MDC2018: Difference between revisions

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Revision as of 20:52, 23 August 2018

Introduction

A multi-phase production for future studies. The main goals are:

  • Replace the MCStepPoint samples generated for the CD3 review with equivalent samples using updated geometry
  • Provide calibration and analysis samples in 'digi' format
  • Integrate CRV, Calorimeter and Tracker data
  • Provide official samples of signal (mu->e- and mu->e+) and the principal 'faux signal' processes including DIO, cosmic spallation, RMC, RPC
  • Provide 'Mock Data' samples of undifferentiated combinations of signal and faux signal processes, formatted as a high-level skim

MDC2018 samples are intended to facilitate algorithm development, not to support updated precision values of sensitivity or background rates. As such, some approximations are made in the generation compatible with results being accurate at the 90% level.

MDC2018 production started with the CD3 proton-on-target (stage1) output. As such, updates to the production target geometry were not included.

Many updates have been made to the geometry since CD3, including:

  • 21.5mm diameter hole in the stopping target to reduce radiation load on the tracker and STM
  • 18 evenly-spaced Tracker stations with brass shielding interleaved
  • Updated calorimeter crystal sizes and positions
  • More realistic description of supports, cabling, electronics, etc.
  • Realistic magnetic field map inside the cryostat (Mau13)

Digi Datasets

These datasets are in 'digi' format : representations of the detector digital output, with corresponding Monte Carlo truth information. Reconstruction and analysis can be run directly on digi files without additional simulation or randomness.

Primary Particles

Single particle generation, no mixing, with minimal filtering, write out digis and MC products. Run in v7_0_5.

Location SAM files Files MB Events Dataset
T 200 200 16167 775750 dig.mu2e.CeEndpoint.MDC2018a.art
T 200 200 12756 676282 dig.mu2e.flateminus.MDC2018a.art
T 250 250 13377 741010 dig.mu2e.flateplus.MDC2018a.art
T 200 200 10546 607985 dig.mu2e.CeplusEndpoint.MDC2018a.art
T 490 490 7485 458118 dig.mu2e.flatmugamma.MDC2018a.art

Primary Particles with background

Single particle generation, with mixing, with minimal filtering, write out digis and MC products. Run in v7_0_5.

Location SAM files Files MB Events Dataset
T 4795 4795 4207875 928050 dig.mu2e.CeEndpoint-mix.MDC2018a.art
T 4914 4914 3307968 728442 dig.mu2e.flateplus-mix.MDC2018a.art

Detailed Datasets

Datasets are presented in the order they were created. The primary dataset that users might be interested in using are in bold. The rest are related to making the main dataset, and are here for the record.

Stopped Particles

These are on cvmfs and can be referred to as "mergedMuonStops/filename" in fcl.

Location SAM files Files MB Events Dataset
T 1 1 14 0 nts.mu2e.DS-IPAstops.MDC2018a.root
T 1 1 302 0 nts.mu2e.DS-OOTstops.MDC2018a.root
T 1 1 129 0 nts.mu2e.DS-TGTstops.MDC2018a.root
T 1 1 421 0 nts.mu2e.pion-DS-TGTstops.MDC2018a.root


CRV flash

The first step is two jobs. The output of cd3 stage 1 was:

  • sim particles from PS to the outside of the CRV (dsregion)
  • sim particles from PS to TS2 (mubeam)

The "PS-CRV" job takes the dsregion sample and propagates it through the CRV. V7_0_0 release.


Location SAM files Files MB Events Dataset
T 25 25 3365 475175 sim.mu2e.PS-CRV-cat.MDC2018a.art
D 2549 0 0 0 cnf.mu2e.PS-CRV.MDC2018a.fcl
T 1 1 0 0 bck.mu2e.PS-CRV-cat.MDC2018a.tbz
T 2548 2548 85471 484298 sim.mu2e.PS-CRV.MDC2018a.art
D 25 0 0 0 cnf.mu2e.PS-CRV-cat.MDC2018a.fcl
T 1 1 99 0 bck.mu2e.PS-CRV.MDC2018a.tbz


The "TS-CRV" job takes the mubeam sample and propagates it through the CRV. V7_0_0 release.


