Sensitivity Estimates: Difference between revisions

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=== Preliminary Physics Sets ===
=== Preliminary Physics Sets ===
expert/contact: Sophie Middleton
For benchmark study, using old detector geometry but with updated Production Target:
For benchmark study, using old detector geometry but with updated Production Target:


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* The stopped pion rate is found to be: 9.6e-5 stops per POT
* The stopped pion rate is found to be: 9.6e-5 stops per POT
* Found using:
Multi-Stage Simulation:


Stage 1 : from PT to the TS3 JobConfig/pions/PionStage1_2020.fcl
* Stage 1 : from PT to the TS3 JobConfig/pions/PionStage1_2020.fcl


Stage 2 : from TS3 to TS5 JobConfig/pions/PionStage2_2020.fcl
* Stage 2 : from TS3 to TS5 JobConfig/pions/PionStage2_2020.fcl


Stage 3 : from TS5 to ST JobConfig/pions/PionStage3_2020.fcl
* Stage 3 : from TS5 to ST JobConfig/pions/PionStage3_2020.fcl


Ntuple : JobConfig/pions/PionStage4_2020.fcl
* Ntuple : JobConfig/pions/PionStage4_2020.fcl


with 1e9 POT --> 9.6e4 Stopped Pions
with 1e9 POT --> 9.6e4 Stopped Pions




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DIO in Al:
DIO in Al:
*Generated 1e7 flat electrons using Al Mu2e style target
* Generated 1e7 flat electrons using Al Mu2e style target
*Use: JobConfig/primary/flatelectron.fcl (with updated Stopped Muon NTuple)
* Use: JobConfig/primary/flatelectron.fcl (with updated Stopped Muon NTuple)
 
* Samples:
Flat Electron Reconstructed (no DIO weights): /pnfs/mu2e/tape/usr-sim/mcs/sophie/FlateElectron/


CE in Al:
CE in Al:
*Generate 1e7 CeMLLeadingLog using Al Mu2e style target
* Generate 1e7 CeMLLeadingLog using Al Mu2e style target
* Use: JobConfig/primary/CeMLeadinLog.fcl (with updated Stopped Muon NTuple)
* Use: JobConfig/primary/CeMLeadinLog.fcl (with updated Stopped Muon NTuple)
* Samples:
CE Reconstructed (Al 37 foils): /pnfs/mu2e/tape/usr-sim/mcs/sophie/CeEndpoint


Reconstruction:
Reconstruction Scripts used:


CE in Al: Use: JobConfig/reco/CeMLeadinLog.fcl
* CE in Al: Use: JobConfig/reco/CeMLeadinLog.fcl
DIO in Al: Use flateminus.fcl  
* DIO in Al: Use flateminus.fcl  
TrkAna: To make standard TrkAna Ntuples: TrkDiag/fcl/TrkAnaReco.fcl (on output of reco stage)
* TrkAna: To make standard TrkAna Ntuples: TrkDiag/fcl/TrkAnaReco.fcl (on output of reco stage)

Latest revision as of 22:54, 3 March 2021

Datasets

To print lists of datasets that are known to SAM - all or optionally with restrictions (see -h).

setup mu2efiletools
mu2eDatasetList

To see the files in a dataset with full file paths:

mu2eDatasetFileList dataset_name_here >& fcllist.txt

beam: stage1

The simulation correcponds to 800 MeV proton interactions with carbon coveyor style target. Two data streams are recorded:

  • dsregion: particles (mostly neutrals) reaching concrete walls covering CRV
  • mubeam: beam particles reaching DS vacuum volumes.

Each unconcatenated file corresponds to 5E5 POT:

  • The total simulated POT: 13.4E9
    • It corresponds to 8 ubunches, assuming 1.6E9 POT/ubunch

The stopping planes were arranged in the configuration described in docdb-26541. Truncated files are empty and can be recovered from the archive. The samples were produced on Bebop using 2.6M core-hours.

