MDC2020: Difference between revisions
(63 intermediate revisions by 5 users not shown) | |||
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complete and accurate model of what Mu2e will record during commissioning and first running period ('Run 1', add reference), | complete and accurate model of what Mu2e will record during commissioning and first running period ('Run 1', add reference), | ||
including OnSpill, OffSpill, and Extracted Position samples. The primary intended use case of these samples are: | including OnSpill, OffSpill, and Extracted Position samples. The primary intended use case of these samples are: | ||
* General Notes and Updates | |||
* Detector calibration and alignment, including cross-system (ie CRV to Calo) calibrations | * Detector calibration and alignment, including cross-system (ie CRV to Calo) calibrations | ||
* Detector commissioning | * Detector commissioning | ||
Line 11: | Line 12: | ||
* Science extraction framework and algorithm development | * Science extraction framework and algorithm development | ||
The | The detailed technical documentation of MDC2020 is in [https://mu2e-docdb.fnal.gov/cgi-bin/sso/ShowDocument?docid=44084 Doc-DB 44084]. These pages provide a list of the datasets produced and give | ||
time-dependent information. | |||
== | ==General Notes and Updates== | ||
As reported in [https://mu2e-docdb.fnal.gov/cgi-bin/sso/ShowDocument?docid=48705 this presentation] the G4 code used in all the MDC2020 simulations had missing contributions from delta rays in the calorimeter. This appears to mostly affect signals from cosmic muons. For precision studies using cosmic muons please contact the experts. | |||
== | ==Simulation Workflow== | ||
The | The samples described on this page were produced using the following workflows. Jobs were submitted using [[POMS]]. | ||
[[File:SimulationWorkflow.png|1024px|center|The workflow used for MDC2020.]] | [[File:SimulationWorkflow.png|1024px|center|The workflow used for MDC2020.]] | ||
===Cosmic Simulation campaigns=== | |||
===Cosmic Simulation | |||
The cosmic simulation creates a sample of cosmic rays with three different configurations: | The cosmic simulation creates a sample of cosmic rays with three different configurations: | ||
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* Standard position, magnetic field off | * Standard position, magnetic field off | ||
* Extracted position, magnetic field off | * Extracted position, magnetic field off | ||
====Standard position, magnetic field on - CORSIKA==== | |||
{| class="wikitable" | |||
! Stage !! S1 !! Size [T] !! Event count [1M] !! Event count/per file !! Livetime [s] per file !! nFiles !! Version !! Live-time [sec] !! Resampling factor | |||
|- | |||
| S1 || sim.mu2e.CosmicDSStopsCORSIKA.MDC2020ab.art || 0.122 || 1.8E+07 || 215.1 || 0.0534 || 82,330 || MDC2020ab || 4394 || NA | |||
|- | |||
| S1 || sim.mu2e.CosmicDSStopsCORSIKALow.MDC2020ab.art || 0.019 || 2.7E+06 || 32.6 || 0.0534 || 82,332 || MDC2020ab || 4394 || NA | |||
|- | |||
| S2 || dts.mu2e.CosmicCORSIKALow.MDC2020ae.art || 30 || 0.6E+09 || 7372 || 850 || 78,942 || MDC2020ae || 6.7E7 || 15000 | |||
|- | |||
| S2 || dts.mu2e.CosmicCORSIKAAll.MDC2020ae.art || 36 || 4.3E+09 || 53346 || 123 || 81,134 || MDC2020ae || 1.0E+07 || 2,278 | |||
|- | |||
| S2 filt || dts.mu2e.CosmicCORSIKASignalAll.MDC2020ae.art || 0.33 || 9.6E+06 || 11792 || 12469 || 812 || MDC2020ae || 1.0E+07 || 2,278 | |||
|- | |||
| S2 filt || dts.mu2e.CosmicCORSIKACalibAll.MDC2020ae.art || 0.10 || 1.1E+07 || 13833 || 125 || 812 || MDC2020ae || 1.0E+05 || | |||
|- | |||
| S2 filt || dts.mu2e.CosmicCORSIKASignalAll.MDC2020ag.art || 0.33 || 9.6E+06 || 11792 || 12469 || 81,134 || MDC2020ag || 1.0E+07 || 2,278 | |||
|- | |||
| S2 filt || dts.mu2e.CosmicCORSIKACalibAll.MDC2020ag.art || 0.10 || 1.1E+07 || 13833 || 125 || 81,134 || MDC2020ag || 1.0E+05 || | |||
|} | |||
====Standard position, magnetic field on - CRY==== | |||
{| class="wikitable" | |||
! Stage !! S1 !! Size [T] !! Event count !! Event count/per file !! Livetime [s] per file !! nFiles !! Version !! Live-time [sec] !! Resampling factor | |||
|- | |||
| S1 || sim.mu2e.CosmicDSStopsCRY.010622.art || 13.6 || 2.0E+09 || 42280.9 || 11.835 || 46,981 || MDC2020n || 556000 || NA | |||
|- | |||
| S1 || sim.mu2e.CosmicDSStopsLowCRY.010622.art || 0.71 || 2.4E+08 || 5204.2 || 11.835 || 46,981 || MDC2020n || 556000 || NA | |||
|- | |||
| S2 || dts.mu2e.CosmicCRYAll.MDC2020ae.art || 39 || 4.4E+09 || 54007 || 130 || 82,141 || MDC2020ae || 1.1E+07 || 19 | |||
|- | |||
| S2 filt || dts.mu2e.CosmicCRYSignalAll.MDC2020ae.art || 0.36 || 1E7 || 12226 || 12991 || 822 || MDC2020ae || 1.1E+07 || 19 | |||
|- | |||
| S2 filt || dts.mu2e.CosmicCRYCalibAll.MDC2020ae.art || 0.11 || 1.2E7 || 14150 || 130 || 822 || MDC2020ae || 1.1E+05 || | |||
