Difference between revisions of "Template:ShortTermSchedule-RGK"

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::: - Runs up to 150 nA  
 
::: - Runs up to 150 nA  
 
:: 11:00 - 13:30 - Work on LH2 target
 
:: 11:00 - 13:30 - Work on LH2 target
:: 13:30 – 20:00 – DC test plan part II (<font color="red">Florian Hauenstein</font>) (use PROD67_PIN configuration)
+
:: 13:30 – 20:00 – DC test plan part II (Florian Hauenstein) (use PROD67_PIN configuration)
 
::: - DC HV studies at 40 nA (75M trigger runs) ([https://wiki.jlab.org/clas12-run/images/e/e7/DCplansRGK.pdf DC test plan document])
 
::: - DC HV studies at 40 nA (75M trigger runs) ([https://wiki.jlab.org/clas12-run/images/e/e7/DCplansRGK.pdf DC test plan document])
 
::: - For each HV setting put mon12 plots in logbook. The first will use the nominal DC occupancy z-scale (10%), the second should have the scale set appropriately for each current to prevent cut off
 
::: - For each HV setting put mon12 plots in logbook. The first will use the nominal DC occupancy z-scale (10%), the second should have the scale set appropriately for each current to prevent cut off
Line 101: Line 101:
 
:: 00:00 – 07:30 – Data collection cont’d
 
:: 00:00 – 07:30 – Data collection cont’d
 
::: See previous step
 
::: See previous step
:: 07:30 – 14:00 – Reverse solenoid polarity (<font color="red">Eugene Pasyuk</font>, <font color="red">Engineering</font>)
+
</font>
 +
:: 07:30 – 17:00 – Reverse solenoid polarity (<font color="red">Eugene Pasyuk</font>, <font color="red">Engineering</font>)
 
::: - At 07:30 end run, call Eugene Pasyuk to ramp down solenoid and call for Controlled Access
 
::: - At 07:30 end run, call Eugene Pasyuk to ramp down solenoid and call for Controlled Access
 
::: - The Magnet Group will be in Counting House at 08:30
 
::: - The Magnet Group will be in Counting House at 08:30
</font>
 
 
:: 17:00 – 18:00 – Trigger validation (<font color="red">Valery Kubarovsky</font>) (use PROD67_PIN configuration)
 
:: 17:00 – 18:00 – Trigger validation (<font color="red">Valery Kubarovsky</font>) (use PROD67_PIN configuration)
 
::: - Complete trigger validation test plans with DAQ ([https://wiki.jlab.org/clas12-run/images/a/a6/RGK_trigger.pdf RG_K trigger details])
 
::: - Complete trigger validation test plans with DAQ ([https://wiki.jlab.org/clas12-run/images/a/a6/RGK_trigger.pdf RG_K trigger details])

Revision as of 15:09, 18 December 2023

Experiment Coordinator: Annalisa D'Angelo

Run Coordinator: Bill Briscoe (757) 575-7540

PDL: Daniel Carman (757) 876-1789; Office: x5586

Daily RC/OA Meetings at 13:00 in CH Room 200C, and on ZOOM: URL Link

Important Notes

Do NOT change FSD settings without approval from RC or beamline expert!

  • In case of medical or fire emergency, call 9-911 from a LANDLINE phone in the Counting House and inform the Crew Chief and RC.
  • In case of evacuation of the Counting Room (e.g., due to a fire alarm), grab the shift expert phone and leave the room through the "EXIT" door leading to the parking lot. Do not leave through the hallway! Call the RC once outside so the latter will call MCC to turn the beam OFF to Hall B and inform other Hall B staff members.
  • If you have symptoms or a positive COVID test, do NOT come to your shift - instead, inform the PDL and the RC and JLab medical services immediately to arrange replacements.
  • Remote shift: If needed, worker shifts can be taken from off-site. Inform the PDL and RC. Also, make sure that you follow the instructions under the "Shift Worker" tab, as you need some lead time to set up!
  • Note to Shift Takers:
◊ Read the ESAD, COO, RSAD, and ERG documents found on the "Current RG-K Run Info" as well as the yellow folder in the counting room. Before you start your first shift on the current experiment, you must sign on the list in the yellow folder. Thereby, you confirm that you have read and understand their content.
◊ Read at least the previous 24 hours logbook entries to be aware of recent run details and changes;
◊ Arrive at least 10 minutes early for shift change;
◊ Refresh the runwiki page/tabs; look over it/them every shift:
- Follow the Shift Expert/Worker tab's instructions.
Do not spend more than 15-20 min trying to fix a problem. In case of any issue, contact the On-call Experts or the RC.
Review these important links:
- Recent Changes and Current Issues
- General How-to for beam restoration procedures and Møller runs.

