/
OnMc_HLT_PIon.py
8417 lines (8381 loc) · 373 KB
/
OnMc_HLT_PIon.py
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# /dev/CMSSW_7_2_1/PIon/V59 (CMSSW_7_2_1_patch2)
import FWCore.ParameterSet.Config as cms
process = cms.Process( "HLTPIon" )
process.HLTConfigVersion = cms.PSet(
tableName = cms.string('/dev/CMSSW_7_2_1/PIon/V59')
)
process.HLTIter4PSetTrajectoryFilterIT = cms.PSet(
minPt = cms.double( 0.3 ),
minHitsMinPt = cms.int32( 3 ),
ComponentType = cms.string( "CkfBaseTrajectoryFilter" ),
maxLostHits = cms.int32( 0 ),
maxNumberOfHits = cms.int32( 100 ),
maxConsecLostHits = cms.int32( 1 ),
minimumNumberOfHits = cms.int32( 6 ),
nSigmaMinPt = cms.double( 5.0 ),
chargeSignificance = cms.double( -1.0 )
)
process.HLTIter3PSetTrajectoryFilterIT = cms.PSet(
minPt = cms.double( 0.3 ),
minHitsMinPt = cms.int32( 3 ),
ComponentType = cms.string( "CkfBaseTrajectoryFilter" ),
maxLostHits = cms.int32( 0 ),
maxNumberOfHits = cms.int32( 100 ),
maxConsecLostHits = cms.int32( 1 ),
minimumNumberOfHits = cms.int32( 3 ),
nSigmaMinPt = cms.double( 5.0 ),
chargeSignificance = cms.double( -1.0 )
)
process.HLTIter2PSetTrajectoryFilterIT = cms.PSet(
minPt = cms.double( 0.3 ),
minHitsMinPt = cms.int32( 3 ),
ComponentType = cms.string( "CkfBaseTrajectoryFilter" ),
maxLostHits = cms.int32( 1 ),
maxNumberOfHits = cms.int32( 100 ),
maxConsecLostHits = cms.int32( 1 ),
minimumNumberOfHits = cms.int32( 3 ),
nSigmaMinPt = cms.double( 5.0 ),
chargeSignificance = cms.double( -1.0 )
)
process.HLTIter1PSetTrajectoryFilterIT = cms.PSet(
minPt = cms.double( 0.2 ),
minHitsMinPt = cms.int32( 3 ),
ComponentType = cms.string( "CkfBaseTrajectoryFilter" ),
maxLostHits = cms.int32( 1 ),
maxNumberOfHits = cms.int32( 100 ),
maxConsecLostHits = cms.int32( 1 ),
minimumNumberOfHits = cms.int32( 3 ),
nSigmaMinPt = cms.double( 5.0 ),
chargeSignificance = cms.double( -1.0 )
)
process.HLTPSetbJetRegionalTrajectoryFilter = cms.PSet(
minPt = cms.double( 1.0 ),
minHitsMinPt = cms.int32( 3 ),
ComponentType = cms.string( "CkfBaseTrajectoryFilter" ),
maxLostHits = cms.int32( 1 ),
maxNumberOfHits = cms.int32( 8 ),
maxConsecLostHits = cms.int32( 1 ),
minimumNumberOfHits = cms.int32( 5 ),
nSigmaMinPt = cms.double( 5.0 ),
chargeSignificance = cms.double( -1.0 )
)
process.HLTPSetTrajectoryFilterL3 = cms.PSet(
minPt = cms.double( 0.5 ),
minHitsMinPt = cms.int32( 3 ),
ComponentType = cms.string( "CkfBaseTrajectoryFilter" ),
maxLostHits = cms.int32( 1 ),
maxNumberOfHits = cms.int32( 1000000000 ),
maxConsecLostHits = cms.int32( 1 ),
minimumNumberOfHits = cms.int32( 5 ),
nSigmaMinPt = cms.double( 5.0 ),
chargeSignificance = cms.double( -1.0 )
)
process.HLTPSetTrajectoryFilterIT = cms.PSet(
minPt = cms.double( 0.3 ),
minHitsMinPt = cms.int32( 3 ),
ComponentType = cms.string( "CkfBaseTrajectoryFilter" ),
maxLostHits = cms.int32( 1 ),
maxNumberOfHits = cms.int32( 100 ),
maxConsecLostHits = cms.int32( 1 ),
minimumNumberOfHits = cms.int32( 3 ),
nSigmaMinPt = cms.double( 5.0 ),
chargeSignificance = cms.double( -1.0 )
)
process.HLTPSetTrajectoryFilterForElectrons = cms.PSet(
ComponentType = cms.string( "CkfBaseTrajectoryFilter" ),
minPt = cms.double( 2.0 ),
minHitsMinPt = cms.int32( -1 ),
maxLostHits = cms.int32( 1 ),
maxNumberOfHits = cms.int32( -1 ),
maxConsecLostHits = cms.int32( 1 ),
nSigmaMinPt = cms.double( 5.0 ),
minimumNumberOfHits = cms.int32( 5 ),
chargeSignificance = cms.double( -1.0 )
)
process.HLTPSetMuonCkfTrajectoryFilter = cms.PSet(
minPt = cms.double( 0.9 ),
minHitsMinPt = cms.int32( 3 ),
ComponentType = cms.string( "CkfBaseTrajectoryFilter" ),
maxLostHits = cms.int32( 1 ),
maxNumberOfHits = cms.int32( -1 ),
maxConsecLostHits = cms.int32( 1 ),
chargeSignificance = cms.double( -1.0 ),
nSigmaMinPt = cms.double( 5.0 ),
minimumNumberOfHits = cms.int32( 5 )
)
process.HLTPSetMuTrackJpsiTrajectoryFilter = cms.PSet(
minPt = cms.double( 10.0 ),
minHitsMinPt = cms.int32( 3 ),
ComponentType = cms.string( "CkfBaseTrajectoryFilter" ),
maxLostHits = cms.int32( 1 ),
maxNumberOfHits = cms.int32( 8 ),
maxConsecLostHits = cms.int32( 1 ),
minimumNumberOfHits = cms.int32( 5 ),
nSigmaMinPt = cms.double( 5.0 ),
chargeSignificance = cms.double( -1.0 )
)
process.HLTPSetMuTrackJpsiEffTrajectoryFilter = cms.PSet(
minPt = cms.double( 1.0 ),
minHitsMinPt = cms.int32( 3 ),
ComponentType = cms.string( "CkfBaseTrajectoryFilter" ),
maxLostHits = cms.int32( 1 ),
maxNumberOfHits = cms.int32( 9 ),
maxConsecLostHits = cms.int32( 1 ),
minimumNumberOfHits = cms.int32( 5 ),
nSigmaMinPt = cms.double( 5.0 ),
chargeSignificance = cms.double( -1.0 )
)
process.HLTPSetCkfTrajectoryFilter = cms.PSet(
minPt = cms.double( 0.9 ),
minHitsMinPt = cms.int32( 3 ),
ComponentType = cms.string( "CkfBaseTrajectoryFilter" ),
maxLostHits = cms.int32( 1 ),
maxNumberOfHits = cms.int32( -1 ),
maxConsecLostHits = cms.int32( 1 ),
minimumNumberOfHits = cms.int32( 5 ),
nSigmaMinPt = cms.double( 5.0 ),
chargeSignificance = cms.double( -1.0 )
)
process.HLTPSetCkf3HitTrajectoryFilter = cms.PSet(
minPt = cms.double( 0.9 ),
minHitsMinPt = cms.int32( 3 ),
ComponentType = cms.string( "CkfBaseTrajectoryFilter" ),
maxLostHits = cms.int32( 1 ),
maxNumberOfHits = cms.int32( -1 ),
maxConsecLostHits = cms.int32( 1 ),
