TITLE: 02/21 Day Shift: 16:00-00:00 UTC (08:00-16:00 PST), all times posted in UTC
STATE of H1: Planned Engineering
OUTGOING OPERATOR: None
CURRENT ENVIRONMENT:
    SEI_ENV state: CALM
    Wind: 4mph Gusts, 2mph 5min avg
    Primary useism: 0.03 μm/s
    Secondary useism: 0.29 μm/s
QUICK SUMMARY:

Expecting majority of control room to be down due to CDS work today.

Per Richard, the temperature of the chilled water loop at Mid Y has been returned to what it was originally set to. The loop set point is now 46F, and I have enabled the outdoor air reset function which will allow the chillers to adjust the set point based on outdoor air temp, which will reduce compressor usage. 

Today's activities:
- HAM7 pumpdown status: ~1.1E-6 Torr
- HAM7 Annulus system pumping cart has been switched off, it is pumped now only by its Ion-pump
- Corner pumpdown: the OMC and Y-manifold Turbos have been switched on, roughing pump has been switched off; HAM6 turbo is coming tomorrow. The pressure is already ~4E-6 Torr
- All the metal valves have been closed in the corner LVEA
- EX pumpdown status: 3.2E-8 Torr: the post-vent RGA scan is ready, the results will be in the comment comment section, once they are published. The comparison with past RGAs is also coming next week. If the results will be considered satisfactory, the Ion-pump will be valved in. The GV will remain closed during FAC works
- HAM8 works: the chamber was vented with purge air; the Annulus system was vented with Nitrogen; The Y+ door has been taken off; the Y- 12" blanks have been taken off

Nutsinee, Vicky, Daniel, Naoki

We brought back the SQZ laser power (PMC input power) from 30mW to 670mW and locked the PMC with s-pol. The PMC trans power is 420mW and the PMC transmissivity is 60%. So all the power downstream of PMC reduced by 40%. The PMC TRANS DC POWERMON is calibrated into 420mW.

Then we aligned SHG. The SHG mode matching is 82%, which is slightly lower than before.

To increase the SHG IR injection power, we adjusted HWP for SHG path. The SHG IR injection power is now maxed out at 200mW. The SHG GR DC POWERMON is 37mW, which is lower than before 40-60 mW.

To increase the CLF power, we replaced the pick off mirror just before the CLF fiber from R=10% to HR mirror. The CLF power before the fiber is 135uW and the CLF REFL power in SQZT7 is 20uW. The CLF LAUNCH DC POWERMON is calibrated into 135uW.

Jonathan, Dave, Fil, Erik, Tony, Ryan,

As part of WP 11698 we upgraded and replaces switches at EX, EY, MX, MY, upgraded the link to the FCES, and did some work on sw-mech-aux that we had to revert.

At EX we removed sw-ex-h1fe, sw-ex-aux and replaced it with two units (icx 7150) joined as a switch stack named sw-ex-stk. 
At EX we removed sw-ey-h1fe, sw-ey-aux and replaced it with two units (icx 7150) joined as a switch stack named sw-ey-stk.

Last week Fil ran fibers between the vacuum rack and the electronics/FE rack at each end station.  We used these fibers as the switch stacking links.  Three fibers where run at each location, we used fibers 1 and 3 as the number match the stacking ports on the switches.

At each end station the stacking ports are mapped as follows (note the cross over of the interfaces between the switches):

VAC 1/3/1 -> Fe 1/3/3 (stacking fiber link #1)
VAC 1/3/3 -> Fe 1/3/1 (stacking fiber link #3)

The procedure was to:

 * Have the control room put the FE computers in a safe state
 * Erik then fenced the dolphin ports (turned off the ports on the dolphin switch) to help isolate any potential failures.
 * Rack mount the new switches, removing old equipment if needed.
 * Connect the stacking fibers
 * Then power on the switches in a coordinated effort.  We powered on the switch in the VAC rack, waited a few seconds and then powered on the switch in the FE/electronics rack.
   * It is desirable to have the switches come up at around the same time, otherwise the stack can take a long time to form.
 * Move all the fiber connections over.
   * On the VAC switch this was the fiber to the core switch going from fiber port 2 to 1/3/2 on the new switch.
   * On the FE switch this was moving 1/3/3 to 1/3/2 on the new switch, moving 1/3/4 to 1/3/4 on the new switch, and dropping  the 1/3/2 from the old switch.
 * Move all the copper connections over.
 * Test.
 * Clean up cables and fibers.

Fil installed a 24 port poe injector in the VAC rack at each end station to power the wifi and cameras.  We had one failed poe injector so Fil and Ryan got a new one from the EE lab.

At EX we had one FE crash, at EY all of them crashed.  The control room was able to remotely restart the systems we did not need to do anything special.
I did have to manually reset the IP address on the stack switches.  It looks like I left them in dhcp mode from the test setup.

