OnMc_HLT_PIon.py

# /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" ),
  debugBuilder = cms.untracked.bool( False ),
  paramLabel = cms.string( "slave_40" ),
  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.ZdcGeometryFromDBEP = cms.ESProducer( "ZdcGeometryFromDBEP",
  applyAlignment = cms.bool( False )
)
process.caloDetIdAssociator = cms.ESProducer( "DetIdAssociatorESProducer",
  ComponentName = cms.string( "CaloDetIdAssociator" ),
  etaBinSize = cms.double( 0.087 ),
  nEta = cms.int32( 70 ),
  nPhi = cms.int32( 72 ),
  includeBadChambers = cms.bool( False )
)
process.cosmicsNavigationSchoolESProducer = cms.ESProducer( "NavigationSchoolESProducer",
  ComponentName = cms.string( "CosmicNavigationSchool" ),
  SimpleMagneticField = cms.string( "" )
)
process.ecalDetIdAssociator = cms.ESProducer( "DetIdAssociatorESProducer",
  ComponentName = cms.string( "EcalDetIdAssociator" ),
  etaBinSize = cms.double( 0.02 ),
  nEta = cms.int32( 300 ),
  nPhi = cms.int32( 360 ),
  includeBadChambers = cms.bool( False )
)
process.ecalSeverityLevel = cms.ESProducer( "EcalSeverityLevelESProducer",
  dbstatusMask = cms.PSet( 
    kGood = cms.vstring( 'kOk' ),
    kProblematic = cms.vstring( 'kDAC',
      'kNoLaser',
      'kNoisy',
      'kNNoisy',
      'kNNNoisy',
      'kNNNNoisy',
      'kNNNNNoisy',
      'kFixedG6',
      'kFixedG1',
      'kFixedG0' ),
    kRecovered = cms.vstring(  ),
    kTime = cms.vstring(  ),
    kWeird = cms.vstring(  ),
    kBad = cms.vstring( 'kNonRespondingIsolated',
      'kDeadVFE',
      'kDeadFE',
      'kNoDataNoTP' )
  ),
  timeThresh = cms.double( 2.0 ),
  flagMask = cms.PSet( 
    kGood = cms.vstring( 'kGood' ),
    kProblematic = cms.vstring( 'kPoorReco',
      'kPoorCalib',
      'kNoisy',
      'kSaturated' ),
    kRecovered = cms.vstring( 'kLeadingEdgeRecovered',
      'kTowerRecovered' ),
    kTime = cms.vstring( 'kOutOfTime' ),
    kWeird = cms.vstring( 'kWeird',
      'kDiWeird' ),
    kBad = cms.vstring( 'kFaultyHardware',
      'kDead',
      'kKilled' )
  )
)
process.hcalDetIdAssociator = cms.ESProducer( "DetIdAssociatorESProducer",
  ComponentName = cms.string( "HcalDetIdAssociator" ),
  etaBinSize = cms.double( 0.087 ),
  nEta = cms.int32( 70 ),
  nPhi = cms.int32( 72 ),
  includeBadChambers = cms.bool( False )
)
process.hcalRecAlgos = cms.ESProducer( "HcalRecAlgoESProducer",
  RecoveredRecHitBits = cms.vstring( 'TimingAddedBit',
    'TimingSubtractedBit' ),
  SeverityLevels = cms.VPSet( 
    cms.PSet(  RecHitFlags = cms.vstring(  ),
      ChannelStatus = cms.vstring(  ),
      Level = cms.int32( 0 )
    ),
    cms.PSet(  RecHitFlags = cms.vstring(  ),
      ChannelStatus = cms.vstring( 'HcalCellCaloTowerProb' ),
      Level = cms.int32( 1 )
    ),
    cms.PSet(  RecHitFlags = cms.vstring( 'HSCP_R1R2',
  'HSCP_FracLeader',
  'HSCP_OuterEnergy',
  'HSCP_ExpFit',
  'ADCSaturationBit',
  'HBHEIsolatedNoise',
  'AddedSimHcalNoise' ),
      ChannelStatus = cms.vstring( 'HcalCellExcludeFromHBHENoiseSummary' ),
      Level = cms.int32( 5 )
    ),
    cms.PSet(  RecHitFlags = cms.vstring( 'HBHEHpdHitMultiplicity',
  'HBHEPulseShape',
  'HOBit',
  'HFInTimeWindow',
  'ZDCBit',
  'CalibrationBit',
  'TimingErrorBit',
  'HBHETriangleNoise',
  'HBHETS4TS5Noise' ),
      ChannelStatus = cms.vstring(  ),
      Level = cms.int32( 8 )
    ),
    cms.PSet(  RecHitFlags = cms.vstring( 'HFLongShort',
  'HFPET',
  'HFS8S1Ratio',
  'HFDigiTime' ),
      ChannelStatus = cms.vstring(  ),
      Level = cms.int32( 11 )
    ),
    cms.PSet(  RecHitFlags = cms.vstring( 'HBHEFlatNoise',
  'HBHESpikeNoise' ),
      ChannelStatus = cms.vstring( 'HcalCellCaloTowerMask' ),
      Level = cms.int32( 12 )
    ),
    cms.PSet(  RecHitFlags = cms.vstring(  ),
      ChannelStatus = cms.vstring( 'HcalCellHot' ),
      Level = cms.int32( 15 )
    ),
    cms.PSet(  RecHitFlags = cms.vstring(  ),
      ChannelStatus = cms.vstring( 'HcalCellOff',
        'HcalCellDead' ),
      Level = cms.int32( 20 )
    )
  ),
  DropChannelStatusBits = cms.vstring( 'HcalCellMask',
    'HcalCellOff',
    'HcalCellDead' )
)
process.hcal_db_producer = cms.ESProducer( "HcalDbProducer" )
process.hltCombinedSecondaryVertex = cms.ESProducer( "CombinedSecondaryVertexESProducer",
  trackPairV0Filter = cms.PSet(  k0sMassWindow = cms.double( 0.03 ) ),
  useTrackWeights = cms.bool( True ),
  useCategories = cms.bool( True ),
  pseudoMultiplicityMin = cms.uint32( 2 ),
  categoryVariableName = cms.string( "vertexCategory" ),
  trackSelection = cms.PSet( 
    totalHitsMin = cms.uint32( 0 ),
    jetDeltaRMax = cms.double( 0.3 ),
    qualityClass = cms.string( "any" ),
    pixelHitsMin = cms.uint32( 0 ),
    sip3dSigMin = cms.double( -99999.9 ),
    sip3dSigMax = cms.double( 99999.9 ),
    normChi2Max = cms.double( 99999.9 ),
    maxDistToAxis = cms.double( 0.07 ),
    sip2dValMax = cms.double( 99999.9 ),
    maxDecayLen = cms.double( 5.0 ),
    ptMin = cms.double( 0.0 ),
    sip2dSigMax = cms.double( 99999.9 ),
    sip2dSigMin = cms.double( -99999.9 ),
    sip3dValMax = cms.double( 99999.9 ),
    sip2dValMin = cms.double( -99999.9 ),
    sip3dValMin = cms.double( -99999.9 )
  ),
  calibrationRecords = cms.vstring( 'CombinedSVRecoVertex',
    'CombinedSVPseudoVertex',
    'CombinedSVNoVertex' ),
  correctVertexMass = cms.bool( True ),
  charmCut = cms.double( 1.5 ),
  vertexFlip = cms.bool( False ),
  minimumTrackWeight = cms.double( 0.5 ),
  pseudoVertexV0Filter = cms.PSet(  k0sMassWindow = cms.double( 0.05 ) ),
  trackMultiplicityMin = cms.uint32( 3 ),
  trackPseudoSelection = cms.PSet( 
    totalHitsMin = cms.uint32( 0 ),
    jetDeltaRMax = cms.double( 0.3 ),
    qualityClass = cms.string( "any" ),
    pixelHitsMin = cms.uint32( 0 ),
    sip3dSigMin = cms.double( -99999.9 ),
    sip3dSigMax = cms.double( 99999.9 ),
    normChi2Max = cms.double( 99999.9 ),
    maxDistToAxis = cms.double( 0.07 ),
    sip2dValMax = cms.double( 99999.9 ),
    maxDecayLen = cms.double( 5.0 ),
    ptMin = cms.double( 0.0 ),
    sip2dSigMax = cms.double( 99999.9 ),
    sip2dSigMin = cms.double( 2.0 ),
    sip3dValMax = cms.double( 99999.9 ),
    sip2dValMin = cms.double( -99999.9 ),
    sip3dValMin = cms.double( -99999.9 )
  ),
  trackSort = cms.string( "sip2dSig" ),
  trackFlip = cms.bool( False )
)
process.hltESPAnalyticalPropagator = cms.ESProducer( "AnalyticalPropagatorESProducer",
  MaxDPhi = cms.double( 1.6 ),
  ComponentName = cms.string( "hltESPAnalyticalPropagator" ),
  PropagationDirection = cms.string( "alongMomentum" )
)
process.hltESPBwdAnalyticalPropagator = cms.ESProducer( "AnalyticalPropagatorESProducer",
  MaxDPhi = cms.double( 1.6 ),
  ComponentName = cms.string( "hltESPBwdAnalyticalPropagator" ),
  PropagationDirection = cms.string( "oppositeToMomentum" )
)
process.hltESPBwdElectronPropagator = cms.ESProducer( "PropagatorWithMaterialESProducer",
  SimpleMagneticField = cms.string( "" ),
  PropagationDirection = cms.string( "oppositeToMomentum" ),
  ComponentName = cms.string( "hltESPBwdElectronPropagator" ),
  Mass = cms.double( 5.11E-4 ),
  ptMin = cms.double( -1.0 ),
  MaxDPhi = cms.double( 1.6 ),
  useRungeKutta = cms.bool( False )
)
process.hltESPChi2EstimatorForRefit = cms.ESProducer( "Chi2MeasurementEstimatorESProducer",
  MaxChi2 = cms.double( 100000.0 ),
  nSigma = cms.double( 3.0 ),
  ComponentName = cms.string( "hltESPChi2EstimatorForRefit" )
)
process.hltESPChi2MeasurementEstimator16 = cms.ESProducer( "Chi2MeasurementEstimatorESProducer",
  MaxChi2 = cms.double( 16.0 ),
  nSigma = cms.double( 3.0 ),
  ComponentName = cms.string( "hltESPChi2MeasurementEstimator16" )
)
process.hltESPChi2MeasurementEstimator9 = cms.ESProducer( "Chi2MeasurementEstimatorESProducer",
  MaxChi2 = cms.double( 9.0 ),
  nSigma = cms.double( 3.0 ),
  ComponentName = cms.string( "hltESPChi2MeasurementEstimator9" )
)
process.hltESPCloseComponentsMerger5D = cms.ESProducer( "CloseComponentsMergerESProducer5D",
  ComponentName = cms.string( "hltESPCloseComponentsMerger5D" ),
  MaxComponents = cms.int32( 12 ),
  DistanceMeasure = cms.string( "hltESPKullbackLeiblerDistance5D" )
)
process.hltESPDummyDetLayerGeometry = cms.ESProducer( "DetLayerGeometryESProducer",
  ComponentName = cms.string( "hltESPDummyDetLayerGeometry" )
)
process.hltESPEcalRegionCablingESProducer = cms.ESProducer( "EcalRegionCablingESProducer",
  esMapping = cms.PSet(  LookupTable = cms.FileInPath( "EventFilter/ESDigiToRaw/data/ES_lookup_table.dat" ) )
)
process.hltESPEcalTrigTowerConstituentsMapBuilder = cms.ESProducer( "EcalTrigTowerConstituentsMapBuilder",
  MapFile = cms.untracked.string( "Geometry/EcalMapping/data/EndCap_TTMap.txt" )
)
process.hltESPElectronChi2 = cms.ESProducer( "Chi2MeasurementEstimatorESProducer",
  MaxChi2 = cms.double( 2000.0 ),
  nSigma = cms.double( 3.0 ),
  ComponentName = cms.string( "hltESPElectronChi2" )
)
process.hltESPElectronMaterialEffects = cms.ESProducer( "GsfMaterialEffectsESProducer",
  BetheHeitlerParametrization = cms.string( "BetheHeitler_cdfmom_nC6_O5.par" ),
  EnergyLossUpdator = cms.string( "GsfBetheHeitlerUpdator" ),
  ComponentName = cms.string( "hltESPElectronMaterialEffects" ),
  MultipleScatteringUpdator = cms.string( "MultipleScatteringUpdator" ),
  Mass = cms.double( 5.11E-4 ),
  BetheHeitlerCorrection = cms.int32( 2 )
)
process.hltESPFastSteppingHelixPropagatorAny = cms.ESProducer( "SteppingHelixPropagatorESProducer",
  NoErrorPropagation = cms.bool( False ),
  endcapShiftInZPos = cms.double( 0.0 ),
  PropagationDirection = cms.string( "anyDirection" ),
  useTuningForL2Speed = cms.bool( True ),
  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( "hltESPFastSteppingHelixPropagatorAny" )
)
process.hltESPFastSteppingHelixPropagatorOpposite = cms.ESProducer( "SteppingHelixPropagatorESProducer",
  NoErrorPropagation = cms.bool( False ),
  endcapShiftInZPos = cms.double( 0.0 ),
  PropagationDirection = cms.string( "oppositeToMomentum" ),
  useTuningForL2Speed = cms.bool( True ),
  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( "hltESPFastSteppingHelixPropagatorOpposite" )
)
process.hltESPFittingSmootherIT = cms.ESProducer( "KFFittingSmootherESProducer",
  EstimateCut = cms.double( -1.0 ),
  LogPixelProbabilityCut = cms.double( -16.0 ),
  Fitter = cms.string( "hltESPTrajectoryFitterRK" ),
  MinNumberOfHits = cms.int32( 3 ),
  Smoother = cms.string( "hltESPTrajectorySmootherRK" ),
  BreakTrajWith2ConsecutiveMissing = cms.bool( True ),
  ComponentName = cms.string( "hltESPFittingSmootherIT" ),
  NoInvalidHitsBeginEnd = cms.bool( True ),
  RejectTracks = cms.bool( True )
)
process.hltESPFittingSmootherRK = cms.ESProducer( "KFFittingSmootherESProducer",
  EstimateCut = cms.double( -1.0 ),
  LogPixelProbabilityCut = cms.double( -16.0 ),
  Fitter = cms.string( "hltESPTrajectoryFitterRK" ),
  MinNumberOfHits = cms.int32( 5 ),
  Smoother = cms.string( "hltESPTrajectorySmootherRK" ),
  BreakTrajWith2ConsecutiveMissing = cms.bool( False ),
  ComponentName = cms.string( "hltESPFittingSmootherRK" ),
  NoInvalidHitsBeginEnd = cms.bool( False ),
  RejectTracks = cms.bool( True )
)
process.hltESPFwdElectronPropagator = cms.ESProducer( "PropagatorWithMaterialESProducer",
  SimpleMagneticField = cms.string( "" ),
  PropagationDirection = cms.string( "alongMomentum" ),
  ComponentName = cms.string( "hltESPFwdElectronPropagator" ),
  Mass = cms.double( 5.11E-4 ),
  ptMin = cms.double( -1.0 ),
  MaxDPhi = cms.double( 1.6 ),
  useRungeKutta = cms.bool( False )
)
process.hltESPGlobalDetLayerGeometry = cms.ESProducer( "GlobalDetLayerGeometryESProducer",
  ComponentName = cms.string( "hltESPGlobalDetLayerGeometry" )
)
process.hltESPGlobalTrackingGeometryESProducer = cms.ESProducer( "GlobalTrackingGeometryESProducer" )
process.hltESPGsfElectronFittingSmoother = cms.ESProducer( "KFFittingSmootherESProducer",
  EstimateCut = cms.double( -1.0 ),
  LogPixelProbabilityCut = cms.double( -16.0 ),
  Fitter = cms.string( "hltESPGsfTrajectoryFitter" ),
  MinNumberOfHits = cms.int32( 5 ),
  Smoother = cms.string( "hltESPGsfTrajectorySmoother" ),
  BreakTrajWith2ConsecutiveMissing = cms.bool( True ),
  ComponentName = cms.string( "hltESPGsfElectronFittingSmoother" ),
  NoInvalidHitsBeginEnd = cms.bool( True ),
  RejectTracks = cms.bool( True )
)
process.hltESPGsfTrajectoryFitter = cms.ESProducer( "GsfTrajectoryFitterESProducer",
  Merger = cms.string( "hltESPCloseComponentsMerger5D" ),
  ComponentName = cms.string( "hltESPGsfTrajectoryFitter" ),
  MaterialEffectsUpdator = cms.string( "hltESPElectronMaterialEffects" ),
  RecoGeometry = cms.string( "hltESPGlobalDetLayerGeometry" ),
  GeometricalPropagator = cms.string( "hltESPAnalyticalPropagator" )
)
process.hltESPGsfTrajectorySmoother = cms.ESProducer( "GsfTrajectorySmootherESProducer",
  ErrorRescaling = cms.double( 100.0 ),
  RecoGeometry = cms.string( "hltESPGlobalDetLayerGeometry" ),
  Merger = cms.string( "hltESPCloseComponentsMerger5D" ),
  ComponentName = cms.string( "hltESPGsfTrajectorySmoother" ),
  GeometricalPropagator = cms.string( "hltESPBwdAnalyticalPropagator" ),
  MaterialEffectsUpdator = cms.string( "hltESPElectronMaterialEffects" )
)
process.hltESPKFFittingSmoother = cms.ESProducer( "KFFittingSmootherESProducer",
  EstimateCut = cms.double( -1.0 ),
  LogPixelProbabilityCut = cms.double( -16.0 ),
  Fitter = cms.string( "hltESPKFTrajectoryFitter" ),
  MinNumberOfHits = cms.int32( 5 ),
  Smoother = cms.string( "hltESPKFTrajectorySmoother" ),
  BreakTrajWith2ConsecutiveMissing = cms.bool( False ),
  ComponentName = cms.string( "hltESPKFFittingSmoother" ),
  NoInvalidHitsBeginEnd = cms.bool( False ),
  RejectTracks = cms.bool( True )
)
process.hltESPKFFittingSmootherForL2Muon = cms.ESProducer( "KFFittingSmootherESProducer",
  EstimateCut = cms.double( -1.0 ),
  LogPixelProbabilityCut = cms.double( -16.0 ),
  Fitter = cms.string( "hltESPKFTrajectoryFitterForL2Muon" ),
  MinNumberOfHits = cms.int32( 5 ),
  Smoother = cms.string( "hltESPKFTrajectorySmootherForL2Muon" ),
  BreakTrajWith2ConsecutiveMissing = cms.bool( False ),
  ComponentName = cms.string( "hltESPKFFittingSmootherForL2Muon" ),
  NoInvalidHitsBeginEnd = cms.bool( False ),
  RejectTracks = cms.bool( True )
)
process.hltESPKFFittingSmootherWithOutliersRejectionAndRK = cms.ESProducer( "KFFittingSmootherESProducer",
  EstimateCut = cms.double( 20.0 ),
  LogPixelProbabilityCut = cms.double( -14.0 ),
  Fitter = cms.string( "hltESPRKTrajectoryFitter" ),
  MinNumberOfHits = cms.int32( 3 ),
  Smoother = cms.string( "hltESPRKTrajectorySmoother" ),
  BreakTrajWith2ConsecutiveMissing = cms.bool( True ),
  ComponentName = cms.string( "hltESPKFFittingSmootherWithOutliersRejectionAndRK" ),
  NoInvalidHitsBeginEnd = cms.bool( True ),
  RejectTracks = cms.bool( True )
)
process.hltESPKFTrajectoryFitter = cms.ESProducer( "KFTrajectoryFitterESProducer",
  minHits = cms.int32( 3 ),
  ComponentName = cms.string( "hltESPKFTrajectoryFitter" ),
  Estimator = cms.string( "hltESPChi2MeasurementEstimator30" ),
  Updator = cms.string( "hltESPKFUpdator" ),
  Propagator = cms.string( "PropagatorWithMaterialParabolicMf" ),
  RecoGeometry = cms.string( "hltESPDummyDetLayerGeometry" )
)
process.hltESPKFTrajectoryFitterForL2Muon = cms.ESProducer( "KFTrajectoryFitterESProducer",
  minHits = cms.int32( 3 ),
  ComponentName = cms.string( "hltESPKFTrajectoryFitterForL2Muon" ),
  Estimator = cms.string( "hltESPChi2MeasurementEstimator30" ),
  Updator = cms.string( "hltESPKFUpdator" ),
  Propagator = cms.string( "hltESPFastSteppingHelixPropagatorAny" ),
  RecoGeometry = cms.string( "hltESPDummyDetLayerGeometry" )
)
process.hltESPKFTrajectorySmoother = cms.ESProducer( "KFTrajectorySmootherESProducer",
  errorRescaling = cms.double( 100.0 ),
  minHits = cms.int32( 3 ),
  ComponentName = cms.string( "hltESPKFTrajectorySmoother" ),
  Estimator = cms.string( "hltESPChi2MeasurementEstimator30" ),
  Updator = cms.string( "hltESPKFUpdator" ),
  Propagator = cms.string( "PropagatorWithMaterialParabolicMf" ),
  RecoGeometry = cms.string( "hltESPDummyDetLayerGeometry" )
)
process.hltESPKFTrajectorySmootherForL2Muon = cms.ESProducer( "KFTrajectorySmootherESProducer",
  errorRescaling = cms.double( 100.0 ),
  minHits = cms.int32( 3 ),
  ComponentName = cms.string( "hltESPKFTrajectorySmootherForL2Muon" ),
  Estimator = cms.string( "hltESPChi2MeasurementEstimator30" ),
  Updator = cms.string( "hltESPKFUpdator" ),
  Propagator = cms.string( "hltESPFastSteppingHelixPropagatorOpposite" ),
  RecoGeometry = cms.string( "hltESPDummyDetLayerGeometry" )
)
process.hltESPKFTrajectorySmootherForMuonTrackLoader = cms.ESProducer( "KFTrajectorySmootherESProducer",
  errorRescaling = cms.double( 10.0 ),
  minHits = cms.int32( 3 ),
  ComponentName = cms.string( "hltESPKFTrajectorySmootherForMuonTrackLoader" ),
  Estimator = cms.string( "hltESPChi2MeasurementEstimator30" ),
  Updator = cms.string( "hltESPKFUpdator" ),
  Propagator = cms.string( "hltESPSmartPropagatorAnyOpposite" ),