minimumNumberOfHits = cms.int32( 3 ),
nSigmaMinPt = cms.double( 5.0 ),
chargeSignificance = cms.double( -1.0 )
)
process.HLTIter4PSetTrajectoryBuilderIT = cms.PSet(
propagatorAlong = cms.string( "PropagatorWithMaterialParabolicMf" ),
trajectoryFilter = cms.PSet( refToPSet_ = cms.string( "HLTIter4PSetTrajectoryFilterIT" ) ),
maxCand = cms.int32( 1 ),
ComponentType = cms.string( "CkfTrajectoryBuilder" ),
propagatorOpposite = cms.string( "PropagatorWithMaterialParabolicMfOpposite" ),
MeasurementTrackerName = cms.string( "hltIter4ESPMeasurementTracker" ),
estimator = cms.string( "hltESPChi2ChargeMeasurementEstimator16" ),
TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
updator = cms.string( "hltESPKFUpdator" ),
alwaysUseInvalidHits = cms.bool( False ),
intermediateCleaning = cms.bool( True ),
lostHitPenalty = cms.double( 30.0 ),
minNrOfHitsForRebuild = cms.untracked.int32( 4 )
)
process.HLTIter3PSetTrajectoryBuilderIT = cms.PSet(
propagatorAlong = cms.string( "PropagatorWithMaterialParabolicMf" ),
trajectoryFilter = cms.PSet( refToPSet_ = cms.string( "HLTIter3PSetTrajectoryFilterIT" ) ),
maxCand = cms.int32( 1 ),
ComponentType = cms.string( "CkfTrajectoryBuilder" ),
propagatorOpposite = cms.string( "PropagatorWithMaterialParabolicMfOpposite" ),
MeasurementTrackerName = cms.string( "hltIter3ESPMeasurementTracker" ),
estimator = cms.string( "hltESPChi2ChargeMeasurementEstimator16" ),
TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
updator = cms.string( "hltESPKFUpdator" ),
alwaysUseInvalidHits = cms.bool( False ),
intermediateCleaning = cms.bool( True ),
lostHitPenalty = cms.double( 30.0 )
)
process.HLTIter2PSetTrajectoryBuilderIT = cms.PSet(
propagatorAlong = cms.string( "PropagatorWithMaterialParabolicMf" ),
trajectoryFilter = cms.PSet( refToPSet_ = cms.string( "HLTIter2PSetTrajectoryFilterIT" ) ),
maxCand = cms.int32( 2 ),
ComponentType = cms.string( "CkfTrajectoryBuilder" ),
propagatorOpposite = cms.string( "PropagatorWithMaterialParabolicMfOpposite" ),
MeasurementTrackerName = cms.string( "hltIter2ESPMeasurementTracker" ),
estimator = cms.string( "hltESPChi2ChargeMeasurementEstimator16" ),
TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
updator = cms.string( "hltESPKFUpdator" ),
alwaysUseInvalidHits = cms.bool( False ),
intermediateCleaning = cms.bool( True ),
lostHitPenalty = cms.double( 30.0 )
)
process.HLTIter1PSetTrajectoryBuilderIT = cms.PSet(
propagatorAlong = cms.string( "PropagatorWithMaterialParabolicMf" ),
trajectoryFilter = cms.PSet( refToPSet_ = cms.string( "HLTIter1PSetTrajectoryFilterIT" ) ),
maxCand = cms.int32( 2 ),
ComponentType = cms.string( "CkfTrajectoryBuilder" ),
propagatorOpposite = cms.string( "PropagatorWithMaterialParabolicMfOpposite" ),
MeasurementTrackerName = cms.string( "hltIter1ESPMeasurementTracker" ),
estimator = cms.string( "hltESPChi2ChargeMeasurementEstimator16" ),
TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
updator = cms.string( "hltESPKFUpdator" ),
alwaysUseInvalidHits = cms.bool( False ),
intermediateCleaning = cms.bool( True ),
lostHitPenalty = cms.double( 30.0 )
)
process.HLTPSetbJetRegionalTrajectoryBuilder = cms.PSet(
propagatorAlong = cms.string( "PropagatorWithMaterial" ),
trajectoryFilter = cms.PSet( refToPSet_ = cms.string( "HLTPSetbJetRegionalTrajectoryFilter" ) ),
maxCand = cms.int32( 1 ),
ComponentType = cms.string( "CkfTrajectoryBuilder" ),
propagatorOpposite = cms.string( "PropagatorWithMaterialOpposite" ),
MeasurementTrackerName = cms.string( "hltESPMeasurementTracker" ),
estimator = cms.string( "hltESPChi2MeasurementEstimator30" ),
TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
updator = cms.string( "hltESPKFUpdator" ),
alwaysUseInvalidHits = cms.bool( False ),
intermediateCleaning = cms.bool( True ),
lostHitPenalty = cms.double( 30.0 )
)
process.HLTPSetTrajectoryBuilderL3 = cms.PSet(
propagatorAlong = cms.string( "PropagatorWithMaterial" ),
trajectoryFilter = cms.PSet( refToPSet_ = cms.string( "HLTPSetTrajectoryFilterL3" ) ),
maxCand = cms.int32( 5 ),
ComponentType = cms.string( "CkfTrajectoryBuilder" ),
propagatorOpposite = cms.string( "PropagatorWithMaterialOpposite" ),
MeasurementTrackerName = cms.string( "hltESPMeasurementTracker" ),
estimator = cms.string( "hltESPChi2MeasurementEstimator30" ),
TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
updator = cms.string( "hltESPKFUpdator" ),
alwaysUseInvalidHits = cms.bool( False ),
intermediateCleaning = cms.bool( True ),
lostHitPenalty = cms.double( 30.0 )
)
process.HLTPSetTrajectoryBuilderForElectrons = cms.PSet(
propagatorAlong = cms.string( "hltESPFwdElectronPropagator" ),
trajectoryFilter = cms.PSet( refToPSet_ = cms.string( "HLTPSetTrajectoryFilterForElectrons" ) ),
maxCand = cms.int32( 5 ),
ComponentType = cms.string( "CkfTrajectoryBuilder" ),
propagatorOpposite = cms.string( "hltESPBwdElectronPropagator" ),
MeasurementTrackerName = cms.string( "hltESPMeasurementTracker" ),
estimator = cms.string( "hltESPChi2MeasurementEstimator30" ),
TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
updator = cms.string( "hltESPKFUpdator" ),
alwaysUseInvalidHits = cms.bool( True ),
intermediateCleaning = cms.bool( False ),
