Difference between revisions of "Run Group A"
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1) Before the start of beam delivery: Ramp torus field to -100% (negatives inbending) and ramp solenoid field to -100%. (Call PDL for this step) | 1) Before the start of beam delivery: Ramp torus field to -100% (negatives inbending) and ramp solenoid field to -100%. (Call PDL for this step) | ||
− | * Make sure | + | * Make sure CLAS12 detectors are turned off except for ECAL and FTOF which should be left on (contact SVT and MM folks to turn off their systems) |
* When the solenoid is at full field, call the HTCC expert to begin their gain calibrations (which will take several hours) | * When the solenoid is at full field, call the HTCC expert to begin their gain calibrations (which will take several hours) | ||
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* Make sure harp scans results for 2C21, 2C24, and 2H01 are posted in the logbook (these will represent our baseline results for the fall 2018 run) | * Make sure harp scans results for 2C21, 2C24, and 2H01 are posted in the logbook (these will represent our baseline results for the fall 2018 run) | ||
* Record nominal beam positions at BPMs in the logbook (these will represent our nominal values for the fall 2018 run) | * Record nominal beam positions at BPMs in the logbook (these will represent our nominal values for the fall 2018 run) | ||
+ | * Ensure FSD settings are proper | ||
3) With empty target: | 3) With empty target: | ||
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4a) Fill the target (call Bob Miller for this step; number on whiteboard) | 4a) Fill the target (call Bob Miller for this step; number on whiteboard) | ||
− | 5a) | + | 5a) Turn beam back on at 5 nA - ensure FSD settings are proper |
− | |||
− | |||
− | 6a) | + | 6a) Perform current scan |
+ | * check rates vs. beam current to 75 nA (use 2 nA, 10 nA, 30 nA, 50 nA, 75 nA) - record scalers in logbook and record currents on CTOF, FTOF, and PCAL ammeters (see links on monitoring tab to access cameras) | ||
+ | ** DC experts should use this period to finalize their HV and discriminator thresholds | ||
+ | ** CVT experts should use this period to study currents and stability | ||
− | 7a) | + | 7a) Check DAQ rates and performance (including initial studies of FADC bit packing) |
− | 8a). | + | 8a). Complete MM setting optimization. This work will be completed under the direction of the MM experts. |
− | 9a) | + | 9a). Check DC settings and make sure they are optimized. This work will be completed under the direction of the DC expert. |
− | 10a) | + | 10a) Perform trigger test plans (trigger checks and optimization, study of DC tracking trigger, FTOF/PCAL matching). This work will be completed under the direction of the trigger experts |
− | 11a) Complete a luminosity scan and record data in the following sequence with the standard RG-A trigger: | + | 11a) Optimize the FT settings (FT group will take over DAQ control remotely and complete task). This should be done (preferably) during the owl shift. |
+ | |||
+ | 12a) Complete a luminosity scan and record data in the following sequence with the standard RG-A trigger: | ||
* 2 nA - 2 hrs | * 2 nA - 2 hrs | ||
* 10 nA - 1 hr | * 10 nA - 1 hr | ||
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* 75 nA - 30 min | * 75 nA - 30 min | ||
− | + | 13a) Take data with the standard RG-A trigger at 20 nA for 4 hrs to collect data for baseline subsystem calibrations | |
13a) Take production data with the standard RG-A trigger at 40 nA (3 hr runs) | 13a) Take production data with the standard RG-A trigger at 40 nA (3 hr runs) |
Revision as of 11:32, 24 August 2018
Shift ScheduleShift ChecklistHot CheckoutBeam Time Accounting
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If calling local numbers (with area code prefix 757) from the counting room dial 9+[last 7 digits]. To call other area codes dial 91+[10 digit number]
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- Note, all non-JLab numbers must be dialed with an area code. When calling from a counting-house landline, dial "9" first.
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Click Here to edit Phone Numbers. Note, you then also have to edit this page to force a refresh.
CLAS12 Run Group A, Fall 2018
Beam energy 10.6 GeV (5 pass)
Important: Document all your work in the logbook!
Remember to fill in the run list at the beginning and end of each run
RC: Daniel S. Carman
- (757) 575-7540
- 9 575 7540 from Counting Room
- carman@jlab.org
PDL: Eugene Pasyuk
- (757) 876-1789
- 9 876-1789 from Counting Room
- pasyuk@jlab.org
- Note 1: Be very mindful of the background rates in the halo counters, rates in the detectors, and currents in the SVT for all settings to ensure that they are at safe levels.