  RecoGeometry = cms.string( "hltESPDummyDetLayerGeometry" )
)
process.hltESPKFUpdator = cms.ESProducer( "KFUpdatorESProducer",
  ComponentName = cms.string( "hltESPKFUpdator" )
)
process.hltESPKullbackLeiblerDistance5D = cms.ESProducer( "DistanceBetweenComponentsESProducer5D",
  ComponentName = cms.string( "hltESPKullbackLeiblerDistance5D" ),
  DistanceMeasure = cms.string( "KullbackLeibler" )
)
process.hltESPL3MuKFTrajectoryFitter = cms.ESProducer( "KFTrajectoryFitterESProducer",
  minHits = cms.int32( 3 ),
  ComponentName = cms.string( "hltESPL3MuKFTrajectoryFitter" ),
  Estimator = cms.string( "hltESPChi2MeasurementEstimator30" ),
  Updator = cms.string( "hltESPKFUpdator" ),
  Propagator = cms.string( "hltESPSmartPropagatorAny" ),
  RecoGeometry = cms.string( "hltESPDummyDetLayerGeometry" )
)
process.hltESPMeasurementTracker = cms.ESProducer( "MeasurementTrackerESProducer",
  UseStripStripQualityDB = cms.bool( True ),
  StripCPE = cms.string( "hltESPStripCPEfromTrackAngle" ),
  UsePixelROCQualityDB = cms.bool( True ),
  DebugPixelROCQualityDB = cms.untracked.bool( False ),
  UseStripAPVFiberQualityDB = cms.bool( True ),
  badStripCuts = cms.PSet( 
    TOB = cms.PSet( 
      maxConsecutiveBad = cms.uint32( 9999 ),
      maxBad = cms.uint32( 9999 )
    ),
    TID = cms.PSet( 
      maxConsecutiveBad = cms.uint32( 9999 ),
      maxBad = cms.uint32( 9999 )
    ),
    TEC = cms.PSet( 
      maxConsecutiveBad = cms.uint32( 9999 ),
      maxBad = cms.uint32( 9999 )
    ),
    TIB = cms.PSet( 
      maxConsecutiveBad = cms.uint32( 9999 ),
      maxBad = cms.uint32( 9999 )
    )
  ),
  DebugStripModuleQualityDB = cms.untracked.bool( False ),
  ComponentName = cms.string( "hltESPMeasurementTracker" ),
  DebugPixelModuleQualityDB = cms.untracked.bool( False ),
  UsePixelModuleQualityDB = cms.bool( True ),
  DebugStripAPVFiberQualityDB = cms.untracked.bool( False ),
  HitMatcher = cms.string( "StandardMatcher" ),
  DebugStripStripQualityDB = cms.untracked.bool( False ),
  PixelCPE = cms.string( "hltESPPixelCPEGeneric" ),
  SiStripQualityLabel = cms.string( "" ),
  UseStripModuleQualityDB = cms.bool( True ),
  MaskBadAPVFibers = cms.bool( True )
)
process.hltESPMeasurementTrackerReg = cms.ESProducer( "MeasurementTrackerESProducer",
  UseStripStripQualityDB = cms.bool( True ),
  StripCPE = cms.string( "hltESPStripCPEfromTrackAngle" ),
  UsePixelROCQualityDB = cms.bool( True ),
  DebugPixelROCQualityDB = cms.untracked.bool( False ),
  UseStripAPVFiberQualityDB = cms.bool( True ),
  badStripCuts = cms.PSet( 
    TOB = cms.PSet( 
      maxConsecutiveBad = cms.uint32( 9999 ),
      maxBad = cms.uint32( 9999 )
    ),
    TID = cms.PSet( 
      maxConsecutiveBad = cms.uint32( 9999 ),
      maxBad = cms.uint32( 9999 )
    ),
    TEC = cms.PSet( 
      maxConsecutiveBad = cms.uint32( 9999 ),
      maxBad = cms.uint32( 9999 )
    ),
    TIB = cms.PSet( 
      maxConsecutiveBad = cms.uint32( 9999 ),
      maxBad = cms.uint32( 9999 )
    )
  ),
  DebugStripModuleQualityDB = cms.untracked.bool( False ),
  ComponentName = cms.string( "hltESPMeasurementTrackerReg" ),
  DebugPixelModuleQualityDB = cms.untracked.bool( False ),
  UsePixelModuleQualityDB = cms.bool( True ),
  DebugStripAPVFiberQualityDB = cms.untracked.bool( False ),
  HitMatcher = cms.string( "StandardMatcher" ),
  DebugStripStripQualityDB = cms.untracked.bool( False ),
  PixelCPE = cms.string( "hltESPPixelCPEGeneric" ),
  SiStripQualityLabel = cms.string( "" ),
  UseStripModuleQualityDB = cms.bool( True ),
  MaskBadAPVFibers = cms.bool( True )
)
process.hltESPMuonDetLayerGeometryESProducer = cms.ESProducer( "MuonDetLayerGeometryESProducer" )
process.hltESPMuonTransientTrackingRecHitBuilder = cms.ESProducer( "MuonTransientTrackingRecHitBuilderESProducer",
  ComponentName = cms.string( "hltESPMuonTransientTrackingRecHitBuilder" )
)
process.hltESPPixelCPEGeneric = cms.ESProducer( "PixelCPEGenericESProducer",
  useLAAlignmentOffsets = cms.bool( False ),
  DoCosmics = cms.bool( False ),
  eff_charge_cut_highX = cms.double( 1.0 ),
  eff_charge_cut_highY = cms.double( 1.0 ),
  inflate_all_errors_no_trk_angle = cms.bool( False ),
  eff_charge_cut_lowY = cms.double( 0.0 ),
  eff_charge_cut_lowX = cms.double( 0.0 ),
  UseErrorsFromTemplates = cms.bool( True ),
  TruncatePixelCharge = cms.bool( True ),
  size_cutY = cms.double( 3.0 ),
  size_cutX = cms.double( 3.0 ),
  useLAWidthFromDB = cms.bool( False ),
  inflate_errors = cms.bool( False ),
  Alpha2Order = cms.bool( True ),
  ClusterProbComputationFlag = cms.int32( 0 ),
  PixelErrorParametrization = cms.string( "NOTcmsim" ),
  EdgeClusterErrorX = cms.double( 50.0 ),
  EdgeClusterErrorY = cms.double( 85.0 ),
  LoadTemplatesFromDB = cms.bool( True ),
  ComponentName = cms.string( "hltESPPixelCPEGeneric" ),
  IrradiationBiasCorrection = cms.bool( False )
)
process.hltESPPixelCPETemplateReco = cms.ESProducer( "PixelCPETemplateRecoESProducer",
  DoLorentz = cms.bool( False ),
  DoCosmics = cms.bool( False ),
  LoadTemplatesFromDB = cms.bool( True ),
  ComponentName = cms.string( "hltESPPixelCPETemplateReco" ),
  Alpha2Order = cms.bool( True ),
  ClusterProbComputationFlag = cms.int32( 0 ),
  speed = cms.int32( -2 ),
  UseClusterSplitter = cms.bool( False )
)
process.hltESPPromptTrackCountingESProducer = 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( 0 ),
  trackQualityClass = cms.string( "any" ),
  deltaRmin = cms.double( 0.0 ),
  maxImpactParameter = cms.double( 0.03 ),
  useSignedImpactParameterSig = cms.bool( True ),
  maximumDistanceToJetAxis = cms.double( 999999.0 ),
  nthTrack = cms.int32( -1 )
)
process.hltESPRKTrajectoryFitter = cms.ESProducer( "KFTrajectoryFitterESProducer",
  minHits = cms.int32( 3 ),
  ComponentName = cms.string( "hltESPRKTrajectoryFitter" ),
  Estimator = cms.string( "hltESPChi2MeasurementEstimator30" ),
  Updator = cms.string( "hltESPKFUpdator" ),
  Propagator = cms.string( "hltESPRungeKuttaTrackerPropagator" ),
  RecoGeometry = cms.string( "hltESPGlobalDetLayerGeometry" )
)
process.hltESPRKTrajectorySmoother = cms.ESProducer( "KFTrajectorySmootherESProducer",
  errorRescaling = cms.double( 100.0 ),
  minHits = cms.int32( 3 ),
  ComponentName = cms.string( "hltESPRKTrajectorySmoother" ),
  Estimator = cms.string( "hltESPChi2MeasurementEstimator30" ),
  Updator = cms.string( "hltESPKFUpdator" ),
  Propagator = cms.string( "hltESPRungeKuttaTrackerPropagator" ),
  RecoGeometry = cms.string( "hltESPGlobalDetLayerGeometry" )
)
process.hltESPRungeKuttaTrackerPropagator = cms.ESProducer( "PropagatorWithMaterialESProducer",
  SimpleMagneticField = cms.string( "" ),
  PropagationDirection = cms.string( "alongMomentum" ),
  ComponentName = cms.string( "hltESPRungeKuttaTrackerPropagator" ),
  Mass = cms.double( 0.105 ),
  ptMin = cms.double( -1.0 ),
  MaxDPhi = cms.double( 1.6 ),
  useRungeKutta = cms.bool( True )
)
process.hltESPSiStripRegionConnectivity = cms.ESProducer( "SiStripRegionConnectivity",
  EtaDivisions = cms.untracked.uint32( 20 ),
  PhiDivisions = cms.untracked.uint32( 20 ),
  EtaMax = cms.untracked.double( 2.5 )
)
process.hltESPSmartPropagator = cms.ESProducer( "SmartPropagatorESProducer",
  Epsilon = cms.double( 5.0 ),
  TrackerPropagator = cms.string( "PropagatorWithMaterial" ),
  MuonPropagator = cms.string( "hltESPSteppingHelixPropagatorAlong" ),
  PropagationDirection = cms.string( "alongMomentum" ),
  ComponentName = cms.string( "hltESPSmartPropagator" )
)
process.hltESPSmartPropagatorAny = cms.ESProducer( "SmartPropagatorESProducer",
  Epsilon = cms.double( 5.0 ),
  TrackerPropagator = cms.string( "PropagatorWithMaterial" ),
  MuonPropagator = cms.string( "SteppingHelixPropagatorAny" ),
  PropagationDirection = cms.string( "alongMomentum" ),
  ComponentName = cms.string( "hltESPSmartPropagatorAny" )
)
process.hltESPSmartPropagatorAnyOpposite = cms.ESProducer( "SmartPropagatorESProducer",
  Epsilon = cms.double( 5.0 ),
  TrackerPropagator = cms.string( "PropagatorWithMaterialOpposite" ),
  MuonPropagator = cms.string( "SteppingHelixPropagatorAny" ),
  PropagationDirection = cms.string( "oppositeToMomentum" ),
  ComponentName = cms.string( "hltESPSmartPropagatorAnyOpposite" )
)
process.hltESPSmartPropagatorOpposite = cms.ESProducer( "SmartPropagatorESProducer",
  Epsilon = cms.double( 5.0 ),
  TrackerPropagator = cms.string( "PropagatorWithMaterialOpposite" ),
  MuonPropagator = cms.string( "hltESPSteppingHelixPropagatorOpposite" ),
  PropagationDirection = cms.string( "oppositeToMomentum" ),
  ComponentName = cms.string( "hltESPSmartPropagatorOpposite" )
)
process.hltESPSoftLeptonByDistance = cms.ESProducer( "LeptonTaggerByDistanceESProducer",
  distance = cms.double( 0.5 )
)
process.hltESPSoftLeptonByPt = cms.ESProducer( "LeptonTaggerByPtESProducer",
  ipSign = cms.string( "any" )
)
process.hltESPSteppingHelixPropagatorAlong = cms.ESProducer( "SteppingHelixPropagatorESProducer",
  NoErrorPropagation = cms.bool( False ),
  endcapShiftInZPos = cms.double( 0.0 ),
  PropagationDirection = cms.string( "alongMomentum" ),
  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( "hltESPSteppingHelixPropagatorAlong" )
)
process.hltESPSteppingHelixPropagatorOpposite = cms.ESProducer( "SteppingHelixPropagatorESProducer",
  NoErrorPropagation = cms.bool( False ),
  endcapShiftInZPos = cms.double( 0.0 ),
  PropagationDirection = cms.string( "oppositeToMomentum" ),
  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( "hltESPSteppingHelixPropagatorOpposite" )
)
process.hltESPStraightLinePropagator = cms.ESProducer( "StraightLinePropagatorESProducer",
  ComponentName = cms.string( "hltESPStraightLinePropagator" ),
  PropagationDirection = cms.string( "alongMomentum" )
)
process.hltESPStripCPEfromTrackAngle = cms.ESProducer( "StripCPEESProducer",
  ComponentType = cms.string( "StripCPEfromTrackAngle" ),
  ComponentName = cms.string( "hltESPStripCPEfromTrackAngle" ),
  parameters = cms.PSet( 
    mLC_P2 = cms.double( 0.3 ),
    mLC_P1 = cms.double( 0.618 ),
    mLC_P0 = cms.double( -0.326 ),
    useLegacyError = cms.bool( True ),
    mTEC_P1 = cms.double( 0.471 ),
    mTEC_P0 = cms.double( -1.885 ),
    mTOB_P0 = cms.double( -1.026 ),
    mTOB_P1 = cms.double( 0.253 ),
    mTIB_P0 = cms.double( -0.742 ),
    mTIB_P1 = cms.double( 0.202 ),
    mTID_P0 = cms.double( -1.427 ),
    mTID_P1 = cms.double( 0.433 )
  )
)
process.hltESPTTRHBWithTrackAngle = cms.ESProducer( "TkTransientTrackingRecHitBuilderESProducer",
  StripCPE = cms.string( "hltESPStripCPEfromTrackAngle" ),
  Matcher = cms.string( "StandardMatcher" ),
  ComputeCoarseLocalPositionFromDisk = cms.bool( False ),
  PixelCPE = cms.string( "hltESPPixelCPEGeneric" ),
  ComponentName = cms.string( "hltESPTTRHBWithTrackAngle" )
)
process.hltESPTTRHBuilderAngleAndTemplate = cms.ESProducer( "TkTransientTrackingRecHitBuilderESProducer",
  StripCPE = cms.string( "hltESPStripCPEfromTrackAngle" ),
  Matcher = cms.string( "StandardMatcher" ),
  ComputeCoarseLocalPositionFromDisk = cms.bool( False ),
  PixelCPE = cms.string( "hltESPPixelCPETemplateReco" ),
  ComponentName = cms.string( "hltESPTTRHBuilderAngleAndTemplate" )
)
process.hltESPTTRHBuilderPixelOnly = cms.ESProducer( "TkTransientTrackingRecHitBuilderESProducer",
  StripCPE = cms.string( "Fake" ),
  Matcher = cms.string( "StandardMatcher" ),
  ComputeCoarseLocalPositionFromDisk = cms.bool( False ),
  PixelCPE = cms.string( "hltESPPixelCPEGeneric" ),
  ComponentName = cms.string( "hltESPTTRHBuilderPixelOnly" )
)
process.hltESPTTRHBuilderWithoutAngle4PixelTriplets = cms.ESProducer( "TkTransientTrackingRecHitBuilderESProducer",
  StripCPE = cms.string( "Fake" ),
  Matcher = cms.string( "StandardMatcher" ),
  ComputeCoarseLocalPositionFromDisk = cms.bool( False ),
  PixelCPE = cms.string( "hltESPPixelCPEGeneric" ),
  ComponentName = cms.string( "hltESPTTRHBuilderWithoutAngle4PixelTriplets" )
)
process.hltESPTrackCounting3D1st = cms.ESProducer( "TrackCountingESProducer",
  b_pT = cms.double( 0.3684 ),
  deltaR = cms.double( -1.0 ),
  minimumImpactParameter = cms.double( -1.0 ),
  a_dR = cms.double( -0.001053 ),
  min_pT = cms.double( 120.0 ),
  maximumDistanceToJetAxis = cms.double( 0.07 ),
  max_pT = cms.double( 500.0 ),
  impactParameterType = cms.int32( 0 ),
  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( 5.0 ),
  nthTrack = cms.int32( 1 ),
  useSignedImpactParameterSig = cms.bool( True )
)
process.hltESPTrackCounting3D2nd = cms.ESProducer( "TrackCountingESProducer",
  b_pT = cms.double( 0.3684 ),
  deltaR = cms.double( -1.0 ),
  minimumImpactParameter = cms.double( -1.0 ),
  a_dR = cms.double( -0.001053 ),
  min_pT = cms.double( 120.0 ),
  maximumDistanceToJetAxis = cms.double( 0.07 ),
  max_pT = cms.double( 500.0 ),
  impactParameterType = cms.int32( 0 ),
  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( 5.0 ),
  nthTrack = cms.int32( 2 ),
  useSignedImpactParameterSig = cms.bool( True )
)
process.hltESPTrackerRecoGeometryESProducer = cms.ESProducer( "TrackerRecoGeometryESProducer",
  appendToDataLabel = cms.string( "" ),
  trackerGeometryLabel = cms.untracked.string( "" )
)
process.hltESPTrajectoryCleanerBySharedHits = cms.ESProducer( "TrajectoryCleanerESProducer",
  ComponentName = cms.string( "hltESPTrajectoryCleanerBySharedHits" ),
  fractionShared = cms.double( 0.5 ),
  ValidHitBonus = cms.double( 100.0 ),
  ComponentType = cms.string( "TrajectoryCleanerBySharedHits" ),
  MissingHitPenalty = cms.double( 0.0 ),
  allowSharedFirstHit = cms.bool( False )
)
process.hltESPTrajectoryCleanerBySharedSeeds = cms.ESProducer( "TrajectoryCleanerESProducer",
  ComponentName = cms.string( "hltESPTrajectoryCleanerBySharedSeeds" ),
  fractionShared = cms.double( 0.5 ),
  ValidHitBonus = cms.double( 100.0 ),
  ComponentType = cms.string( "TrajectoryCleanerBySharedSeeds" ),
  MissingHitPenalty = cms.double( 0.0 ),
  allowSharedFirstHit = cms.bool( True )
)
process.hltESPTrajectoryFitterRK = cms.ESProducer( "KFTrajectoryFitterESProducer",
  minHits = cms.int32( 3 ),
  ComponentName = cms.string( "hltESPTrajectoryFitterRK" ),
  Estimator = cms.string( "hltESPChi2MeasurementEstimator30" ),
  Updator = cms.string( "hltESPKFUpdator" ),
  Propagator = cms.string( "hltESPRungeKuttaTrackerPropagator" ),
  RecoGeometry = cms.string( "hltESPDummyDetLayerGeometry" )
)
process.hltESPTrajectorySmootherRK = cms.ESProducer( "KFTrajectorySmootherESProducer",
  errorRescaling = cms.double( 100.0 ),
  minHits = cms.int32( 3 ),
  ComponentName = cms.string( "hltESPTrajectorySmootherRK" ),
  Estimator = cms.string( "hltESPChi2MeasurementEstimator30" ),
  Updator = cms.string( "hltESPKFUpdator" ),
  Propagator = cms.string( "hltESPRungeKuttaTrackerPropagator" ),
  RecoGeometry = cms.string( "hltESPDummyDetLayerGeometry" )
)
process.hoDetIdAssociator = cms.ESProducer( "DetIdAssociatorESProducer",
  ComponentName = cms.string( "HODetIdAssociator" ),
  etaBinSize = cms.double( 0.087 ),
  nEta = cms.int32( 30 ),
  nPhi = cms.int32( 72 ),
  includeBadChambers = cms.bool( False )
)
process.muonDetIdAssociator = cms.ESProducer( "DetIdAssociatorESProducer",
  ComponentName = cms.string( "MuonDetIdAssociator" ),
  etaBinSize = cms.double( 0.125 ),
  nEta = cms.int32( 48 ),
  nPhi = cms.int32( 48 ),
  includeBadChambers = cms.bool( False )
)
process.navigationSchoolESProducer = cms.ESProducer( "NavigationSchoolESProducer",
  ComponentName = cms.string( "SimpleNavigationSchool" ),
  SimpleMagneticField = cms.string( "ParabolicMf" )
)
process.preshowerDetIdAssociator = cms.ESProducer( "DetIdAssociatorESProducer",
  ComponentName = cms.string( "PreshowerDetIdAssociator" ),
  etaBinSize = cms.double( 0.1 ),
  nEta = cms.int32( 60 ),
  nPhi = cms.int32( 30 ),
  includeBadChambers = cms.bool( False )
)
process.siPixelQualityESProducer = cms.ESProducer( "SiPixelQualityESProducer",
  ListOfRecordToMerge = cms.VPSet( 
    cms.PSet(  record = cms.string( "SiPixelQualityFromDbRcd" ),
      tag = cms.string( "" )
    ),
    cms.PSet(  record = cms.string( "SiPixelDetVOffRcd" ),
      tag = cms.string( "" )
    )
  )
)
process.siPixelTemplateDBObjectESProducer = cms.ESProducer( "SiPixelTemplateDBObjectESProducer" )
process.siStripBackPlaneCorrectionDepESProducer = cms.ESProducer( "SiStripBackPlaneCorrectionDepESProducer",
  LatencyRecord = cms.PSet( 
    record = cms.string( "SiStripLatencyRcd" ),
    label = cms.untracked.string( "" )
  ),
  BackPlaneCorrectionDeconvMode = cms.PSet( 
    record = cms.string( "SiStripBackPlaneCorrectionRcd" ),
    label = cms.untracked.string( "deconvolution" )
  ),
  BackPlaneCorrectionPeakMode = cms.PSet( 
    record = cms.string( "SiStripBackPlaneCorrectionRcd" ),
    label = cms.untracked.string( "peak" )
  )
)
process.siStripLorentzAngleDepESProducer = cms.ESProducer( "SiStripLorentzAngleDepESProducer",
  LatencyRecord = cms.PSet( 
    record = cms.string( "SiStripLatencyRcd" ),
    label = cms.untracked.string( "" )
  ),
  LorentzAngleDeconvMode = cms.PSet( 