|} | |||
===Beam Simulation POMS campaign=== | ===Beam Simulation POMS campaign=== | ||
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!| Offline ver | !| Offline ver | ||
!| Production ver | !| Production ver | ||
!| mu2e_trig_config ver | |||
!| Comments | !| Comments | ||
|- | |- | ||
|<tt> | |<tt>MDC2020ae</tt> | ||
|<tt> | |<tt>v10_29_00</tt> | ||
|<tt> | |<tt>v00_21_00</tt> | ||
|<tt> | |<tt>v01_02_00</tt> | ||
|<tt>Re-digitization and re-reconstruction of all datasets, new CORSIKA datasets </tt> | |||
|- | |||
|<tt>MDC2020z</tt> | |||
|<tt>v10_23_01</tt> | |||
|<tt>v00_16_00</tt> | |||
|<tt>-</tt> | |||
|<tt>Re-reconstruction of some datasets</tt> | |||
|- | |||
|<tt>MDC2020v</tt> | |||
|<tt>v10_20_00</tt> | |||
|<tt>v00_12_00</tt> | |||
|<tt>-</tt> | |||
|<tt>Special run (see below), not for standard physics studies! </tt> | |||
|- | |- | ||
|<tt>MDC2020t</tt> | |<tt>MDC2020t</tt> | ||
|<tt>v10_17_00</tt> | |<tt>v10_17_00</tt> | ||
|<tt>v00_09_11 </tt> | |<tt>v00_09_11 </tt> | ||
|<tt>-</tt> | |||
|<tt>several updates to many directories </tt> | |<tt>several updates to many directories </tt> | ||
|- | |- | ||
|<tt> | |<tt>MDC2020r</tt> | ||
|<tt> | |<tt>v00_09_02</tt> | ||
|<tt> | |<tt>v10_15_01</tt> | ||
|<tt> | |<tt>-</tt> | ||
|<tt>bug fix for digi stage</tt> | |||
|- | |- | ||
|} | |} | ||
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These are the datasets currently available which correspond to the full 100% campaign. The three digi and reco configurations ("perfect", "best", "reco") correspond to three different detector conditions as described in [https://mu2e-docdb.fnal.gov/cgi-bin/private/RetrieveFile?docid=42036&filename=purpose.key.pdf&version=1 DocDB 42036]. | These are the datasets currently available which correspond to the full 100% campaign. The three digi and reco configurations ("perfect", "best", "reco") correspond to three different detector conditions as described in [https://mu2e-docdb.fnal.gov/cgi-bin/private/RetrieveFile?docid=42036&filename=purpose.key.pdf&version=1 DocDB 42036]. | ||
To obtain details (number of events, number of files, GB, etc.) about a dataset you can use the <tt>datasetSummary.sh</tt> script, available in the Production repository. | |||
Note that, to obtain consistent results, you should use the same database version to process a dataset as it was produced with. Thus to read dig.mu2e.CeEndpointOnSpillTriggered.MDC2020ae_best_v1_3.art, you should configure your job to use database purpose 'best', version v1_3. For more details see the description of the [[ConditionsData#Using_the_conditions_database|conditions database]]. | |||
Note that datasets can require specific versions of our codes to process, as documented in the following table. Use of an inconsistent code version may result in job failure (exception) or incorrect results. | |||
{| class="wikitable" | |||
|- | |||
| Database version of dataset | |||
| Offline tag for processing dig (digis) | |||
| TrkAna tag for processing mcs (reco) | |||
|- | |||
|<tt>v1_3.art</tt> | |||
|>= v10_29_00 or HEAD | |||
|>= v05_02_00 or HEAD | |||
|- | |||
|<tt>v1_1.art</tt> | |||
|<= v10_28_00 * | |||
|<= v05_01_00 | |||
|} | |||
* Note that v1_1 and older digi datasets may still be processed by modern versions of Offline using additional fcl overrides described [[CalibrationSets#Working_with_incompatible_older_data_sets|here]]. mcs files produced this way can be used with any version of TrkAna. | |||
=== Reprocessed digitization and reconstruction datasets [2024]=== | |||
In May 2024 several samples were remade from the dts->digi and digi-->reco stages to incorporate updates in digitization algorithms, triggering, trigger streams, reconstruction, and db changes. | |||
The digitization stream is divided into 'Triggered', ie events which passed at least one reco-object based trigger selections, and 'Triggerable', ie events which pass a MC-truth based filter similar to the trigger selection. Note that these sets are not miscible (cannot be read in the same job) and the events selected do not have any pre-determined relation, ie one is not a subset of the other. | |||
Mixed: | |||
{| class="wikitable" | |||
! Digi !! Reco !! NTuple !! Comments | |||
|- | |||
| dig.mu2e.CeEndpointMix1BBTriggered.MDC2020ae_best_v1_3.art || None || || | |||
|- | |||
| dig.mu2e.CeEndpointMix1BBTriggered.MDC2020ae_perfect_v1_3.art || None || || | |||
|- | |||
| dig.mu2e.CeEndpointMix2BBTriggered.MDC2020ae_best_v1_3.art || mcs.mu2e.CeEndpointMix2BBTriggered.MDC2020ae_best_v1_3.art || || | |||
|- | |||
| dig.mu2e.CeEndpointMix2BBTriggered.MDC2020ae_perfect_v1_3.art || mcs.mu2e.CeEndpointMix2BBTriggered.MDC2020ae_perfect_v1_3.art || || | |||
|- | |||