The integrated rates on the upstream counters have to be in the range 0-15 Hz (rates up 100 Hz are acceptable) and the rates on the midstream counters have to be in the range 10-20 Hz (acceptable up to 50 Hz) @50 nA. Counting rates in the range of hundreds of Hz may indicate bad beam tune or bleed-through from other Halls.
- Note 2: At the end of each run, follow the standard DAQ restart sequence
"end run", "cancel", "reset", then if the run ended correctly, "download", "prestart", "iocjscalerRestartAll.sh", "go". If the run did not end correctly or if any ROCs had to be rebooted, "configure", "download", "prestart", "iocjscalerRestartAll.sh", "go".
After each step, make sure it is complete in the Run Control message window. If a ROC has crashed, find which one it is and issue a roc_reboot command and try again. Contact the DAQ expert if there are any questions.
- Note 3: Nominal beam positions: 2C24A (X=0.5 mm, Y=0.5 mm) , 2H01 (X=1.0 mm, Y=-1.0 mm) see log entry https://logbooks.jlab.org/entry/3570290.
- Note 4: Do not turn OFF FTOF HVs, even during the beam tune
- Note 5: In case of a Torus and/or Solenoid Fast Dump do the following:
- Notify MCC to request beam OFF and to drop Hall B status to Power Permit
- Call Engineering on-call
- Make separate log entry with copies to HBTORUS and HBSOLENOID logbooks. In the "Notify" field add Ruben Fair, Probir Goshal, Dave Kashy and esr-users@jlab.org
- Notify Run Coordinator
- Call the MM expert to turn the detector off
- Call SVT expert to turn SVT off
- Turn off all the other detectors
- Note 6: When beam is being delivered to the Faraday Cup:
- the Fast Shut Down elements: Upstream, Midstream, Downstream, BOM, and Solenoid should always be in the state UNMASKED
- No changes to the FSD threshold should be made without RC or beamline expert approval
- Note 7: Do not turn on or off SVT or MM - only the SVT or MM expert can do that
- Note 8: Any request for a special run or change of configuration has to be approved by the RC & documented
- Note 9: Carefully check the BTA every hour and run the script btaGet.py to print for you what HAS TO BE in BTA for this hour. Edit BTA if it is incorrect.
- Note 10: Reset CLAS12MON frequently to avoid histogram saturation.
Start-up Run Plan:(Updated: Aug. 24, 2018 at 12:21 p.m.) 1) Before the start of beam delivery: Ramp torus field to -100% (negatives inbending) and ramp solenoid field to -100%. (Call PDL for this step)
2) Complete beam tuning studies - This effort will be carried out under the direction of the beamline expert
3) With empty target:
If target is functional: 4a) Fill the target (call Bob Miller for this step; number on whiteboard) 5a) Turn beam back on at 5 nA - ensure FSD settings are proper 6a) Perform current scan
7a) Check DAQ rates and performance (including initial studies of FADC bit packing) 8a). Complete MM setting optimization. This work will be completed under the direction of the MM experts. 9a). Check DC settings and make sure they are optimized. This work will be completed under the direction of the DC expert. 10a) Perform trigger test plans (trigger checks and optimization, study of DC tracking trigger, FTOF/PCAL matching). This work will be completed under the direction of the trigger experts 11a) Optimize the FT settings (FT group will take over DAQ control remotely and complete task). This should be done (preferably) during the owl shift. 12a) Complete a luminosity scan and record data in the following sequence with the standard RG-A trigger:
13a) Take data with the standard RG-A trigger at 20 nA for 4 hrs to collect data for baseline subsystem calibrations 13a) Take production data with the standard RG-A trigger at 40 nA (3 hr runs) If target is not functional: 4b) Ramp torus to 0% field (call Engineering for this step) 5b) Take data at 2 nA for DC alignment studies for 1 hr 6b) Have MCC turn the beam off 7b) Ramp solenoid to 0% field (call Engineering for this step) 8b) Take data at 2 nA with both magnets for DC and CVT alignment studies off for 8 hrs Shift Worker Notes:
In case of other questions or uncertainties of what to do, call the RC |
General Instructions:
Every Shift:
Every Run: Log screenshots of:
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