lostHitPenalty = cms.double( 90.0 )
)
process.HLTPSetMuTrackJpsiTrajectoryBuilder = cms.PSet(
propagatorAlong = cms.string( "PropagatorWithMaterial" ),
trajectoryFilter = cms.PSet( refToPSet_ = cms.string( "HLTPSetMuTrackJpsiTrajectoryFilter" ) ),
maxCand = cms.int32( 1 ),
ComponentType = cms.string( "CkfTrajectoryBuilder" ),
propagatorOpposite = cms.string( "PropagatorWithMaterialOpposite" ),
MeasurementTrackerName = cms.string( "hltESPMeasurementTracker" ),
estimator = cms.string( "hltESPChi2MeasurementEstimator30" ),
TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
updator = cms.string( "hltESPKFUpdator" ),
alwaysUseInvalidHits = cms.bool( False ),
intermediateCleaning = cms.bool( True ),
lostHitPenalty = cms.double( 30.0 )
)
process.HLTPSetMuTrackJpsiEffTrajectoryBuilder = cms.PSet(
propagatorAlong = cms.string( "PropagatorWithMaterial" ),
trajectoryFilter = cms.PSet( refToPSet_ = cms.string( "HLTPSetMuTrackJpsiEffTrajectoryFilter" ) ),
maxCand = cms.int32( 1 ),
ComponentType = cms.string( "CkfTrajectoryBuilder" ),
propagatorOpposite = cms.string( "PropagatorWithMaterialOpposite" ),
MeasurementTrackerName = cms.string( "hltESPMeasurementTracker" ),
estimator = cms.string( "hltESPChi2MeasurementEstimator30" ),
TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
updator = cms.string( "hltESPKFUpdator" ),
alwaysUseInvalidHits = cms.bool( False ),
intermediateCleaning = cms.bool( True ),
lostHitPenalty = cms.double( 30.0 )
)
process.HLTPSetCkfTrajectoryBuilder = cms.PSet(
propagatorAlong = cms.string( "PropagatorWithMaterial" ),
trajectoryFilter = cms.PSet( refToPSet_ = cms.string( "HLTPSetCkfTrajectoryFilter" ) ),
maxCand = cms.int32( 5 ),
ComponentType = cms.string( "CkfTrajectoryBuilder" ),
propagatorOpposite = cms.string( "PropagatorWithMaterialOpposite" ),
MeasurementTrackerName = cms.string( "hltESPMeasurementTracker" ),
estimator = cms.string( "hltESPChi2MeasurementEstimator30" ),
TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
updator = cms.string( "hltESPKFUpdator" ),
alwaysUseInvalidHits = cms.bool( True ),
intermediateCleaning = cms.bool( True ),
lostHitPenalty = cms.double( 30.0 )
)
process.HLTPSetCkf3HitTrajectoryBuilder = cms.PSet(
propagatorAlong = cms.string( "PropagatorWithMaterial" ),
trajectoryFilter = cms.PSet( refToPSet_ = cms.string( "HLTPSetCkf3HitTrajectoryFilter" ) ),
maxCand = cms.int32( 5 ),
ComponentType = cms.string( "CkfTrajectoryBuilder" ),
propagatorOpposite = cms.string( "PropagatorWithMaterialOpposite" ),
MeasurementTrackerName = cms.string( "hltESPMeasurementTracker" ),
estimator = cms.string( "hltESPChi2MeasurementEstimator30" ),
TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
updator = cms.string( "hltESPKFUpdator" ),
alwaysUseInvalidHits = cms.bool( True ),
intermediateCleaning = cms.bool( True ),
lostHitPenalty = cms.double( 30.0 )
)
process.HLTPSetMuonCkfTrajectoryBuilderSeedHit = cms.PSet(
propagatorAlong = cms.string( "PropagatorWithMaterial" ),
trajectoryFilter = cms.PSet( refToPSet_ = cms.string( "HLTPSetMuonCkfTrajectoryFilter" ) ),
maxCand = cms.int32( 5 ),
ComponentType = cms.string( "MuonCkfTrajectoryBuilder" ),
propagatorOpposite = cms.string( "PropagatorWithMaterialOpposite" ),
useSeedLayer = cms.bool( True ),
deltaEta = cms.double( -1.0 ),
deltaPhi = cms.double( -1.0 ),
estimator = cms.string( "hltESPChi2MeasurementEstimator30" ),
rescaleErrorIfFail = cms.double( 1.0 ),
propagatorProximity = cms.string( "SteppingHelixPropagatorAny" ),
updator = cms.string( "hltESPKFUpdator" ),
alwaysUseInvalidHits = cms.bool( True ),
TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
MeasurementTrackerName = cms.string( "hltESPMeasurementTracker" ),
intermediateCleaning = cms.bool( False ),
lostHitPenalty = cms.double( 30.0 )
)
process.HLTPSetMuonCkfTrajectoryBuilder = cms.PSet(
propagatorAlong = cms.string( "PropagatorWithMaterial" ),
trajectoryFilter = cms.PSet( refToPSet_ = cms.string( "HLTPSetMuonCkfTrajectoryFilter" ) ),
maxCand = cms.int32( 5 ),
ComponentType = cms.string( "MuonCkfTrajectoryBuilder" ),
propagatorOpposite = cms.string( "PropagatorWithMaterialOpposite" ),
useSeedLayer = cms.bool( False ),
deltaEta = cms.double( -1.0 ),
deltaPhi = cms.double( -1.0 ),
estimator = cms.string( "hltESPChi2MeasurementEstimator30" ),
rescaleErrorIfFail = cms.double( 1.0 ),
propagatorProximity = cms.string( "SteppingHelixPropagatorAny" ),
updator = cms.string( "hltESPKFUpdator" ),
alwaysUseInvalidHits = cms.bool( True ),
TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
MeasurementTrackerName = cms.string( "hltESPMeasurementTracker" ),
intermediateCleaning = cms.bool( False ),
lostHitPenalty = cms.double( 30.0 )
)
process.HLTPSetPvClusterComparer = cms.PSet(
track_pt_min = cms.double( 2.5 ),
track_pt_max = cms.double( 10.0 ),
track_chi2_max = cms.double( 9999999.0 ),
track_prob_min = cms.double( -1.0 )
)
process.HLTIter0PSetTrajectoryBuilderIT = cms.PSet(
propagatorAlong = cms.string( "PropagatorWithMaterialParabolicMf" ),
trajectoryFilter = cms.PSet( refToPSet_ = cms.string( "HLTIter0PSetTrajectoryFilterIT" ) ),
maxCand = cms.int32( 2 ),
ComponentType = cms.string( "CkfTrajectoryBuilder" ),
