Difference between revisions of "Spring 2018 Commissioning"
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* <span style="color:red"> High Priority </span> | * <span style="color:red"> High Priority </span> | ||
| − | ** Configure Dave G. Dead time measurement scheme | + | ** <span style="color:green"> <span style="font-size:21px">✔</span> </span> Configure Dave G. Dead time measurement scheme |
| − | ** Check HMS & SHMS hodoscope discriminator widths ( | + | *** [https://logbooks.jlab.org/entry/3510979 Eric's E-Log entry] |
| − | ** Configure NGC into SHMS PID trigger leg in place of HGC | + | ** <span style="color:green"> <span style="font-size:21px">✔</span> </span> Check HMS & SHMS hodoscope discriminator widths (50 ns, -30 mV) |
| − | ** Sanity check SHMS hodoscope CAMAC power supply (noticed unstable behavior during end of fall run) | + | *** [https://logbooks.jlab.org/entry/3510538 Carlos' E-Log entry] |
| − | ** Add SHMS PRSHWRSUM in trigger apparatus (FADC leaf) | + | ** <span style="color:green"> <span style="font-size:21px">✔</span> </span> Configure NGC into SHMS PID trigger leg in place of HGC |
| − | ** Remove layer B from HMS pre-shower sum | + | ** <span style="color:green"> <span style="font-size:21px">✔</span> </span> Sanity check SHMS hodoscope CAMAC power supply (noticed unstable behavior during end of fall run) |
| + | *** [https://logbooks.jlab.org/entry/3509998 Brad's E-Log entry] | ||
| + | ** <span style="color:green"> <span style="font-size:21px">✔</span> </span> Add SHMS PRSHWRSUM in trigger apparatus (FADC leaf) | ||
| + | ** <span style="color:green"> <span style="font-size:21px">✔</span> </span> Remove layer B from HMS pre-shower sum | ||
| + | ** <span style="color:green"> <span style="font-size:21px">✔</span> </span> Check all DC offsets for EACH linear FI-FO channel | ||
* <span style="color:orange"> Medium Priority </span> | * <span style="color:orange"> Medium Priority </span> | ||
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=== Run Plans === | === Run Plans === | ||
| − | * Single arm runs | + | * Single arm runs (~ 1 hr) |
# 5 uA, ~1.5 kHz, ps1 = 0, ~10 min (900k events) | # 5 uA, ~1.5 kHz, ps1 = 0, ~10 min (900k events) | ||
# 10 uA, ~3.0 kHz, ps1 = 0, ~10 min (1.8 M events) | # 10 uA, ~3.0 kHz, ps1 = 0, ~10 min (1.8 M events) | ||
| Line 43: | Line 47: | ||
# 60 uA, ~18.0 kHz, ps1 = 0, ~10 min (10.8 M events) | # 60 uA, ~18.0 kHz, ps1 = 0, ~10 min (10.8 M events) | ||
| − | * Coincidence runs | + | * Coincidence runs (~ 1 hr) |
# 5 uA, ~1.5 kHz, ps6 = 0, ~10 min (900k events) | # 5 uA, ~1.5 kHz, ps6 = 0, ~10 min (900k events) | ||
# 10 uA, ~3.0 kHz, ps6 = 0, ~10 min (1.8 M events) | # 10 uA, ~3.0 kHz, ps6 = 0, ~10 min (1.8 M events) | ||
| Line 54: | Line 58: | ||
=== Run Conditions === | === Run Conditions === | ||
| − | * At 1.5 kHz these runs should take ~ | + | * At 1.5 kHz these runs should take ~10 min |
* These runs can be performed parasitically | * These runs can be performed parasitically | ||
=== Run Plans === | === Run Plans === | ||
| − | * SHMS Runs | + | * SHMS Runs (~20 minutes) |
# Any kinematics, ~1M events, EDTM off | # Any kinematics, ~1M events, EDTM off | ||
# Any kinematics, ~1M events, EDTM on at 100 Hz | # Any kinematics, ~1M events, EDTM on at 100 Hz | ||
| − | * HMS Runs | + | * HMS Runs (~20 minutes) |
# Any kinematics, ~1M events | # Any kinematics, ~1M events | ||
# Any kinematics, ~1M events, EDTM on at 100 Hz | # Any kinematics, ~1M events, EDTM on at 100 Hz | ||
| Line 107: | Line 111: | ||
=== Run Conditions === | === Run Conditions === | ||
| − | * Runs should contain ~ | + | * Runs should contain ~1M events which at 1.5 kHz trigger rate will take ~10 minutes per run |
* These runs can be performed parasitically | * These runs can be performed parasitically | ||
| Line 113: | Line 117: | ||
* SHMS single arm multi-trigger type studies | * SHMS single arm multi-trigger type studies | ||
| − | # Any kinematics, 500k events, | + | # Any kinematics, 500k events, EL-REAL only |
| − | # Any kinematics, 500k events, | + | # Any kinematics, 500k events, EL-CLEAN only |
| + | # Any kinematics, 500k events, 3/4 & EL-REAL | ||
| + | # Any kinematics, 500k events, 3/4 & EL-CLEAN | ||
| + | # Any kinematics, 500k events, 3/4 & EL-REAL & EL-CLEAN | ||
* HMS single arm multi-trigger type studies | * HMS single arm multi-trigger type studies | ||
| − | # Any kinematics, 500k events, | + | # Any kinematics, 500k events, EL-REAL only |
| − | # Any kinematics, 500k events, | + | # Any kinematics, 500k events, EL-CLEAN only |
| + | # Any kinematics, 500k events, 3/4 & EL-REAL | ||
| + | # Any kinematics, 500k events, 3/4 & EL-CLEAN | ||
| + | # Any kinematics, 500k events, 3/4 & EL-REAL & EL-CLEAN | ||
= Talks = | = Talks = | ||
Latest revision as of 10:41, 12 January 2018
Overview
Topics which are relevant to the DAQ/Trigger for the Spring 2018 commissioning run are discussed here.