At the mid stations the process was to:
 * Rack mount the new switch (icx 8200)
 * Move all the connections over
 * At this point we upgraded the link from 1G to 10G.
   * This required Erik to change the optic out in the old core switch while we where at the mid stations.

We were unable to get the wifi working via poe on the icx 8200 units.  Not sure why yet, it is supported.  We tested using a 24 port poe injector, but did not leave that in place.  We need to figure out the issue with the switch or put a single port poe injector in.

For the FCES we simply installed a 10G optic and moved the fiber to it.  Erik replaced the optic in the old core switch while this was done.  We did the FCES switch at lunch time as Jim Warner needed a functional CDS network in the afternoon.

We had issues with the mechanical auxiliary switch.  Due to the rack layout we were not able to install the switch below and work, which is our preferred method.  But we were able to get it mounted.  We found some issues that it would periodically drop connection after we had gotten the system going.  This is one of a few things 1. a spanning tree issue (not sure how/why as the port config is the same as MX/MY we should have seen an issue there) 2. the fiber is just not good enough for 10G (however we were not seeing a lot of errors on the ports).  In order to have a stable vacuum network we reverted the connection to the 1g link to the old cisco switch.

We wanted to move the new core to be 10G(+) only.  Not for bandwidth needs, but to simplify its config a little.  If it turns out that the fiber is not quite good enough for a 10G link, I ran a test afterwards using spare gear and the new core switch in the MSR.  The icx 7850 turns off auto-negotiation and requires a hard wired port speed config.  This causes issues as our other switches want to negotiate and so fail a negotation and I've had issues connecting a 1g link to the 7850.  It works fine if you hard code the port speed and turn off auto negotiation on the down stream switch.  So if I need to do a 1G link to the sw-mech-aux tomorrow with the core I would add the following line to the port config on the sw-mech-aux switch interface "gig-default neg-off".

Our work order was as follows:

End X
Mid X

lunch
FCES optic swap

End Y
Mid Y

mech aux switch work

Following that Tony and Ryan removed some old gear from the MSR (the old router that died, and an old spare switch just above sw-msr-ops) and rack mounted the new sw-msr-server2 and sw-msr-server3 directly below the switches will be replacing tomorrow.

We have not touched any of the daq switches (carrying the fast data stream from the front-end computers to the daqd system).  We hope not to touch them at all in this work.

Tomorrow we move to the MSR and will be interrupting the CDS network in general.

TITLE: 02/21 Day Shift: 16:00-00:00 UTC (08:00-16:00 PST), all times posted in UTC
STATE of H1: Planned Engineering
INCOMING OPERATOR: None
SHIFT SUMMARY:

Primary Ongoing Activities

1. CDS Work is unfinished (facing some delays that started with the last switch they went to in the mechanical room).
2. HAM8 Vent is done
3. SQZT work is ongoing

Control Room Log (02/20) so far..

• 16:00 SUSEX and ISI to safe states
• 16:30 Dolphin EX fencing from ctrl rm
  • Had to disable long range switch that supports EY, EX so EY no longer communicating with End Station
• 17:00 UTC ISI EX Stage 1,2 watchdog tripped - CDS Work ongoing
• 17:00 UTC SEI EX SW watchdog tripped
• 17:57 UTC HAM8 SEI set to offline (in prep for work)
• 18:39 -
  • Dave, MX
  • Fil, Tony, Jonathan, Ryan S, EX
• 19:28 UTC - Xarm is Done - Moving to FCES after lunch

• 20:15 Richland bomb squad doing exercises - won’t affect us.
• Morning-Noon: Two Tours
• 20:38 UTC - CDS FCES CDS Work Done
• 20:40 UTC - CDS EY, MY CDS Work Started
• 21:14 UTC - SEI Keeping eye on HAM 5,6,7 SEI States per VAC work
• 21:19 UTC - SEI Restored HAM1-4, BSC2, IY, IX back to “normal” seismic states
• 22:00 UTC - VAC HAM 8 Vent Complete
• 22:43 UTC - CDS Y-Arm Work is now Done (and recovered)
• 22:45 UTC - CDS Now moving onto mechanical room - the last switch of the day
  • This did not go as expected and they will need more time for this tomorrow, potentially undoing some work from today (morale seemed high though).

LOG:

TCS Chiller Water Level Top-Off BiWeekly - Closes FAMIS 26168

Neither chiller was under its threshold min

TCS Y - Added ~300ml

TCS X - Added ~150ml

Leak Tub is dry

Closes Weekly FAMIS Task 25979

ETMX_ST1_CPSINF_V2 BSC High Freq noise is elevated.

FAMIS 20016

PMC reflected power has continued to increase while transmitted power has been decreasing.