propagatorOpposite = cms.string( "PropagatorWithMaterialParabolicMfOpposite" ),
estimator = cms.string( "hltESPChi2ChargeMeasurementEstimator9" ),
TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
updator = cms.string( "hltESPKFUpdator" ),
alwaysUseInvalidHits = cms.bool( False ),
intermediateCleaning = cms.bool( True ),
lostHitPenalty = cms.double( 30.0 )
)
process.HLTIter0PSetTrajectoryFilterIT = cms.PSet(
minPt = cms.double( 0.3 ),
minHitsMinPt = cms.int32( 3 ),
ComponentType = cms.string( "CkfBaseTrajectoryFilter" ),
maxLostHits = cms.int32( 1 ),
maxNumberOfHits = cms.int32( 100 ),
maxConsecLostHits = cms.int32( 1 ),
minimumNumberOfHits = cms.int32( 3 ),
nSigmaMinPt = cms.double( 5.0 ),
chargeSignificance = cms.double( -1.0 )
)
process.HLTPSetPvClusterComparerForBTag = cms.PSet(
track_pt_min = cms.double( 0.1 ),
track_pt_max = cms.double( 20.0 ),
track_chi2_max = cms.double( 20.0 ),
track_prob_min = cms.double( -1.0 )
)
process.HLTSeedFromConsecutiveHitsTripletOnlyCreator = cms.PSet(
ComponentName = cms.string( "SeedFromConsecutiveHitsTripletOnlyCreator" ),
propagator = cms.string( "PropagatorWithMaterialParabolicMf" )
)
process.HLTSeedFromConsecutiveHitsCreator = cms.PSet(
ComponentName = cms.string( "SeedFromConsecutiveHitsCreator" ),
propagator = cms.string( "PropagatorWithMaterialParabolicMf" ),
SeedMomentumForBOFF = cms.double( 5.0 ),
OriginTransverseErrorMultiplier = cms.double( 1.0 ),
MinOneOverPtError = cms.double( 1.0 ),
SimpleMagneticField = cms.string( "ParabolicMf" ),
TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" )
)
process.HLTIter0HighPtTkMuPSetTrajectoryBuilderIT = cms.PSet(
propagatorAlong = cms.string( "PropagatorWithMaterialParabolicMf" ),
trajectoryFilter = cms.PSet( refToPSet_ = cms.string( "HLTIter0PSetTrajectoryFilterIT" ) ),
maxCand = cms.int32( 4 ),
ComponentType = cms.string( "CkfTrajectoryBuilder" ),
propagatorOpposite = cms.string( "PropagatorWithMaterialParabolicMfOpposite" ),
estimator = cms.string( "hltESPChi2MeasurementEstimator30" ),
TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
updator = cms.string( "hltESPKFUpdator" ),
alwaysUseInvalidHits = cms.bool( True ),
intermediateCleaning = cms.bool( True ),
lostHitPenalty = cms.double( 30.0 )
)
process.HLTIter2HighPtTkMuPSetTrajectoryBuilderIT = cms.PSet(
propagatorAlong = cms.string( "PropagatorWithMaterialParabolicMf" ),
trajectoryFilter = cms.PSet( refToPSet_ = cms.string( "HLTIter2HighPtTkMuPSetTrajectoryFilterIT" ) ),
maxCand = cms.int32( 2 ),
ComponentType = cms.string( "CkfTrajectoryBuilder" ),
propagatorOpposite = cms.string( "PropagatorWithMaterialParabolicMfOpposite" ),
estimator = cms.string( "hltESPChi2MeasurementEstimator30" ),
TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
updator = cms.string( "hltESPKFUpdator" ),
alwaysUseInvalidHits = cms.bool( False ),
intermediateCleaning = cms.bool( True ),
lostHitPenalty = cms.double( 30.0 ),
MeasurementTrackerName = cms.string( "hltIter2HighPtTkMuESPMeasurementTracker" )
)
process.HLTIter2HighPtTkMuPSetTrajectoryFilterIT = cms.PSet(
minPt = cms.double( 0.3 ),
minHitsMinPt = cms.int32( 3 ),
ComponentType = cms.string( "CkfBaseTrajectoryFilter" ),
maxLostHits = cms.int32( 1 ),
maxNumberOfHits = cms.int32( 100 ),
maxConsecLostHits = cms.int32( 3 ),
minimumNumberOfHits = cms.int32( 5 ),
nSigmaMinPt = cms.double( 5.0 ),
chargeSignificance = cms.double( -1.0 )
)
process.HLTPSetPvClusterComparerForIT = cms.PSet(
track_pt_min = cms.double( 1.0 ),
track_pt_max = cms.double( 20.0 ),
track_chi2_max = cms.double( 20.0 ),
track_prob_min = cms.double( -1.0 )
)
process.streams = cms.PSet( A = cms.vstring( 'InitialPD',
'Templates' ) )
process.datasets = cms.PSet(
InitialPD = cms.vstring( 'HLT_Ele27_eta2p1_WP85_Gsf_v1',
'HLT_Mu40_v1',
'HLT_PFJet260_v1',
'HLT_Physics_v1' ),
Templates = cms.vstring( 'HLT_CaloJet260_v1',
'HLT_Photon20_CaloIdVL_IsoL_v1' )
)
process.magfield = cms.ESSource( "XMLIdealGeometryESSource",
geomXMLFiles = cms.vstring( 'Geometry/CMSCommonData/data/normal/cmsextent.xml',
'Geometry/CMSCommonData/data/cms.xml',
'Geometry/CMSCommonData/data/cmsMagneticField.xml',
'MagneticField/GeomBuilder/data/MagneticFieldVolumes_1103l.xml',
'Geometry/CMSCommonData/data/materials.xml' ),
rootNodeName = cms.string( "cmsMagneticField:MAGF" )
)
process.hltESSHcalSeverityLevel = cms.ESSource( "EmptyESSource",
iovIsRunNotTime = cms.bool( True ),
recordName = cms.string( "HcalSeverityLevelComputerRcd" ),
firstValid = cms.vuint32( 1 )
)
process.hltESSEcalSeverityLevel = cms.ESSource( "EmptyESSource",
iovIsRunNotTime = cms.bool( True ),
recordName = cms.string( "EcalSeverityLevelAlgoRcd" ),
firstValid = cms.vuint32( 1 )
)
process.hltESSBTagRecord = cms.ESSource( "EmptyESSource",
iovIsRunNotTime = cms.bool( True ),
recordName = cms.string( "JetTagComputerRecord" ),
firstValid = cms.vuint32( 1 )
)
process.es_hardcode = cms.ESSource( "HcalHardcodeCalibrations",
fromDDD = cms.untracked.bool( False ),
toGet = cms.untracked.vstring( 'GainWidths' )
)
process.eegeom = cms.ESSource( "EmptyESSource",
iovIsRunNotTime = cms.bool( True ),
recordName = cms.string( "EcalMappingRcd" ),
firstValid = cms.vuint32( 1 )
)
process.HepPDTESSource = cms.ESSource( "HepPDTESSource",