Location SAM files Files MB Events Dataset
T 25 25 44 12175 sim.mu2e.TS-CRV-cat.MDC2018a.art
D 25 0 0 0 cnf.mu2e.TS-CRV-cat.MDC2018a.fcl
T 1 1 196 0 bck.mu2e.TS-CRV.MDC2018a.tbz
T 5092 5092 79442 12408 sim.mu2e.TS-CRV.MDC2018a.art
D 5098 0 0 0 cnf.mu2e.TS-CRV.MDC2018a.fcl
T 1 1 0 0 bck.mu2e.TS-CRV-cat.MDC2018a.tbz

DS

The DS job takes the output of cd3 stage2 (particles traced down the beamline to TS5), and simulates them through the rest of the detector. The CRV StepPoints are written out. The stopped muons in the target and everywhere else are written out to "TGTstops" and "OOTstops". The remainder is written to the "beam" files (which is not used further, the flash is produced in the DS-flash job). Release was v7_0_0.

Location SAM files Files MB Events Dataset
D 5098 0 0 0 cnf.mu2e.DS.MDC2018a.fcl
T 1 1 230 0 bck.mu2e.DS.MDC2018a.tbz
T 25 25 2920 1406275 sim.mu2e.DS-CRV-cat.MDC2018a.art
T 5086 5086 68501 1430463 sim.mu2e.DS-crv.MDC2018a.art
D 25 0 0 0 cnf.mu2e.DS-CRV-cat.MDC2018a.fcl
T 1 1 0 0 bck.mu2e.DS-CRV-cat.MDC2018a.tbz
T 5086 5086 79942 9199955 sim.mu2e.DS-TGTstops.MDC2018a.art
T 5086 5086 103035 20381591 sim.mu2e.DS-OOTstops.MDC2018a.art
T 5086 5086 173850 39742526 sim.mu2e.DS-beam.MDC2018a.art


The stopped muons are produced by running over the art files and writing out ntuples, to be used as input into other jobs. THese are the ntuples:

Location SAM files Files MB Events Dataset
T 1 1 14 0 nts.mu2e.DS-IPAstops.MDC2018a.root
T 1 1 302 0 nts.mu2e.DS-OOTstops.MDC2018a.root
T 1 1 129 0 nts.mu2e.DS-TGTstops.MDC2018a.root

These are also on cvmfs and can be referred to as "mergedMuonStops/filename" in fcl.

Target stopped muon products

These jobs take the ntuple of the muons stopped in the target and use them to produce various secondary particles. The release was v7_0_1. Output is StepPoints in the CRV and Trk/Cal separately.

