning of the notch frequency, I thought I could increase the gain from 5dB to 9dB.
However, after several hours of the modification, the PMC servo gradually started to have oscillation.
This seemed to be mitigated by reducing the gain down to 4dB. This may mean that the notch freq got drifted away
due to themperature rise in the module. PA85 produce significant amount of heat.

(The notch frequency did not change. Just the 22kHz peak was causing the oscillation.)

ELOG V3.1.3-