    record = cms.string( "SiStripLorentzAngleRcd" ),
    label = cms.untracked.string( "deconvolution" )
  ),
  LorentzAnglePeakMode = cms.PSet( 
    record = cms.string( "SiStripLorentzAngleRcd" ),
    label = cms.untracked.string( "peak" )
  )
)
process.sistripconn = cms.ESProducer( "SiStripConnectivity" )
process.trackerTopologyConstants = cms.ESProducer( "TrackerTopologyEP",
  pxb_layerMask = cms.uint32( 15 ),
  tib_str_int_extStartBit = cms.uint32( 10 ),
  tib_layerMask = cms.uint32( 7 ),
  tib_str_fw_bwStartBit = cms.uint32( 12 ),
  pxf_bladeMask = cms.uint32( 63 ),
  pxb_moduleStartBit = cms.uint32( 2 ),
  pxb_ladderStartBit = cms.uint32( 8 ),
  pxb_layerStartBit = cms.uint32( 16 ),
  tec_wheelStartBit = cms.uint32( 14 ),
  tib_str_fw_bwMask = cms.uint32( 3 ),
  tec_ringStartBit = cms.uint32( 5 ),
  tib_moduleStartBit = cms.uint32( 2 ),
  tib_sterMask = cms.uint32( 3 ),
  tid_sideStartBit = cms.uint32( 13 ),
  tid_wheelStartBit = cms.uint32( 11 ),
  tid_ringMask = cms.uint32( 3 ),
  tid_sterMask = cms.uint32( 3 ),
  tec_petal_fw_bwStartBit = cms.uint32( 12 ),
  tec_ringMask = cms.uint32( 7 ),
  tib_strMask = cms.uint32( 63 ),
  tec_sterMask = cms.uint32( 3 ),
  tec_sideStartBit = cms.uint32( 18 ),
  pxb_moduleMask = cms.uint32( 63 ),
  pxf_panelStartBit = cms.uint32( 8 ),
  tid_sideMask = cms.uint32( 3 ),
  tob_moduleMask = cms.uint32( 7 ),
  tid_ringStartBit = cms.uint32( 9 ),
  pxf_sideMask = cms.uint32( 3 ),
  appendToDataLabel = cms.string( "" ),
  pxf_diskStartBit = cms.uint32( 16 ),
  tib_str_int_extMask = cms.uint32( 3 ),
  tec_moduleMask = cms.uint32( 7 ),
  tob_sterMask = cms.uint32( 3 ),
  tob_rod_fw_bwMask = cms.uint32( 3 ),
  tob_layerStartBit = cms.uint32( 14 ),
  tec_petal_fw_bwMask = cms.uint32( 3 ),
  tib_layerStartBit = cms.uint32( 14 ),
  tec_sterStartBit = cms.uint32( 0 ),
  tid_moduleMask = cms.uint32( 31 ),
  tib_sterStartBit = cms.uint32( 0 ),
  tid_sterStartBit = cms.uint32( 0 ),
  pxf_moduleStartBit = cms.uint32( 2 ),
  pxf_diskMask = cms.uint32( 15 ),
  pxf_sideStartBit = cms.uint32( 23 ),
  tid_module_fw_bwStartBit = cms.uint32( 7 ),
  tob_layerMask = cms.uint32( 7 ),
  tid_module_fw_bwMask = cms.uint32( 3 ),
  tob_rod_fw_bwStartBit = cms.uint32( 12 ),
  tec_petalMask = cms.uint32( 15 ),
  pxb_ladderMask = cms.uint32( 255 ),
  tec_moduleStartBit = cms.uint32( 2 ),
  tec_sideMask = cms.uint32( 3 ),
  tob_rodMask = cms.uint32( 127 ),
  tib_strStartBit = cms.uint32( 4 ),
  tec_wheelMask = cms.uint32( 15 ),
  tob_rodStartBit = cms.uint32( 5 ),
  pxf_panelMask = cms.uint32( 3 ),
  tib_moduleMask = cms.uint32( 3 ),
  pxf_bladeStartBit = cms.uint32( 10 ),
  tid_wheelMask = cms.uint32( 3 ),
  tob_sterStartBit = cms.uint32( 0 ),
  tid_moduleStartBit = cms.uint32( 2 ),
  tec_petalStartBit = cms.uint32( 8 ),
  tob_moduleStartBit = cms.uint32( 2 ),
  pxf_moduleMask = cms.uint32( 63 )
)

process.FastTimerService = cms.Service( "FastTimerService",
    dqmPath = cms.untracked.string( "HLT/TimerService" ),
    dqmModuleTimeRange = cms.untracked.double( 40.0 ),
    useRealTimeClock = cms.untracked.bool( True ),
    enableTimingModules = cms.untracked.bool( True ),
    enableDQM = cms.untracked.bool( True ),
    enableDQMbyModule = cms.untracked.bool( False ),
    enableTimingExclusive = cms.untracked.bool( True ),
    skipFirstPath = cms.untracked.bool( False ),
    enableDQMbyLumiSection = cms.untracked.bool( True ),
    dqmPathTimeResolution = cms.untracked.double( 0.5 ),
    dqmPathTimeRange = cms.untracked.double( 100.0 ),
    dqmTimeRange = cms.untracked.double( 1000.0 ),
    dqmLumiSectionsRange = cms.untracked.uint32( 2500 ),
    enableDQMbyProcesses = cms.untracked.bool( True ),
    enableDQMSummary = cms.untracked.bool( True ),
    enableTimingSummary = cms.untracked.bool( True ),
    enableDQMbyPathTotal = cms.untracked.bool( True ),
    enableTimingPaths = cms.untracked.bool( True ),
    enableDQMbyPathExclusive = cms.untracked.bool( True ),
    dqmTimeResolution = cms.untracked.double( 5.0 ),
    dqmModuleTimeResolution = cms.untracked.double( 0.2 ),
    enableDQMbyPathActive = cms.untracked.bool( True ),
    enableDQMbyPathDetails = cms.untracked.bool( True ),
    enableDQMbyPathOverhead = cms.untracked.bool( False ),
    enableDQMbyPathCounters = cms.untracked.bool( True ),
    enableDQMbyModuleType = cms.untracked.bool( False )
)
process.MessageLogger = cms.Service( "MessageLogger",
    suppressInfo = cms.untracked.vstring(  ),
    debugs = cms.untracked.PSet( 
      threshold = cms.untracked.string( "INFO" ),
      placeholder = cms.untracked.bool( True ),
      suppressInfo = cms.untracked.vstring(  ),
      suppressWarning = cms.untracked.vstring(  ),
      suppressDebug = cms.untracked.vstring(  ),
      suppressError = cms.untracked.vstring(  )
    ),
    suppressDebug = cms.untracked.vstring(  ),
    cout = cms.untracked.PSet(  placeholder = cms.untracked.bool( True ) ),
    cerr_stats = cms.untracked.PSet( 
      threshold = cms.untracked.string( "WARNING" ),
      output = cms.untracked.string( "cerr" ),
      optionalPSet = cms.untracked.bool( True )
    ),
    warnings = cms.untracked.PSet( 
      threshold = cms.untracked.string( "INFO" ),
      placeholder = cms.untracked.bool( True ),
      suppressInfo = cms.untracked.vstring(  ),
      suppressWarning = cms.untracked.vstring(  ),
      suppressDebug = cms.untracked.vstring(  ),
      suppressError = cms.untracked.vstring(  )
    ),
    statistics = cms.untracked.vstring( 'cerr' ),
    cerr = cms.untracked.PSet( 
      INFO = cms.untracked.PSet(  limit = cms.untracked.int32( 0 ) ),
      noTimeStamps = cms.untracked.bool( False ),
      FwkReport = cms.untracked.PSet( 
        reportEvery = cms.untracked.int32( 1 ),
        limit = cms.untracked.int32( 0 )
      ),
      default = cms.untracked.PSet(  limit = cms.untracked.int32( 10000000 ) ),
      Root_NoDictionary = cms.untracked.PSet(  limit = cms.untracked.int32( 0 ) ),
      FwkJob = cms.untracked.PSet(  limit = cms.untracked.int32( 0 ) ),
      FwkSummary = cms.untracked.PSet( 
        reportEvery = cms.untracked.int32( 1 ),
        limit = cms.untracked.int32( 10000000 )
      ),
      threshold = cms.untracked.string( "INFO" ),
      suppressInfo = cms.untracked.vstring(  ),
      suppressWarning = cms.untracked.vstring(  ),
      suppressDebug = cms.untracked.vstring(  ),
      suppressError = cms.untracked.vstring(  )
    ),
    FrameworkJobReport = cms.untracked.PSet( 
      default = cms.untracked.PSet(  limit = cms.untracked.int32( 0 ) ),
      FwkJob = cms.untracked.PSet(  limit = cms.untracked.int32( 10000000 ) )
    ),
    suppressWarning = cms.untracked.vstring( 'hltOnlineBeamSpot',
      'hltCtf3HitL1SeededWithMaterialTracks',
      'hltL3MuonsOIState',
      'hltPixelTracksForHighMult',
      'hltHITPixelTracksHE',
      'hltHITPixelTracksHB',
      'hltCtfL1SeededWithMaterialTracks',
      'hltRegionalTracksForL3MuonIsolation',
      'hltSiPixelClusters',
      'hltActivityStartUpElectronPixelSeeds',
      'hltLightPFTracks',
      'hltPixelVertices3DbbPhi',
      'hltL3MuonsIOHit',
      'hltPixelTracks',
      'hltSiPixelDigis',
      'hltL3MuonsOIHit',
      'hltL1SeededElectronGsfTracks',
      'hltL1SeededStartUpElectronPixelSeeds',
      'hltBLifetimeRegionalCtfWithMaterialTracksbbPhiL1FastJetFastPV',
      'hltCtfActivityWithMaterialTracks' ),
    errors = cms.untracked.PSet( 
      threshold = cms.untracked.string( "INFO" ),
      placeholder = cms.untracked.bool( True ),
      suppressInfo = cms.untracked.vstring(  ),
      suppressWarning = cms.untracked.vstring(  ),
      suppressDebug = cms.untracked.vstring(  ),
      suppressError = cms.untracked.vstring(  )
    ),
    fwkJobReports = cms.untracked.vstring( 'FrameworkJobReport' ),
    debugModules = cms.untracked.vstring(  ),
    infos = cms.untracked.PSet( 
      threshold = cms.untracked.string( "INFO" ),
      Root_NoDictionary = cms.untracked.PSet(  limit = cms.untracked.int32( 0 ) ),
      placeholder = cms.untracked.bool( True ),
      suppressInfo = cms.untracked.vstring(  ),
      suppressWarning = cms.untracked.vstring(  ),
      suppressDebug = cms.untracked.vstring(  ),
      suppressError = cms.untracked.vstring(  )
    ),
    categories = cms.untracked.vstring( 'FwkJob',
      'FwkReport',
      'FwkSummary',
      'Root_NoDictionary' ),
    destinations = cms.untracked.vstring( 'warnings',
      'errors',
      'infos',
      'debugs',
      'cout',
      'cerr' ),
    threshold = cms.untracked.string( "INFO" ),
    suppressError = cms.untracked.vstring( 'hltOnlineBeamSpot',
      'hltL3MuonCandidates',
      'hltL3TkTracksFromL2OIState',
      'hltPFJetCtfWithMaterialTracks',
      'hltL3TkTracksFromL2IOHit',
      'hltL3TkTracksFromL2OIHit' )
)

process.hltGetConditions = cms.EDAnalyzer( "EventSetupRecordDataGetter",
    toGet = cms.VPSet( 
    ),
    verbose = cms.untracked.bool( False )
)
process.hltGetRaw = cms.EDAnalyzer( "HLTGetRaw",
    RawDataCollection = cms.InputTag( "rawDataCollector" )
)
process.hltBoolFalse = cms.EDFilter( "HLTBool",
    result = cms.bool( False )
)
process.hltTriggerType = cms.EDFilter( "HLTTriggerTypeFilter",
    SelectedTriggerType = cms.int32( 1 )
)
process.hltGtDigis = cms.EDProducer( "L1GlobalTriggerRawToDigi",
    DaqGtFedId = cms.untracked.int32( 813 ),
    DaqGtInputTag = cms.InputTag( "rawDataCollector" ),
    UnpackBxInEvent = cms.int32( 5 ),
    ActiveBoardsMask = cms.uint32( 0xffff )
)
process.hltGctDigis = cms.EDProducer( "GctRawToDigi",
    unpackSharedRegions = cms.bool( False ),
    numberOfGctSamplesToUnpack = cms.uint32( 1 ),
    verbose = cms.untracked.bool( False ),
    numberOfRctSamplesToUnpack = cms.uint32( 1 ),
    inputLabel = cms.InputTag( "rawDataCollector" ),
    unpackerVersion = cms.uint32( 0 ),
    gctFedId = cms.untracked.int32( 745 ),
    hltMode = cms.bool( True )
)
process.hltL1GtObjectMap = cms.EDProducer( "L1GlobalTrigger",
    TechnicalTriggersUnprescaled = cms.bool( True ),
    ProduceL1GtObjectMapRecord = cms.bool( True ),
    AlgorithmTriggersUnmasked = cms.bool( False ),
    EmulateBxInEvent = cms.int32( 1 ),
    AlgorithmTriggersUnprescaled = cms.bool( True ),
    ProduceL1GtDaqRecord = cms.bool( False ),
    ReadTechnicalTriggerRecords = cms.bool( True ),
    RecordLength = cms.vint32( 3, 0 ),
    TechnicalTriggersUnmasked = cms.bool( False ),
    ProduceL1GtEvmRecord = cms.bool( False ),
    GmtInputTag = cms.InputTag( "hltGtDigis" ),
    TechnicalTriggersVetoUnmasked = cms.bool( True ),
    AlternativeNrBxBoardEvm = cms.uint32( 0 ),
    TechnicalTriggersInputTags = cms.VInputTag( 'simBscDigis' ),
    CastorInputTag = cms.InputTag( "castorL1Digis" ),
    GctInputTag = cms.InputTag( "hltGctDigis" ),
    AlternativeNrBxBoardDaq = cms.uint32( 0 ),
    WritePsbL1GtDaqRecord = cms.bool( False ),
    BstLengthBytes = cms.int32( -1 )
)
process.hltL1extraParticles = cms.EDProducer( "L1ExtraParticlesProd",
    tauJetSource = cms.InputTag( 'hltGctDigis','tauJets' ),
    etHadSource = cms.InputTag( "hltGctDigis" ),
    etTotalSource = cms.InputTag( "hltGctDigis" ),
    centralBxOnly = cms.bool( True ),
    centralJetSource = cms.InputTag( 'hltGctDigis','cenJets' ),
    etMissSource = cms.InputTag( "hltGctDigis" ),
    hfRingEtSumsSource = cms.InputTag( "hltGctDigis" ),
    produceMuonParticles = cms.bool( True ),
    forwardJetSource = cms.InputTag( 'hltGctDigis','forJets' ),
    ignoreHtMiss = cms.bool( False ),
    htMissSource = cms.InputTag( "hltGctDigis" ),
    produceCaloParticles = cms.bool( True ),
    muonSource = cms.InputTag( "hltGtDigis" ),
    isolatedEmSource = cms.InputTag( 'hltGctDigis','isoEm' ),
    nonIsolatedEmSource = cms.InputTag( 'hltGctDigis','nonIsoEm' ),
    hfRingBitCountsSource = cms.InputTag( "hltGctDigis" )
)
process.hltScalersRawToDigi = cms.EDProducer( "ScalersRawToDigi",
    scalersInputTag = cms.InputTag( "rawDataCollector" )
)
process.hltOnlineBeamSpot = cms.EDProducer( "BeamSpotOnlineProducer",
    maxZ = cms.double( 40.0 ),
    src = cms.InputTag( "hltScalersRawToDigi" ),
    gtEvmLabel = cms.InputTag( "" ),
    changeToCMSCoordinates = cms.bool( False ),
    setSigmaZ = cms.double( 0.0 ),
    maxRadius = cms.double( 2.0 )
)
process.hltL1sL1SingleJet200 = cms.EDFilter( "HLTLevel1GTSeed",
    L1SeedsLogicalExpression = cms.string( "L1_SingleJet200" ),
    saveTags = cms.bool( True ),
    L1MuonCollectionTag = cms.InputTag( "hltL1extraParticles" ),
    L1UseL1TriggerObjectMaps = cms.bool( True ),
    L1UseAliasesForSeeding = cms.bool( True ),
    L1GtReadoutRecordTag = cms.InputTag( "hltGtDigis" ),
    L1CollectionsTag = cms.InputTag( "hltL1extraParticles" ),
    L1NrBxInEvent = cms.int32( 3 ),
    L1GtObjectMapTag = cms.InputTag( "hltL1GtObjectMap" ),
    L1TechTriggerSeeding = cms.bool( False )
)
process.hltPreCaloJet260 = cms.EDFilter( "HLTPrescaler",
    L1GtReadoutRecordTag = cms.InputTag( "hltGtDigis" ),
    offset = cms.uint32( 0 )
)
process.hltEcalDigis = cms.EDProducer( "EcalRawToDigi",
    tccUnpacking = cms.bool( True ),
    FedLabel = cms.InputTag( "listfeds" ),
    srpUnpacking = cms.bool( True ),
    syncCheck = cms.bool( True ),
    feIdCheck = cms.bool( True ),
    silentMode = cms.untracked.bool( True ),
    InputLabel = cms.InputTag( "rawDataCollector" ),
    orderedFedList = cms.vint32( 601, 602, 603, 604, 605, 606, 607, 608, 609, 610, 611, 612, 613, 614, 615, 616, 617, 618, 619, 620, 621, 622, 623, 624, 625, 626, 627, 628, 629, 630, 631, 632, 633, 634, 635, 636, 637, 638, 639, 640, 641, 642, 643, 644, 645, 646, 647, 648, 649, 650, 651, 652, 653, 654 ),
    eventPut = cms.bool( True ),
    numbTriggerTSamples = cms.int32( 1 ),
    numbXtalTSamples = cms.int32( 10 ),
    orderedDCCIdList = cms.vint32( 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54 ),
    FEDs = cms.vint32( 601, 602, 603, 604, 605, 606, 607, 608, 609, 610, 611, 612, 613, 614, 615, 616, 617, 618, 619, 620, 621, 622, 623, 624, 625, 626, 627, 628, 629, 630, 631, 632, 633, 634, 635, 636, 637, 638, 639, 640, 641, 642, 643, 644, 645, 646, 647, 648, 649, 650, 651, 652, 653, 654 ),
    DoRegional = cms.bool( False ),
    feUnpacking = cms.bool( True ),
    forceToKeepFRData = cms.bool( False ),
    headerUnpacking = cms.bool( True ),
    memUnpacking = cms.bool( True )
)
process.hltEcalUncalibRecHit = cms.EDProducer( "EcalUncalibRecHitProducer",
    EEdigiCollection = cms.InputTag( 'hltEcalDigis','eeDigis' ),
    alphaEB = cms.double( 1.138 ),
    alphaEE = cms.double( 1.89 ),
    EBdigiCollection = cms.InputTag( 'hltEcalDigis','ebDigis' ),
    EEhitCollection = cms.string( "EcalUncalibRecHitsEE" ),
    AlphaBetaFilename = cms.untracked.string( "NOFILE" ),
    betaEB = cms.double( 1.655 ),
    MinAmplEndcap = cms.double( 14.0 ),
    MinAmplBarrel = cms.double( 8.0 ),
    algo = cms.string( "EcalUncalibRecHitWorkerWeights" ),
    betaEE = cms.double( 1.4 ),
    UseDynamicPedestal = cms.bool( True ),
    EBhitCollection = cms.string( "EcalUncalibRecHitsEB" )
)
process.hltEcalDetIdToBeRecovered = cms.EDProducer( "EcalDetIdToBeRecoveredProducer",
    ebIntegrityChIdErrors = cms.InputTag( 'hltEcalDigis','EcalIntegrityChIdErrors' ),
    ebDetIdToBeRecovered = cms.string( "ebDetId" ),
    integrityTTIdErrors = cms.InputTag( 'hltEcalDigis','EcalIntegrityTTIdErrors' ),
    eeIntegrityGainErrors = cms.InputTag( 'hltEcalDigis','EcalIntegrityGainErrors' ),
    ebFEToBeRecovered = cms.string( "ebFE" ),
    ebIntegrityGainErrors = cms.InputTag( 'hltEcalDigis','EcalIntegrityGainErrors' ),
    eeDetIdToBeRecovered = cms.string( "eeDetId" ),
    eeIntegrityGainSwitchErrors = cms.InputTag( 'hltEcalDigis','EcalIntegrityGainSwitchErrors' ),
    eeIntegrityChIdErrors = cms.InputTag( 'hltEcalDigis','EcalIntegrityChIdErrors' ),
    ebIntegrityGainSwitchErrors = cms.InputTag( 'hltEcalDigis','EcalIntegrityGainSwitchErrors' ),
    ebSrFlagCollection = cms.InputTag( "hltEcalDigis" ),
    eeFEToBeRecovered = cms.string( "eeFE" ),
    integrityBlockSizeErrors = cms.InputTag( 'hltEcalDigis','EcalIntegrityBlockSizeErrors' ),
    eeSrFlagCollection = cms.InputTag( "hltEcalDigis" )
)
process.hltEcalRecHit = cms.EDProducer( "EcalRecHitProducer",
    recoverEEVFE = cms.bool( False ),
    EErechitCollection = cms.string( "EcalRecHitsEE" ),
    recoverEBIsolatedChannels = cms.bool( False ),
    recoverEBVFE = cms.bool( False ),
    laserCorrection = cms.bool( True ),
    EBLaserMIN = cms.double( 0.5 ),
    killDeadChannels = cms.bool( True ),
    dbStatusToBeExcludedEB = cms.vint32( 14, 78, 142 ),
    EEuncalibRecHitCollection = cms.InputTag( 'hltEcalUncalibRecHit','EcalUncalibRecHitsEE' ),
    dbStatusToBeExcludedEE = cms.vint32( 14, 78, 142 ),
    EELaserMIN = cms.double( 0.5 ),
    ebFEToBeRecovered = cms.InputTag( 'hltEcalDetIdToBeRecovered','ebFE' ),
    cleaningConfig = cms.PSet( 
      e6e2thresh = cms.double( 0.04 ),
      tightenCrack_e6e2_double = cms.double( 3.0 ),