| dig.mu2e.CePlusEndpointMix1BBTriggered.MDC2020ae_best_v1_3.art || None || || | |||
|- | |||
| dig.mu2e.CePlusEndpointMix1BBTriggered.MDC2020ae_perfect_v1_3.art || None || || | |||
|- | |||
| dig.mu2e.NoPrimaryMix1BBTriggered.MDC2020ae_best_v1_3.art || mcs.mu2e.NoPrimaryMix1BBTriggered.MDC2020ae_best_v1_3.art || || | |||
|- | |||
| dig.mu2e.NoPrimaryMix1BBTriggered.MDC2020ae_perfect_v1_3.art || mcs.mu2e.NoPrimaryMix1BBTriggered.MDC2020ae_perfect_v1_3.art || || | |||
|- | |||
| dig.mu2e.NoPrimaryMix2BBTriggered.MDC2020ae_best_v1_3.art || mcs.mu2e.NoPrimaryMix2BBTriggered.MDC2020ae_best_v1_3.art || || | |||
|- | |||
| dig.mu2e.NoPrimaryMix2BBTriggered.MDC2020ae_perfect_v1_3.art || mcs.mu2e.NoPrimaryMix2BBTriggered.MDC2020ae_perfect_v1_3.art || || | |||
|} | |||
Primaries: | |||
{| class="wikitable" | |||
! Digi !! Reco !! NTuple !! Comments | |||
|- | |||
| dig.mu2e.CeEndpointOnSpillTriggered.MDC2020ae_best_v1_3.art || mcs.mu2e.CeEndpointOnSpillTriggered.MDC2020ae_best_v1_3.art || || | |||
|- | |||
| dig.mu2e.CeEndpointOnSpillTriggered.MDC2020ae_perfect_v1_3.art || mcs.mu2e.CeEndpointOnSpillTriggered.MDC2020ae_perfect_v1_3.art || || | |||
|- | |||
| dig.mu2e.CePlusEndpointOnSpillTriggered.MDC2020ae_best_v1_3.art || mcs.mu2e.CePlusEndpointOnSpillTriggered.MDC2020ae_best_v1_3.art || || | |||
|- | |||
| dig.mu2e.CePlusEndpointOnSpillTriggered.MDC2020ae_perfect_v1_3.art || mcs.mu2e.CePlusEndpointOnSpillTriggered.MDC2020ae_perfect_v1_3.art || || | |||
|- | |||
| dig.mu2e.CosmicCORSIKACalibAllOffSpillTriggered.MDC2020ae_best_v1_3.art || mcs.mu2e.CosmicCORSIKACalibAllOffSpillTriggered.MDC2020ae_best_v1_3.art || || | |||
|- | |||
| dig.mu2e.CosmicCORSIKACalibAllOffSpillTriggered.MDC2020ae_perfect_v1_3.art || mcs.mu2e.CosmicCORSIKACalibAllOffSpillTriggered.MDC2020ae_perfect_v1_3.art || || | |||
|- | |||
| dig.mu2e.CosmicCORSIKACalibAllOnSpillTriggered.MDC2020ae_best_v1_3.art || mcs.mu2e.CosmicCORSIKACalibAllOnSpillTriggered.MDC2020ae_best_v1_3.art || || | |||
|- | |||
| dig.mu2e.CosmicCORSIKACalibAllOnSpillTriggered.MDC2020ae_perfect_v1_3.art || mcs.mu2e.CosmicCORSIKACalibAllOnSpillTriggered.MDC2020ae_perfect_v1_3.art || || | |||
|- | |||
| dig.mu2e.CosmicCORSIKASignalAllOffSpillTriggered.MDC2020ae_best_v1_3.art || None || || | |||
|- | |||
| dig.mu2e.CosmicCORSIKASignalAllOffSpillTriggered.MDC2020ae_perfect_v1_3.art || mcs.mu2e.CosmicCORSIKASignalAllOffSpillTriggered.MDC2020ae_perfect_v1_3.art || || | |||
|- | |||
| dig.mu2e.CosmicCORSIKASignalAllOnSpillTriggered.MDC2020ae_best_v1_3.art || None || || | |||
|- | |||
| dig.mu2e.CosmicCORSIKASignalAllOnSpillTriggered.MDC2020ae_perfect_v1_3.art || mcs.mu2e.CosmicCORSIKASignalAllOnSpillTriggered.MDC2020ae_perfect_v1_3.art || || | |||
|- | |||
| dig.mu2e.CosmicCRYExtractedCatTriggered.MDC2020ae_best_v1_3.art || mcs.mu2e.CosmicCRYExtractedCatTriggered.MDC2020ae_best_v1_3.art || || | |||
|} | |||
=== Reprocessed reconstruction datasets [2023]=== | |||
In Sept 2023 several samples were remade from the digi-->reco stage to incorporate updates in reconstruction and db changes. | |||
{| class="wikitable" | |||
|- | |||
!| Digi | |||
!| Reco | |||
!| NTuple | |||
!| Comments | |||
|- | |||
|<tt>dig.mu2e.CeEndpointMix1BBSignal.MDC2020r_best_v1_0.art</tt> | |||
|<tt>mcs.mu2e.CeEndpointMix1BBSignal.MDC2020z_best_v1_1.art</tt> | |||
|<tt>nts.mu2e.CeEndpointMix1BBSignalMix1BB.MDC2020z1_best_v1_1_std_v04_01_00.tka</tt> | |||
|<tt></tt> | |||
|- | |||
|- | |||
|<tt>dig.mu2e.FlateminusMix1BBSignal.MDC2020r_best_v1_0.art</tt> | |||
|<tt>mcs.mu2e.FlateminusMix1BBSignal.MDC2020z_best_v1_1.art</tt> | |||
|<tt></tt> | |||
|<tt></tt> | |||
|- | |||
|- | |||
|<tt>dig.mu2e.CosmicCRYExtractedCatDigiTrk.MDC2020r.art</tt> | |||
|<tt>mcs.mu2e.CosmicCRYExtractedCatDigiTrk.MDC2020z.art</tt> | |||
|<tt>nts.mu2e.CosmicCRYExtractedTrk.MDC2020z1_best_v1_1_std_v04_01_00.tka</tt> | |||
|<tt>naming issue: best, v1_1</tt> | |||
|} | |||
=== Original datasets; most of these have been supersceded. You must use an appropriate tag of Mu2e code to process these datasets, see the table above === | |||
The digitization stream is divided into five parts: Signal, Diag, Trk, Calo, Untriggered, which are described in [https://mu2e-docdb.fnal.gov/cgi-bin/sso/ShowDocument?docid=41757 DocDB 41757]. To obtain details (number of events, number of files, GB, etc.) about a dataset you can use the <tt>datasetSummary.sh</tt> script, available in the Production repository. | The digitization stream is divided into five parts: Signal, Diag, Trk, Calo, Untriggered, which are described in [https://mu2e-docdb.fnal.gov/cgi-bin/sso/ShowDocument?docid=41757 DocDB 41757]. To obtain details (number of events, number of files, GB, etc.) about a dataset you can use the <tt>datasetSummary.sh</tt> script, available in the Production repository. | ||