  • cnf.mu2e.beams1-g4-10-5.0919.fcl
  • sim.mu2e.beam-g4s1-mubeam-cat.111520.art
  • concanated from: sim.mu2e.beam-g4s1-mubeam.111520.art
    • File count: 87
    • Total size [GB]: 70
    • Event count: 37,132,359
    • Trigger rate: 0.28481196%
  • sim.mu2e.beam-g4s1-dsregion-cat.111520.art
  • concanated from: sim.mu2e.beam-g4s1-dsregion.111520.art
    • File count: 870
    • Total size [GB]: 1,209
    • Event count: 848,974,449
    • Trigger rate: 6.5117887%
  • logfiles: ???
  • G4 version: v4_10_6_p02b
  • CLHEP version: v2_4_1_3a
  • ART version: v3_06_03
  • Offline version: Mu2eII_01_00_00

Expert: Yuri Oksuzian.

beam: stage2 (DS)

Resampled sim.mu2e.beam-g4s1-mubeam-cat.111520.art with JobConfig/beam/DS-resampler.fcl.

  • Generated events: 1000*500,000=500,000,000
  • Initital number of events from stage-1: 37,132,359
  • Resampling factor: 500,000,000/37,132,359 = 13.6
  • The total simulated POT: 13.4E9*13.6 = 180E9 POT
  • The total number of pulses: 180E9/1.6E9 = 112

Sample location: /pnfs/mu2e/persistent/users/oksuzian/workflow/mu2eII_1220/good/40050458.fcllist_201202221830

Two streams are produced:

  • Target stops: sim.oksuzian.DS-TGTstops.021220.art
    • Stopping rate: 16006042./180E9 = 8.89e-05
  • Detector hits: sim.oksuzian.DS-resampler-TrkCalCRV.021220.art

beam: stage2 (PS)

Resampled sim.mu2e.beam-g4s1-dsregion-cat.111520.art with JobConfig/beam/PS-resampler.fcl

  • Generated events: 1000*1,000,000=1,000,000,000
  • Initital number of events from stage-1: 848,974,449
  • Resampling factor: 1,000,000,000/848,974,449 = 1.17
  • The total simulated POT: 13.4E9*1.17 = 16E9 POT
  • The total number of pulses: 16E9/1.6E9 = 10

Sample location: /pnfs/mu2e/persistent/users/oksuzian/workflow/mu2eII_1220/good/40050540.fcllist_201202214828

One stream is produced:

  • Detector hits: sim.oksuzian.DS-resampler-TrkCalCRV.021220.art

Preliminary Physics Sets

expert/contact: Sophie Middleton

For benchmark study, using old detector geometry but with updated Production Target:

Pions:

  • The stopped pion rate is found to be: 9.6e-5 stops per POT

Multi-Stage Simulation:

  • Stage 1 : from PT to the TS3 JobConfig/pions/PionStage1_2020.fcl
  • Stage 2 : from TS3 to TS5 JobConfig/pions/PionStage2_2020.fcl
  • Stage 3 : from TS5 to ST JobConfig/pions/PionStage3_2020.fcl
  • Ntuple : JobConfig/pions/PionStage4_2020.fcl

with 1e9 POT --> 9.6e4 Stopped Pions


Internal, in-time RPC:

  • Generated 1e6 events using Al Mu2e style target
  • Samples: /pnfs/mu2e/tape/usr-sim/dig/sophie/InternalInTimeRPC/

External, in-time RPC:

  • Generated 1e8 using Al Mu2e style target
  • Samples:/pnfs/mu2e/tape/usr-sim/dig/sophie/ExternalInTimeRPC/

DIO in Al:

  • Generated 1e7 flat electrons using Al Mu2e style target
  • Use: JobConfig/primary/flatelectron.fcl (with updated Stopped Muon NTuple)
  • Samples:

Flat Electron Reconstructed (no DIO weights): /pnfs/mu2e/tape/usr-sim/mcs/sophie/FlateElectron/

CE in Al:

  • Generate 1e7 CeMLLeadingLog using Al Mu2e style target
  • Use: JobConfig/primary/CeMLeadinLog.fcl (with updated Stopped Muon NTuple)
  • Samples:

CE Reconstructed (Al 37 foils): /pnfs/mu2e/tape/usr-sim/mcs/sophie/CeEndpoint

Reconstruction Scripts used:

  • CE in Al: Use: JobConfig/reco/CeMLeadinLog.fcl
  • DIO in Al: Use flateminus.fcl
  • TrkAna: To make standard TrkAna Ntuples: TrkDiag/fcl/TrkAnaReco.fcl (on output of reco stage)