      e4e1Threshold_endcap = cms.double( 0.3 ),
      tightenCrack_e4e1_single = cms.double( 3.0 ),
      tightenCrack_e1_double = cms.double( 2.0 ),
      cThreshold_barrel = cms.double( 4.0 ),
      e4e1Threshold_barrel = cms.double( 0.08 ),
      tightenCrack_e1_single = cms.double( 2.0 ),
      e4e1_b_barrel = cms.double( -0.024 ),
      e4e1_a_barrel = cms.double( 0.04 ),
      ignoreOutOfTimeThresh = cms.double( 1.0E9 ),
      cThreshold_endcap = cms.double( 15.0 ),
      e4e1_b_endcap = cms.double( -0.0125 ),
      e4e1_a_endcap = cms.double( 0.02 ),
      cThreshold_double = cms.double( 10.0 )
    ),
    logWarningEtThreshold_EE_FE = cms.double( 50.0 ),
    eeDetIdToBeRecovered = cms.InputTag( 'hltEcalDetIdToBeRecovered','eeDetId' ),
    recoverEBFE = cms.bool( True ),
    eeFEToBeRecovered = cms.InputTag( 'hltEcalDetIdToBeRecovered','eeFE' ),
    ebDetIdToBeRecovered = cms.InputTag( 'hltEcalDetIdToBeRecovered','ebDetId' ),
    singleChannelRecoveryThreshold = cms.double( 8.0 ),
    ChannelStatusToBeExcluded = cms.vstring(  ),
    EBrechitCollection = cms.string( "EcalRecHitsEB" ),
    triggerPrimitiveDigiCollection = cms.InputTag( 'hltEcalDigis','EcalTriggerPrimitives' ),
    recoverEEFE = cms.bool( True ),
    singleChannelRecoveryMethod = cms.string( "NeuralNetworks" ),
    EBLaserMAX = cms.double( 3.0 ),
    flagsMapDBReco = cms.PSet( 
      kGood = cms.vstring( 'kOk',
        'kDAC',
        'kNoLaser',
        'kNoisy' ),
      kNeighboursRecovered = cms.vstring( 'kFixedG0',
        'kNonRespondingIsolated',
        'kDeadVFE' ),
      kDead = cms.vstring( 'kNoDataNoTP' ),
      kNoisy = cms.vstring( 'kNNoisy',
        'kFixedG6',
        'kFixedG1' ),
      kTowerRecovered = cms.vstring( 'kDeadFE' )
    ),
    EBuncalibRecHitCollection = cms.InputTag( 'hltEcalUncalibRecHit','EcalUncalibRecHitsEB' ),
    algoRecover = cms.string( "EcalRecHitWorkerRecover" ),
    algo = cms.string( "EcalRecHitWorkerSimple" ),
    EELaserMAX = cms.double( 8.0 ),
    logWarningEtThreshold_EB_FE = cms.double( 50.0 ),
    recoverEEIsolatedChannels = cms.bool( False )
)
process.hltHcalDigis = cms.EDProducer( "HcalRawToDigi",
    UnpackZDC = cms.untracked.bool( True ),
    FilterDataQuality = cms.bool( True ),
    InputLabel = cms.InputTag( "rawDataCollector" ),
    ComplainEmptyData = cms.untracked.bool( False ),
    UnpackCalib = cms.untracked.bool( True ),
    UnpackTTP = cms.untracked.bool( False ),
    lastSample = cms.int32( 9 ),
    firstSample = cms.int32( 0 )
)
process.hltHbhereco = cms.EDProducer( "HcalHitReconstructor",
    digiTimeFromDB = cms.bool( True ),
    mcOOTCorrectionName = cms.string( "" ),
    S9S1stat = cms.PSet(  ),
    saturationParameters = cms.PSet(  maxADCvalue = cms.int32( 127 ) ),
    tsFromDB = cms.bool( True ),
    samplesToAdd = cms.int32( 4 ),
    mcOOTCorrectionCategory = cms.string( "MC" ),
    dataOOTCorrectionName = cms.string( "" ),
    correctionPhaseNS = cms.double( 13.0 ),
    HFInWindowStat = cms.PSet(  ),
    digiLabel = cms.InputTag( "hltHcalDigis" ),
    setHSCPFlags = cms.bool( False ),
    firstAuxTS = cms.int32( 4 ),
    setSaturationFlags = cms.bool( False ),
    hfTimingTrustParameters = cms.PSet(  ),
    PETstat = cms.PSet(  ),
    digistat = cms.PSet(  ),
    useLeakCorrection = cms.bool( False ),
    setTimingTrustFlags = cms.bool( False ),
    S8S1stat = cms.PSet(  ),
    correctForPhaseContainment = cms.bool( True ),
    correctForTimeslew = cms.bool( True ),
    setNoiseFlags = cms.bool( False ),
    correctTiming = cms.bool( False ),
    recoParamsFromDB = cms.bool( True ),
    Subdetector = cms.string( "HBHE" ),
    dataOOTCorrectionCategory = cms.string( "Data" ),
    dropZSmarkedPassed = cms.bool( True ),
    setPulseShapeFlags = cms.bool( False ),
    firstSample = cms.int32( 4 ),
    setTimingShapedCutsFlags = cms.bool( False ),
    timingshapedcutsParameters = cms.PSet( 
      ignorelowest = cms.bool( True ),
      win_offset = cms.double( 0.0 ),
      ignorehighest = cms.bool( False ),
      win_gain = cms.double( 1.0 ),
      tfilterEnvelope = cms.vdouble( 4.0, 12.04, 13.0, 10.56, 23.5, 8.82, 37.0, 7.38, 56.0, 6.3, 81.0, 5.64, 114.5, 5.44, 175.5, 5.38, 350.5, 5.14 )
    ),
    pulseShapeParameters = cms.PSet(  ),
    flagParameters = cms.PSet( 
      nominalPedestal = cms.double( 3.0 ),
      hitMultiplicityThreshold = cms.int32( 17 ),
      hitEnergyMinimum = cms.double( 1.0 ),
      pulseShapeParameterSets = cms.VPSet( 
        cms.PSet(  pulseShapeParameters = cms.vdouble( 0.0, 100.0, -50.0, 0.0, -15.0, 0.15 )        ),
        cms.PSet(  pulseShapeParameters = cms.vdouble( 100.0, 2000.0, -50.0, 0.0, -5.0, 0.05 )        ),
        cms.PSet(  pulseShapeParameters = cms.vdouble( 2000.0, 1000000.0, -50.0, 0.0, 95.0, 0.0 )        ),
        cms.PSet(  pulseShapeParameters = cms.vdouble( -1000000.0, 1000000.0, 45.0, 0.1, 1000000.0, 0.0 )        )
      )
    ),
    hscpParameters = cms.PSet( 
      slopeMax = cms.double( -0.6 ),
      r1Max = cms.double( 1.0 ),
      r1Min = cms.double( 0.15 ),
      TimingEnergyThreshold = cms.double( 30.0 ),
      slopeMin = cms.double( -1.5 ),
      outerMin = cms.double( 0.0 ),
      outerMax = cms.double( 0.1 ),
      fracLeaderMin = cms.double( 0.4 ),
      r2Min = cms.double( 0.1 ),
      r2Max = cms.double( 0.5 ),
      fracLeaderMax = cms.double( 0.7 )
    )
)
process.hltHfreco = cms.EDProducer( "HcalHitReconstructor",
    digiTimeFromDB = cms.bool( True ),
    mcOOTCorrectionName = cms.string( "" ),
    S9S1stat = cms.PSet( 
      longETParams = cms.vdouble( 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0 ),
      shortEnergyParams = cms.vdouble( 35.1773, 35.37, 35.7933, 36.4472, 37.3317, 38.4468, 39.7925, 41.3688, 43.1757, 45.2132, 47.4813, 49.98, 52.7093 ),
      flagsToSkip = cms.int32( 24 ),
      shortETParams = cms.vdouble( 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0 ),
      short_optimumSlope = cms.vdouble( -99999.0, 0.0164905, 0.0238698, 0.0321383, 0.041296, 0.0513428, 0.0622789, 0.0741041, 0.0868186, 0.100422, 0.135313, 0.136289, 0.0589927 ),
      longEnergyParams = cms.vdouble( 43.5, 45.7, 48.32, 51.36, 54.82, 58.7, 63.0, 67.72, 72.86, 78.42, 84.4, 90.8, 97.62 ),
      long_optimumSlope = cms.vdouble( -99999.0, 0.0164905, 0.0238698, 0.0321383, 0.041296, 0.0513428, 0.0622789, 0.0741041, 0.0868186, 0.100422, 0.135313, 0.136289, 0.0589927 ),
      isS8S1 = cms.bool( False ),
      HcalAcceptSeverityLevel = cms.int32( 9 )
    ),
    saturationParameters = cms.PSet(  maxADCvalue = cms.int32( 127 ) ),
    tsFromDB = cms.bool( True ),
    samplesToAdd = cms.int32( 2 ),
    mcOOTCorrectionCategory = cms.string( "MC" ),
    dataOOTCorrectionName = cms.string( "" ),
    correctionPhaseNS = cms.double( 13.0 ),
    HFInWindowStat = cms.PSet( 
      hflongEthresh = cms.double( 40.0 ),
      hflongMinWindowTime = cms.vdouble( -10.0 ),
      hfshortEthresh = cms.double( 40.0 ),
      hflongMaxWindowTime = cms.vdouble( 10.0 ),
      hfshortMaxWindowTime = cms.vdouble( 10.0 ),
      hfshortMinWindowTime = cms.vdouble( -12.0 )
    ),
    digiLabel = cms.InputTag( "hltHcalDigis" ),
    setHSCPFlags = cms.bool( False ),
    firstAuxTS = cms.int32( 1 ),
    setSaturationFlags = cms.bool( False ),
    hfTimingTrustParameters = cms.PSet( 
      hfTimingTrustLevel2 = cms.int32( 4 ),
      hfTimingTrustLevel1 = cms.int32( 1 )
    ),
    PETstat = cms.PSet( 
      longETParams = cms.vdouble( 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0 ),
      short_R_29 = cms.vdouble( 0.8 ),
      shortEnergyParams = cms.vdouble( 35.1773, 35.37, 35.7933, 36.4472, 37.3317, 38.4468, 39.7925, 41.3688, 43.1757, 45.2132, 47.4813, 49.98, 52.7093 ),
      flagsToSkip = cms.int32( 0 ),
      short_R = cms.vdouble( 0.8 ),
      shortETParams = cms.vdouble( 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0 ),
      long_R_29 = cms.vdouble( 0.8 ),
      longEnergyParams = cms.vdouble( 43.5, 45.7, 48.32, 51.36, 54.82, 58.7, 63.0, 67.72, 72.86, 78.42, 84.4, 90.8, 97.62 ),
      long_R = cms.vdouble( 0.98 ),
      HcalAcceptSeverityLevel = cms.int32( 9 )
    ),
    digistat = cms.PSet( 
      HFdigiflagFirstSample = cms.int32( 1 ),
      HFdigiflagMinEthreshold = cms.double( 40.0 ),
      HFdigiflagSamplesToAdd = cms.int32( 3 ),
      HFdigiflagExpectedPeak = cms.int32( 2 ),
      HFdigiflagCoef = cms.vdouble( 0.93, -0.012667, -0.38275 )
    ),
    useLeakCorrection = cms.bool( False ),
    setTimingTrustFlags = cms.bool( False ),
    S8S1stat = cms.PSet( 
      longETParams = cms.vdouble( 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0 ),
      shortEnergyParams = cms.vdouble( 40.0, 100.0, 100.0, 100.0, 100.0, 100.0, 100.0, 100.0, 100.0, 100.0, 100.0, 100.0, 100.0 ),
      flagsToSkip = cms.int32( 16 ),
      shortETParams = cms.vdouble( 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0 ),
      short_optimumSlope = cms.vdouble( 0.3, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1 ),
      longEnergyParams = cms.vdouble( 40.0, 100.0, 100.0, 100.0, 100.0, 100.0, 100.0, 100.0, 100.0, 100.0, 100.0, 100.0, 100.0 ),
      long_optimumSlope = cms.vdouble( 0.3, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1 ),
      isS8S1 = cms.bool( True ),
      HcalAcceptSeverityLevel = cms.int32( 9 )
    ),
    correctForPhaseContainment = cms.bool( False ),
    correctForTimeslew = cms.bool( False ),
    setNoiseFlags = cms.bool( True ),
    correctTiming = cms.bool( False ),
    recoParamsFromDB = cms.bool( True ),
    Subdetector = cms.string( "HF" ),
    dataOOTCorrectionCategory = cms.string( "Data" ),
    dropZSmarkedPassed = cms.bool( True ),
    setPulseShapeFlags = cms.bool( False ),
    firstSample = cms.int32( 2 ),
    setTimingShapedCutsFlags = cms.bool( False ),
    timingshapedcutsParameters = cms.PSet(  ),
    pulseShapeParameters = cms.PSet(  ),
    flagParameters = cms.PSet(  ),
    hscpParameters = cms.PSet(  )
)
process.hltHoreco = cms.EDProducer( "HcalHitReconstructor",
    digiTimeFromDB = cms.bool( True ),
    mcOOTCorrectionName = cms.string( "" ),
    S9S1stat = cms.PSet(  ),
    saturationParameters = cms.PSet(  maxADCvalue = cms.int32( 127 ) ),
    tsFromDB = cms.bool( True ),
    samplesToAdd = cms.int32( 4 ),
    mcOOTCorrectionCategory = cms.string( "MC" ),
    dataOOTCorrectionName = cms.string( "" ),
    correctionPhaseNS = cms.double( 13.0 ),
    HFInWindowStat = cms.PSet(  ),
    digiLabel = cms.InputTag( "hltHcalDigis" ),
    setHSCPFlags = cms.bool( False ),
    firstAuxTS = cms.int32( 4 ),
    setSaturationFlags = cms.bool( False ),
    hfTimingTrustParameters = cms.PSet(  ),
    PETstat = cms.PSet(  ),
    digistat = cms.PSet(  ),
    useLeakCorrection = cms.bool( False ),
    setTimingTrustFlags = cms.bool( False ),
    S8S1stat = cms.PSet(  ),
    correctForPhaseContainment = cms.bool( True ),
    correctForTimeslew = cms.bool( True ),
    setNoiseFlags = cms.bool( False ),
    correctTiming = cms.bool( False ),
    recoParamsFromDB = cms.bool( True ),
    Subdetector = cms.string( "HO" ),
    dataOOTCorrectionCategory = cms.string( "Data" ),
    dropZSmarkedPassed = cms.bool( True ),
    setPulseShapeFlags = cms.bool( False ),
    firstSample = cms.int32( 4 ),
    setTimingShapedCutsFlags = cms.bool( False ),
    timingshapedcutsParameters = cms.PSet(  ),
    pulseShapeParameters = cms.PSet(  ),
    flagParameters = cms.PSet(  ),
    hscpParameters = cms.PSet(  )
)
process.hltTowerMakerForAll = cms.EDProducer( "CaloTowersCreator",
    EBSumThreshold = cms.double( 0.2 ),
    MomHBDepth = cms.double( 0.2 ),
    UseEtEBTreshold = cms.bool( False ),
    hfInput = cms.InputTag( "hltHfreco" ),
    AllowMissingInputs = cms.bool( False ),
    MomEEDepth = cms.double( 0.0 ),
    EESumThreshold = cms.double( 0.45 ),
    HBGrid = cms.vdouble(  ),
    HcalAcceptSeverityLevelForRejectedHit = cms.uint32( 9999 ),
    HBThreshold = cms.double( 0.7 ),
    EcalSeveritiesToBeUsedInBadTowers = cms.vstring(  ),
    UseEcalRecoveredHits = cms.bool( False ),
    MomConstrMethod = cms.int32( 1 ),
    MomHEDepth = cms.double( 0.4 ),
    HcalThreshold = cms.double( -1000.0 ),
    HF2Weights = cms.vdouble(  ),
    HOWeights = cms.vdouble(  ),
    EEGrid = cms.vdouble(  ),
    UseSymEBTreshold = cms.bool( False ),
    EEWeights = cms.vdouble(  ),
    EEWeight = cms.double( 1.0 ),
    UseHO = cms.bool( False ),
    HBWeights = cms.vdouble(  ),
    HF1Weight = cms.double( 1.0 ),
    HF2Grid = cms.vdouble(  ),
    HEDWeights = cms.vdouble(  ),
    HEDGrid = cms.vdouble(  ),
    EBWeight = cms.double( 1.0 ),
    HF1Grid = cms.vdouble(  ),
    EBWeights = cms.vdouble(  ),
    HOWeight = cms.double( 1.0E-99 ),
    HESWeight = cms.double( 1.0 ),
    HESThreshold = cms.double( 0.8 ),
    hbheInput = cms.InputTag( "hltHbhereco" ),
    HF2Weight = cms.double( 1.0 ),
    HF2Threshold = cms.double( 0.85 ),
    HcalAcceptSeverityLevel = cms.uint32( 9 ),
    EEThreshold = cms.double( 0.3 ),
    HOThresholdPlus1 = cms.double( 3.5 ),
    HOThresholdPlus2 = cms.double( 3.5 ),
    HF1Weights = cms.vdouble(  ),
    hoInput = cms.InputTag( "hltHoreco" ),
    HF1Threshold = cms.double( 0.5 ),
    HOThresholdMinus1 = cms.double( 3.5 ),
    HESGrid = cms.vdouble(  ),
    EcutTower = cms.double( -1000.0 ),
    UseRejectedRecoveredEcalHits = cms.bool( False ),
    UseEtEETreshold = cms.bool( False ),
    HESWeights = cms.vdouble(  ),
    EcalRecHitSeveritiesToBeExcluded = cms.vstring( 'kTime',
      'kWeird',
      'kBad' ),
    HEDWeight = cms.double( 1.0 ),
    UseSymEETreshold = cms.bool( False ),
    HEDThreshold = cms.double( 0.8 ),
    EBThreshold = cms.double( 0.07 ),
    UseRejectedHitsOnly = cms.bool( False ),
    UseHcalRecoveredHits = cms.bool( False ),
    HOThresholdMinus2 = cms.double( 3.5 ),
    HOThreshold0 = cms.double( 3.5 ),
    ecalInputs = cms.VInputTag( 'hltEcalRecHit:EcalRecHitsEB','hltEcalRecHit:EcalRecHitsEE' ),
    UseRejectedRecoveredHcalHits = cms.bool( False ),
    MomEBDepth = cms.double( 0.3 ),
    HBWeight = cms.double( 1.0 ),
    HOGrid = cms.vdouble(  ),
    EBGrid = cms.vdouble(  )
)
process.hltAK4CaloJets = cms.EDProducer( "FastjetJetProducer",
    Active_Area_Repeats = cms.int32( 5 ),
    doAreaFastjet = cms.bool( False ),
    voronoiRfact = cms.double( 0.9 ),
    maxBadHcalCells = cms.uint32( 9999999 ),
    doAreaDiskApprox = cms.bool( True ),
    maxRecoveredEcalCells = cms.uint32( 9999999 ),
    jetType = cms.string( "CaloJet" ),
    minSeed = cms.uint32( 14327 ),
    Ghost_EtaMax = cms.double( 6.0 ),
    doRhoFastjet = cms.bool( False ),
    jetAlgorithm = cms.string( "AntiKt" ),
    nSigmaPU = cms.double( 1.0 ),
    GhostArea = cms.double( 0.01 ),
    Rho_EtaMax = cms.double( 4.4 ),
    maxBadEcalCells = cms.uint32( 9999999 ),
    useDeterministicSeed = cms.bool( True ),
    doPVCorrection = cms.bool( False ),
    maxRecoveredHcalCells = cms.uint32( 9999999 ),
    rParam = cms.double( 0.4 ),
    maxProblematicHcalCells = cms.uint32( 9999999 ),
    doOutputJets = cms.bool( True ),
    src = cms.InputTag( "hltTowerMakerForAll" ),
    inputEtMin = cms.double( 0.3 ),
    puPtMin = cms.double( 10.0 ),
    srcPVs = cms.InputTag( "NotUsed" ),
    jetPtMin = cms.double( 1.0 ),
    radiusPU = cms.double( 0.4 ),
    maxProblematicEcalCells = cms.uint32( 9999999 ),
    doPUOffsetCorr = cms.bool( False ),
    inputEMin = cms.double( 0.0 ),
    useMassDropTagger = cms.bool( False ),
    muMin = cms.double( -1.0 ),
    subtractorName = cms.string( "" ),
    muCut = cms.double( -1.0 ),
    subjetPtMin = cms.double( -1.0 ),
    useTrimming = cms.bool( False ),
    muMax = cms.double( -1.0 ),
    yMin = cms.double( -1.0 ),
    useFiltering = cms.bool( False ),
    rFilt = cms.double( -1.0 ),
    yMax = cms.double( -1.0 ),
    zcut = cms.double( -1.0 ),
    MinVtxNdof = cms.int32( 5 ),
    MaxVtxZ = cms.double( 15.0 ),
    UseOnlyVertexTracks = cms.bool( False ),
    dRMin = cms.double( -1.0 ),
    nFilt = cms.int32( -1 ),
    usePruning = cms.bool( False ),
    maxDepth = cms.int32( -1 ),
    yCut = cms.double( -1.0 ),
    DzTrVtxMax = cms.double( 0.0 ),
    UseOnlyOnePV = cms.bool( False ),
    rcut_factor = cms.double( -1.0 ),
    sumRecHits = cms.bool( False ),
    trimPtFracMin = cms.double( -1.0 ),
    dRMax = cms.double( -1.0 ),
    DxyTrVtxMax = cms.double( 0.0 ),
    useCMSBoostedTauSeedingAlgorithm = cms.bool( False )
)
process.hltAK4CaloJetsIDPassed = cms.EDProducer( "HLTCaloJetIDProducer",
    min_N90 = cms.int32( -2 ),
    min_N90hits = cms.int32( 2 ),
    min_EMF = cms.double( 1.0E-6 ),
    jetsInput = cms.InputTag( "hltAK4CaloJets" ),
    JetIDParams = cms.PSet( 
      useRecHits = cms.bool( True ),
      hbheRecHitsColl = cms.InputTag( "hltHbhereco" ),
      hoRecHitsColl = cms.InputTag( "hltHoreco" ),
      hfRecHitsColl = cms.InputTag( "hltHfreco" ),
      ebRecHitsColl = cms.InputTag( 'hltEcalRecHit','EcalRecHitsEB' ),