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|- | |- | ||
|<tt>dig.mu2e.CosmicCRYExtractedCatDigi*.MDC2020y_'''[stream]'''_v1_1.art (~10 hour of cosmic livetime)</tt> | |<tt>dig.mu2e.CosmicCRYExtractedCatDigi*.MDC2020y_'''[stream]'''_v1_1.art (~10 hour of cosmic livetime)</tt> | ||
|<tt></tt> | |<tt></tt> | ||
|} | |} | ||
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* dig.mu2e.FlatGammaOnSpillConv.MDC2020z_sm3_perfect_v1_0.art | * dig.mu2e.FlatGammaOnSpillConv.MDC2020z_sm3_perfect_v1_0.art | ||
===DIOtail === | |||
Two DIOtail test samples are available at dts stage. These use a binned spectrum based on Czarnecki et al. | |||
{| class="wikitable" | |||
|- | |||
!| momentum cut | |||
!| release | |||
!| filename | |||
!| files | |||
!| events | |||
|- | |||
|<tt>p > 95 MeV/c</tt> | |||
|<tt>MDC2020ad</tt> | |||
|<tt>dts.mu2e.DIOtail.MDC2020ad.art</tt> | |||
|<tt>99</tt> | |||
|<tt>1534077</tt> | |||
|- | |||
|<tt>p > 75 MeV/c</tt> | |||
|<tt>MDC2020ad_sm0</tt> | |||
|<tt>dts.mu2e.DIOtail.MDC2020ad_sm0.art</tt> | |||
|<tt>83</tt> | |||
|<tt>30357435</tt> | |||
|- | |||
|<tt></tt> | |||
|} | |||
=== | ===Beam Pileup datasets=== | ||
The final production | The final production beam pileup (detector signals from beam particles) datasets for normal mixing are listed below. Note that normal workflows do not require | ||
you to ever directly access these: mixing jobs to use these should be configured using the Production/Scripts/gen_Mix.sh | you to ever directly access these: mixing jobs to use these should be configured using the Production/Scripts/gen_Mix.sh | ||
script. | script. | ||
Line 233: | Line 405: | ||
19 859 1151125 dts.mu2e.EarlyMuBeamFlashCat.MDC2020p.art | 19 859 1151125 dts.mu2e.EarlyMuBeamFlashCat.MDC2020p.art | ||
== | ==Sim Datasets== | ||
Datasets from early stages of production are available for testing, including: | |||
===Beam=== | |||
TODO | |||
===Stops=== | |||
{| class="wikitable" | |||
|- | |||
! Dataset !! Description | |||
|- | |||
| sim.mu2e.MuminusStopsCat.MDC2020p.art || Negative muon stops in the stopping target, used in muon daughter primary and pileup production campaigns | |||
|- | |||
| sim.mu2e.IPAMuminusStopsCat.MDC2020r.art ||Negative muon stops in the IPA, used to produce calibration samples of Michel electrons | |||
|- | |||
| sim.mu2e.MuplusStopsCat.MDC2020t.art || Positive muon stops in the stopping target. There are only a few thousand of these and they are highly asymmetric | |||
|} | |||
==Pions== | |||
The pion beam campaign is a separate one from the main muon campaign. The naming convention for the various stages follows that of the muon beam campaign. Two pion beam campaigns were carried out: MDC2020r and MDC2020t | |||
= | {| class="wikitable" | ||
|- | |||
! Dataset !! Description | |||
|- | |||
| sim.mu2e.PiminusStopsCat.MDC2020t.art || Negative pion stops in the stopping target, pions have an infinite lifetime | |||
|- | |||
| sim.mu2e.PiplusStopsCat.MDC2020t.art || positive pion stops in the stopping target, pions have an infinite lifetime | |||
|} | |||
== | ==Older Datasets== | ||
1% and 10% test datasets were produced when testing MDC2020, these still show up in samweb listings but | |||
have been superseded and should not be used anymore. This includes datasets with the following descriptions: | |||
MDC2020k | |||
MDC2020km | |||
MDC2020n_10h | |||
MDC2020n_10pc | |||
Latest revision as of 13:50, 17 October 2024
Introduction
MDC2020 is an end-to-end production using updated geometry, detector simulations, persistent schema, and simulation workflows compared to MDC2018. The goal is to provide a reasonably complete and accurate model of what Mu2e will record during commissioning and first running period ('Run 1', add reference), including OnSpill, OffSpill, and Extracted Position samples. The primary intended use case of these samples are:
- General Notes and Updates
- Detector calibration and alignment, including cross-system (ie CRV to Calo) calibrations
- Detector commissioning
- Trigger algorithm testing and development
- TDAQ to Offline data transfer workflows
- Offline reconstruction algorithm development
- Science extraction framework and algorithm development
The detailed technical documentation of MDC2020 is in Doc-DB 44084. These pages provide a list of the datasets produced and give time-dependent information.
General Notes and Updates
As reported in this presentation the G4 code used in all the MDC2020 simulations had missing contributions from delta rays in the calorimeter. This appears to mostly affect signals from cosmic muons. For precision studies using cosmic muons please contact the experts.
Simulation Workflow
The samples described on this page were produced using the following workflows. Jobs were submitted using POMS.
