Difference between revisions of "The HPS Run Wiki"

Run Plan June 17 - 18, 2019

When beam is back

1. Establish beam to the Faraday cup following the "General Guidelines" and Beamline Procedures. The required beam profile at 2H02A harp is X-width <~0.10 mm, Y-width <~ 0.060 mm

See "General Instructions" on the right for details

1. Ask for beam current ~50 nA beam and with SVT expert perform SVT wire scan to find the position of the beam relative to SVT
   • If beam position needs to be adjusted, work with MCC ops to move it to the desired position using position reading on 2H02 BPM. If adjustment is in the vertical direction, then with beam motion the SVT collimator must be moved as well. Steps of the motion must be the order of 0.2 mm, so if you need to move beam vertically by 1 mm, it will take 5 motions beam-then-collimaotr to get there.
   • After adjusting the beam position, perform SVT wire scan again to verify that beam is in the correct spot. If needed, adjust it
   • After finishing beam positioning, record BPM values, send the scaler GUI to the logbook, perfomr 2H02 harp scan, record results.
2. Restore ECal and Hodoscope
   • Turn on HVs on ECal and Hodoscope
   • Check the ECal and hodoscope rates without a target at 50 nA, make a snapshot of the sacaler GUIs for both detectors and send to the logbook. Make note of the highest rate position on ECal.
   • Insert the 4 um W target and check ECal and hodoscope rates at 50 nA. Make a snapshot of the sacaler GUIs for both detectors and send to the logbook.
   • Check ECal and hodoscope rates as a function of the target position. Starting from the nominal position of the 4 um foil, move the target ladder towards 8 um W foil with 0.5 mm steps using expert GUI. Record target position and the ECal and hodooscope scaler rates.
3. Setup FSD thresholds/rates and ECal/hodoscope rates using 4 um W target to up 400 nA beam. Note: thresholds on FSD must be changed while scanning. Record rates in the logbook. Call beamline expert if needed.
4. Call ECal and DAQ expert to perform pedestal run and DAQ/trigger studies
   • Trigger/DAQ expert checks trigger rates, DAQ, and deadtime with 30-50 nA beam on 4 um target. Record:
     1. main scaler screen
     2. ecal scaler gui
     3. trigger rate gui
        • Live time should be >~90%
        • Total Trigger rate should be ~17 kHz.
   • The DAQ Configuration:
     1. without and with SVT PROD66__NOSVT and PROD66, respectively
     2. Trigger file: hps_v1.trg

Important Notes:

1. Do not run more than 60 minutes above 30 nA without the beam blocker in front of Faraday cup. Put beam blocker in for long running at high currents.

General Instructions

DAQ RECOVERY

If DAQ crashed/broken:

1. For every daq crash login into clondaq3 as a clasrun then run the following command
   • clasrun@clondaq3:clasrun> save_DAQ_logs.pl (See [2])
2. Reboot DAQ completely..
3. If the procedure fails to restore DAQ, call Sergey (DAQ on call) without any further disturbing the DAQ status.

Establishing Physics Quality Beam for HPS:

1. Make sure SVT is retracted and both SVT and ECAL are OFF.
2. First send beam to the tagger dump:
   • Check that beam type is set to "Photon" (HPS_EPICS->Beam->BTA).
   • Position "Blank" on the beam for the Hall-B collimator
   • Ask MCC to turn ON the tagger magnet and then deliver <10 nA beam to the tagger dump.
   • Check the beam position on the tagger viewer, it should be approximately in the center of the screen
   • Follow instructions under "Procedures" on the documentation tab for "Beamline"[3]. To tune the beam on tagger dump and perform harp scans beam current should be <10 nA.
   • Check profile using 2C21 and tagger harp scans, and compare the positions and widths with previous scans ([4],[5])
     • Positions on both harps should be within 1mm
     • Width on 2C21 should be <~0.1+/-0.05 mm
     • Width on tagger harp (2C24) <~0.35 +/- 0.1mm
   • Halo counters UPS-L/R and TAG-L/T/T2 should be ~few Hz/nA [6]
3. Before sending a beam to the Faraday cup
   • If HPS chicane must be ON, make sure that chicane GUI says "Chicane Ready"
   • Check that SVT protection collimator is ON
   • HPS target is OUT and ECAL HV is OFF
   • SVT is OUT (position=0.000 mm in main hps scaler screen) and HV is off (all red/green indicators RED in SVT bias GUI)
   • If any uncertainty, page the experts
   • The first time sending a beam to the Faraday cup after the hall is closed, page the SVT expert.
   • Pay attention into following corrector values: 2C22H, 2C23V, 2H00H, 2H00V, Compare them to ones that are in [7]. Make sure their values don't differ more than 100%. If there is such difference, tell MCC about this.
4. Send beam to the Faraday cup
   • If the beam optics is correct, then you should immediately see the beam spot on the Downstream Viewer and on 2H00 and 2H02 BPMS.
   • If you don't see it immediately, and rates on halo counters are more than 100 Khz, then ask MCC, to change to pulsed (tune mode) beam, and ask to put corrector values. At this point don't accept any CW beam, until beam spot is visible on Downstream Viewer.
   • If MCC operator is not able to tune the beam more than 30 minutes, then please notify RC
   • Follow the instructions under "Procedures" on the documentation tab for "Beamline"[8] to establish beam to the electron dump.

