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Recommended Runs for immediate Data Analysis

Go get the from the runs database

First calibration runs for experts
  + CPT_beamtest FM109 TEM1 700000392 PASSED INT 01.66.2
  + CPT_beamtest FM101 TEM3 700000431 PASSED INT 01.66.2
  + CPT_beamtest FM119 TEM2 700000418 PASSED INT 01.66.2
  + calibDAC FM109 TEM1 700000400 FAILED INT 1.66.2
  + calibDAC FM119 TEM2 700000438 FAILED INT 1.66.2
  + calibDAC FM101 TEM3 700000445 FAILED INT 1.66.2
  + calibGen CU 15MeV 700000458 PASSED INT 1.66.2
  + muTrig   CU 15MeV 7200s 700000462 PASSED INT 1.66.2
  + calf_gain_p01_1.28 FM109 TEM1 700000486
  + calf_gain_p01_1.28 FM119 TEM2 700000485
  + calf_gain_p01_1.28 FM101 TEM3 700000487

Muon calibration runs BT-13 (4rng, nonZS, muon Gain, CAL_LO 15MeV)
   10 runs 700000276 to 700000286
   10 runs 700000490 to 700000500

Synchronized runs (check tags in rcReport and txt files in run directory) :
  + 700000475 : 10k events, external trigger on scintillators.
  + 700000502 : external trigger on scintillators, new ancillary DAQ

Important Detector Register Settings for  CAL CPTs

V

Important Detector Register Settings for end-to-end runs (baseline data taking)

Values are coming mostly from LAT70X used for LAT Integration 

Expected value for most important registers in DAC Counts or system clock ticks

CAL 

  • CAL Range Decision Time (GTEM/GCCC/GCRC/delay_1) : 31
  • CAL Time After Range Decision Until ADC Readout Time (GTEM/GCCC/GCRC/delay_2) : 53
  • CAL ADC Readout Time (GTEM/GCCC/GCRC/delay_3) : 133
  • CAL Log Accept Discriminator (zero suppression) (GTEM/GCCC/GCRC/GCFE/log_acpt) : 20 to 50 for ~ 2 MeV settings at LE gain = 5
  • CAL Low Energy Trigger Discriminator (GTEM/GCCC/GCRC/GCFE/fhe_dac) 85 to 95 for ~ 100 MeV settings at LE gain = 5
  • CAL High Energy Trigger Discriminator (GTEM/GCCC/GCRC/GCFE/fle_dac) 15 to 25 for ~ 1000 MeV settings at HE gain = 15
  • CAL Readout Range Select Discriminator (GTEM/GCCC/GCRC/GCFE/rng_uld_dac) : 120 = default; 105 to 120 for optimal settings
  • CAL DAC for DC Reference (GTEM/GCCC/GCRC/GCFE/ref_dac) : 0

TKR

  • TKR DAC (threshhold, range) (GTEM/GTCC/GTRC/GTFE/dac)) : (22 to 36, 0) for 1/3 of a MIP

ACD

  • Delay from ACD trigger discriminator to AEM trigger primitive formation (GAEM/GARC/veto_delay) : 0
  • Stretch width of ACD trigger primitive (GAEM/GARC/veto_width): 5
  • ADC acquisition time (GAEM/GARC/adc_tacq) : 0
  • Delay from ACD trigger primitive to AEM hitmap data latch (GAEM/GARC/hitmap_delay): 6
  • Stretch width of ACD trigger primitive to AEMXS hitmap data latch (GAEM/GARC/hitmap_width) : 0
  • Delay from trigger to hold (GAEM/GARC/hold_delay): 34
  • Bias Dac (GAEM/GARC/GAFE/bias_dac):  Set using AcdLeHeBiasCal script
  • Zero suppresion threshold (GAEM/GARC/pha_threshold_xx): Set using AcdPedestal script
  • Veto setting (GAEM/GARC/GAFE/veto_dac & veto_vernier): Set using Veto & Muon calibrations. 
    • The veto setting is not essential to ACD perforamance, but could be interesting to study.   Can be calibrated with a couple hours of muon runs.

 

Important Timing Settings for end-to-end runs (baseline data taking)

Recommended values from LAT integration in system clock ticks

  • Width of trigger window in GEM : 12
  • Delay from CAL trigger discriminator to TEM trigger primitive formation (GTEM/GCCC/trg_alignment:0-7) : 0
  • Delay from TKR trigger discriminator to TEM trigger primitive formation (GTEM/GTCC/trg_alignment:0-7) : Default value is 5. Measurements range between 3 and 5.
  • Stretch width of CAL trigger primitive (GTEM/GCCC/trg_alignment:8-15) : 15
  • Hold trigger primitive for TEM diagnostic latching of CAL trigger primitive (GTEM/GCCC/trg_alignment:16-23) : 9
  • Hold trigger primitive for TEM diagnostic latching of TKR trigger primitive (GTEM/GTCC/trg_alignment:16-23) : 15
  • Delays from TKR trigger TACK to shaper hold : 0
  • Delays from CAL trigger TACK to shaper hold : Default value is 45. Measurements range between 43 and 47.

The values shown below are based on the LAT Alignment and we will use these as default for CU tests. Note that this is for the flight configuration B2 that became LAT701 config. TEM diagnostics are not enabled and they will change these values.

 
 

Below is a timing diagram that explains how knobs are set to ensure charge is collected at the peak for all 3 detectors. Note that CAL beling the slowest its TREQ Delay is set to 0, while ACD being the fastest detector has more delays added.

 
 

Finally there are some plots from trigger jitter from Martin Kocian. Note that jitter is large when hit the CAL diodes (see figure)

 
 

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