      eeRecHitsColl = cms.InputTag( 'hltEcalRecHit','EcalRecHitsEE' )
    ),
    max_EMF = cms.double( 999.0 )
)
process.hltFixedGridRhoFastjetAllCalo = cms.EDProducer( "FixedGridRhoProducerFastjet",
    gridSpacing = cms.double( 0.55 ),
    maxRapidity = cms.double( 5.0 ),
    pfCandidatesTag = cms.InputTag( "hltTowerMakerForAll" )
)
process.hltAK4CaloJetsCorrected = cms.EDProducer( "CaloJetCorrectionProducer",
    src = cms.InputTag( "hltAK4CaloJets" ),
    correctors = cms.vstring( 'hltESPAK4CaloCorrection' )
)
process.hltAK4CaloJetsCorrectedIDPassed = cms.EDProducer( "CaloJetCorrectionProducer",
    src = cms.InputTag( "hltAK4CaloJetsIDPassed" ),
    correctors = cms.vstring( 'hltESPAK4CaloCorrection' )
)
process.hltSingleCaloJet260 = cms.EDFilter( "HLT1CaloJet",
    saveTags = cms.bool( True ),
    MinPt = cms.double( 260.0 ),
    MinN = cms.int32( 1 ),
    MaxEta = cms.double( 5.0 ),
    MinMass = cms.double( -1.0 ),
    inputTag = cms.InputTag( "hltAK4CaloJetsCorrectedIDPassed" ),
    MinE = cms.double( -1.0 ),
    triggerType = cms.int32( 85 )
)
process.hltBoolEnd = cms.EDFilter( "HLTBool",
    result = cms.bool( True )
)
process.hltL1sL1SingleIsoEG25er = cms.EDFilter( "HLTLevel1GTSeed",
    L1SeedsLogicalExpression = cms.string( "L1_SingleIsoEG25er" ),
    saveTags = cms.bool( True ),
    L1MuonCollectionTag = cms.InputTag( "hltL1extraParticles" ),
    L1UseL1TriggerObjectMaps = cms.bool( True ),
    L1UseAliasesForSeeding = cms.bool( True ),
    L1GtReadoutRecordTag = cms.InputTag( "hltGtDigis" ),
    L1CollectionsTag = cms.InputTag( "hltL1extraParticles" ),
    L1NrBxInEvent = cms.int32( 3 ),
    L1GtObjectMapTag = cms.InputTag( "hltL1GtObjectMap" ),
    L1TechTriggerSeeding = cms.bool( False )
)
process.hltPreEle27eta2p1WP85Gsf = cms.EDFilter( "HLTPrescaler",
    L1GtReadoutRecordTag = cms.InputTag( "hltGtDigis" ),
    offset = cms.uint32( 0 )
)
process.hltEcalPreshowerDigis = cms.EDProducer( "ESRawToDigi",
    sourceTag = cms.InputTag( "rawDataCollector" ),
    debugMode = cms.untracked.bool( False ),
    InstanceES = cms.string( "" ),
    LookupTable = cms.FileInPath( "EventFilter/ESDigiToRaw/data/ES_lookup_table.dat" ),
    ESdigiCollection = cms.string( "" )
)
process.hltEcalPreshowerRecHit = cms.EDProducer( "ESRecHitProducer",
    ESRecoAlgo = cms.int32( 0 ),
    ESrechitCollection = cms.string( "EcalRecHitsES" ),
    algo = cms.string( "ESRecHitWorker" ),
    ESdigiCollection = cms.InputTag( "hltEcalPreshowerDigis" )
)
process.hltRechitInRegionsECAL = cms.EDProducer( "EgammaHLTRechitInRegionsProducer",
    l1LowerThr = cms.double( 5.0 ),
    doIsolated = cms.bool( True ),
    useUncalib = cms.bool( False ),
    regionEtaMargin = cms.double( 0.14 ),
    ecalhitLabels = cms.VInputTag( 'hltEcalRecHit:EcalRecHitsEB','hltEcalRecHit:EcalRecHitsEE' ),
    regionPhiMargin = cms.double( 0.4 ),
    l1TagNonIsolated = cms.InputTag( 'hltL1extraParticles','NonIsolated' ),
    l1UpperThr = cms.double( 999.0 ),
    l1LowerThrIgnoreIsolation = cms.double( 0.0 ),
    productLabels = cms.vstring( 'EcalRecHitsEB',
      'EcalRecHitsEE' ),
    l1TagIsolated = cms.InputTag( 'hltL1extraParticles','Isolated' )
)
process.hltRechitInRegionsES = cms.EDProducer( "EgammaHLTRechitInRegionsProducer",
    l1LowerThr = cms.double( 5.0 ),
    doIsolated = cms.bool( True ),
    useUncalib = cms.bool( False ),
    regionEtaMargin = cms.double( 0.14 ),
    ecalhitLabels = cms.VInputTag( 'hltEcalPreshowerRecHit:EcalRecHitsES' ),
    regionPhiMargin = cms.double( 0.4 ),
    l1TagNonIsolated = cms.InputTag( 'hltL1extraParticles','NonIsolated' ),
    l1UpperThr = cms.double( 999.0 ),
    l1LowerThrIgnoreIsolation = cms.double( 0.0 ),
    productLabels = cms.vstring( 'EcalRecHitsES' ),
    l1TagIsolated = cms.InputTag( 'hltL1extraParticles','Isolated' )
)
process.hltParticleFlowRecHitECALL1Seeded = cms.EDProducer( "PFRecHitProducer",
    producers = cms.VPSet( 
      cms.PSet(  src = cms.InputTag( 'hltRechitInRegionsECAL','EcalRecHitsEB' ),
        qualityTests = cms.VPSet( 
          cms.PSet(  threshold = cms.double( 0.08 ),
            name = cms.string( "PFRecHitQTestThreshold" )
          ),
          cms.PSet(  timingCleaning = cms.bool( True ),
            topologicalCleaning = cms.bool( True ),
            cleaningThreshold = cms.double( 2.0 ),
            skipTTRecoveredHits = cms.bool( True ),
            name = cms.string( "PFRecHitQTestECAL" )
          )
        ),
        name = cms.string( "PFEBRecHitCreator" )
      ),
      cms.PSet(  src = cms.InputTag( 'hltRechitInRegionsECAL','EcalRecHitsEE' ),
        qualityTests = cms.VPSet( 
          cms.PSet(  threshold = cms.double( 0.3 ),
            name = cms.string( "PFRecHitQTestThreshold" )
          ),
          cms.PSet(  timingCleaning = cms.bool( True ),
            topologicalCleaning = cms.bool( True ),
            cleaningThreshold = cms.double( 2.0 ),
            skipTTRecoveredHits = cms.bool( True ),
            name = cms.string( "PFRecHitQTestECAL" )
          )
        ),
        name = cms.string( "PFEERecHitCreator" )
      )
    ),
    navigator = cms.PSet( 
      barrel = cms.PSet(  ),
      endcap = cms.PSet(  ),
      name = cms.string( "PFRecHitECALNavigator" )
    )
)
process.hltParticleFlowRecHitPSL1Seeded = cms.EDProducer( "PFRecHitProducer",
    producers = cms.VPSet( 
      cms.PSet(  src = cms.InputTag( 'hltRechitInRegionsES','EcalRecHitsES' ),
        qualityTests = cms.VPSet( 
          cms.PSet(  threshold = cms.double( 7.0E-6 ),
            name = cms.string( "PFRecHitQTestThreshold" )
          )
        ),
        name = cms.string( "PFPSRecHitCreator" )
      )
    ),
    navigator = cms.PSet(  name = cms.string( "PFRecHitPreshowerNavigator" ) )
)
process.hltParticleFlowClusterPSL1Seeded = cms.EDProducer( "PFClusterProducer",
    pfClusterBuilder = cms.PSet( 
      minFracTot = cms.double( 1.0E-20 ),
      positionCalc = cms.PSet( 
        minFractionInCalc = cms.double( 1.0E-9 ),
        logWeightDenominator = cms.double( 6.0E-5 ),
        minAllowedNormalization = cms.double( 1.0E-9 ),
        posCalcNCrystals = cms.int32( -1 ),
        algoName = cms.string( "Basic2DGenericPFlowPositionCalc" )
      ),
      maxIterations = cms.uint32( 50 ),
      stoppingTolerance = cms.double( 1.0E-8 ),
      minFractionToKeep = cms.double( 1.0E-7 ),
      excludeOtherSeeds = cms.bool( True ),
      showerSigma = cms.double( 0.3 ),
      recHitEnergyNorms = cms.VPSet( 
        cms.PSet(  detector = cms.string( "PS1" ),
          recHitEnergyNorm = cms.double( 6.0E-5 )
        ),
        cms.PSet(  detector = cms.string( "PS2" ),
          recHitEnergyNorm = cms.double( 6.0E-5 )
        )
      ),
      algoName = cms.string( "Basic2DGenericPFlowClusterizer" )
    ),
    positionReCalc = cms.PSet(  ),
    initialClusteringStep = cms.PSet( 
      thresholdsByDetector = cms.VPSet( 
        cms.PSet(  gatheringThreshold = cms.double( 6.0E-5 ),
          detector = cms.string( "PS1" ),
          gatheringThresholdPt = cms.double( 0.0 )
        ),
        cms.PSet(  gatheringThreshold = cms.double( 6.0E-5 ),
          detector = cms.string( "PS2" ),
          gatheringThresholdPt = cms.double( 0.0 )
        )
      ),
      useCornerCells = cms.bool( False ),
      algoName = cms.string( "Basic2DGenericTopoClusterizer" )
    ),
    energyCorrector = cms.PSet(  ),
    recHitCleaners = cms.VPSet( 
    ),
    seedFinder = cms.PSet( 
      nNeighbours = cms.int32( 4 ),
      thresholdsByDetector = cms.VPSet( 
        cms.PSet(  seedingThreshold = cms.double( 1.2E-4 ),
          seedingThresholdPt = cms.double( 0.0 ),
          detector = cms.string( "PS1" )
        ),
        cms.PSet(  seedingThreshold = cms.double( 1.2E-4 ),
          seedingThresholdPt = cms.double( 0.0 ),
          detector = cms.string( "PS2" )
        )
      ),
      algoName = cms.string( "LocalMaximumSeedFinder" )
    ),
    recHitsSource = cms.InputTag( "hltParticleFlowRecHitPSL1Seeded" )
)
process.hltParticleFlowClusterECALUncorrectedL1Seeded = cms.EDProducer( "PFClusterProducer",
    pfClusterBuilder = cms.PSet( 
      positionCalc = cms.PSet( 
        minFractionInCalc = cms.double( 1.0E-9 ),
        logWeightDenominator = cms.double( 0.08 ),
        minAllowedNormalization = cms.double( 1.0E-9 ),
        posCalcNCrystals = cms.int32( 9 ),
        algoName = cms.string( "Basic2DGenericPFlowPositionCalc" )
      ),
      minFracTot = cms.double( 1.0E-20 ),
      positionCalcForConvergence = cms.PSet( 
        minFractionInCalc = cms.double( 0.0 ),
        W0 = cms.double( 4.2 ),
        minAllowedNormalization = cms.double( 0.0 ),
        T0_EB = cms.double( 7.4 ),
        X0 = cms.double( 0.89 ),
        T0_ES = cms.double( 1.2 ),
        T0_EE = cms.double( 3.1 ),
        algoName = cms.string( "ECAL2DPositionCalcWithDepthCorr" )
      ),
      maxIterations = cms.uint32( 50 ),
      stoppingTolerance = cms.double( 1.0E-8 ),
      minFractionToKeep = cms.double( 1.0E-7 ),
      excludeOtherSeeds = cms.bool( True ),
      showerSigma = cms.double( 1.5 ),
      recHitEnergyNorms = cms.VPSet( 
        cms.PSet(  detector = cms.string( "ECAL_BARREL" ),
          recHitEnergyNorm = cms.double( 0.08 )
        ),
        cms.PSet(  detector = cms.string( "ECAL_ENDCAP" ),
          recHitEnergyNorm = cms.double( 0.3 )
        )
      ),
      algoName = cms.string( "Basic2DGenericPFlowClusterizer" ),
      allCellsPositionCalc = cms.PSet( 
        minFractionInCalc = cms.double( 1.0E-9 ),
        logWeightDenominator = cms.double( 0.08 ),
        minAllowedNormalization = cms.double( 1.0E-9 ),
        posCalcNCrystals = cms.int32( -1 ),
        algoName = cms.string( "Basic2DGenericPFlowPositionCalc" )
      )
    ),
    positionReCalc = cms.PSet( 
      minFractionInCalc = cms.double( 0.0 ),
      W0 = cms.double( 4.2 ),
      minAllowedNormalization = cms.double( 0.0 ),
      T0_EB = cms.double( 7.4 ),
      X0 = cms.double( 0.89 ),
      T0_ES = cms.double( 1.2 ),
      T0_EE = cms.double( 3.1 ),
      algoName = cms.string( "ECAL2DPositionCalcWithDepthCorr" )
    ),
    initialClusteringStep = cms.PSet( 
      thresholdsByDetector = cms.VPSet( 
        cms.PSet(  gatheringThreshold = cms.double( 0.08 ),
          detector = cms.string( "ECAL_BARREL" ),
          gatheringThresholdPt = cms.double( 0.0 )
        ),
        cms.PSet(  gatheringThreshold = cms.double( 0.3 ),
          detector = cms.string( "ECAL_ENDCAP" ),
          gatheringThresholdPt = cms.double( 0.0 )
        )
      ),
      useCornerCells = cms.bool( True ),
      algoName = cms.string( "Basic2DGenericTopoClusterizer" )
    ),
    energyCorrector = cms.PSet(  ),
    recHitCleaners = cms.VPSet( 
      cms.PSet(  cleaningByDetector = cms.VPSet( 
  cms.PSet(  doubleSpikeS6S2 = cms.double( 0.04 ),
    fractionThresholdModifier = cms.double( 3.0 ),
    doubleSpikeThresh = cms.double( 10.0 ),
    minS4S1_b = cms.double( -0.024 ),
    singleSpikeThresh = cms.double( 4.0 ),
    detector = cms.string( "ECAL_BARREL" ),
    minS4S1_a = cms.double( 0.04 ),
    energyThresholdModifier = cms.double( 2.0 )
  ),
  cms.PSet(  doubleSpikeS6S2 = cms.double( -1.0 ),
    fractionThresholdModifier = cms.double( 3.0 ),
    doubleSpikeThresh = cms.double( 1.0E9 ),
    minS4S1_b = cms.double( -0.0125 ),
    singleSpikeThresh = cms.double( 15.0 ),
    detector = cms.string( "ECAL_ENDCAP" ),
    minS4S1_a = cms.double( 0.02 ),
    energyThresholdModifier = cms.double( 2.0 )
  )
),
        algoName = cms.string( "SpikeAndDoubleSpikeCleaner" )
      )
    ),
    seedFinder = cms.PSet( 
      nNeighbours = cms.int32( 8 ),
      thresholdsByDetector = cms.VPSet( 
        cms.PSet(  seedingThreshold = cms.double( 0.6 ),
          seedingThresholdPt = cms.double( 0.15 ),
          detector = cms.string( "ECAL_ENDCAP" )
        ),
        cms.PSet(  seedingThreshold = cms.double( 0.23 ),
          seedingThresholdPt = cms.double( 0.0 ),
          detector = cms.string( "ECAL_BARREL" )
        )
      ),
      algoName = cms.string( "LocalMaximumSeedFinder" )
    ),
    recHitsSource = cms.InputTag( "hltParticleFlowRecHitECALL1Seeded" )
)
process.hltParticleFlowClusterECALL1Seeded = cms.EDProducer( "CorrectedECALPFClusterProducer",
    minimumPSEnergy = cms.double( 0.0 ),
    inputPS = cms.InputTag( "hltParticleFlowClusterPSL1Seeded" ),
    energyCorrector = cms.PSet( 
      applyCrackCorrections = cms.bool( False ),
      algoName = cms.string( "PFClusterEMEnergyCorrector" )
    ),
    inputECAL = cms.InputTag( "hltParticleFlowClusterECALUncorrectedL1Seeded" )
)
process.hltParticleFlowSuperClusterECALL1Seeded = cms.EDProducer( "PFECALSuperClusterProducer",
    PFSuperClusterCollectionEndcap = cms.string( "hltParticleFlowSuperClusterECALEndcap" ),
    doSatelliteClusterMerge = cms.bool( False ),
    thresh_PFClusterBarrel = cms.double( 4.0 ),
    PFBasicClusterCollectionBarrel = cms.string( "hltParticleFlowBasicClusterECALBarrel" ),
    useRegression = cms.bool( False ),
    satelliteMajorityFraction = cms.double( 0.5 ),
    thresh_PFClusterEndcap = cms.double( 4.0 ),
    ESAssociation = cms.InputTag( "hltParticleFlowClusterECALL1Seeded" ),
    PFBasicClusterCollectionPreshower = cms.string( "hltParticleFlowBasicClusterECALPreshower" ),
    use_preshower = cms.bool( True ),
    verbose = cms.untracked.bool( False ),
    thresh_SCEt = cms.double( 4.0 ),
    etawidth_SuperClusterEndcap = cms.double( 0.04 ),
    phiwidth_SuperClusterEndcap = cms.double( 0.6 ),
    useDynamicDPhiWindow = cms.bool( True ),
    PFSuperClusterCollectionBarrel = cms.string( "hltParticleFlowSuperClusterECALBarrel" ),
    regressionConfig = cms.PSet( 
      regressionKeyEE = cms.string( "pfscecal_EECorrection_offline" ),
      ecalRecHitsEE = cms.InputTag( 'hltRechitInRegionsECAL','EcalRecHitsEE' ),
      ecalRecHitsEB = cms.InputTag( 'hltRechitInRegionsECAL','EcalRecHitsEB' ),
      regressionKeyEB = cms.string( "pfscecal_EBCorrection_offline" ),
      vertexCollection = cms.InputTag( "offlinePrimaryVertices" )
    ),
    applyCrackCorrections = cms.bool( False ),
    satelliteClusterSeedThreshold = cms.double( 50.0 ),
    etawidth_SuperClusterBarrel = cms.double( 0.04 ),
    PFBasicClusterCollectionEndcap = cms.string( "hltParticleFlowBasicClusterECALEndcap" ),
    PFClusters = cms.InputTag( "hltParticleFlowClusterECALL1Seeded" ),
    thresh_PFClusterSeedBarrel = cms.double( 4.0 ),
    ClusteringType = cms.string( "Mustache" ),
    EnergyWeight = cms.string( "Raw" ),
    BeamSpot = cms.InputTag( "hltOnlineBeamSpot" ),
    thresh_PFClusterSeedEndcap = cms.double( 4.0 ),
    phiwidth_SuperClusterBarrel = cms.double( 0.6 ),
    thresh_PFClusterES = cms.double( 5.0 ),
    seedThresholdIsET = cms.bool( True ),
    PFSuperClusterCollectionEndcapWithPreshower = cms.string( "hltParticleFlowSuperClusterECALEndcapWithPreshower" )
)
process.hltEgammaCandidates = cms.EDProducer( "EgammaHLTRecoEcalCandidateProducers",
    scIslandEndcapProducer = cms.InputTag( 'hltParticleFlowSuperClusterECALL1Seeded','hltParticleFlowSuperClusterECALEndcapWithPreshower' ),
    scHybridBarrelProducer = cms.InputTag( 'hltParticleFlowSuperClusterECALL1Seeded','hltParticleFlowSuperClusterECALBarrel' ),
    recoEcalCandidateCollection = cms.string( "" )
)
process.hltEGL1SingleIsoEG25erFilter = cms.EDFilter( "HLTEgammaL1MatchFilterRegional",
    doIsolated = cms.bool( False ),
    endcap_end = cms.double( 2.65 ),
    saveTags = cms.bool( False ),
    region_eta_size_ecap = cms.double( 1.0 ),
    barrel_end = cms.double( 1.4791 ),
    l1IsolatedTag = cms.InputTag( 'hltL1extraParticles','Isolated' ),
    candIsolatedTag = cms.InputTag( "hltEgammaCandidates" ),
    region_phi_size = cms.double( 1.044 ),
    region_eta_size = cms.double( 0.522 ),
    L1SeedFilterTag = cms.InputTag( "hltL1sL1SingleIsoEG25er" ),
    candNonIsolatedTag = cms.InputTag( "" ),
    l1NonIsolatedTag = cms.InputTag( 'hltL1extraParticles','NonIsolated' ),
    ncandcut = cms.int32( 1 )
)
process.hltEG27EtFilter = cms.EDFilter( "HLTEgammaEtFilter",
    saveTags = cms.bool( False ),
    L1NonIsoCand = cms.InputTag( "" ),
    relaxed = cms.untracked.bool( False ),
    L1IsoCand = cms.InputTag( "hltEgammaCandidates" ),
    inputTag = cms.InputTag( "hltEGL1SingleIsoEG25erFilter" ),
    etcutEB = cms.double( 27.0 ),
    etcutEE = cms.double( 27.0 ),
    ncandcut = cms.int32( 1 )
)
process.hltEgammaClusterShape = cms.EDProducer( "EgammaHLTClusterShapeProducer",
    recoEcalCandidateProducer = cms.InputTag( "hltEgammaCandidates" ),
    ecalRechitEB = cms.InputTag( 'hltRechitInRegionsECAL','EcalRecHitsEB' ),
    ecalRechitEE = cms.InputTag( 'hltRechitInRegionsECAL','EcalRecHitsEE' ),
    isIeta = cms.bool( True )
)
process.hltEle27WP85ClusterShapeFilter = cms.EDFilter( "HLTEgammaGenericFilter",
    doIsolated = cms.bool( True ),
    thrOverE2EE = cms.double( -1.0 ),
    L1NonIsoCand = cms.InputTag( "" ),