pdtFileName = cms.FileInPath( "SimGeneral/HepPDTESSource/data/pythiaparticle.tbl" )
)
process.GlobalTag = cms.ESSource( "PoolDBESSource",
globaltag = cms.string( "GR_H_V39" ),
RefreshEachRun = cms.untracked.bool( True ),
RefreshOpenIOVs = cms.untracked.bool( False ),
toGet = cms.VPSet(
),
DBParameters = cms.PSet(
authenticationPath = cms.untracked.string( "." ),
connectionRetrialTimeOut = cms.untracked.int32( 60 ),
idleConnectionCleanupPeriod = cms.untracked.int32( 10 ),
messageLevel = cms.untracked.int32( 0 ),
enablePoolAutomaticCleanUp = cms.untracked.bool( False ),
enableConnectionSharing = cms.untracked.bool( True ),
enableReadOnlySessionOnUpdateConnection = cms.untracked.bool( False ),
connectionTimeOut = cms.untracked.int32( 0 ),
connectionRetrialPeriod = cms.untracked.int32( 10 )
),
RefreshAlways = cms.untracked.bool( False ),
connect = cms.string( "frontier://(proxyurl=http://localhost:3128)(serverurl=http://localhost:8000/FrontierOnProd)(serverurl=http://localhost:8000/FrontierOnProd)(retrieve-ziplevel=0)/CMS_CONDITIONS" ),
ReconnectEachRun = cms.untracked.bool( True ),
BlobStreamerName = cms.untracked.string( "TBufferBlobStreamingService" )
)
process.CSCINdexerESSource = cms.ESSource( "EmptyESSource",
iovIsRunNotTime = cms.bool( True ),
recordName = cms.string( "CSCIndexerRecord" ),
firstValid = cms.vuint32( 1 )
)
process.CSCChannelMapperESSource = cms.ESSource( "EmptyESSource",
iovIsRunNotTime = cms.bool( True ),
recordName = cms.string( "CSCChannelMapperRecord" ),
firstValid = cms.vuint32( 1 )
)
process.hltDisplacedDijethltESPTrackCounting2D1st = cms.ESProducer( "TrackCountingESProducer",
b_pT = cms.double( 0.3684 ),
deltaR = cms.double( -1.0 ),
minimumImpactParameter = cms.double( 0.05 ),
a_dR = cms.double( -0.001053 ),
min_pT = cms.double( 120.0 ),
maximumDistanceToJetAxis = cms.double( 9999999.0 ),
max_pT = cms.double( 500.0 ),
impactParameterType = cms.int32( 1 ),
trackQualityClass = cms.string( "any" ),
useVariableJTA = cms.bool( False ),
min_pT_dRcut = cms.double( 0.5 ),
max_pT_trackPTcut = cms.double( 3.0 ),
max_pT_dRcut = cms.double( 0.1 ),
b_dR = cms.double( 0.6263 ),
a_pT = cms.double( 0.005263 ),
maximumDecayLength = cms.double( 999999.0 ),
nthTrack = cms.int32( 1 ),
useSignedImpactParameterSig = cms.bool( False )
)
process.hltDisplacedDijethltESPPromptTrackCountingESProducer = cms.ESProducer( "PromptTrackCountingESProducer",
maxImpactParameterSig = cms.double( 999999.0 ),
deltaR = cms.double( -1.0 ),
minimumImpactParameter = cms.double( -1.0 ),
maximumDecayLength = cms.double( 999999.0 ),
impactParameterType = cms.int32( 1 ),
trackQualityClass = cms.string( "any" ),
deltaRmin = cms.double( 0.0 ),
maxImpactParameter = cms.double( 0.1 ),
useSignedImpactParameterSig = cms.bool( True ),
maximumDistanceToJetAxis = cms.double( 999999.0 ),
nthTrack = cms.int32( -1 )
)
process.hltESPAK4CaloCorrection = cms.ESProducer( "JetCorrectionESChain",
correctors = cms.vstring( 'hltESPAK4CaloFastJetCorrectionESProducer',
'hltESPAK4CaloRelativeCorrectionESProducer',
'hltESPAK4CaloAbsoluteCorrectionESProducer' ),
appendToDataLabel = cms.string( "" )
)
process.hltESPAK4PFCorrection = cms.ESProducer( "JetCorrectionESChain",
correctors = cms.vstring( 'hltESPAK4PFFastJetCorrectionESProducer',
'hltESPAK4PFRelativeCorrectionESProducer',
'hltESPAK4PFAbsoluteCorrectionESProducer' ),
appendToDataLabel = cms.string( "" )
)
process.hltESPAK4CaloFastJetCorrectionESProducer = cms.ESProducer( "L1FastjetCorrectionESProducer",
appendToDataLabel = cms.string( "" ),
srcRho = cms.InputTag( "hltFixedGridRhoFastjetAllCalo" ),
algorithm = cms.string( "AK4CaloHLT" ),
level = cms.string( "L1FastJet" )
)
process.hltESPAK4PFFastJetCorrectionESProducer = cms.ESProducer( "L1FastjetCorrectionESProducer",
appendToDataLabel = cms.string( "" ),
srcRho = cms.InputTag( "hltFixedGridRhoFastjetAll" ),
algorithm = cms.string( "AK4PFHLT" ),
level = cms.string( "L1FastJet" )
)
process.hltESPAK4PFRelativeCorrectionESProducer = cms.ESProducer( "LXXXCorrectionESProducer",
appendToDataLabel = cms.string( "" ),
algorithm = cms.string( "AK4PFHLT" ),
level = cms.string( "L2Relative" )
)
process.hltESPAK4CaloRelativeCorrectionESProducer = cms.ESProducer( "LXXXCorrectionESProducer",
appendToDataLabel = cms.string( "" ),
algorithm = cms.string( "AK4CaloHLT" ),
level = cms.string( "L2Relative" )
)
process.hltESPAK4CaloAbsoluteCorrectionESProducer = cms.ESProducer( "LXXXCorrectionESProducer",
appendToDataLabel = cms.string( "" ),
algorithm = cms.string( "AK4CaloHLT" ),
level = cms.string( "L3Absolute" )
)
process.hltESPAK4PFAbsoluteCorrectionESProducer = cms.ESProducer( "LXXXCorrectionESProducer",
appendToDataLabel = cms.string( "" ),
algorithm = cms.string( "AK4PFHLT" ),
level = cms.string( "L3Absolute" )
)
process.MaterialPropagatorParabolicMF = cms.ESProducer( "PropagatorWithMaterialESProducer",
SimpleMagneticField = cms.string( "ParabolicMf" ),
PropagationDirection = cms.string( "alongMomentum" ),
ComponentName = cms.string( "PropagatorWithMaterialParabolicMf" ),
Mass = cms.double( 0.105 ),
ptMin = cms.double( -1.0 ),
MaxDPhi = cms.double( 1.6 ),
useRungeKutta = cms.bool( False )
)