Note: in order to have reliable readings on two important for HPS BPMs, 2H00 and 2H02, beam current should be >30 nA.

1. • Ask MCC to establish 30 nA beam with HPS orbit locks on (We need HallBHPSOrb not HallBOrb configuration). For orbit lock positions on 2H00(X=0.00,Y=0.00) and on 2H02(X=-1.00,Y=-0.85). Use the 2.82 mm SVT collimator. .
   • Tune beam profile at HPS using measured widths on 2H01A and 2H02A harps. The required beam profile at 2H02A harp is: X-width <~0.05 mm, Y-width <~ 0.05 mm. Beam profile using 2H01A and 2H02A harps with previous scans ([9],[10]) to compare.
   • Check and log the beam spot on chromax viewer
   • The halo counter rates before HPS must be low:
     1. UPS-L and UPS-R few Hz/nA,
     2. The tagger counters should count less than Hz/nA and downstream counters should count ~Hz/nA
     3. The halo counter rates on HPS, HPS-L/R/T/SC, depends on the collimator and HPS chicane settings, but should not be more than 100 Hz/nA [11]
   • Positions on BPMs must be close to what they were before [12]
   • Once all the above is achieved, turn ECAL and Hodoscope HV ON to monitor and log ECal rates
   • Insert the 4um W target without turning off the beam.
2. Before accepting beam, make sure all the previous conditions are met. Always read previous log entries, compare settings of BPMs and correctors with previous settings using scaler_hps GUI.

Setting up the FSD threshold

• When you are about to calculate FSD limit, it means the beam is already established, and the target is in.
• To calculate the FSD threshold run the following executable

hpsrun@clonpc11> /home/hpsrun/scripts/FSD/Calc_FSD_Threshold.exe

• Note we use 1 ms integration time and want 5.5 sigma away from the average rates
• Allowed tolerable rate increase default is 15%, if that causes many trips, then contact RC, he might suggest to increase that number
• Make sure if MCC operator set the FSD limit and integration time correctly

Every Run:

1. After "Go": Check SVT Occupancy
2. Update the Run Spreadsheet
3. Log screenshots of:
   • main scaler_hps display
   • ECAL FADC rate gui
   • Trigger rate gui
   • SVT and ECAL Monitoring pdfs
   • Put the output of the following command hpsTiStatus.sh into the logbook
4. After each run execute this script (replace RunNb by the actual run number):
   • hps2tapeAndDelete.sh RunNb
5. All trigger files to be used by shifters are in HPS/Run2016

Webcams:

• Tagger Dump
• Faraday Cup
• SVT Chiller
• SVT Motors
• Alcove

Accelerator:

• Accelerator EPICS-WEB (offsite access)
• HPS EPICS-WEB (offsite access)
• End Station Status
• Accelerator Ops 1
• Accelerator Ops 2
• Accelerator White Board Schedule
• Accelerator OPS Documents

Slow Controls:

• HPS MYA Variables
• Hall B EPICS Database

Online & Offline:

• Monitoring Gui
• Run Database
• HPS Data Catalog
• Jenkins / Nexus / SVN
• Confluence
• Shift Docs @ GitHub