    saveTags = cms.bool( False ),
    thrOverE2EB = cms.double( -1.0 ),
    thrRegularEE = cms.double( 0.033 ),
    thrOverEEE = cms.double( -1.0 ),
    L1IsoCand = cms.InputTag( "hltEgammaCandidates" ),
    thrOverEEB = cms.double( -1.0 ),
    thrRegularEB = cms.double( 0.011 ),
    lessThan = cms.bool( True ),
    useEt = cms.bool( False ),
    ncandcut = cms.int32( 1 ),
    isoTag = cms.InputTag( 'hltEgammaClusterShape','sigmaIEtaIEta5x5' ),
    candTag = cms.InputTag( "hltEG27EtFilter" ),
    nonIsoTag = cms.InputTag( "" )
)
process.hltFixedGridRhoFastjetAllCaloForMuons = cms.EDProducer( "FixedGridRhoProducerFastjet",
    gridSpacing = cms.double( 0.55 ),
    maxRapidity = cms.double( 2.5 ),
    pfCandidatesTag = cms.InputTag( "hltTowerMakerForAll" )
)
process.hltEgammaHoverE = cms.EDProducer( "EgammaHLTBcHcalIsolationProducersRegional",
    caloTowerProducer = cms.InputTag( "hltTowerMakerForAll" ),
    effectiveAreaBarrel = cms.double( 0.105 ),
    outerCone = cms.double( 0.14 ),
    innerCone = cms.double( 0.0 ),
    useSingleTower = cms.bool( False ),
    rhoProducer = cms.InputTag( "hltFixedGridRhoFastjetAllCaloForMuons" ),
    depth = cms.int32( -1 ),
    doRhoCorrection = cms.bool( False ),
    effectiveAreaEndcap = cms.double( 0.17 ),
    recoEcalCandidateProducer = cms.InputTag( "hltEgammaCandidates" ),
    rhoMax = cms.double( 9.9999999E7 ),
    etMin = cms.double( 0.0 ),
    rhoScale = cms.double( 1.0 ),
    doEtSum = cms.bool( False )
)
process.hltEle27WP85HEFilter = cms.EDFilter( "HLTEgammaGenericFilter",
    doIsolated = cms.bool( True ),
    thrOverE2EE = cms.double( -1.0 ),
    L1NonIsoCand = cms.InputTag( "" ),
    saveTags = cms.bool( False ),
    thrOverE2EB = cms.double( -1.0 ),
    thrRegularEE = cms.double( -1.0 ),
    thrOverEEE = cms.double( 0.2 ),
    L1IsoCand = cms.InputTag( "hltEgammaCandidates" ),
    thrOverEEB = cms.double( 0.15 ),
    thrRegularEB = cms.double( -1.0 ),
    lessThan = cms.bool( True ),
    useEt = cms.bool( False ),
    ncandcut = cms.int32( 1 ),
    isoTag = cms.InputTag( "hltEgammaHoverE" ),
    candTag = cms.InputTag( "hltEle27WP85ClusterShapeFilter" ),
    nonIsoTag = cms.InputTag( "" )
)
process.hltEgammaEcalPFClusterIso = cms.EDProducer( "EgammaHLTEcalPFClusterIsolationProducer",
    energyEndcap = cms.double( 0.0 ),
    effectiveAreaBarrel = cms.double( 0.149 ),
    etaStripBarrel = cms.double( 0.0 ),
    rhoProducer = cms.InputTag( "hltFixedGridRhoFastjetAllCaloForMuons" ),
    pfClusterProducer = cms.InputTag( "hltParticleFlowClusterECALL1Seeded" ),
    etaStripEndcap = cms.double( 0.0 ),
    drVetoBarrel = cms.double( 0.0 ),
    drMax = cms.double( 0.3 ),
    doRhoCorrection = cms.bool( True ),
    energyBarrel = cms.double( 0.0 ),
    effectiveAreaEndcap = cms.double( 0.097 ),
    drVetoEndcap = cms.double( 0.0 ),
    recoEcalCandidateProducer = cms.InputTag( "hltEgammaCandidates" ),
    rhoMax = cms.double( 9.9999999E7 ),
    rhoScale = cms.double( 1.0 )
)
process.hltEle27WP85EcalIsoFilter = cms.EDFilter( "HLTEgammaGenericFilter",
    doIsolated = cms.bool( True ),
    thrOverE2EE = cms.double( -1.0 ),
    L1NonIsoCand = cms.InputTag( "" ),
    saveTags = cms.bool( False ),
    thrOverE2EB = cms.double( -1.0 ),
    thrRegularEE = cms.double( -1.0 ),
    thrOverEEE = cms.double( 0.12 ),
    L1IsoCand = cms.InputTag( "hltEgammaCandidates" ),
    thrOverEEB = cms.double( 0.16 ),
    thrRegularEB = cms.double( -1.0 ),
    lessThan = cms.bool( True ),
    useEt = cms.bool( True ),
    ncandcut = cms.int32( 1 ),
    isoTag = cms.InputTag( "hltEgammaEcalPFClusterIso" ),
    candTag = cms.InputTag( "hltEle27WP85HEFilter" ),
    nonIsoTag = cms.InputTag( "" )
)
process.hltRegionalTowerForEgamma = cms.EDProducer( "EgammaHLTCaloTowerProducer",
    L1NonIsoCand = cms.InputTag( 'hltL1extraParticles','NonIsolated' ),
    EMin = cms.double( 0.8 ),
    EtMin = cms.double( 0.5 ),
    L1IsoCand = cms.InputTag( 'hltL1extraParticles','Isolated' ),
    useTowersInCone = cms.double( 0.8 ),
    towerCollection = cms.InputTag( "hltTowerMakerForAll" )
)
process.hltParticleFlowRecHitHCALForEgamma = cms.EDProducer( "PFCTRecHitProducer",
    ECAL_Compensate = cms.bool( False ),
    ECAL_Dead_Code = cms.uint32( 10 ),
    MinLongTiming_Cut = cms.double( -5.0 ),
    ECAL_Compensation = cms.double( 0.5 ),
    MaxLongTiming_Cut = cms.double( 5.0 ),
    weight_HFhad = cms.double( 1.0 ),
    ApplyPulseDPG = cms.bool( False ),
    navigator = cms.PSet(  name = cms.string( "PFRecHitCaloTowerNavigator" ) ),
    ECAL_Threshold = cms.double( 10.0 ),
    ApplyTimeDPG = cms.bool( False ),
    caloTowers = cms.InputTag( "hltRegionalTowerForEgamma" ),
    hcalRecHitsHBHE = cms.InputTag( "hltHbhereco" ),
    LongFibre_Fraction = cms.double( 0.1 ),
    MaxShortTiming_Cut = cms.double( 5.0 ),
    HcalMaxAllowedHFLongShortSev = cms.int32( 9 ),
    thresh_Barrel = cms.double( 0.4 ),
    navigation_HF = cms.bool( True ),
    HcalMaxAllowedHFInTimeWindowSev = cms.int32( 9 ),
    HF_Calib_29 = cms.double( 1.07 ),
    LongFibre_Cut = cms.double( 120.0 ),
    EM_Depth = cms.double( 22.0 ),
    weight_HFem = cms.double( 1.0 ),
    LongShortFibre_Cut = cms.double( 1.0E9 ),
    MinShortTiming_Cut = cms.double( -5.0 ),
    HCAL_Calib = cms.bool( True ),
    thresh_HF = cms.double( 0.4 ),
    HcalMaxAllowedHFDigiTimeSev = cms.int32( 9 ),
    thresh_Endcap = cms.double( 0.4 ),
    HcalMaxAllowedChannelStatusSev = cms.int32( 9 ),
    hcalRecHitsHF = cms.InputTag( "hltHfreco" ),
    ShortFibre_Cut = cms.double( 60.0 ),
    ApplyLongShortDPG = cms.bool( True ),
    HF_Calib = cms.bool( True ),
    HAD_Depth = cms.double( 47.0 ),
    ShortFibre_Fraction = cms.double( 0.01 ),
    HCAL_Calib_29 = cms.double( 1.35 )
)
process.hltParticleFlowClusterHCALForEgamma = cms.EDProducer( "PFClusterProducer",
    pfClusterBuilder = cms.PSet( 
      positionCalc = cms.PSet( 
        minFractionInCalc = cms.double( 1.0E-9 ),
        logWeightDenominator = cms.double( 0.8 ),
        minAllowedNormalization = cms.double( 1.0E-9 ),
        posCalcNCrystals = cms.int32( 5 ),
        algoName = cms.string( "Basic2DGenericPFlowPositionCalc" )
      ),
      minFracTot = cms.double( 1.0E-20 ),
      maxIterations = cms.uint32( 50 ),
      stoppingTolerance = cms.double( 1.0E-8 ),
      minFractionToKeep = cms.double( 1.0E-7 ),
      excludeOtherSeeds = cms.bool( True ),
      showerSigma = cms.double( 10.0 ),
      recHitEnergyNorms = cms.VPSet( 
        cms.PSet(  detector = cms.string( "HCAL_BARREL1" ),
          recHitEnergyNorm = cms.double( 0.8 )
        ),
        cms.PSet(  detector = cms.string( "HCAL_ENDCAP" ),
          recHitEnergyNorm = cms.double( 0.8 )
        )
      ),
      algoName = cms.string( "Basic2DGenericPFlowClusterizer" ),
      allCellsPositionCalc = cms.PSet( 
        minFractionInCalc = cms.double( 1.0E-9 ),
        logWeightDenominator = cms.double( 0.8 ),
        minAllowedNormalization = cms.double( 1.0E-9 ),
        posCalcNCrystals = cms.int32( -1 ),
        algoName = cms.string( "Basic2DGenericPFlowPositionCalc" )
      )
    ),
    positionReCalc = cms.PSet(  ),
    initialClusteringStep = cms.PSet( 
      thresholdsByDetector = cms.VPSet( 
        cms.PSet(  gatheringThreshold = cms.double( 0.8 ),
          detector = cms.string( "HCAL_BARREL1" ),
          gatheringThresholdPt = cms.double( 0.0 )
        ),
        cms.PSet(  gatheringThreshold = cms.double( 0.8 ),
          detector = cms.string( "HCAL_ENDCAP" ),
          gatheringThresholdPt = cms.double( 0.0 )
        )
      ),
      useCornerCells = cms.bool( True ),
      algoName = cms.string( "Basic2DGenericTopoClusterizer" )
    ),
    energyCorrector = cms.PSet(  ),
    recHitCleaners = cms.VPSet( 
      cms.PSet(  algoName = cms.string( "RBXAndHPDCleaner" )      )
    ),
    seedFinder = cms.PSet( 
      nNeighbours = cms.int32( 4 ),
      thresholdsByDetector = cms.VPSet( 
        cms.PSet(  seedingThreshold = cms.double( 0.8 ),
          seedingThresholdPt = cms.double( 0.0 ),
          detector = cms.string( "HCAL_BARREL1" )
        ),
        cms.PSet(  seedingThreshold = cms.double( 1.1 ),
          seedingThresholdPt = cms.double( 0.0 ),
          detector = cms.string( "HCAL_ENDCAP" )
        )
      ),
      algoName = cms.string( "LocalMaximumSeedFinder" )
    ),
    recHitsSource = cms.InputTag( "hltParticleFlowRecHitHCALForEgamma" )
)
process.hltEgammaHcalPFClusterIso = cms.EDProducer( "EgammaHLTHcalPFClusterIsolationProducer",
    energyEndcap = cms.double( 0.0 ),
    useHF = cms.bool( False ),
    effectiveAreaBarrel = cms.double( 0.06 ),
    etaStripBarrel = cms.double( 0.0 ),
    pfClusterProducerHFHAD = cms.InputTag( "hltParticleFlowClusterHFHADForEgamma" ),
    rhoProducer = cms.InputTag( "hltFixedGridRhoFastjetAllCaloForMuons" ),
    etaStripEndcap = cms.double( 0.0 ),
    drVetoBarrel = cms.double( 0.0 ),
    pfClusterProducerHCAL = cms.InputTag( "hltParticleFlowClusterHCALForEgamma" ),
    drMax = cms.double( 0.3 ),
    doRhoCorrection = cms.bool( True ),
    energyBarrel = cms.double( 0.0 ),
    effectiveAreaEndcap = cms.double( 0.089 ),
    drVetoEndcap = cms.double( 0.0 ),
    recoEcalCandidateProducer = cms.InputTag( "hltEgammaCandidates" ),
    rhoMax = cms.double( 9.9999999E7 ),
    pfClusterProducerHFEM = cms.InputTag( "hltParticleFlowClusterHFEMForEgamma" ),
    rhoScale = cms.double( 1.0 )
)
process.hltEle27WP85HcalIsoFilter = cms.EDFilter( "HLTEgammaGenericFilter",
    doIsolated = cms.bool( True ),
    thrOverE2EE = cms.double( -1.0 ),
    L1NonIsoCand = cms.InputTag( "" ),
    saveTags = cms.bool( False ),
    thrOverE2EB = cms.double( -1.0 ),
    thrRegularEE = cms.double( -1.0 ),
    thrOverEEE = cms.double( 0.3 ),
    L1IsoCand = cms.InputTag( "hltEgammaCandidates" ),
    thrOverEEB = cms.double( 0.2 ),
    thrRegularEB = cms.double( -1.0 ),
    lessThan = cms.bool( True ),
    useEt = cms.bool( True ),
    ncandcut = cms.int32( 1 ),
    isoTag = cms.InputTag( "hltEgammaHcalPFClusterIso" ),
    candTag = cms.InputTag( "hltEle27WP85EcalIsoFilter" ),
    nonIsoTag = cms.InputTag( "" )
)
process.hltSiPixelDigis = cms.EDProducer( "SiPixelRawToDigi",
    UseQualityInfo = cms.bool( False ),
    CheckPixelOrder = cms.bool( False ),
    IncludeErrors = cms.bool( False ),
    InputLabel = cms.InputTag( "rawDataCollector" ),
    ErrorList = cms.vint32(  ),
    Regions = cms.PSet(  ),
    Timing = cms.untracked.bool( False ),
    UserErrorList = cms.vint32(  )
)
process.hltSiPixelClusters = cms.EDProducer( "SiPixelClusterProducer",
    src = cms.InputTag( "hltSiPixelDigis" ),
    ChannelThreshold = cms.int32( 1000 ),
    maxNumberOfClusters = cms.int32( 20000 ),
    VCaltoElectronGain = cms.int32( 65 ),
    MissCalibrate = cms.untracked.bool( True ),
    SplitClusters = cms.bool( False ),
    VCaltoElectronOffset = cms.int32( -414 ),
    payloadType = cms.string( "HLT" ),
    SeedThreshold = cms.int32( 1000 ),
    ClusterThreshold = cms.double( 4000.0 )
)
process.hltSiPixelClustersCache = cms.EDProducer( "SiPixelClusterShapeCacheProducer",
    src = cms.InputTag( "hltSiPixelClusters" ),
    onDemand = cms.bool( False )
)
process.hltSiPixelRecHits = cms.EDProducer( "SiPixelRecHitConverter",
    VerboseLevel = cms.untracked.int32( 0 ),
    src = cms.InputTag( "hltSiPixelClusters" ),
    CPE = cms.string( "hltESPPixelCPEGeneric" )
)
process.hltSiStripExcludedFEDListProducer = cms.EDProducer( "SiStripExcludedFEDListProducer",
    ProductLabel = cms.InputTag( "rawDataCollector" )
)
process.hltSiStripRawToClustersFacility = cms.EDProducer( "SiStripClusterizerFromRaw",
    ProductLabel = cms.InputTag( "rawDataCollector" ),
    DoAPVEmulatorCheck = cms.bool( False ),
    Algorithms = cms.PSet( 
      SiStripFedZeroSuppressionMode = cms.uint32( 4 ),
      CommonModeNoiseSubtractionMode = cms.string( "Median" ),
      PedestalSubtractionFedMode = cms.bool( True ),
      TruncateInSuppressor = cms.bool( True ),
      doAPVRestore = cms.bool( False ),
      useCMMeanMap = cms.bool( False )
    ),
    Clusterizer = cms.PSet( 
      ChannelThreshold = cms.double( 2.0 ),
      MaxSequentialBad = cms.uint32( 1 ),
      MaxSequentialHoles = cms.uint32( 0 ),
      Algorithm = cms.string( "ThreeThresholdAlgorithm" ),
      MaxAdjacentBad = cms.uint32( 0 ),
      QualityLabel = cms.string( "" ),
      SeedThreshold = cms.double( 3.0 ),
      ClusterThreshold = cms.double( 5.0 ),
      setDetId = cms.bool( True ),
      RemoveApvShots = cms.bool( True )
    ),
    onDemand = cms.bool( True )
)
process.hltSiStripClusters = cms.EDProducer( "MeasurementTrackerEventProducer",
    inactivePixelDetectorLabels = cms.VInputTag(  ),
    stripClusterProducer = cms.string( "hltSiStripRawToClustersFacility" ),
    pixelClusterProducer = cms.string( "hltSiPixelClusters" ),
    switchOffPixelsIfEmpty = cms.bool( True ),
    inactiveStripDetectorLabels = cms.VInputTag( 'hltSiStripExcludedFEDListProducer' ),
    skipClusters = cms.InputTag( "" ),
    measurementTracker = cms.string( "hltESPMeasurementTracker" )
)
process.hltMixedLayerPairs = cms.EDProducer( "SeedingLayersEDProducer",
    layerList = cms.vstring( 'BPix1+BPix2',
      'BPix1+BPix3',
      'BPix2+BPix3',
      'BPix1+FPix1_pos',
      'BPix1+FPix1_neg',
      'BPix1+FPix2_pos',
      'BPix1+FPix2_neg',
      'BPix2+FPix1_pos',
      'BPix2+FPix1_neg',
      'BPix2+FPix2_pos',
      'BPix2+FPix2_neg',
      'FPix1_pos+FPix2_pos',
      'FPix1_neg+FPix2_neg',
      'FPix2_pos+TEC1_pos',
      'FPix2_pos+TEC2_pos',
      'TEC1_pos+TEC2_pos',
      'TEC2_pos+TEC3_pos',
      'FPix2_neg+TEC1_neg',
      'FPix2_neg+TEC2_neg',
      'TEC1_neg+TEC2_neg',
      'TEC2_neg+TEC3_neg' ),
    MTOB = cms.PSet(  ),
    TEC = cms.PSet( 
      useRingSlector = cms.bool( True ),
      TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
      minRing = cms.int32( 1 ),
      maxRing = cms.int32( 1 )
    ),
    MTID = cms.PSet(  ),
    FPix = cms.PSet( 
      useErrorsFromParam = cms.bool( True ),
      hitErrorRPhi = cms.double( 0.0051 ),
      TTRHBuilder = cms.string( "hltESPTTRHBuilderPixelOnly" ),
      HitProducer = cms.string( "hltSiPixelRecHits" ),
      hitErrorRZ = cms.double( 0.0036 )
    ),
    MTEC = cms.PSet(  ),
    MTIB = cms.PSet(  ),
    TID = cms.PSet(  ),
    TOB = cms.PSet(  ),
    BPix = cms.PSet( 
      useErrorsFromParam = cms.bool( True ),
      hitErrorRPhi = cms.double( 0.0027 ),
      TTRHBuilder = cms.string( "hltESPTTRHBuilderPixelOnly" ),
      HitProducer = cms.string( "hltSiPixelRecHits" ),
      hitErrorRZ = cms.double( 0.006 )
    ),
    TIB = cms.PSet(  )
)
process.hltEgammaElectronPixelSeeds = cms.EDProducer( "ElectronSeedProducer",
    endcapSuperClusters = cms.InputTag( 'hltParticleFlowSuperClusterECALL1Seeded','hltParticleFlowSuperClusterECALEndcapWithPreshower' ),
    SeedConfiguration = cms.PSet( 
      searchInTIDTEC = cms.bool( True ),
      HighPtThreshold = cms.double( 35.0 ),
      r2MinF = cms.double( -0.15 ),
      OrderedHitsFactoryPSet = cms.PSet( 
        maxElement = cms.uint32( 0 ),
        ComponentName = cms.string( "StandardHitPairGenerator" ),
        useOnDemandTracker = cms.untracked.int32( 0 ),
        SeedingLayers = cms.InputTag( "hltMixedLayerPairs" )
      ),
      DeltaPhi1Low = cms.double( 0.23 ),
      DeltaPhi1High = cms.double( 0.08 ),
      ePhiMin1 = cms.double( -0.08 ),
      PhiMin2 = cms.double( -0.004 ),
      LowPtThreshold = cms.double( 3.0 ),
      RegionPSet = cms.PSet( 
        deltaPhiRegion = cms.double( 0.4 ),
        originHalfLength = cms.double( 15.0 ),
        useZInVertex = cms.bool( True ),
        deltaEtaRegion = cms.double( 0.1 ),
        ptMin = cms.double( 1.5 ),
        originRadius = cms.double( 0.2 ),
        VertexProducer = cms.InputTag( "dummyVertices" )
      ),
      maxHOverE = cms.double( 999999.0 ),
      dynamicPhiRoad = cms.bool( False ),
      ePhiMax1 = cms.double( 0.04 ),
      DeltaPhi2 = cms.double( 0.004 ),
      measurementTrackerName = cms.string( "hltESPMeasurementTracker" ),
      SizeWindowENeg = cms.double( 0.675 ),
      nSigmasDeltaZ1 = cms.double( 5.0 ),
      rMaxI = cms.double( 0.2 ),
      PhiMax2 = cms.double( 0.004 ),
      preFilteredSeeds = cms.bool( True ),
      r2MaxF = cms.double( 0.15 ),
      pPhiMin1 = cms.double( -0.04 ),
      initialSeeds = cms.InputTag( "noSeedsHere" ),
      pPhiMax1 = cms.double( 0.08 ),
      hbheModule = cms.string( "hbhereco" ),
      SCEtCut = cms.double( 3.0 ),
      z2MaxB = cms.double( 0.09 ),
      fromTrackerSeeds = cms.bool( True ),
      hcalRecHits = cms.InputTag( "hltHbhereco" ),
      z2MinB = cms.double( -0.09 ),
      hbheInstance = cms.string( "" ),
      rMinI = cms.double( -0.2 ),
      hOverEConeSize = cms.double( 0.0 ),
      hOverEHBMinE = cms.double( 999999.0 ),
      beamSpot = cms.InputTag( "hltOnlineBeamSpot" ),
      applyHOverECut = cms.bool( False ),