Cosmic Simulation campaigns
The cosmic simulation creates a sample of cosmic rays with three different configurations:
- Standard position, magnetic field on
- Standard position, magnetic field off
- Extracted position, magnetic field off
Standard position, magnetic field on - CORSIKA
Stage | S1 | Size [T] | Event count [1M] | Event count/per file | Livetime [s] per file | nFiles | Version | Live-time [sec] | Resampling factor |
---|---|---|---|---|---|---|---|---|---|
S1 | sim.mu2e.CosmicDSStopsCORSIKA.MDC2020ab.art | 0.122 | 1.8E+07 | 215.1 | 0.0534 | 82,330 | MDC2020ab | 4394 | NA |
S1 | sim.mu2e.CosmicDSStopsCORSIKALow.MDC2020ab.art | 0.019 | 2.7E+06 | 32.6 | 0.0534 | 82,332 | MDC2020ab | 4394 | NA |
S2 | dts.mu2e.CosmicCORSIKALow.MDC2020ae.art | 30 | 0.6E+09 | 7372 | 850 | 78,942 | MDC2020ae | 6.7E7 | 15000 |
S2 | dts.mu2e.CosmicCORSIKAAll.MDC2020ae.art | 36 | 4.3E+09 | 53346 | 123 | 81,134 | MDC2020ae | 1.0E+07 | 2,278 |
S2 filt | dts.mu2e.CosmicCORSIKASignalAll.MDC2020ae.art | 0.33 | 9.6E+06 | 11792 | 12469 | 812 | MDC2020ae | 1.0E+07 | 2,278 |
S2 filt | dts.mu2e.CosmicCORSIKACalibAll.MDC2020ae.art | 0.10 | 1.1E+07 | 13833 | 125 | 812 | MDC2020ae | 1.0E+05 | |
S2 filt | dts.mu2e.CosmicCORSIKASignalAll.MDC2020ag.art | 0.33 | 9.6E+06 | 11792 | 12469 | 81,134 | MDC2020ag | 1.0E+07 | 2,278 |
S2 filt | dts.mu2e.CosmicCORSIKACalibAll.MDC2020ag.art | 0.10 | 1.1E+07 | 13833 | 125 | 81,134 | MDC2020ag | 1.0E+05 |
Standard position, magnetic field on - CRY
Stage | S1 | Size [T] | Event count | Event count/per file | Livetime [s] per file | nFiles | Version | Live-time [sec] | Resampling factor |
---|---|---|---|---|---|---|---|---|---|
S1 | sim.mu2e.CosmicDSStopsCRY.010622.art | 13.6 | 2.0E+09 | 42280.9 | 11.835 | 46,981 | MDC2020n | 556000 | NA |
S1 | sim.mu2e.CosmicDSStopsLowCRY.010622.art | 0.71 | 2.4E+08 | 5204.2 | 11.835 | 46,981 | MDC2020n | 556000 | NA |
S2 | dts.mu2e.CosmicCRYAll.MDC2020ae.art | 39 | 4.4E+09 | 54007 | 130 | 82,141 | MDC2020ae | 1.1E+07 | 19 |
S2 filt | dts.mu2e.CosmicCRYSignalAll.MDC2020ae.art | 0.36 | 1E7 | 12226 | 12991 | 822 | MDC2020ae | 1.1E+07 | 19 |
S2 filt | dts.mu2e.CosmicCRYCalibAll.MDC2020ae.art | 0.11 | 1.2E7 | 14150 | 130 | 822 | MDC2020ae | 1.1E+05 |
Beam Simulation POMS campaign
The goal of the beam campaign is to generate the particles needed for mixing (muons, electrons, neutrals) starting from the protons on target (POT stage).
Digitization and mixing POMS campaign
For each primary (e.g. DIO, CeEndpoint, CePlusEndpoint, etc.) we run digitization and reconstruction with ("mix" output) and without beam mixing ("digi" output). The beam mixing stream is divided into three branches one per configuration ("perfect", "best", "reco").
To run mixing on a new primary you should use a clone of the production POMS campaign, substituting your primary for one of the existing (CeEndpont, etc). Note that the new primary must have been entered into the SAM database as part of MDC2020 production, preferably using a clone of the primary POMS campaign.
to TEST mixing, you can manually invoke the scripts, as in the following example:
> cd mymusedir > muse setup > setup dhtools > setup mu2etools > kx509 > vomsCert > git clone git@github.com:Mu2e/Production.git > source Production/Scripts/gen_Mix.sh CeEndpoint MDC2020 p r v perfect v2_0 1BB > mu2e -c CeEndpointMix1BB_000/cnf.mu2e.CeEndpointMix1BB.MDC2020v_perfect_v2_0.001210_00000000.fcl --nevts 10
Recent Campaigns
The most recent MDC2020 campaigns are detailed below along with their Offline and Production versions as well as any useful information:
Campaign | Offline ver | Production ver | mu2e_trig_config ver | Comments |
---|---|---|---|---|
MDC2020ae | v10_29_00 | v00_21_00 | v01_02_00 | Re-digitization and re-reconstruction of all datasets, new CORSIKA datasets |
MDC2020z | v10_23_01 | v00_16_00 | - | Re-reconstruction of some datasets |
MDC2020v | v10_20_00 | v00_12_00 | - | Special run (see below), not for standard physics studies! |
MDC2020t | v10_17_00 | v00_09_11 | - | several updates to many directories |
MDC2020r | v00_09_02 | v10_15_01 | - | bug fix for digi stage |
Current Datasets
These are the datasets currently available which correspond to the full 100% campaign. The three digi and reco configurations ("perfect", "best", "reco") correspond to three different detector conditions as described in DocDB 42036.
To obtain details (number of events, number of files, GB, etc.) about a dataset you can use the datasetSummary.sh script, available in the Production repository.
Note that, to obtain consistent results, you should use the same database version to process a dataset as it was produced with. Thus to read dig.mu2e.CeEndpointOnSpillTriggered.MDC2020ae_best_v1_3.art, you should configure your job to use database purpose 'best', version v1_3. For more details see the description of the conditions database.