process.OppositeMaterialPropagatorParabolicMF = cms.ESProducer( "PropagatorWithMaterialESProducer",
SimpleMagneticField = cms.string( "ParabolicMf" ),
PropagationDirection = cms.string( "oppositeToMomentum" ),
ComponentName = cms.string( "PropagatorWithMaterialParabolicMfOpposite" ),
Mass = cms.double( 0.105 ),
ptMin = cms.double( -1.0 ),
MaxDPhi = cms.double( 1.6 ),
useRungeKutta = cms.bool( False )
)
process.ParabolicParametrizedMagneticFieldProducer = cms.ESProducer( "ParametrizedMagneticFieldProducer",
version = cms.string( "Parabolic" ),
parameters = cms.PSet( BValue = cms.string( "" ) ),
label = cms.untracked.string( "ParabolicMf" )
)
process.hltESPChi2MeasurementEstimator30 = cms.ESProducer( "Chi2MeasurementEstimatorESProducer",
MaxChi2 = cms.double( 30.0 ),
nSigma = cms.double( 3.0 ),
ComponentName = cms.string( "hltESPChi2MeasurementEstimator30" )
)
process.hltESPChi2ChargeMeasurementEstimator30 = cms.ESProducer( "Chi2ChargeMeasurementEstimatorESProducer",
minGoodStripCharge = cms.double( 1724.0 ),
ComponentName = cms.string( "hltESPChi2ChargeMeasurementEstimator30" ),
pTChargeCutThreshold = cms.double( -1.0 ),
nSigma = cms.double( 3.0 ),
MaxChi2 = cms.double( 30.0 )
)
process.AnyDirectionAnalyticalPropagator = cms.ESProducer( "AnalyticalPropagatorESProducer",
MaxDPhi = cms.double( 1.6 ),
ComponentName = cms.string( "AnyDirectionAnalyticalPropagator" ),
PropagationDirection = cms.string( "anyDirection" )
)
process.AutoMagneticFieldESProducer = cms.ESProducer( "AutoMagneticFieldESProducer",
label = cms.untracked.string( "" ),
nominalCurrents = cms.untracked.vint32( -1, 0, 9558, 14416, 16819, 18268, 19262 ),
valueOverride = cms.int32( -1 ),
mapLabels = cms.untracked.vstring( '090322_3_8t',
'0t',
'071212_2t',
'071212_3t',
'071212_3_5t',
'090322_3_8t',
'071212_4t' )
)
process.CSCChannelMapperESProducer = cms.ESProducer( "CSCChannelMapperESProducer",
AlgoName = cms.string( "CSCChannelMapperPostls1" )
)
process.CSCGeometryESModule = cms.ESProducer( "CSCGeometryESModule",
useRealWireGeometry = cms.bool( True ),
appendToDataLabel = cms.string( "" ),
alignmentsLabel = cms.string( "" ),
useGangedStripsInME1a = cms.bool( False ),
debugV = cms.untracked.bool( False ),
useOnlyWiresInME1a = cms.bool( False ),
useDDD = cms.bool( False ),
useCentreTIOffsets = cms.bool( False ),
applyAlignment = cms.bool( True )
)
process.CSCIndexerESProducer = cms.ESProducer( "CSCIndexerESProducer",
AlgoName = cms.string( "CSCIndexerPostls1" )
)
process.CaloGeometryBuilder = cms.ESProducer( "CaloGeometryBuilder",
SelectedCalos = cms.vstring( 'HCAL',
'ZDC',
'EcalBarrel',
'EcalEndcap',
'EcalPreshower',
'TOWER' )
)
process.CaloTopologyBuilder = cms.ESProducer( "CaloTopologyBuilder" )
process.CaloTowerConstituentsMapBuilder = cms.ESProducer( "CaloTowerConstituentsMapBuilder",
appendToDataLabel = cms.string( "" ),
MapFile = cms.untracked.string( "Geometry/CaloTopology/data/CaloTowerEEGeometric.map.gz" )
)
process.CaloTowerGeometryFromDBEP = cms.ESProducer( "CaloTowerGeometryFromDBEP",
applyAlignment = cms.bool( False ),
hcalTopologyConstants = cms.PSet(
maxDepthHE = cms.int32( 3 ),
maxDepthHB = cms.int32( 2 ),
mode = cms.string( "HcalTopologyMode::LHC" )
)
)
process.CastorDbProducer = cms.ESProducer( "CastorDbProducer",
appendToDataLabel = cms.string( "" )
)
process.ClusterShapeHitFilterESProducer = cms.ESProducer( "ClusterShapeHitFilterESProducer",
ComponentName = cms.string( "ClusterShapeHitFilter" ),
PixelShapeFile = cms.string( "RecoPixelVertexing/PixelLowPtUtilities/data/pixelShape.par" )
)
process.DTGeometryESModule = cms.ESProducer( "DTGeometryESModule",
appendToDataLabel = cms.string( "" ),
fromDDD = cms.bool( False ),
applyAlignment = cms.bool( True ),
alignmentsLabel = cms.string( "" )
)
process.EcalBarrelGeometryFromDBEP = cms.ESProducer( "EcalBarrelGeometryFromDBEP",
applyAlignment = cms.bool( True )
)
process.EcalElectronicsMappingBuilder = cms.ESProducer( "EcalElectronicsMappingBuilder" )
process.EcalEndcapGeometryFromDBEP = cms.ESProducer( "EcalEndcapGeometryFromDBEP",
applyAlignment = cms.bool( True )
)
process.EcalLaserCorrectionService = cms.ESProducer( "EcalLaserCorrectionService" )
process.EcalPreshowerGeometryFromDBEP = cms.ESProducer( "EcalPreshowerGeometryFromDBEP",
applyAlignment = cms.bool( True )
)
process.hltESPChi2ChargeMeasurementEstimator9 = cms.ESProducer( "Chi2ChargeMeasurementEstimatorESProducer",
minGoodStripCharge = cms.double( 1724.0 ),
ComponentName = cms.string( "hltESPChi2ChargeMeasurementEstimator9" ),
pTChargeCutThreshold = cms.double( 15.0 ),
nSigma = cms.double( 3.0 ),
MaxChi2 = cms.double( 9.0 )
)
process.hltESPChi2ChargeMeasurementEstimator16 = cms.ESProducer( "Chi2ChargeMeasurementEstimatorESProducer",
minGoodStripCharge = cms.double( 1724.0 ),
ComponentName = cms.string( "hltESPChi2ChargeMeasurementEstimator16" ),
pTChargeCutThreshold = cms.double( -1.0 ),
nSigma = cms.double( 3.0 ),
MaxChi2 = cms.double( 16.0 )
)
process.HcalGeometryFromDBEP = cms.ESProducer( "HcalGeometryFromDBEP",
applyAlignment = cms.bool( False ),
hcalTopologyConstants = cms.PSet(
maxDepthHE = cms.int32( 3 ),
maxDepthHB = cms.int32( 2 ),
mode = cms.string( "HcalTopologyMode::LHC" )
)
)