      hOverEHFMinE = cms.double( 999999.0 ),
      measurementTrackerEvent = cms.InputTag( "hltSiStripClusters" )
    ),
    barrelSuperClusters = cms.InputTag( 'hltParticleFlowSuperClusterECALL1Seeded','hltParticleFlowSuperClusterECALBarrel' )
)
process.hltEle27WP85PixelMatchFilter = cms.EDFilter( "HLTElectronPixelMatchFilter",
    saveTags = cms.bool( False ),
    s2_threshold = cms.double( 0.4 ),
    npixelmatchcut = cms.double( 1.0 ),
    tanhSO10InterThres = cms.double( 1.0 ),
    doIsolated = cms.bool( True ),
    s_a_phi1B = cms.double( 0.0069 ),
    s_a_phi1F = cms.double( 0.0076 ),
    s_a_phi1I = cms.double( 0.0088 ),
    L1IsoCand = cms.InputTag( "hltEgammaCandidates" ),
    candTag = cms.InputTag( "hltEle27WP85HcalIsoFilter" ),
    tanhSO10ForwardThres = cms.double( 1.0 ),
    L1IsoPixelSeedsTag = cms.InputTag( "hltEgammaElectronPixelSeeds" ),
    L1NonIsoCand = cms.InputTag( "" ),
    ncandcut = cms.int32( 1 ),
    tanhSO10BarrelThres = cms.double( 0.35 ),
    s_a_rF = cms.double( 0.04 ),
    L1NonIsoPixelSeedsTag = cms.InputTag( "" ),
    s_a_rI = cms.double( 0.027 ),
    s_a_phi2I = cms.double( 7.0E-4 ),
    useS = cms.bool( False ),
    s_a_phi2B = cms.double( 3.7E-4 ),
    s_a_zB = cms.double( 0.012 ),
    s_a_phi2F = cms.double( 0.00906 )
)
process.hltEgammaCkfTrackCandidatesForGSF = cms.EDProducer( "CkfTrackCandidateMaker",
    src = cms.InputTag( "hltEgammaElectronPixelSeeds" ),
    maxSeedsBeforeCleaning = cms.uint32( 1000 ),
    SimpleMagneticField = cms.string( "" ),
    TransientInitialStateEstimatorParameters = cms.PSet( 
      propagatorAlongTISE = cms.string( "PropagatorWithMaterial" ),
      numberMeasurementsForFit = cms.int32( 4 ),
      propagatorOppositeTISE = cms.string( "PropagatorWithMaterialOpposite" )
    ),
    TrajectoryCleaner = cms.string( "hltESPTrajectoryCleanerBySharedHits" ),
    MeasurementTrackerEvent = cms.InputTag( "hltSiStripClusters" ),
    cleanTrajectoryAfterInOut = cms.bool( True ),
    useHitsSplitting = cms.bool( True ),
    RedundantSeedCleaner = cms.string( "CachingSeedCleanerBySharedInput" ),
    doSeedingRegionRebuilding = cms.bool( True ),
    maxNSeeds = cms.uint32( 1000000 ),
    TrajectoryBuilderPSet = cms.PSet(  refToPSet_ = cms.string( "HLTPSetTrajectoryBuilderForElectrons" ) ),
    NavigationSchool = cms.string( "SimpleNavigationSchool" ),
    TrajectoryBuilder = cms.string( "" )
)
process.hltEgammaGsfTracks = cms.EDProducer( "GsfTrackProducer",
    src = cms.InputTag( "hltEgammaCkfTrackCandidatesForGSF" ),
    beamSpot = cms.InputTag( "hltOnlineBeamSpot" ),
    producer = cms.string( "" ),
    MeasurementTrackerEvent = cms.InputTag( "hltSiStripClusters" ),
    Fitter = cms.string( "hltESPGsfElectronFittingSmoother" ),
    useHitsSplitting = cms.bool( False ),
    MeasurementTracker = cms.string( "hltESPMeasurementTracker" ),
    AlgorithmName = cms.string( "gsf" ),
    NavigationSchool = cms.string( "SimpleNavigationSchool" ),
    TrajectoryInEvent = cms.bool( True ),
    TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
    GeometricInnerState = cms.bool( True ),
    Propagator = cms.string( "hltESPFwdElectronPropagator" )
)
process.hltEgammaGsfElectrons = cms.EDProducer( "EgammaHLTPixelMatchElectronProducers",
    BSProducer = cms.InputTag( "hltOnlineBeamSpot" ),
    UseGsfTracks = cms.bool( True ),
    TrackProducer = cms.InputTag( "" ),
    GsfTrackProducer = cms.InputTag( "hltEgammaGsfTracks" )
)
process.hltEgammaGsfTrackVars = cms.EDProducer( "EgammaHLTGsfTrackVarProducer",
    recoEcalCandidateProducer = cms.InputTag( "hltEgammaCandidates" ),
    beamSpotProducer = cms.InputTag( "hltOnlineBeamSpot" ),
    upperTrackNrToRemoveCut = cms.int32( 9999 ),
    lowerTrackNrToRemoveCut = cms.int32( -1 ),
    inputCollection = cms.InputTag( "hltEgammaGsfTracks" )
)
process.hltEle27WP85GsfOneOEMinusOneOPFilter = cms.EDFilter( "HLTEgammaGenericFilter",
    doIsolated = cms.bool( True ),
    thrOverE2EE = cms.double( -1.0 ),
    L1NonIsoCand = cms.InputTag( "" ),
    saveTags = cms.bool( False ),
    thrOverE2EB = cms.double( -1.0 ),
    thrRegularEE = cms.double( 0.009 ),
    thrOverEEE = cms.double( -1.0 ),
    L1IsoCand = cms.InputTag( "hltEgammaCandidates" ),
    thrOverEEB = cms.double( -1.0 ),
    thrRegularEB = cms.double( 0.012 ),
    lessThan = cms.bool( True ),
    useEt = cms.bool( True ),
    ncandcut = cms.int32( 1 ),
    isoTag = cms.InputTag( 'hltEgammaGsfTrackVars','OneOESuperMinusOneOP' ),
    candTag = cms.InputTag( "hltEle27WP85PixelMatchFilter" ),
    nonIsoTag = cms.InputTag( "" )
)
process.hltEle27WP85GsfMissingHitsFilter = cms.EDFilter( "HLTEgammaGenericFilter",
    doIsolated = cms.bool( True ),
    thrOverE2EE = cms.double( -1.0 ),
    L1NonIsoCand = cms.InputTag( "" ),
    saveTags = cms.bool( False ),
    thrOverE2EB = cms.double( -1.0 ),
    thrRegularEE = cms.double( 1.0 ),
    thrOverEEE = cms.double( -1.0 ),
    L1IsoCand = cms.InputTag( "hltEgammaCandidates" ),
    thrOverEEB = cms.double( -1.0 ),
    thrRegularEB = cms.double( 999.0 ),
    lessThan = cms.bool( True ),
    useEt = cms.bool( True ),
    ncandcut = cms.int32( 1 ),
    isoTag = cms.InputTag( 'hltEgammaGsfTrackVars','MissingHits' ),
    candTag = cms.InputTag( "hltEle27WP85GsfOneOEMinusOneOPFilter" ),
    nonIsoTag = cms.InputTag( "" )
)
process.hltEle27WP85GsfDetaFilter = cms.EDFilter( "HLTEgammaGenericFilter",
    doIsolated = cms.bool( True ),
    thrOverE2EE = cms.double( -1.0 ),
    L1NonIsoCand = cms.InputTag( "" ),
    saveTags = cms.bool( False ),
    thrOverE2EB = cms.double( -1.0 ),
    thrRegularEE = cms.double( 0.01 ),
    thrOverEEE = cms.double( -1.0 ),
    L1IsoCand = cms.InputTag( "hltEgammaCandidates" ),
    thrOverEEB = cms.double( -1.0 ),
    thrRegularEB = cms.double( 0.005 ),
    lessThan = cms.bool( True ),
    useEt = cms.bool( True ),
    ncandcut = cms.int32( 1 ),
    isoTag = cms.InputTag( 'hltEgammaGsfTrackVars','Deta' ),
    candTag = cms.InputTag( "hltEle27WP85GsfMissingHitsFilter" ),
    nonIsoTag = cms.InputTag( "" )
)
process.hltEle27WP85GsfDphiFilter = cms.EDFilter( "HLTEgammaGenericFilter",
    doIsolated = cms.bool( True ),
    thrOverE2EE = cms.double( -1.0 ),
    L1NonIsoCand = cms.InputTag( "" ),
    saveTags = cms.bool( False ),
    thrOverE2EB = cms.double( -1.0 ),
    thrRegularEE = cms.double( 0.03 ),
    thrOverEEE = cms.double( -1.0 ),
    L1IsoCand = cms.InputTag( "hltEgammaCandidates" ),
    thrOverEEB = cms.double( -1.0 ),
    thrRegularEB = cms.double( 0.03 ),
    lessThan = cms.bool( True ),
    useEt = cms.bool( True ),
    ncandcut = cms.int32( 1 ),
    isoTag = cms.InputTag( 'hltEgammaGsfTrackVars','Dphi' ),
    candTag = cms.InputTag( "hltEle27WP85GsfDetaFilter" ),
    nonIsoTag = cms.InputTag( "" )
)
process.hltElectronsVertex = cms.EDProducer( "VertexFromTrackProducer",
    verbose = cms.untracked.bool( False ),
    useTriggerFilterElectrons = cms.bool( False ),
    beamSpotLabel = cms.InputTag( "hltOnlineBeamSpot" ),
    isRecoCandidate = cms.bool( True ),
    trackLabel = cms.InputTag( "hltEgammaGsfElectrons" ),
    useTriggerFilterMuons = cms.bool( False ),
    useBeamSpot = cms.bool( True ),
    vertexLabel = cms.InputTag( "None" ),
    triggerFilterElectronsSrc = cms.InputTag( "None" ),
    triggerFilterMuonsSrc = cms.InputTag( "None" ),
    useVertex = cms.bool( False )
)
process.hltPixelLayerTriplets = cms.EDProducer( "SeedingLayersEDProducer",
    layerList = cms.vstring( 'BPix1+BPix2+BPix3',
      'BPix1+BPix2+FPix1_pos',
      'BPix1+BPix2+FPix1_neg',
      'BPix1+FPix1_pos+FPix2_pos',
      'BPix1+FPix1_neg+FPix2_neg' ),
    MTOB = cms.PSet(  ),
    TEC = cms.PSet(  ),
    MTID = cms.PSet(  ),
    FPix = cms.PSet( 
      useErrorsFromParam = cms.bool( True ),
      hitErrorRPhi = cms.double( 0.0051 ),
      TTRHBuilder = cms.string( "hltESPTTRHBuilderPixelOnly" ),
      HitProducer = cms.string( "hltSiPixelRecHits" ),
      hitErrorRZ = cms.double( 0.0036 )
    ),
    MTEC = cms.PSet(  ),
    MTIB = cms.PSet(  ),
    TID = cms.PSet(  ),
    TOB = cms.PSet(  ),
    BPix = cms.PSet( 
      useErrorsFromParam = cms.bool( True ),
      hitErrorRPhi = cms.double( 0.0027 ),
      TTRHBuilder = cms.string( "hltESPTTRHBuilderPixelOnly" ),
      HitProducer = cms.string( "hltSiPixelRecHits" ),
      hitErrorRZ = cms.double( 0.006 )
    ),
    TIB = cms.PSet(  )
)
process.hltPixelTracksElectrons = cms.EDProducer( "PixelTrackProducer",
    FilterPSet = cms.PSet( 
      chi2 = cms.double( 1000.0 ),
      nSigmaTipMaxTolerance = cms.double( 0.0 ),
      ComponentName = cms.string( "PixelTrackFilterByKinematics" ),
      nSigmaInvPtTolerance = cms.double( 0.0 ),
      ptMin = cms.double( 0.1 ),
      tipMax = cms.double( 1.0 )
    ),
    useFilterWithES = cms.bool( False ),
    passLabel = cms.string( "Pixel triplet primary tracks with vertex constraint" ),
    FitterPSet = cms.PSet( 
      ComponentName = cms.string( "PixelFitterByHelixProjections" ),
      TTRHBuilder = cms.string( "hltESPTTRHBuilderPixelOnly" ),
      fixImpactParameter = cms.double( 0.0 )
    ),
    RegionFactoryPSet = cms.PSet( 
      ComponentName = cms.string( "GlobalTrackingRegionWithVerticesProducer" ),
      RegionPSet = cms.PSet( 
        precise = cms.bool( True ),
        originRadius = cms.double( 0.2 ),
        ptMin = cms.double( 0.9 ),
        originHalfLength = cms.double( 0.3 ),
        beamSpot = cms.InputTag( "hltOnlineBeamSpot" ),
        useFixedError = cms.bool( True ),
        sigmaZVertex = cms.double( 3.0 ),
        fixedError = cms.double( 0.2 ),
        VertexCollection = cms.InputTag( "hltElectronsVertex" ),
        useFoundVertices = cms.bool( True ),
        nSigmaZ = cms.double( 4.0 ),
        useFakeVertices = cms.bool( True )
      )
    ),
    CleanerPSet = cms.PSet(  ComponentName = cms.string( "PixelTrackCleanerBySharedHits" ) ),
    OrderedHitsFactoryPSet = cms.PSet( 
      ComponentName = cms.string( "StandardHitTripletGenerator" ),
      GeneratorPSet = cms.PSet( 
        useBending = cms.bool( True ),
        useFixedPreFiltering = cms.bool( False ),
        maxElement = cms.uint32( 100000 ),
        phiPreFiltering = cms.double( 0.3 ),
        extraHitRPhitolerance = cms.double( 0.06 ),
        useMultScattering = cms.bool( True ),
        SeedComparitorPSet = cms.PSet( 
          ComponentName = cms.string( "LowPtClusterShapeSeedComparitor" ),
          clusterShapeCacheSrc = cms.InputTag( "hltSiPixelClustersCache" )
        ),
        extraHitRZtolerance = cms.double( 0.06 ),
        ComponentName = cms.string( "PixelTripletHLTGenerator" )
      ),
      SeedingLayers = cms.InputTag( "hltPixelLayerTriplets" )
    )
)
process.hltPixelVerticesElectrons = cms.EDProducer( "PixelVertexProducer",
    WtAverage = cms.bool( True ),
    Method2 = cms.bool( True ),
    beamSpot = cms.InputTag( "hltOnlineBeamSpot" ),
    PVcomparer = cms.PSet(  refToPSet_ = cms.string( "HLTPSetPvClusterComparer" ) ),
    Verbosity = cms.int32( 0 ),
    UseError = cms.bool( True ),
    TrackCollection = cms.InputTag( "hltPixelTracksElectrons" ),
    PtMin = cms.double( 1.0 ),
    NTrkMin = cms.int32( 2 ),
    ZOffset = cms.double( 5.0 ),
    Finder = cms.string( "DivisiveVertexFinder" ),
    ZSeparation = cms.double( 0.05 )
)
process.hltIter0ElectronsPixelSeedsFromPixelTracks = cms.EDProducer( "SeedGeneratorFromProtoTracksEDProducer",
    useEventsWithNoVertex = cms.bool( True ),
    originHalfLength = cms.double( 0.3 ),
    useProtoTrackKinematics = cms.bool( False ),
    usePV = cms.bool( True ),
    InputVertexCollection = cms.InputTag( "hltPixelVerticesElectrons" ),
    TTRHBuilder = cms.string( "hltESPTTRHBuilderPixelOnly" ),
    InputCollection = cms.InputTag( "hltPixelTracksElectrons" ),
    originRadius = cms.double( 0.1 )
)
process.hltIter0ElectronsCkfTrackCandidates = cms.EDProducer( "CkfTrackCandidateMaker",
    src = cms.InputTag( "hltIter0ElectronsPixelSeedsFromPixelTracks" ),
    maxSeedsBeforeCleaning = cms.uint32( 1000 ),
    SimpleMagneticField = cms.string( "ParabolicMf" ),
    TransientInitialStateEstimatorParameters = cms.PSet( 
      propagatorAlongTISE = cms.string( "PropagatorWithMaterialParabolicMf" ),
      numberMeasurementsForFit = cms.int32( 4 ),
      propagatorOppositeTISE = cms.string( "PropagatorWithMaterialParabolicMfOpposite" )
    ),
    TrajectoryCleaner = cms.string( "hltESPTrajectoryCleanerBySharedHits" ),
    MeasurementTrackerEvent = cms.InputTag( "hltSiStripClusters" ),
    cleanTrajectoryAfterInOut = cms.bool( False ),
    useHitsSplitting = cms.bool( False ),
    RedundantSeedCleaner = cms.string( "CachingSeedCleanerBySharedInput" ),
    doSeedingRegionRebuilding = cms.bool( False ),
    maxNSeeds = cms.uint32( 100000 ),
    TrajectoryBuilderPSet = cms.PSet(  refToPSet_ = cms.string( "HLTIter0PSetTrajectoryBuilderIT" ) ),
    NavigationSchool = cms.string( "SimpleNavigationSchool" ),
    TrajectoryBuilder = cms.string( "" )
)
process.hltIter0ElectronsCtfWithMaterialTracks = cms.EDProducer( "TrackProducer",
    src = cms.InputTag( "hltIter0ElectronsCkfTrackCandidates" ),
    SimpleMagneticField = cms.string( "ParabolicMf" ),
    clusterRemovalInfo = cms.InputTag( "" ),
    beamSpot = cms.InputTag( "hltOnlineBeamSpot" ),
    MeasurementTrackerEvent = cms.InputTag( "hltSiStripClusters" ),
    Fitter = cms.string( "hltESPFittingSmootherIT" ),
    useHitsSplitting = cms.bool( False ),
    MeasurementTracker = cms.string( "" ),
    AlgorithmName = cms.string( "hltIterX" ),
    alias = cms.untracked.string( "ctfWithMaterialTracks" ),
    NavigationSchool = cms.string( "" ),
    TrajectoryInEvent = cms.bool( True ),
    TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
    GeometricInnerState = cms.bool( True ),
    useSimpleMF = cms.bool( True ),
    Propagator = cms.string( "hltESPRungeKuttaTrackerPropagator" )
)
process.hltIter0ElectronsTrackSelectionHighPurity = cms.EDProducer( "AnalyticalTrackSelector",
    max_d0 = cms.double( 100.0 ),
    minNumber3DLayers = cms.uint32( 0 ),
    max_lostHitFraction = cms.double( 1.0 ),
    applyAbsCutsIfNoPV = cms.bool( False ),
    qualityBit = cms.string( "highPurity" ),
    minNumberLayers = cms.uint32( 3 ),
    chi2n_par = cms.double( 0.7 ),
    useVtxError = cms.bool( False ),
    nSigmaZ = cms.double( 3.0 ),
    dz_par2 = cms.vdouble( 0.4, 4.0 ),
    applyAdaptedPVCuts = cms.bool( True ),
    min_eta = cms.double( -9999.0 ),
    dz_par1 = cms.vdouble( 0.35, 4.0 ),
    copyTrajectories = cms.untracked.bool( True ),
    vtxNumber = cms.int32( -1 ),
    max_d0NoPV = cms.double( 100.0 ),
    keepAllTracks = cms.bool( False ),
    maxNumberLostLayers = cms.uint32( 1 ),
    beamspot = cms.InputTag( "hltOnlineBeamSpot" ),
    max_relpterr = cms.double( 9999.0 ),
    copyExtras = cms.untracked.bool( True ),
    max_z0NoPV = cms.double( 100.0 ),
    vertexCut = cms.string( "tracksSize>=3" ),
    max_z0 = cms.double( 100.0 ),
    useVertices = cms.bool( True ),
    min_nhits = cms.uint32( 0 ),
    src = cms.InputTag( "hltIter0ElectronsCtfWithMaterialTracks" ),
    max_minMissHitOutOrIn = cms.int32( 99 ),
    chi2n_no1Dmod_par = cms.double( 9999.0 ),
    vertices = cms.InputTag( "hltPixelVerticesElectrons" ),
    max_eta = cms.double( 9999.0 ),
    d0_par2 = cms.vdouble( 0.4, 4.0 ),
    d0_par1 = cms.vdouble( 0.3, 4.0 ),
    res_par = cms.vdouble( 0.003, 0.001 ),
    minHitsToBypassChecks = cms.uint32( 20 )
)
process.hltIter1ElectronsClustersRefRemoval = cms.EDProducer( "HLTTrackClusterRemoverNew",
    doStrip = cms.bool( True ),
    doStripChargeCheck = cms.bool( False ),
    trajectories = cms.InputTag( "hltIter0ElectronsTrackSelectionHighPurity" ),
    oldClusterRemovalInfo = cms.InputTag( "" ),
    stripClusters = cms.InputTag( "hltSiStripRawToClustersFacility" ),
    pixelClusters = cms.InputTag( "hltSiPixelClusters" ),
    Common = cms.PSet(  maxChi2 = cms.double( 9.0 ) ),
    doPixel = cms.bool( True )
)
process.hltIter1ElectronsMaskedMeasurementTrackerEvent = cms.EDProducer( "MaskedMeasurementTrackerEventProducer",
    clustersToSkip = cms.InputTag( "hltIter1ElectronsClustersRefRemoval" ),
    OnDemand = cms.bool( False ),
    src = cms.InputTag( "hltSiStripClusters" )
)
process.hltIter1ElectronsPixelLayerTriplets = cms.EDProducer( "SeedingLayersEDProducer",
    layerList = cms.vstring( 'BPix1+BPix2+BPix3',
      'BPix1+BPix2+FPix1_pos',
      'BPix1+BPix2+FPix1_neg',
      'BPix1+FPix1_pos+FPix2_pos',
      'BPix1+FPix1_neg+FPix2_neg' ),
    MTOB = cms.PSet(  ),
    TEC = cms.PSet(  ),
    MTID = cms.PSet(  ),
    FPix = cms.PSet( 
      HitProducer = cms.string( "hltSiPixelRecHits" ),
      hitErrorRZ = cms.double( 0.0036 ),
      useErrorsFromParam = cms.bool( True ),
      TTRHBuilder = cms.string( "hltESPTTRHBuilderPixelOnly" ),
      skipClusters = cms.InputTag( "hltIter1ElectronsClustersRefRemoval" ),
      hitErrorRPhi = cms.double( 0.0051 )
    ),
    MTEC = cms.PSet(  ),
    MTIB = cms.PSet(  ),