Location SAM files Files MB Events Dataset
D 20000 0 0 0 cnf.mu2e.dio.MDC2018a.fcl
T 2 2 125 0 bck.mu2e.dio.MDC2018a.tbz
- 20000 0 0 0 sim.mu2e.dio-CRV.MDC2018a.art
- 20000 0 0 0 sim.mu2e.dio-TrkCal.MDC2018a.art
T 290 290 35608 21802725 sim.mu2e.dio-TrkCal-cat.MDC2018a.art
D 290 0 0 0 cnf.mu2e.dio-TrkCal-cat.MDC2018a.fcl
T 1 1 1 0 bck.mu2e.dio-TrkCal-cat.MDC2018a.tbz
T 290 290 3855 1861571 sim.mu2e.dio-CRV-cat.MDC2018a.art
D 290 0 0 0 cnf.mu2e.dio-CRV-cat.MDC2018a.fcl
T 1 1 1 0 bck.mu2e.dio-CRV-cat.MDC2018a.tbz
D 700 0 0 0 cnf.mu2e.oot.MDC2018a.fcl
- 700 0 0 0 sim.mu2e.oot-TrkCal.MDC2018a.art
- 700 0 0 0 sim.mu2e.oot-CRV.MDC2018a.art
T 1 1 4 0 bck.mu2e.oot.MDC2018a.tbz
T 350 350 2645 2112303 sim.mu2e.oot-TrkCal-cat.MDC2018a.art
D 350 0 0 0 cnf.mu2e.oot-TrkCal-cat.MDC2018a.fcl
T 1 1 1 0 bck.mu2e.oot-TrkCal-cat.MDC2018a.tbz
T 350 350 1577 396335 sim.mu2e.oot-CRV-cat.MDC2018a.art
D 350 0 0 0 cnf.mu2e.oot-CRV-cat.MDC2018a.fcl
T 1 1 1 0 bck.mu2e.oot-CRV-cat.MDC2018a.tbz
D 3500 0 0 0 cnf.mu2e.photon.MDC2018a.fcl
T 1 1 21 0 bck.mu2e.photon.MDC2018a.tbz
- 3500 0 0 0 sim.mu2e.photon-TrkCal.MDC2018a.art
- 3500 0 0 0 sim.mu2e.photon-CRV.MDC2018a.art
T 195 195 47853 34579794 sim.mu2e.photon-TrkCal-cat.MDC2018a.art
D 195 0 0 0 cnf.mu2e.photon-TrkCal-cat.MDC2018a.fcl
T 1 1 0 0 bck.mu2e.photon-TrkCal-cat.MDC2018a.tbz
T 195 195 886 534746 sim.mu2e.photon-CRV-cat.MDC2018a.art
D 195 0 0 0 cnf.mu2e.photon-CRV-cat.MDC2018a.fcl
T 1 1 0 0 bck.mu2e.photon-CRV-cat.MDC2018a.tbz
D 26000 0 0 0 cnf.mu2e.neutron.MDC2018a.fcl
T 3 3 155 0 bck.mu2e.neutron.MDC2018a.tbz
- 26000 0 0 0 sim.mu2e.neutron-CRV.MDC2018a.art
- 26000 0 0 0 sim.mu2e.neutron-TrkCal.MDC2018a.art
T 200 200 59208 14205800 sim.mu2e.neutron-CRV-cat.MDC2018a.art
D 200 0 0 0 cnf.mu2e.neutron-CRV-cat.MDC2018a.fcl
T 1 1 1 0 bck.mu2e.neutron-CRV-cat.MDC2018a.tbz
T 200 200 238025 73789564 sim.mu2e.neutron-TrkCal-cat.MDC2018a.art
D 200 0 0 0 cnf.mu2e.neutron-TrkCal-cat.MDC2018a.fcl
T 1 1 1 0 bck.mu2e.neutron-TrkCal-cat.MDC2018a.tbz
T 50 50 19902 884216 sim.mu2e.deuteron-TrkCal.MDC2018a.art
T 50 50 9 623 sim.mu2e.deuteron-CRV.MDC2018a.art
D 50 0 0 0 cnf.mu2e.deuteron.MDC2018a.fcl
T 1 1 0 0 bck.mu2e.deuteron.MDC2018a.tbz
T 150 150 57645 3030993 sim.mu2e.proton-TrkCal.MDC2018a.art
T 150 150 14 71 sim.mu2e.proton-CRV.MDC2018a.art
D 150 0 0 0 cnf.mu2e.proton.MDC2018a.fcl
T 1 1 0 0 bck.mu2e.proton.MDC2018a.tbz

DS flash

In this job the cd3 stage 2 output (particles at TS5) are propagated through the detector and StepPoints are written out. This job runs over the input sample 20 times to produce a higher-statistics sample of flash in the detector than can be generated in the previous (DS) job. Run in v7_0_2.


Location SAM files Files MB Events Dataset
SD 50980 0 0 0 cnf.mu2e.DS-flash.MDC2018b.fcl
T 6 6 496 0 bck.mu2e.DS-flash.MDC2018b.tbz
- 50980 0 0 0 sim.mu2e.DS-flash-TrkCal.MDC2018b.art
T 255 255 164202 48591244 sim.mu2e.DS-flash-TrkCal-cat.MDC2018b.art
D 255 0 0 0 cnf.mu2e.DS-flash-TrkCal-cat.MDC2018b.fcl
T 2 2 2 0 bck.mu2e.DS-flash-TrkCal-cat.MDC2018b.tbz

Cut Samples

In these jobs, the stepoints that cannot contribute to digis are dropped to greatly decrease the file sizes. The input dataset can be found as the output dataset name without the "-cut". Run in v7_0_4.