LVEA is STILL in LASER HAZARD

Primary Ongoing Activities

1. CDS Work is done in EX, MX and is planning to begin FCES after lunch
   1. Initial plan was EY/MY after lunch but re-coordinated to FCES.
2. HAM8 pump is ongoing
3. SQZT work is ongoing

Control Room Log (02/20) so far..

• 16:00 SUSEX and ISI to safe states
• 16:30 Dolphin EX fencing from ctrl rm
  • Had to disable long range switch that supports EY, EX so EY no longer communicating with End Station
• 17:00 UTC ISI EX Stage 1,2 watchdog tripped - CDS Work ongoing
• 17:00 UTC SEI EX SW watchdog tripped
• 17:57 UTC HAM8 SEI set to offline (in prep for work)
• 18:39 -
  • Dave, MX
  • Fil, Tony, Jonathan, Ryan S, EX
• 19:28 UTC - Xarm is Done - Moving to FCES after lunch

WP11693 Vicky, Camilla, Chris. 

In preparation for the for HAM8 +Y door removal, after HAM8 was been vented, we put guillotine in the viewport and removed the bellows between HAM8 and SQZT8. Bellows is wrapped in foil on top of SQZT8. We rolled SQZT8 enclosure out of the way of the door crew (it's position was already marked and parts on table secured 75831, 75829).

Tue Feb 20 08:10:02 2024 INFO: Fill completed in 9min 58secs

Jordan confired a good fill curbside. Note this fill ran at 8am today before the CDS network upgrade work commenced.

TITLE: 02/20 Day Shift: 16:00-00:00 UTC (08:00-16:00 PST), all times posted in UTC
STATE of H1: Planned Engineering
OUTGOING OPERATOR: None
CURRENT ENVIRONMENT:
    SEI_ENV state: CALM
    Wind: 5mph Gusts, 4mph 5min avg
    Primary useism: 0.04 μm/s
    Secondary useism: 0.37 μm/s
QUICK SUMMARY:

Control room workstations were updated and rebooted.  Operating system packages and conda packages were updated.

In conda, ndscope was updated to 0.19.1, with numerous improvements.

Diaggui was updated to 4.0.4, which fixes a crash when loading certain xml files.

Daniel, Dave:

h1ecatc1, the Beckhoff slow controls system, crashed at 15:38 this afternoon. The EDC is showing 35365 disconnected channels. The computer is completely unresponsive, including its management port. It will need a manual reset.

The alarms system restarted itself at this time. The ongoing HAM6 alarms remain bypassed, and in addition I have bypassed some invalid temperatures channels

Bypass will expire:
Tue Feb 20 03:49:26 AM PST 2024
For channel(s):
    H0:VAC-LX_Y0_PT110_MOD1_PRESS_TORR
    H0:VAC-LY_Y1_PT120B_PRESS_TORR
    H1:PEM-C_CER_RACK1_TEMPERATURE
    H1:PEM-C_MSR_RACK1_TEMPERATURE
    H1:PEM-C_MSR_RACK2_TEMPERATURE
    H1:PEM-C_SUP_RACK1_TEMPERATURE
 

Naoki, Nutsinee, Daniel

We installed all the optics for PMC and locked the PMC with p-polarization. We will lock the PMC with s-polarization and align SHG, CLF, seed next week.

First we put a HWP before PMC and changed the beam to the p polarization since the p-pol has much lower finesse in PMC and it is easy to align. The HWP angle is 152 for p-pol and 108 for s-pol. 

We aligned two steering mirrors before PMC. Fig. 1 and 2 show the PMC trans (blue) and refl (red) with PMC scan. The mode matching is 93% and the refl dip reaches 88% from the maximum.

We found that the label of the pick off mirror before PMC REFL PD says R=5% for s-pol, but it was actually R=90% for s-pol and R=70% for p-pol. The PMC REFL power is ~30mW and more than 20mW was injected to PMC REFL PD, which is a lot. So we replaced this mirror with the mirror which is R=8% for s-pol and R=1% for p-pol.

Then we adjusted the demod phase of PMC PDH signal and locked the PMC with p-pol. The UGF is 1.3 kHz and phase margin is 67 deg as shown in Fig. 3. We accepted the SDF related to PMC as shown in Fig. 4. 

Note that we will have 20 times more optical gain with s-pol because of higher finesse. Also we will have 8 times more power at PMC REFL PD with s-pol because of the pick off mirror. So we need to reduce the gain by 160 with s-pol to have the same UGF as p-pol.

Naoki, Daniel, Nutsinee

We moved MR20 and MR21 two holes to the left to make room for the new 24 MHz EOM that will now be used to lock the SHG. We're 87% mode matched to the SHG. The higher order mode is dominated by the donut mode (mode mismatch).

Also attached a function generator settings for the Thorlabs PZT driver so we don't have to figure this out next time.