Difference between revisions of "GlueX/JEF 2025-01 data set"
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# period 14: commissioning, FCAL HV changes, 131217-> | # period 14: commissioning, FCAL HV changes, 131217-> | ||
# period 15: commissioning, FCAL HV changes, 131237-> | # period 15: commissioning, FCAL HV changes, 131237-> | ||
| + | #* BCAL included in the general trigger, 131268-> | ||
| + | #*Bit 0: ECAL + FCAL & BCAL | ||
| + | #*Bit 2: BCAL | ||
| + | #*Bit 3: PS | ||
| + | # period 16: commissioning, FCAL HV changes, 131272-> | ||
{| class="wikitable" | {| class="wikitable" | ||
|- | |- | ||
| Line 115: | Line 120: | ||
|- | |- | ||
| 131237 | | 131237 | ||
| − | | | + | | 131271 |
| 15 | | 15 | ||
| [https://halldweb.jlab.org/primexd/ecal-cal/2025-01/15 ecal] [https://halldweb.jlab.org/primexd/fcal-cal/2025-01/15 fcal] | | [https://halldweb.jlab.org/primexd/ecal-cal/2025-01/15 ecal] [https://halldweb.jlab.org/primexd/fcal-cal/2025-01/15 fcal] | ||
| + | |- | ||
| + | | 131272 | ||
| + | | 131??? | ||
| + | | 16 | ||
| + | | [https://halldweb.jlab.org/primexd/ecal-cal/2025-01/16 ecal] [https://halldweb.jlab.org/primexd/fcal-cal/2025-01/16 fcal] | ||
|- | |- | ||
|} | |} | ||
Latest revision as of 09:07, 29 April 2025
Contents
List of changes
These lists are giving the run ranges where the ECAL/FCAL hardware was not changed.
Monitoring results
What is currently in the default variation
The default variation contains the latest and most up-to-date tables.
Periods
- period 0: commissioning
- period 1: commissioning, 1st ECAL HV changes, 130993->
- period 2: commissioning, 1st FCAL HV changes, 131016->
- period 3: commissioning, 2nd ECAL HV changes, 131032->
- period 4: commissioning, FCAL included in the trigger, 131057->
- period 5: commissioning, ECAL HV turn off for the first 3 layers, 131071->
- period 6: commissioning, ECAL HV turn on for all layers, 131074->
- period 7: commissioning, ECAL trigger turn off, thus FCAL/BCAL trigger, 131082->
- period 8: commissioning, FCAL HV changes, 131133->
- period 9: commissioning, ECAL HV changes, 131050->
- period 10: commissioning, ECAL/FCAL HV changes, 131179->
- period 11: commissioning, change beam current from 250nA to 300nA, 131184->
- period 12: commissioning, ECAL HV changes, 131196->
- period 13: commissioning, ECAL&FCAL + BCAL triggers implemented, 131207->
- ECAL & FCAL trigger: Bit 0
- BCAL trigger (prescaled): Bit 2
- PS trigger: Bit 3
- period 14: commissioning, FCAL HV changes, 131217->
- period 15: commissioning, FCAL HV changes, 131237->
- BCAL included in the general trigger, 131268->
- Bit 0: ECAL + FCAL & BCAL
- Bit 2: BCAL
- Bit 3: PS
- period 16: commissioning, FCAL HV changes, 131272->
| Min Run | Max Run | Batch # | Gains/Timing Offsets |
|---|---|---|---|
| 130862 | 130992 | 0 | ecal fcal |
| 130993 | 131015 | 1 | ecal fcal |
| 131016 | 131031 | 2 | ecal fcal |
| 131032 | 131056 | 3 | ecal fcal |
| 131057 | 131069 | 4 | ecal fcal |
| 131071 | 131072 | 5 | ecal fcal |
| 131074 | 131077 | 6 | ecal fcal |
| 131082 | 131132 | 7 | ecal fcal |
| 131133 | 131049 | 8 | ecal fcal |
| 131050 | 131160 | 9 | ecal fcal |
| 131179 | 131183 | 10 | ecal fcal |
| 131184 | 131195 | 11 | ecal fcal |
| 131196 | 131206 | 12 | ecal fcal |
| 131207 | 131216 | 13 | ecal fcal |
| 131217 | 131236 | 14 | ecal fcal |
| 131237 | 131271 | 15 | ecal fcal |
| 131272 | 131??? | 16 | ecal fcal |
Timing
Done for each batches above.
Pedestals
The pedestal calibration is performed for each block & run. When there is no response to LED lights, the block is marked as a potential bad block and is set arbitrarily to a pedestal value corresponding to the average pedestal value for the runs in which this block sees the LED lights.
Gain matching calibration plots
The gain matching is using the ECAL/FCAL rawdata/pi0-skim.
Checking the ECAL/FCAL gains
Look at the reports and individual diphoton invariant mass.
Energy dependence correction monitoring plots
Bad block map
This map is done for each run number by combining the info collected by analyzing the LED and pi0 skims. This map has to be compared with the block efficiency map. During the simulation smearing, it is either the bad block map or the block efficiency map that has to be used. The bad block map excludes all blocks marked as the central block of a cluster. The block efficiency assigned an efficiency number to this block.