To-Do
- High Priority
- ✔ Configure Dave G. Dead time measurement scheme
- ✔ Check HMS & SHMS hodoscope discriminator widths (50 ns, -30 mV)
- ✔ Configure NGC into SHMS PID trigger leg in place of HGC
- ✔ Sanity check SHMS hodoscope CAMAC power supply (noticed unstable behavior during end of fall run)
- ✔ Add SHMS PRSHWRSUM in trigger apparatus (FADC leaf)
- ✔ Remove layer B from HMS pre-shower sum
- ✔ Check all DC offsets for EACH linear FI-FO channel
- Medium Priority
- Figure out DAC to mV conversion factor, find old talk regarding setting the DAC values to obtain pedestals a pre-determined value
- Include multi-hit capability in the trigger apparatus for reference times
- Integrate TI scalers into report files
- Configure OR of hodoscope trigger logic into TDC’s and scalers
- Change trigger leaf names to PRLO from PRSHWRLO etc. (needs to match xscaler)
- Low Priority
- Add number of FADC error flags to the report files (front and center)
- Add number of pulses identified in the window to data tree
DAQ/Trigger Run Plans
Single Arm & Coincidence Dead Time Studies
Run Conditions
- Kinematics that provide ~1.5 kHz at 1-5 uA in each spectrometer arm and coincidence mode
- EDTM on at 100 Hz
- These runs can be performed parasitically
Run Plans
- Single arm runs (~ 1 hr)
- 5 uA, ~1.5 kHz, ps1 = 0, ~10 min (900k events)
- 10 uA, ~3.0 kHz, ps1 = 0, ~10 min (1.8 M events)
- 20 uA, ~6.0 kHz, ps1 = 0, ~10 min (3.6 M events)
- 40 uA, ~12.0 kHz, ps1 = 0, ~10 min (7.2 M events)
- 60 uA, ~18.0 kHz, ps1 = 0, ~10 min (10.8 M events)
- Coincidence runs (~ 1 hr)
- 5 uA, ~1.5 kHz, ps6 = 0, ~10 min (900k events)
- 10 uA, ~3.0 kHz, ps6 = 0, ~10 min (1.8 M events)
- 20 uA, ~6.0 kHz, ps6 = 0, ~10 min (3.6 M events)
- 40 uA, ~12.0 kHz, ps6 = 0, ~10 min (7.2 M events)
- 60 uA, ~18.0 kHz, ps6 = 0, ~10 min (10.8 M events)
SHMS & HMS Mode 10 Runs
Run Conditions
- At 1.5 kHz these runs should take ~10 min
- These runs can be performed parasitically
Run Plans
- SHMS Runs (~20 minutes)
- Any kinematics, ~1M events, EDTM off
- Any kinematics, ~1M events, EDTM on at 100 Hz
- HMS Runs (~20 minutes)
- Any kinematics, ~1M events
- Any kinematics, ~1M events, EDTM on at 100 Hz
Single Arm and Coincidence EDTM Studies
Run Conditions
- EDTM 10 Hz runs should be taken when the run lengths are > 30 minutes
- EDTM 100 Hz runs should be taken when the run lengths are < 30 minutes
- If short runs are being performed then the EDTM can be run at 1 kHz
These runs can be performed parasitically although folks will need to know how to cut the EDTM events out of the data
Run Plans
- SHMS Single arm EDTM runs at various rates
- SHMS Run: Any kinematics, EDTM at 10 Hz
- SHMS Run: Any kinematics, EDTM at 100 Hz
- HMS Single arm EDTM runs at various rates
- HMS Run: Any kinematics, EDTM at 10 Hz
- HMS Run: Any kinematics, EDTM at 100 Hz
- Coincidence EDTM runs at various rates
- Coincidence Run: Any kinematics, EDTM at 10 Hz
- Coincidence Run: Any kinematics, EDTM at 100 Hz
Trigger PID Threshold Scans
Run Conditions
- These runs can be performed parasitically in a kinematic with a equal pi:e ratio
Note: This can be done with a single 1M event run (15 min) and applying software cut on the FADC 'sum' value.
Run Plans
- SHMS PID threshold scan with NGC in trigger (HGC was previously utilized)
- NGCER 10, PRSH-LO 10, PRSH-HI 10
- HMS PID threshold scan
- CER 10, PRSH-LO 10, PRSH-HI 10, SH-LO 10
Single arm SHMS & HMS runs with EL-REAL and EL-CLEAN being readout (need to time these in at the TI front panel)
Run Conditions
- Runs should contain ~1M events which at 1.5 kHz trigger rate will take ~10 minutes per run
- These runs can be performed parasitically
Run Plans
- SHMS single arm multi-trigger type studies
- Any kinematics, 500k events, EL-REAL only
- Any kinematics, 500k events, EL-CLEAN only
- Any kinematics, 500k events, 3/4 & EL-REAL
- Any kinematics, 500k events, 3/4 & EL-CLEAN
- Any kinematics, 500k events, 3/4 & EL-REAL & EL-CLEAN
- HMS single arm multi-trigger type studies
- Any kinematics, 500k events, EL-REAL only
- Any kinematics, 500k events, EL-CLEAN only
- Any kinematics, 500k events, 3/4 & EL-REAL
- Any kinematics, 500k events, 3/4 & EL-CLEAN
- Any kinematics, 500k events, 3/4 & EL-REAL & EL-CLEAN