Location SAM files Files MB Events Dataset
D 25 0 0 0 cnf.mu2e.PS-CRV-cut.MDC2018a.fcl
T 25 25 589 212127 sim.mu2e.PS-CRV-cut.MDC2018a.art
T 1 1 0 0 bck.mu2e.PS-CRV-cut.MDC2018a.tbz
D 25 0 0 0 cnf.mu2e.DS-CRV-cut.MDC2018a.fcl
T 25 25 22 7294 sim.mu2e.DS-CRV-cut.MDC2018a.art
T 1 1 0 0 bck.mu2e.DS-CRV-cut.MDC2018a.tbz
D 255 0 0 0 cnf.mu2e.DS-flash-TrkCal-cut.MDC2018a.fcl
T 255 255 1415 736713 sim.mu2e.DS-flash-TrkCal-cut.MDC2018a.art
T 1 1 1 0 bck.mu2e.DS-flash-TrkCal-cut.MDC2018a.tbz


Pion Stops

These were created by William Song and Dave Brown in a private job. The cd3 stage 1 is propagated to the DS and pion stops are written out to an ntuple, uploaded by hand. The fcl used should have been committed.

Location SAM files Files MB Events Dataset
T 1 1 421 0 nts.mu2e.pion-DS-TGTstops.MDC2018a.root

Primary Particles

Single particle generation, no mixing, with minimal filtering, write out digis and MC products. Run in v7_0_5.

Location SAM files Files MB Events Dataset
D 200 0 0 0 cnf.mu2e.CeEndpoint.MDC2018a.fcl
T 200 200 16167 775750 dig.mu2e.CeEndpoint.MDC2018a.art
T 1 1 0 0 bck.mu2e.CeEndpoint.MDC2018a.tbz
D 200 0 0 0 cnf.mu2e.flateminus.MDC2018a.fcl
T 200 200 12756 676282 dig.mu2e.flateminus.MDC2018a.art
T 1 1 0 0 bck.mu2e.flateminus.MDC2018a.tbz
D 250 0 0 0 cnf.mu2e.flateplus.MDC2018a.fcl
T 250 250 13377 741010 dig.mu2e.flateplus.MDC2018a.art
T 1 1 1 0 bck.mu2e.flateplus.MDC2018a.tbz
D 200 0 0 0 cnf.mu2e.CeplusEndpoint.MDC2018a.fcl
T 200 200 10546 607985 dig.mu2e.CeplusEndpoint.MDC2018a.art
T 1 1 0 0 bck.mu2e.CeplusEndpoint.MDC2018a.tbz
D 500 0 0 0 cnf.mu2e.flatmugamma.MDC2018a.fcl
T 490 490 7485 458118 dig.mu2e.flatmugamma.MDC2018a.art
T 1 1 2 0 bck.mu2e.flatmugamma.MDC2018a.tbz

Primary Particles with background

Single particle generation, with mixing, with minimal filtering, writing out digis and MC products. Run in v7_0_5.

Location SAM files Files MB Events Dataset
D 5000 0 0 0 cnf.mu2e.CeEndpointMix.MDC2018a.fcl
T 4795 4795 4207875 928050 dig.mu2e.CeEndpoint-mix.MDC2018a.art
T 1 1 41 0 bck.mu2e.CeEndpointMix.MDC2018a.tbz
D 5000 0 0 0 cnf.mu2e.flateplusMix.MDC2018a.fcl
T 4914 4914 3307968 728442 dig.mu2e.flateplus-mix.MDC2018a.art
T 1 1 39 0 bck.mu2e.flateplusMix.MDC2018a.tbz

Checklist

A checklist of tasks in preparation for MDC2018.

Sign off Responsible Topic Notes
Dave (Louisville) Tracker and OPA Geometry
Bertrand Calorimeter Geometry
Yuri Shielding Geometry
Ralf CRV Geometry
Andy Target and IPA Geometry
?? MBS + STM Geometry
Dave (Louisville) Alignment Infrastructure
Rob/Krzysztof StepPointMC StrawIndex->StrawId
Dave (LBL) Tracker Misalignment
Bertrand Calo Misalignment
Andrei beam fcl
Andrei beam profile
Yuri CRV fcl
Andrei Calo compression
Andrei BG mix fcl
Ray Job Validation
Pasha Radiative DIO weights