process.HcalTopologyIdealEP = cms.ESProducer( "HcalTopologyIdealEP",
Exclude = cms.untracked.string( "" ),
appendToDataLabel = cms.string( "" ),
hcalTopologyConstants = cms.PSet(
maxDepthHE = cms.int32( 3 ),
maxDepthHB = cms.int32( 2 ),
mode = cms.string( "HcalTopologyMode::LHC" )
)
)
process.MaterialPropagator = cms.ESProducer( "PropagatorWithMaterialESProducer",
SimpleMagneticField = cms.string( "" ),
PropagationDirection = cms.string( "alongMomentum" ),
ComponentName = cms.string( "PropagatorWithMaterial" ),
Mass = cms.double( 0.105 ),
ptMin = cms.double( -1.0 ),
MaxDPhi = cms.double( 1.6 ),
useRungeKutta = cms.bool( False )
)
process.OppositeMaterialPropagator = cms.ESProducer( "PropagatorWithMaterialESProducer",
SimpleMagneticField = cms.string( "" ),
PropagationDirection = cms.string( "oppositeToMomentum" ),
ComponentName = cms.string( "PropagatorWithMaterialOpposite" ),
Mass = cms.double( 0.105 ),
ptMin = cms.double( -1.0 ),
MaxDPhi = cms.double( 1.6 ),
useRungeKutta = cms.bool( False )
)
process.RPCGeometryESModule = cms.ESProducer( "RPCGeometryESModule",
useDDD = cms.untracked.bool( False ),
compatibiltyWith11 = cms.untracked.bool( True )
)
process.SiStripGainESProducer = cms.ESProducer( "SiStripGainESProducer",
printDebug = cms.untracked.bool( False ),
appendToDataLabel = cms.string( "" ),
APVGain = cms.VPSet(
cms.PSet( Record = cms.string( "SiStripApvGainRcd" ),
NormalizationFactor = cms.untracked.double( 1.0 ),
Label = cms.untracked.string( "" )
),
cms.PSet( Record = cms.string( "SiStripApvGain2Rcd" ),
NormalizationFactor = cms.untracked.double( 1.0 ),
Label = cms.untracked.string( "" )
)
),
AutomaticNormalization = cms.bool( False )
)
process.SiStripQualityESProducer = cms.ESProducer( "SiStripQualityESProducer",
appendToDataLabel = cms.string( "" ),
PrintDebugOutput = cms.bool( False ),
ThresholdForReducedGranularity = cms.double( 0.3 ),
UseEmptyRunInfo = cms.bool( False ),
ReduceGranularity = cms.bool( False ),
ListOfRecordToMerge = cms.VPSet(
cms.PSet( record = cms.string( "SiStripDetVOffRcd" ),
tag = cms.string( "" )
),
cms.PSet( record = cms.string( "SiStripDetCablingRcd" ),
tag = cms.string( "" )
),
cms.PSet( record = cms.string( "SiStripBadChannelRcd" ),
tag = cms.string( "" )
),
cms.PSet( record = cms.string( "SiStripBadFiberRcd" ),
tag = cms.string( "" )
),
cms.PSet( record = cms.string( "SiStripBadModuleRcd" ),
tag = cms.string( "" )
)
)
)
process.SiStripRecHitMatcherESProducer = cms.ESProducer( "SiStripRecHitMatcherESProducer",
PreFilter = cms.bool( False ),
ComponentName = cms.string( "StandardMatcher" ),
NSigmaInside = cms.double( 3.0 )
)
process.SlaveField0 = cms.ESProducer( "UniformMagneticFieldESProducer",
ZFieldInTesla = cms.double( 0.0 ),
label = cms.untracked.string( "slave_0" )
)
process.SlaveField20 = cms.ESProducer( "ParametrizedMagneticFieldProducer",
version = cms.string( "OAE_1103l_071212" ),
parameters = cms.PSet( BValue = cms.string( "2_0T" ) ),
label = cms.untracked.string( "slave_20" )
)
process.SlaveField30 = cms.ESProducer( "ParametrizedMagneticFieldProducer",
version = cms.string( "OAE_1103l_071212" ),
parameters = cms.PSet( BValue = cms.string( "3_0T" ) ),
label = cms.untracked.string( "slave_30" )
)
process.SlaveField35 = cms.ESProducer( "ParametrizedMagneticFieldProducer",
version = cms.string( "OAE_1103l_071212" ),
parameters = cms.PSet( BValue = cms.string( "3_5T" ) ),
label = cms.untracked.string( "slave_35" )
)
process.SlaveField38 = cms.ESProducer( "ParametrizedMagneticFieldProducer",
version = cms.string( "OAE_1103l_071212" ),
parameters = cms.PSet( BValue = cms.string( "3_8T" ) ),
label = cms.untracked.string( "slave_38" )
)
process.SlaveField40 = cms.ESProducer( "ParametrizedMagneticFieldProducer",
version = cms.string( "OAE_1103l_071212" ),
parameters = cms.PSet( BValue = cms.string( "4_0T" ) ),
label = cms.untracked.string( "slave_40" )
)
process.SteppingHelixPropagatorAny = cms.ESProducer( "SteppingHelixPropagatorESProducer",
NoErrorPropagation = cms.bool( False ),
endcapShiftInZPos = cms.double( 0.0 ),
PropagationDirection = cms.string( "anyDirection" ),
useTuningForL2Speed = cms.bool( False ),
useIsYokeFlag = cms.bool( True ),
endcapShiftInZNeg = cms.double( 0.0 ),
SetVBFPointer = cms.bool( False ),
AssumeNoMaterial = cms.bool( False ),
returnTangentPlane = cms.bool( True ),
useInTeslaFromMagField = cms.bool( False ),
VBFName = cms.string( "VolumeBasedMagneticField" ),
useEndcapShiftsInZ = cms.bool( False ),
sendLogWarning = cms.bool( False ),
useMatVolumes = cms.bool( True ),
debug = cms.bool( False ),
ApplyRadX0Correction = cms.bool( True ),
useMagVolumes = cms.bool( True ),
ComponentName = cms.string( "SteppingHelixPropagatorAny" )
)
process.TrackerDigiGeometryESModule = cms.ESProducer( "TrackerDigiGeometryESModule",
appendToDataLabel = cms.string( "" ),
fromDDD = cms.bool( False ),
trackerGeometryConstants = cms.PSet(
ROCS_X = cms.int32( 0 ),
ROCS_Y = cms.int32( 0 ),
upgradeGeometry = cms.bool( False ),
BIG_PIX_PER_ROC_Y = cms.int32( 2 ),
BIG_PIX_PER_ROC_X = cms.int32( 1 ),
ROWS_PER_ROC = cms.int32( 80 ),
COLS_PER_ROC = cms.int32( 52 )
),
applyAlignment = cms.bool( True ),
alignmentsLabel = cms.string( "" )
)