Run Plan, Friday, Dec. 15 - Tuesday, Dec. 19, 2023

  • Friday, Dec. 15:
07:00 – RG-D ends, beam off
- Call MCC to put hall in Controlled Access
- Turn off all detectors - except CTOF, EC/PCAL, SVT HV/LV remain on, BMT is "safe" mode, FMT off
- Torus and solenoid remain on
- Target Group arrives at 07:30 to begin work
08:00 – 13:00: Hall B in Controlled Access
- ACC completes change from 5-pass to 3-pass beam
- Target Group completes change from LD2 to LH2 target (Chris Keith, James Brock)
13:00 – 16:00 – Beam tuning + Moller run
- Tune beam to tagger dump yoke with necessary harp scans (Eugene Pasyuk)
- Take three Moller runs, one with each target polarization direction, flip HWP and take another run (Nathan Baltzell)
- Tune beam to Faraday cup with empty target (Eugene Pasyuk)
- Fill LH2 target (Chris Keith, James Brock)
16:00 – 21:00 – Trigger validation (Valery Kubarovsky) (i) rgk_noDC_v1.0_validation, ii) rgk_v1.0_30kHz_150MeV, PROD67_PIN configuration)
- Use nominal DC HV setting (10, 11, 11)
- Complete trigger validation test plans with DAQ (RG_K trigger details)
21:00 – 24:00 – Luminosity scan (rgk_noDC_v1.0_300MeV.trg, PROD67 configuration)
- Take runs with 10M events at 10, 20, 30, 40, 50, 60 nA
- Take 10M event runs at 75 nA and 90 nA if possible with DAQ operation (check with RC)
- Use nominal DC HV setting (10, 11, 11)
- For each beam current put mon12 plots in logbook. The first will use the nominal DC occupancy z-scale (10%), the second should have the scale set appropriately for each current to prevent cut off.
  • Saturday, Dec. 16:

00:00 – 08:00 – Luminosity scans cont'd (rgk_noDC_v1.0_300MeV.trg, PROD67 configuration)
- Take runs with 10M events at 10, 20, 30, 40, 50, 60 nA
- Take 10M event runs at 75 nA and 90 nA if possible with DAQ operation (check with RC)
- Use nominal DC HV setting (10, 11, 11)
- For each beam current put mon12 plots in logbook. The first will use the nominal DC occupancy z-scale (10%), the second should have the scale set appropriately for each current to prevent cut off

08:00 – 24:00 - DC test plan part I (Florian Hauenstein) (PROD67_PIN configuration)
- DC HV studies at 40 nA (75M trigger runs) (DC test plan document)
- The first 75M event run will use the nominal DC settings. Start run and call DC expert (Florian) when it gets to 50M.
- Collect data for gain calibration CTOF, ECAL, FTOF, HTCC
- For each HV setting put mon12 plots in logbook. The first will use the nominal DC normalized occupancy z-scale (10%), the second should have the scale set appropriately for each current to prevent cut off
- For each HV setting post plots to HBLOG of DC HV currents (all Regions) and "DC HV measured current and voltage" screen (see DC HV, under monitoring button) (see last night's logbook for the full set)

  • Sunday, Dec. 17:

00:00 – 08:00 – Data collection (rgk_noDC_v1.0_300MeV.trg, PROD67 configuration)
- Use DC (10 11 11) setting (Florian will set the DC HV)
- Take one 4-hr run with 75 nA
- Take one 4-hr run with 90 nA
08:00 – 11:00 – Streaming readout tests (Sergey Boyarinov, David Lawrence)) (Streaming readout test plan document)
- Turn off all detectors except FTOF and ECAL; Consult Yuri for SVT and CVT settings.
- Runs up to 150 nA
11:00 - 13:30 - Work on LH2 target
13:30 – 20:00 – DC test plan part II (Florian Hauenstein) (use PROD67_PIN configuration)
- DC HV studies at 40 nA (75M trigger runs) (DC test plan document)
- For each HV setting put mon12 plots in logbook. The first will use the nominal DC occupancy z-scale (10%), the second should have the scale set appropriately for each current to prevent cut off
- For each HV setting post plots to HBLOG of DC HV currents (all Regions) and "DC HV measured current and voltage" screen (see DC HV, under monitoring button)
- The remainder of the plan has 4 DC settings to study: (10,11,12), (12,13,13), (11,11,11), (10,12,10)
20:00 – 24:00 – Data collection
- Use DC (10 11 11) setting (Daniel will set the DC HV)
- Take one 3-hr run with 60 nA (rgk_noDC_v1.0_200MeV.trg, PROD67 configuration)
- Take one 3-hr run with 75 nA (rgk_noDC_v1.0_200MeV.trg, PROD67 configuration)
- Take one 3-hr run with 75 nA (rgk_noDC_v1.0_300MeV.trg, PROD67 configuration)
- Take one 3-hr run with 90 nA (rgk_noDC_v1.0_300MeV.trg, PROD67 configuration)
Every hour: Make a log entry of the trigger rate strip chart and post the online reconstruction plots from Gagik's program This is necessary to monitor the LH2 target level. Also pay close attention to DAQ alarms if there is steady beam on target.

  • Monday, Dec. 18:

00:00 – 07:30 – Data collection cont’d
See previous step

07:30 – 17:00 – Reverse solenoid polarity (Eugene Pasyuk, Engineering)
- At 07:30 end run, call Eugene Pasyuk to ramp down solenoid and call for Controlled Access
- The Magnet Group will be in Counting House at 08:30
17:00 – 18:00 – Trigger validation (Valery Kubarovsky) (use PROD67_PIN configuration)
- Complete trigger validation test plans with DAQ (RG_K trigger details)
18:00 - 19:00 - DC threshold studies (Florian Hauenstein) (use PROD67_PIN configuration)
19:00 - 20:00 - CVT readout studies (Yuri Gotra) (use PROD67_PIN configuration)
20:00 – 24:00 – Data collection (PROD67 configuration)
- Use DC (10 11 11) setting
- Take one 5-hr run with 60 nA (rgk_noDC_v1.0_200MeV.trg, PROD67 configuration)
- Take one 5-hr run with 75 nA (rgk_noDC_v1.0_300MeV.trg, PROD67 configuration)
Every hour: Make a log entry of the trigger rate strip chart and post the online reconstruction plots from Gagik's program This is necessary to monitor the LH2 target level. Also pay close attention to DAQ alarms if there is steady beam on target.
  • Tuesday, Dec. 19:
00:00 – 07:00 – Data collection cont’d
- See previous step
07:00 – Beam off - Call for Restricted Access
07:00 – 08:00 – Prepare CLAS12 for accelerator down
- Turn CLAS12 detectors off
- Ramp down magnets (Eugene Pasyuk)
- Empty and secure target (Chris Keith, James Brock)