Note that datasets can require specific versions of our codes to process, as documented in the following table. Use of an inconsistent code version may result in job failure (exception) or incorrect results.
Database version of dataset | Offline tag for processing dig (digis) | TrkAna tag for processing mcs (reco) |
v1_3.art | >= v10_29_00 or HEAD | >= v05_02_00 or HEAD |
v1_1.art | <= v10_28_00 * | <= v05_01_00 |
* Note that v1_1 and older digi datasets may still be processed by modern versions of Offline using additional fcl overrides described here. mcs files produced this way can be used with any version of TrkAna.
Reprocessed digitization and reconstruction datasets [2024]
In May 2024 several samples were remade from the dts->digi and digi-->reco stages to incorporate updates in digitization algorithms, triggering, trigger streams, reconstruction, and db changes.
The digitization stream is divided into 'Triggered', ie events which passed at least one reco-object based trigger selections, and 'Triggerable', ie events which pass a MC-truth based filter similar to the trigger selection. Note that these sets are not miscible (cannot be read in the same job) and the events selected do not have any pre-determined relation, ie one is not a subset of the other.
Mixed:
Digi | Reco | NTuple | Comments |
---|---|---|---|
dig.mu2e.CeEndpointMix1BBTriggered.MDC2020ae_best_v1_3.art | None | ||
dig.mu2e.CeEndpointMix1BBTriggered.MDC2020ae_perfect_v1_3.art | None | ||
dig.mu2e.CeEndpointMix2BBTriggered.MDC2020ae_best_v1_3.art | mcs.mu2e.CeEndpointMix2BBTriggered.MDC2020ae_best_v1_3.art | ||
dig.mu2e.CeEndpointMix2BBTriggered.MDC2020ae_perfect_v1_3.art | mcs.mu2e.CeEndpointMix2BBTriggered.MDC2020ae_perfect_v1_3.art | ||
dig.mu2e.CePlusEndpointMix1BBTriggered.MDC2020ae_best_v1_3.art | None | ||
dig.mu2e.CePlusEndpointMix1BBTriggered.MDC2020ae_perfect_v1_3.art | None | ||
dig.mu2e.NoPrimaryMix1BBTriggered.MDC2020ae_best_v1_3.art | mcs.mu2e.NoPrimaryMix1BBTriggered.MDC2020ae_best_v1_3.art | ||
dig.mu2e.NoPrimaryMix1BBTriggered.MDC2020ae_perfect_v1_3.art | mcs.mu2e.NoPrimaryMix1BBTriggered.MDC2020ae_perfect_v1_3.art | ||
dig.mu2e.NoPrimaryMix2BBTriggered.MDC2020ae_best_v1_3.art | mcs.mu2e.NoPrimaryMix2BBTriggered.MDC2020ae_best_v1_3.art | ||
dig.mu2e.NoPrimaryMix2BBTriggered.MDC2020ae_perfect_v1_3.art | mcs.mu2e.NoPrimaryMix2BBTriggered.MDC2020ae_perfect_v1_3.art |
Primaries:
Digi | Reco | NTuple | Comments |
---|---|---|---|
dig.mu2e.CeEndpointOnSpillTriggered.MDC2020ae_best_v1_3.art | mcs.mu2e.CeEndpointOnSpillTriggered.MDC2020ae_best_v1_3.art | ||
dig.mu2e.CeEndpointOnSpillTriggered.MDC2020ae_perfect_v1_3.art | mcs.mu2e.CeEndpointOnSpillTriggered.MDC2020ae_perfect_v1_3.art | ||
dig.mu2e.CePlusEndpointOnSpillTriggered.MDC2020ae_best_v1_3.art | mcs.mu2e.CePlusEndpointOnSpillTriggered.MDC2020ae_best_v1_3.art | ||
dig.mu2e.CePlusEndpointOnSpillTriggered.MDC2020ae_perfect_v1_3.art | mcs.mu2e.CePlusEndpointOnSpillTriggered.MDC2020ae_perfect_v1_3.art | ||
dig.mu2e.CosmicCORSIKACalibAllOffSpillTriggered.MDC2020ae_best_v1_3.art | mcs.mu2e.CosmicCORSIKACalibAllOffSpillTriggered.MDC2020ae_best_v1_3.art | ||
dig.mu2e.CosmicCORSIKACalibAllOffSpillTriggered.MDC2020ae_perfect_v1_3.art | mcs.mu2e.CosmicCORSIKACalibAllOffSpillTriggered.MDC2020ae_perfect_v1_3.art | ||
dig.mu2e.CosmicCORSIKACalibAllOnSpillTriggered.MDC2020ae_best_v1_3.art | mcs.mu2e.CosmicCORSIKACalibAllOnSpillTriggered.MDC2020ae_best_v1_3.art | ||
dig.mu2e.CosmicCORSIKACalibAllOnSpillTriggered.MDC2020ae_perfect_v1_3.art | mcs.mu2e.CosmicCORSIKACalibAllOnSpillTriggered.MDC2020ae_perfect_v1_3.art | ||
dig.mu2e.CosmicCORSIKASignalAllOffSpillTriggered.MDC2020ae_best_v1_3.art | None | ||
dig.mu2e.CosmicCORSIKASignalAllOffSpillTriggered.MDC2020ae_perfect_v1_3.art | mcs.mu2e.CosmicCORSIKASignalAllOffSpillTriggered.MDC2020ae_perfect_v1_3.art | ||
dig.mu2e.CosmicCORSIKASignalAllOnSpillTriggered.MDC2020ae_best_v1_3.art | None | ||
dig.mu2e.CosmicCORSIKASignalAllOnSpillTriggered.MDC2020ae_perfect_v1_3.art | mcs.mu2e.CosmicCORSIKASignalAllOnSpillTriggered.MDC2020ae_perfect_v1_3.art | ||
dig.mu2e.CosmicCRYExtractedCatTriggered.MDC2020ae_best_v1_3.art | mcs.mu2e.CosmicCRYExtractedCatTriggered.MDC2020ae_best_v1_3.art |
Reprocessed reconstruction datasets [2023]
In Sept 2023 several samples were remade from the digi-->reco stage to incorporate updates in reconstruction and db changes.
