Difference between revisions of "Cosmics test plans"
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* Tell the AI that the HVB current is constant at 9uA so that it can operate within the range of its trained data | * Tell the AI that the HVB current is constant at 9uA so that it can operate within the range of its trained data | ||
* Use 1V steps and 1h runs | * Use 1V steps and 1h runs | ||
| + | ** ''Starting new run every hour for 2 weeks may not be feasible. Devise scheme to break up long runs?'' | ||
Revision as of 19:01, 3 February 2022
Objectives:
- Test drive the AIEC software
- Demonstrate that the CDC gain is stable
Strategy:
- Designate 2130V as the nominal HV for cosmics, to raise more hits above the noise, but keep 20V headroom for the AI.
- Tell the AI that the HVB current is constant at 9uA so that it can operate within the range of its trained data
- Use 1V steps and 1h runs
- Starting new run every hour for 2 weeks may not be feasible. Devise scheme to break up long runs?
Needs:
- AIEC software to read epics and wait for a stable period before calculating the gain and setting the HV
- Method for scaling the HVB current to what it would be at the nominal HV before running the AI - will not be needed for cosmics but will be needed for CPP.
- Script to project dE/dx for 4-10 GeV tracks, fit it and calculate the gain factor
Questions:
- Do we need to force a B field in the reconstruction sw (wait for Simon to answer)
- Simon reported progress on straight track reconstruction (email to David and Naomi Feb. 24th)
- Full DAQ or standalone DAQ?
- Ask Sergey for configuration with only CDC, BCAL
- When are we doing this?
- March 1-14, 2022