process.TrackerGeometricDetESModule = cms.ESProducer( "TrackerGeometricDetESModule",
appendToDataLabel = cms.string( "" ),
fromDDD = cms.bool( False ),
layerNumberPXB = cms.uint32( 16 ),
totalBlade = cms.uint32( 24 )
)
process.TransientTrackBuilderESProducer = cms.ESProducer( "TransientTrackBuilderESProducer",
ComponentName = cms.string( "TransientTrackBuilder" )
)
process.VBF0 = cms.ESProducer( "VolumeBasedMagneticFieldESProducer",
scalingVolumes = cms.vint32( ),
useParametrizedTrackerField = cms.bool( True ),
scalingFactors = cms.vdouble( ),
label = cms.untracked.string( "0t" ),
version = cms.string( "grid_1103l_071212_2t" ),
debugBuilder = cms.untracked.bool( False ),
paramLabel = cms.string( "slave_0" ),
geometryVersion = cms.int32( 71212 ),
gridFiles = cms.VPSet(
cms.PSet( path = cms.string( "grid.[v].bin" ),
master = cms.int32( 1 ),
sectors = cms.string( "0" ),
volumes = cms.string( "1-312" )
)
),
cacheLastVolume = cms.untracked.bool( True )
)
process.VBF20 = cms.ESProducer( "VolumeBasedMagneticFieldESProducer",
scalingVolumes = cms.vint32( ),
useParametrizedTrackerField = cms.bool( True ),
scalingFactors = cms.vdouble( ),
label = cms.untracked.string( "071212_2t" ),
version = cms.string( "grid_1103l_071212_2t" ),
debugBuilder = cms.untracked.bool( False ),
paramLabel = cms.string( "slave_20" ),
geometryVersion = cms.int32( 71212 ),
gridFiles = cms.VPSet(
cms.PSet( path = cms.string( "grid.[v].bin" ),
master = cms.int32( 1 ),
sectors = cms.string( "0" ),
volumes = cms.string( "1-312" )
)
),
cacheLastVolume = cms.untracked.bool( True )
)
process.VBF30 = cms.ESProducer( "VolumeBasedMagneticFieldESProducer",
scalingVolumes = cms.vint32( ),
useParametrizedTrackerField = cms.bool( True ),
scalingFactors = cms.vdouble( ),
label = cms.untracked.string( "071212_3t" ),
version = cms.string( "grid_1103l_071212_3t" ),
debugBuilder = cms.untracked.bool( False ),
paramLabel = cms.string( "slave_30" ),
geometryVersion = cms.int32( 71212 ),
gridFiles = cms.VPSet(
cms.PSet( path = cms.string( "grid.[v].bin" ),
master = cms.int32( 1 ),
sectors = cms.string( "0" ),
volumes = cms.string( "1-312" )
)
),
cacheLastVolume = cms.untracked.bool( True )
)
process.VBF35 = cms.ESProducer( "VolumeBasedMagneticFieldESProducer",
scalingVolumes = cms.vint32( ),
useParametrizedTrackerField = cms.bool( True ),
scalingFactors = cms.vdouble( ),
label = cms.untracked.string( "071212_3_5t" ),
version = cms.string( "grid_1103l_071212_3_5t" ),
debugBuilder = cms.untracked.bool( False ),
paramLabel = cms.string( "slave_35" ),
geometryVersion = cms.int32( 71212 ),
gridFiles = cms.VPSet(
cms.PSet( path = cms.string( "grid.[v].bin" ),
master = cms.int32( 1 ),
sectors = cms.string( "0" ),
volumes = cms.string( "1-312" )
)
),
cacheLastVolume = cms.untracked.bool( True )
)
process.VBF38 = cms.ESProducer( "VolumeBasedMagneticFieldESProducer",
scalingVolumes = cms.vint32( 14100, 14200, 17600, 17800, 17900, 18100, 18300, 18400, 18600, 23100, 23300, 23400, 23600, 23800, 23900, 24100, 28600, 28800, 28900, 29100, 29300, 29400, 29600, 28609, 28809, 28909, 29109, 29309, 29409, 29609, 28610, 28810, 28910, 29110, 29310, 29410, 29610, 28611, 28811, 28911, 29111, 29311, 29411, 29611 ),
useParametrizedTrackerField = cms.bool( True ),
scalingFactors = cms.vdouble( 1.0, 1.0, 0.994, 1.004, 1.004, 1.005, 1.004, 1.004, 0.994, 0.965, 0.958, 0.958, 0.953, 0.958, 0.958, 0.965, 0.918, 0.924, 0.924, 0.906, 0.924, 0.924, 0.918, 0.991, 0.998, 0.998, 0.978, 0.998, 0.998, 0.991, 0.991, 0.998, 0.998, 0.978, 0.998, 0.998, 0.991, 0.991, 0.998, 0.998, 0.978, 0.998, 0.998, 0.991 ),
label = cms.untracked.string( "090322_3_8t" ),
version = cms.string( "grid_1103l_090322_3_8t" ),
debugBuilder = cms.untracked.bool( False ),
paramLabel = cms.string( "slave_38" ),
geometryVersion = cms.int32( 71212 ),
gridFiles = cms.VPSet(
cms.PSet( path = cms.string( "grid.[v].bin" ),
master = cms.int32( 1 ),
sectors = cms.string( "0" ),
volumes = cms.string( "1-312" )
),
cms.PSet( path = cms.string( "S3/grid.[v].bin" ),
master = cms.int32( 3 ),
sectors = cms.string( "3" ),
volumes = cms.string( "176-186,231-241,286-296" )
),
cms.PSet( path = cms.string( "S4/grid.[v].bin" ),
master = cms.int32( 4 ),
sectors = cms.string( "4" ),
volumes = cms.string( "176-186,231-241,286-296" )
),
cms.PSet( path = cms.string( "S9/grid.[v].bin" ),
master = cms.int32( 9 ),
sectors = cms.string( "9" ),
volumes = cms.string( "14,15,20,21,24-27,32,33,40,41,48,49,56,57,62,63,70,71,286-296" )
),
cms.PSet( path = cms.string( "S10/grid.[v].bin" ),
master = cms.int32( 10 ),
sectors = cms.string( "10" ),
volumes = cms.string( "14,15,20,21,24-27,32,33,40,41,48,49,56,57,62,63,70,71,286-296" )
),
cms.PSet( path = cms.string( "S11/grid.[v].bin" ),
master = cms.int32( 11 ),
sectors = cms.string( "11" ),
volumes = cms.string( "14,15,20,21,24-27,32,33,40,41,48,49,56,57,62,63,70,71,286-296" )
)
),
cacheLastVolume = cms.untracked.bool( True )
)
process.VBF40 = cms.ESProducer( "VolumeBasedMagneticFieldESProducer",
scalingVolumes = cms.vint32( ),
useParametrizedTrackerField = cms.bool( True ),
scalingFactors = cms.vdouble( ),
label = cms.untracked.string( "071212_4t" ),
version = cms.string( "grid_1103l_071212_4t" ),