Digi | Reco | NTuple | Comments |
---|---|---|---|
dig.mu2e.CeEndpointMix1BBSignal.MDC2020r_best_v1_0.art | mcs.mu2e.CeEndpointMix1BBSignal.MDC2020z_best_v1_1.art | nts.mu2e.CeEndpointMix1BBSignalMix1BB.MDC2020z1_best_v1_1_std_v04_01_00.tka | |
dig.mu2e.FlateminusMix1BBSignal.MDC2020r_best_v1_0.art | mcs.mu2e.FlateminusMix1BBSignal.MDC2020z_best_v1_1.art | ||
dig.mu2e.CosmicCRYExtractedCatDigiTrk.MDC2020r.art | mcs.mu2e.CosmicCRYExtractedCatDigiTrk.MDC2020z.art | nts.mu2e.CosmicCRYExtractedTrk.MDC2020z1_best_v1_1_std_v04_01_00.tka | naming issue: best, v1_1 |
Original datasets; most of these have been supersceded. You must use an appropriate tag of Mu2e code to process these datasets, see the table above
The digitization stream is divided into five parts: Signal, Diag, Trk, Calo, Untriggered, which are described in DocDB 41757. To obtain details (number of events, number of files, GB, etc.) about a dataset you can use the datasetSummary.sh script, available in the Production repository.
In the following summary, [stream] can be Untriggered, Calo, Signal, Diag, Trk and [purpose] can be perfect, best, startup. The digitization [digi] can be Mix[intensity] for mixed samples, OnSpill for unmixed samples. An [intensity] of 1BB corresponds to 1 booster proton batch, 2BB means 2 booster proton batches. MDC2020 also supports 'Low' intensity, but no production samples of that have been produced yet. 'Sequential' mixing is a special case where a fixed pattern of individual proton bunch intensities from a detailed beam slow extraction simulation is used instead of the lognormal intensity generator. Reconstructed (mcs) datasets are currently only available for Signal the stream.
NB: due to a configuration bug the CosmicLivetime data product was dropped from the dig and mcs datasets for MDC2020v production and earlier.
Digi | Reco |
---|---|
dig.mu2e.CeEndpoint[digi][stream].MDC2020r_[purpose]_v1_0.art | mcs.mu2e.CeEndpoint[digi]Signal.MDC2020r_[purpose]_v1_0.art |
dig.mu2e.CePlusEndpoint[digi][stream].MDC2020r_[purpose]_v1_0.art | mcs.mu2e.CePlusEndpoint[digi]Signal.MDC2020r_[purpose]_v1_0.art |
dig.mu2e.FlateMinus[digi][stream].MDC2020r_[purpose]_v1_0.art | mcs.mu2e.FlateMinus[digi]Signal.MDC2020r_[purpose]_v1_0.art |
dig.mu2e.FlatePlus[digi][stream].MDC2020r_[purpose]_v1_0.art | mcs.mu2e.FlatePlus[digi]Signal.MDC2020r_[purpose]_v1_0.art |
dig.mu2e.NoPrimary[digi][stream].MDC2020r_[purpose]_v1_0.art | mcs.mu2e.NoPrimary[digi]Signal.MDC2020r_[purpose]_v1_0.art |
dig.mu2e.PBINormal_33344MixSeq[stream].MDC2020r_[purpose]_v1_0.art |
mcs.mu2e.PBINormal_33344MixSeqSignal.MDC2020r_[purpose]_v1_0.art |
dig.mu2e.PBIPathological_33344MixSeq[stream].MDC2020r_[purpose]_v1_0.art | mcs.mu2e.PBIPathological_33344MixSeqSignal.MDC2020r_[purpose]_v1_0.art |
dig.mu2e.IPAMuminusMichel[digi][stream].MDC2020r_[purpose]_v1_0.art | mcs.mu2e.IPAMuminusMichel[digi]Signal.MDC2020r_[purpose]_v1_0.art |
dig.mu2e.IPAFlateMinus[digi][stream].MDC2020r_[purpose]_v1_0.art | mcs.mu2e.IPAFlateMinus[digi]Signal.MDC2020r_[purpose]_v1_0.art |
dig.mu2e.NoPrimaryMix2BB[digi][stream].MDC2020v.art | ... |
dig.mu2e.CosmicCORSIKAExtractedNoFieldTrk[stream].MDC2020r_[purpose]_v1_0.art (~1 hour of cosmic livetime) | |
dig.mu2e.CosmicCRYExtractedCatDigi*.MDC2020y_[stream]_v1_1.art (~10 hour of cosmic livetime) |
Special datasets
In order to assess the impact of a degraded field from coil 11 in the DS a special CeEndpoint campaign was run. In total 100K CeEndpoints were ran with the updated field map which was passed to the Mu2e/Offline code via the Production scripts. This is currently tagged as MDC2020v. Mixed and OnSpill samples were produced assuming 1BB mode of operation. The datasets with degraded DS field are:
Digi | Reco |
---|---|
dig.mu2e.CeEndpoint[digi][stream].MDC2020v_[purpose]_v1_0.art | mcs.mu2e.CeEndpoint[digi]Signal.MDC2020v_[purpose]_v1_0.art |
Argonne CRY datasets
These are CRY datasets produced by Yuri Oksuzian on the Argonne supercomputer
location records files MB events dataset