General Instructions

  • The main lights in the Hall (dome lights) and the Forward Carriage lights are being kept off because of light leaks affecting some of the detectors (especially ECAL sec 2 and 3). If these lights are switched on during an access, they should be switched off when leaving the Hall.
• Refer to these photos: ON: [1], OFF: [2]
• We have a new dome light switch outside of the hall in the labyrinth. The lights can be turned off without entering the Hall. See logbook entry: https://logbooks.jlab.org/entry/4204460
• Note that when the dome lights are switched off, they cannot be turned back on immediately because they require 10-15 min to cool down.
  • Beamline:
• Do not run over 30 minutes above 90 nA with a 5-pass beam without the beam blocker IN .
• If there is any concern about beam stability, ask MCC if orbit locks are on (they should be).
• Document any beam condition change and send scaler GUIs to HBLOG.
• If HWP is changed, start a new run:
◊ Please check with the beamline expert whether the SLM and FCUP charge asymmetry (Q-Asym (%)) readings are set properly as they will be out of range in case Eugene's script is not run by the experts after the HWP change. The absolute values should be less than 0.1%.
  • For beam tuning and Møller runs
• Make sure the SVT/MVT are set as follows: SVT: LV ON; HV OFF, and MVT: LV ON; HV ON in SAFE Mode.
- When turning MVT OFF, do not press "BMT HV OFF" from HV->Overview->Actions, but instead select BMT HV ON - Safe Voltage. The same applies to FMT select FMT HV ON - Safe Voltage.
- When turning MVT ON: go to HV->Overview->Actions, and select BMT (/FMT) "HV ON - Full Voltage".
- DO NOT start runs in SAFE Mode for Production/Calibration/Various-Studies.
• Turn DC HV off only for beam tuning; if no beam is available or when the beam is stable, keep them on even if you are not taking data.
  • To access the Hall:
• If you need to enter Hall B, alert Denny Insley (757-897-9060, cell/text: 757-810-9576) and the Run Coordinator (757-575-7540).
• Check in with the shift personnel before entering the hall.

DAQ Operation & Related General Instructions

  • (New) STANDARD end and start of the run:
- "End run"
- "Cancel"
- "Reset"
- "Configure"
- "Download"
- "Prestart"
- "Go"
  • RESTART DAQ from scratch when changing configuration or trigger files, or when the run did not end correctly, or when ROC(s) is(are) rebooted, or when RICH is FAST/Fully recovered, as follows:
- "Cancel", "Reset"
- "Configure"
- "Download"
- "Prestart"
- "Go"
  • Configuration is PROD67 (or PROD67_PIN for fast reconstruction of some calibration/reference runs from the cache disk).
  • In case of DAQ Disk space alarm, call the DAQ expert.
  • Trigger files:
- XXX.trg
  • During "Configure", observe the ROC terminals to see whether any ROC has error messages.
  • Some ROCs keep printing error messages while functioning properly; please see their list in this logbook entry # 4215299 to avoid unnecessary reboot since the printout in the ROC terminal won't change. If any of them get disconnected, the message will appear in the run control itself!
  • If a ROC has crashed, find which one is (look for busy ROCs), end the current run, issue a roc_reboot command ON JUST THAT ROC, and test with SSH or PING to check whether the ROC is back up (some take longer than others). Then, RESTART DAQ from scratch.
  • Unless a RICH problem crashes the DAQ, do NOT interrupt an otherwise smooth run for a RICH recovery. Instead, do this in between runs.
  • The shifter MUST check and reset monitoring histograms at least once every 30-60 minutes to ensure no major detector problems. Sometimes, it is the only way to know that a specific ROC needs to be rebooted.
  • Pop-up window: Enter the beam current and the type of runs (e.g., Production) in the "Comment" field.
  • After each step of a DAQ RESTART, ensure it is completed in the Run Control message window. Also, during "Configure", look for error messages in the ROC terminals.
• Contact the DAQ expert if you have any questions or doubts about how to proceed.
  • At the start and end of every run, check that the data filled in the Run Condition Data Base (RCDB) is correct, especially the manually filled fields.

Reference Values

FSD Thresholds from RG-K

  • Upstream: 2 kHz
  • Midstream: 2 kHz
  • Downstream: 100 kHz
  • BOM: 50 kHz
  • 5 ms dwell time

Harp Scan References from RG-K

  • 2C21A [3]: x= -0.4 mm; y= +0.6 mm
  • Tagger (2C24A) [4]: x= -2.0 mm; y= +0.6 mm
  • 2H01 [5]; x= -1.4 mm; y= 0.0 mm

IA for Q Asymmetry

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