T 2237 2237 559 0 dig.mu2e.CosmicCRYhiOnSpillCalo.MDC2020r_perfect_v1_0.art T 2237 2237 559 0 dig.mu2e.CosmicCRYhiOnSpillDiag.MDC2020r_perfect_v1_0.art T 2237 2237 10494 137638 dig.mu2e.CosmicCRYhiOnSpillSignal.MDC2020r_perfect_v1_0.art T 2237 2237 2275 19387 dig.mu2e.CosmicCRYhiOnSpillTrk.MDC2020r_perfect_v1_0.art T 2237 2237 14472 891925 dig.mu2e.CosmicCRYhiOnSpillUntriggered.MDC2020r_perfect_v1_0.art T 200 200 1099 169 dig.mu2e.CosmicCRYhiSigFiltMix2BBCalo.MDC2020s_perfect_v1_0.art T 200 200 145 0 dig.mu2e.CosmicCRYhiSigFiltMix2BBDiag.MDC2020s_perfect_v1_0.art T 200 200 370173 87358 dig.mu2e.CosmicCRYhiSigFiltMix2BBSignal.MDC2020s_perfect_v1_0.art T 200 200 39523 9099 dig.mu2e.CosmicCRYhiSigFiltMix2BBTrk.MDC2020s_perfect_v1_0.art T 200 200 137872 30371 dig.mu2e.CosmicCRYhiSigFiltMix2BBUntriggered.MDC2020s_perfect_v1_0.art T 7897 7896 1964 0 dig.mu2e.CosmicCRYloOnSpillCalo.MDC2020r_perfect_v1_0.art T 7897 7897 1964 0 dig.mu2e.CosmicCRYloOnSpillDiag.MDC2020r_perfect_v1_0.art T 7897 7897 25841 392295 dig.mu2e.CosmicCRYloOnSpillSignal.MDC2020r_perfect_v1_0.art T 7897 7896 5609 45496 dig.mu2e.CosmicCRYloOnSpillTrk.MDC2020r_perfect_v1_0.art T 7897 7897 51348 4324567 dig.mu2e.CosmicCRYloOnSpillUntriggered.MDC2020r_perfect_v1_0.art T 213 213 14993 126613 mcs.mu2e.CosmicCRYhiOnSpillSignal.MDC2020r_perfect_v1_0.art T 196 196 29577 82601 mcs.mu2e.CosmicCRYhiSigFiltMix2BBSignal.MDC2020s_perfect_v1_0.art T 781 781 43287 379186 mcs.mu2e.CosmicCRYloOnSpillSignal.MDC2020r_perfect_v1_0.art
Flat Gamma Samples
The following samples were made with these changes to the ``PrimaryFilter":
- MinimumPartMom : 20.0 # MeV/c (nominal = 50)
- MinimumTrkSteps : 2 # primary must produce at least this many TrkSteps (nominal = 12)
- MinimumSumCaloStepE : 5.0 # or at least this much calo energy (nominal = 5)
A Flat photon 70-102 MeV/c spectrum was generated from initial stopped muons, detector steps and digi files are available:
- dts.mu2e.FlatGamma.MDC2020z_sm3.art
- dig.mu2e.FlatGammaOnSpillConv.MDC2020z_sm3_perfect_v1_0.art
DIOtail
Two DIOtail test samples are available at dts stage. These use a binned spectrum based on Czarnecki et al.
momentum cut | release | filename | files | events |
---|---|---|---|---|
p > 95 MeV/c | MDC2020ad | dts.mu2e.DIOtail.MDC2020ad.art | 99 | 1534077 |
p > 75 MeV/c | MDC2020ad_sm0 | dts.mu2e.DIOtail.MDC2020ad_sm0.art | 83 | 30357435 |
Beam Pileup datasets
The final production beam pileup (detector signals from beam particles) datasets for normal mixing are listed below. Note that normal workflows do not require you to ever directly access these: mixing jobs to use these should be configured using the Production/Scripts/gen_Mix.sh script.
files MB events dataset
9598 2948814 874688822 dts.mu2e.NeutralsFlashCat.MDC2020p.art 9700 211960 248809400 dts.mu2e.EleBeamFlashCat.MDC2020p.art 50 47481 43638457 dts.mu2e.MuStopPileupCat.MDC2020p.art 20 15659 22262973 dts.mu2e.MuBeamFlashCat.MDC2020p.art
The NeutralsFlashCat and EleBeamFlash datasets are quite large and require a lot of staging time and space
In addition, there are production background datasets for early digitization mixing listed below. Note there are no 'Early' MuStopPileup, as the standard dataset version of those works fine for early (>200ns) digitization mixing.
files MB events dataset
179 2279 521442 dts.mu2e.EarlyNeutralsFlashCat.MDC2020p.art 92 425 113819 dts.mu2e.EarlyEleBeamFlashCat.MDC2020p.art 19 859 1151125 dts.mu2e.EarlyMuBeamFlashCat.MDC2020p.art
Sim Datasets
Datasets from early stages of production are available for testing, including:
Beam
TODO
Stops
Dataset | Description |
---|---|
sim.mu2e.MuminusStopsCat.MDC2020p.art | Negative muon stops in the stopping target, used in muon daughter primary and pileup production campaigns |
sim.mu2e.IPAMuminusStopsCat.MDC2020r.art | Negative muon stops in the IPA, used to produce calibration samples of Michel electrons |
sim.mu2e.MuplusStopsCat.MDC2020t.art | Positive muon stops in the stopping target. There are only a few thousand of these and they are highly asymmetric |
Pions
The pion beam campaign is a separate one from the main muon campaign. The naming convention for the various stages follows that of the muon beam campaign. Two pion beam campaigns were carried out: MDC2020r and MDC2020t
Dataset | Description |
---|---|
sim.mu2e.PiminusStopsCat.MDC2020t.art | Negative pion stops in the stopping target, pions have an infinite lifetime |
sim.mu2e.PiplusStopsCat.MDC2020t.art | positive pion stops in the stopping target, pions have an infinite lifetime |
Older Datasets
1% and 10% test datasets were produced when testing MDC2020, these still show up in samweb listings but have been superseded and should not be used anymore. This includes datasets with the following descriptions: MDC2020k MDC2020km MDC2020n_10h MDC2020n_10pc