    TID = cms.PSet(  ),
    TOB = cms.PSet(  ),
    BPix = cms.PSet( 
      HitProducer = cms.string( "hltSiPixelRecHits" ),
      hitErrorRZ = cms.double( 0.006 ),
      useErrorsFromParam = cms.bool( True ),
      TTRHBuilder = cms.string( "hltESPTTRHBuilderPixelOnly" ),
      skipClusters = cms.InputTag( "hltIter1ElectronsClustersRefRemoval" ),
      hitErrorRPhi = cms.double( 0.0027 )
    ),
    TIB = cms.PSet(  )
)
process.hltIter1ElectronsPixelSeeds = cms.EDProducer( "SeedGeneratorFromRegionHitsEDProducer",
    RegionFactoryPSet = cms.PSet( 
      ComponentName = cms.string( "CandidateSeededTrackingRegionsProducer" ),
      RegionPSet = cms.PSet( 
        precise = cms.bool( True ),
        originRadius = cms.double( 0.05 ),
        ptMin = cms.double( 0.5 ),
        input = cms.InputTag( "hltEgammaCandidates" ),
        maxNRegions = cms.int32( 10 ),
        beamSpot = cms.InputTag( "hltOnlineBeamSpot" ),
        vertexCollection = cms.InputTag( "hltPixelVerticesElectrons" ),
        zErrorBeamSpot = cms.double( 24.2 ),
        deltaEta = cms.double( 0.5 ),
        deltaPhi = cms.double( 0.5 ),
        nSigmaZVertex = cms.double( 3.0 ),
        nSigmaZBeamSpot = cms.double( 4.0 ),
        mode = cms.string( "VerticesFixed" ),
        maxNVertices = cms.int32( 3 ),
        zErrorVetex = cms.double( 0.2 )
      )
    ),
    SeedComparitorPSet = cms.PSet(  ComponentName = cms.string( "none" ) ),
    ClusterCheckPSet = cms.PSet( 
      PixelClusterCollectionLabel = cms.InputTag( "hltSiPixelClusters" ),
      MaxNumberOfCosmicClusters = cms.uint32( 50000 ),
      doClusterCheck = cms.bool( False ),
      ClusterCollectionLabel = cms.InputTag( "hltSiStripClusters" ),
      MaxNumberOfPixelClusters = cms.uint32( 10000 )
    ),
    OrderedHitsFactoryPSet = cms.PSet( 
      maxElement = cms.uint32( 0 ),
      ComponentName = cms.string( "StandardHitTripletGenerator" ),
      GeneratorPSet = cms.PSet( 
        useBending = cms.bool( True ),
        useFixedPreFiltering = cms.bool( False ),
        maxElement = cms.uint32( 100000 ),
        phiPreFiltering = cms.double( 0.3 ),
        extraHitRPhitolerance = cms.double( 0.032 ),
        useMultScattering = cms.bool( True ),
        ComponentName = cms.string( "PixelTripletHLTGenerator" ),
        extraHitRZtolerance = cms.double( 0.037 ),
        SeedComparitorPSet = cms.PSet(  ComponentName = cms.string( "none" ) )
      ),
      SeedingLayers = cms.InputTag( "hltIter1ElectronsPixelLayerTriplets" )
    ),
    SeedCreatorPSet = cms.PSet( 
      ComponentName = cms.string( "SeedFromConsecutiveHitsTripletOnlyCreator" ),
      propagator = cms.string( "PropagatorWithMaterialParabolicMf" )
    ),
    TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" )
)
process.hltIter1ElectronsCkfTrackCandidates = cms.EDProducer( "CkfTrackCandidateMaker",
    src = cms.InputTag( "hltIter1ElectronsPixelSeeds" ),
    maxSeedsBeforeCleaning = cms.uint32( 1000 ),
    SimpleMagneticField = cms.string( "ParabolicMf" ),
    TransientInitialStateEstimatorParameters = cms.PSet( 
      propagatorAlongTISE = cms.string( "PropagatorWithMaterialParabolicMf" ),
      numberMeasurementsForFit = cms.int32( 4 ),
      propagatorOppositeTISE = cms.string( "PropagatorWithMaterialParabolicMfOpposite" )
    ),
    TrajectoryCleaner = cms.string( "hltESPTrajectoryCleanerBySharedHits" ),
    MeasurementTrackerEvent = cms.InputTag( "hltIter1ElectronsMaskedMeasurementTrackerEvent" ),
    cleanTrajectoryAfterInOut = cms.bool( False ),
    useHitsSplitting = cms.bool( False ),
    RedundantSeedCleaner = cms.string( "CachingSeedCleanerBySharedInput" ),
    doSeedingRegionRebuilding = cms.bool( False ),
    maxNSeeds = cms.uint32( 100000 ),
    TrajectoryBuilderPSet = cms.PSet(  refToPSet_ = cms.string( "HLTIter1PSetTrajectoryBuilderIT" ) ),
    NavigationSchool = cms.string( "SimpleNavigationSchool" ),
    TrajectoryBuilder = cms.string( "" )
)
process.hltIter1ElectronsCtfWithMaterialTracks = cms.EDProducer( "TrackProducer",
    src = cms.InputTag( "hltIter1ElectronsCkfTrackCandidates" ),
    SimpleMagneticField = cms.string( "ParabolicMf" ),
    clusterRemovalInfo = cms.InputTag( "" ),
    beamSpot = cms.InputTag( "hltOnlineBeamSpot" ),
    MeasurementTrackerEvent = cms.InputTag( "hltIter1ElectronsMaskedMeasurementTrackerEvent" ),
    Fitter = cms.string( "hltESPFittingSmootherIT" ),
    useHitsSplitting = cms.bool( False ),
    MeasurementTracker = cms.string( "" ),
    AlgorithmName = cms.string( "hltIterX" ),
    alias = cms.untracked.string( "ctfWithMaterialTracks" ),
    NavigationSchool = cms.string( "" ),
    TrajectoryInEvent = cms.bool( True ),
    TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
    GeometricInnerState = cms.bool( True ),
    useSimpleMF = cms.bool( True ),
    Propagator = cms.string( "hltESPRungeKuttaTrackerPropagator" )
)
process.hltIter1ElectronsTrackSelectionHighPurityLoose = cms.EDProducer( "AnalyticalTrackSelector",
    max_d0 = cms.double( 100.0 ),
    minNumber3DLayers = cms.uint32( 0 ),
    max_lostHitFraction = cms.double( 1.0 ),
    applyAbsCutsIfNoPV = cms.bool( False ),
    qualityBit = cms.string( "highPurity" ),
    minNumberLayers = cms.uint32( 3 ),
    chi2n_par = cms.double( 0.7 ),
    useVtxError = cms.bool( False ),
    nSigmaZ = cms.double( 3.0 ),
    dz_par2 = cms.vdouble( 0.9, 3.0 ),
    applyAdaptedPVCuts = cms.bool( True ),
    min_eta = cms.double( -9999.0 ),
    dz_par1 = cms.vdouble( 0.8, 3.0 ),
    copyTrajectories = cms.untracked.bool( True ),
    vtxNumber = cms.int32( -1 ),
    max_d0NoPV = cms.double( 100.0 ),
    keepAllTracks = cms.bool( False ),
    maxNumberLostLayers = cms.uint32( 1 ),
    beamspot = cms.InputTag( "hltOnlineBeamSpot" ),
    max_relpterr = cms.double( 9999.0 ),
    copyExtras = cms.untracked.bool( True ),
    max_z0NoPV = cms.double( 100.0 ),
    vertexCut = cms.string( "tracksSize>=3" ),
    max_z0 = cms.double( 100.0 ),
    useVertices = cms.bool( True ),
    min_nhits = cms.uint32( 0 ),
    src = cms.InputTag( "hltIter1ElectronsCtfWithMaterialTracks" ),
    max_minMissHitOutOrIn = cms.int32( 99 ),
    chi2n_no1Dmod_par = cms.double( 9999.0 ),
    vertices = cms.InputTag( "hltPixelVerticesElectrons" ),
    max_eta = cms.double( 9999.0 ),
    d0_par2 = cms.vdouble( 0.9, 3.0 ),
    d0_par1 = cms.vdouble( 0.85, 3.0 ),
    res_par = cms.vdouble( 0.003, 0.001 ),
    minHitsToBypassChecks = cms.uint32( 20 )
)
process.hltIter1ElectronsTrackSelectionHighPurityTight = cms.EDProducer( "AnalyticalTrackSelector",
    max_d0 = cms.double( 100.0 ),
    minNumber3DLayers = cms.uint32( 0 ),
    max_lostHitFraction = cms.double( 1.0 ),
    applyAbsCutsIfNoPV = cms.bool( False ),
    qualityBit = cms.string( "highPurity" ),
    minNumberLayers = cms.uint32( 5 ),
    chi2n_par = cms.double( 0.4 ),
    useVtxError = cms.bool( False ),
    nSigmaZ = cms.double( 3.0 ),
    dz_par2 = cms.vdouble( 1.0, 4.0 ),
    applyAdaptedPVCuts = cms.bool( True ),
    min_eta = cms.double( -9999.0 ),
    dz_par1 = cms.vdouble( 1.0, 4.0 ),
    copyTrajectories = cms.untracked.bool( True ),
    vtxNumber = cms.int32( -1 ),
    max_d0NoPV = cms.double( 100.0 ),
    keepAllTracks = cms.bool( False ),
    maxNumberLostLayers = cms.uint32( 1 ),
    beamspot = cms.InputTag( "hltOnlineBeamSpot" ),
    max_relpterr = cms.double( 9999.0 ),
    copyExtras = cms.untracked.bool( True ),
    max_z0NoPV = cms.double( 100.0 ),
    vertexCut = cms.string( "tracksSize>=3" ),
    max_z0 = cms.double( 100.0 ),
    useVertices = cms.bool( True ),
    min_nhits = cms.uint32( 0 ),
    src = cms.InputTag( "hltIter1ElectronsCtfWithMaterialTracks" ),
    max_minMissHitOutOrIn = cms.int32( 99 ),
    chi2n_no1Dmod_par = cms.double( 9999.0 ),
    vertices = cms.InputTag( "hltPixelVerticesElectrons" ),
    max_eta = cms.double( 9999.0 ),
    d0_par2 = cms.vdouble( 1.0, 4.0 ),
    d0_par1 = cms.vdouble( 1.0, 4.0 ),
    res_par = cms.vdouble( 0.003, 0.001 ),
    minHitsToBypassChecks = cms.uint32( 20 )
)
process.hltIter1ElectronsTrackSelectionHighPurity = cms.EDProducer( "SimpleTrackListMerger",
    ShareFrac = cms.double( 0.19 ),
    promoteTrackQuality = cms.bool( True ),
    MinPT = cms.double( 0.05 ),
    copyExtras = cms.untracked.bool( True ),
    Epsilon = cms.double( -0.001 ),
    allowFirstHitShare = cms.bool( True ),
    newQuality = cms.string( "confirmed" ),
    MaxNormalizedChisq = cms.double( 1000.0 ),
    TrackProducer1 = cms.string( "hltIter1ElectronsTrackSelectionHighPurityLoose" ),
    MinFound = cms.int32( 3 ),
    TrackProducer2 = cms.string( "hltIter1ElectronsTrackSelectionHighPurityTight" ),
    LostHitPenalty = cms.double( 20.0 ),
    FoundHitBonus = cms.double( 5.0 )
)
process.hltIter1MergedForElectrons = cms.EDProducer( "SimpleTrackListMerger",
    ShareFrac = cms.double( 0.19 ),
    promoteTrackQuality = cms.bool( True ),
    MinPT = cms.double( 0.05 ),
    copyExtras = cms.untracked.bool( True ),
    Epsilon = cms.double( -0.001 ),
    allowFirstHitShare = cms.bool( True ),
    newQuality = cms.string( "confirmed" ),
    MaxNormalizedChisq = cms.double( 1000.0 ),
    TrackProducer1 = cms.string( "hltIter0ElectronsTrackSelectionHighPurity" ),
    MinFound = cms.int32( 3 ),
    TrackProducer2 = cms.string( "hltIter1ElectronsTrackSelectionHighPurity" ),
    LostHitPenalty = cms.double( 20.0 ),
    FoundHitBonus = cms.double( 5.0 )
)
process.hltIter2ElectronsClustersRefRemoval = cms.EDProducer( "HLTTrackClusterRemoverNew",
    doStrip = cms.bool( True ),
    doStripChargeCheck = cms.bool( False ),
    trajectories = cms.InputTag( "hltIter1ElectronsTrackSelectionHighPurity" ),
    oldClusterRemovalInfo = cms.InputTag( "hltIter1ElectronsClustersRefRemoval" ),
    stripClusters = cms.InputTag( "hltSiStripRawToClustersFacility" ),
    pixelClusters = cms.InputTag( "hltSiPixelClusters" ),
    Common = cms.PSet(  maxChi2 = cms.double( 16.0 ) ),
    doPixel = cms.bool( True )
)
process.hltIter2ElectronsMaskedMeasurementTrackerEvent = cms.EDProducer( "MaskedMeasurementTrackerEventProducer",
    clustersToSkip = cms.InputTag( "hltIter2ElectronsClustersRefRemoval" ),
    OnDemand = cms.bool( False ),
    src = cms.InputTag( "hltSiStripClusters" )
)
process.hltIter2ElectronsPixelLayerPairs = cms.EDProducer( "SeedingLayersEDProducer",
    layerList = cms.vstring( 'BPix1+BPix2',
      'BPix1+BPix3',
      'BPix2+BPix3',
      'BPix1+FPix1_pos',
      'BPix1+FPix1_neg',
      'BPix1+FPix2_pos',
      'BPix1+FPix2_neg',
      'BPix2+FPix1_pos',
      'BPix2+FPix1_neg',
      'BPix2+FPix2_pos',
      'BPix2+FPix2_neg',
      'FPix1_pos+FPix2_pos',
      'FPix1_neg+FPix2_neg' ),
    MTOB = cms.PSet(  ),
    TEC = cms.PSet(  ),
    MTID = cms.PSet(  ),
    FPix = cms.PSet( 
      HitProducer = cms.string( "hltSiPixelRecHits" ),
      hitErrorRZ = cms.double( 0.0036 ),
      useErrorsFromParam = cms.bool( True ),
      TTRHBuilder = cms.string( "hltESPTTRHBuilderPixelOnly" ),
      skipClusters = cms.InputTag( "hltIter2ElectronsClustersRefRemoval" ),
      hitErrorRPhi = cms.double( 0.0051 )
    ),
    MTEC = cms.PSet(  ),
    MTIB = cms.PSet(  ),
    TID = cms.PSet(  ),
    TOB = cms.PSet(  ),
    BPix = cms.PSet( 
      HitProducer = cms.string( "hltSiPixelRecHits" ),
      hitErrorRZ = cms.double( 0.006 ),
      useErrorsFromParam = cms.bool( True ),
      TTRHBuilder = cms.string( "hltESPTTRHBuilderPixelOnly" ),
      skipClusters = cms.InputTag( "hltIter2ElectronsClustersRefRemoval" ),
      hitErrorRPhi = cms.double( 0.0027 )
    ),
    TIB = cms.PSet(  )
)
process.hltIter2ElectronsPixelSeeds = cms.EDProducer( "SeedGeneratorFromRegionHitsEDProducer",
    RegionFactoryPSet = cms.PSet( 
      ComponentName = cms.string( "CandidateSeededTrackingRegionsProducer" ),
      RegionPSet = cms.PSet( 
        precise = cms.bool( True ),
        originRadius = cms.double( 0.05 ),
        ptMin = cms.double( 1.2 ),
        deltaEta = cms.double( 0.5 ),
        deltaPhi = cms.double( 0.5 ),
        vertexCollection = cms.InputTag( "hltPixelVerticesElectrons" ),
        input = cms.InputTag( "hltEgammaCandidates" ),
        mode = cms.string( "VerticesFixed" ),
        maxNRegions = cms.int32( 10 ),
        beamSpot = cms.InputTag( "hltOnlineBeamSpot" ),
        maxNVertices = cms.int32( 3 ),
        zErrorBeamSpot = cms.double( 24.2 ),
        nSigmaZVertex = cms.double( 3.0 ),
        nSigmaZBeamSpot = cms.double( 4.0 ),
        zErrorVetex = cms.double( 0.2 )
      )
    ),
    SeedComparitorPSet = cms.PSet(  ComponentName = cms.string( "none" ) ),
    ClusterCheckPSet = cms.PSet( 
      PixelClusterCollectionLabel = cms.InputTag( "hltSiPixelClusters" ),
      MaxNumberOfCosmicClusters = cms.uint32( 50000 ),
      doClusterCheck = cms.bool( False ),
      ClusterCollectionLabel = cms.InputTag( "hltSiStripClusters" ),
      MaxNumberOfPixelClusters = cms.uint32( 10000 )
    ),
    OrderedHitsFactoryPSet = cms.PSet( 
      maxElement = cms.uint32( 0 ),
      ComponentName = cms.string( "StandardHitPairGenerator" ),
      GeneratorPSet = cms.PSet( 
        maxElement = cms.uint32( 100000 ),
        SeedComparitorPSet = cms.PSet(  ComponentName = cms.string( "none" ) )
      ),
      SeedingLayers = cms.InputTag( "hltIter2ElectronsPixelLayerPairs" )
    ),
    SeedCreatorPSet = cms.PSet( 
      ComponentName = cms.string( "SeedFromConsecutiveHitsCreator" ),
      propagator = cms.string( "PropagatorWithMaterialParabolicMf" )
    ),
    TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" )
)
process.hltIter2ElectronsCkfTrackCandidates = cms.EDProducer( "CkfTrackCandidateMaker",
    src = cms.InputTag( "hltIter2ElectronsPixelSeeds" ),
    maxSeedsBeforeCleaning = cms.uint32( 1000 ),
    SimpleMagneticField = cms.string( "ParabolicMf" ),
    TransientInitialStateEstimatorParameters = cms.PSet( 
      propagatorAlongTISE = cms.string( "PropagatorWithMaterialParabolicMf" ),
      numberMeasurementsForFit = cms.int32( 4 ),
      propagatorOppositeTISE = cms.string( "PropagatorWithMaterialParabolicMfOpposite" )
    ),
    TrajectoryCleaner = cms.string( "hltESPTrajectoryCleanerBySharedHits" ),
    MeasurementTrackerEvent = cms.InputTag( "hltIter2ElectronsMaskedMeasurementTrackerEvent" ),
    cleanTrajectoryAfterInOut = cms.bool( False ),
    useHitsSplitting = cms.bool( False ),
    RedundantSeedCleaner = cms.string( "CachingSeedCleanerBySharedInput" ),
    doSeedingRegionRebuilding = cms.bool( False ),
    maxNSeeds = cms.uint32( 100000 ),
    TrajectoryBuilderPSet = cms.PSet(  refToPSet_ = cms.string( "HLTIter2PSetTrajectoryBuilderIT" ) ),
    NavigationSchool = cms.string( "SimpleNavigationSchool" ),
    TrajectoryBuilder = cms.string( "" )
)
process.hltIter2ElectronsCtfWithMaterialTracks = cms.EDProducer( "TrackProducer",
    src = cms.InputTag( "hltIter2ElectronsCkfTrackCandidates" ),
    SimpleMagneticField = cms.string( "ParabolicMf" ),
    clusterRemovalInfo = cms.InputTag( "" ),
    beamSpot = cms.InputTag( "hltOnlineBeamSpot" ),
    MeasurementTrackerEvent = cms.InputTag( "hltIter2ElectronsMaskedMeasurementTrackerEvent" ),
    Fitter = cms.string( "hltESPFittingSmootherIT" ),
    useHitsSplitting = cms.bool( False ),
    MeasurementTracker = cms.string( "" ),
    AlgorithmName = cms.string( "hltIterX" ),
    alias = cms.untracked.string( "ctfWithMaterialTracks" ),
    NavigationSchool = cms.string( "" ),
    TrajectoryInEvent = cms.bool( True ),
    TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
    GeometricInnerState = cms.bool( True ),
    useSimpleMF = cms.bool( True ),
    Propagator = cms.string( "hltESPRungeKuttaTrackerPropagator" )
)
process.hltIter2ElectronsTrackSelectionHighPurity = cms.EDProducer( "AnalyticalTrackSelector",
    max_d0 = cms.double( 100.0 ),
    minNumber3DLayers = cms.uint32( 0 ),
    max_lostHitFraction = cms.double( 1.0 ),
    applyAbsCutsIfNoPV = cms.bool( False ),
    qualityBit = cms.string( "highPurity" ),
    minNumberLayers = cms.uint32( 3 ),
    chi2n_par = cms.double( 0.7 ),
    useVtxError = cms.bool( False ),
    nSigmaZ = cms.double( 3.0 ),
    dz_par2 = cms.vdouble( 0.4, 4.0 ),
    applyAdaptedPVCuts = cms.bool( True ),
    min_eta = cms.double( -9999.0 ),
    dz_par1 = cms.vdouble( 0.35, 4.0 ),
    copyTrajectories = cms.untracked.bool( True ),
    vtxNumber = cms.int32( -1 ),
    max_d0NoPV = cms.double( 100.0 ),
    keepAllTracks = cms.bool( False ),
    maxNumberLostLayers = cms.uint32( 1 ),
    beamspot = cms.InputTag( "hltOnlineBeamSpot" ),
    max_relpterr = cms.double( 9999.0 ),
    copyExtras = cms.untracked.bool( True ),
    max_z0NoPV = cms.double( 100.0 ),
    vertexCut = cms.string( "tracksSize>=3" ),
    max_z0 = cms.double( 100.0 ),
    useVertices = cms.bool( True ),
    min_nhits = cms.uint32( 0 ),
    src = cms.InputTag( "hltIter2ElectronsCtfWithMaterialTracks" ),
    max_minMissHitOutOrIn = cms.int32( 99 ),
    chi2n_no1Dmod_par = cms.double( 9999.0 ),
    vertices = cms.InputTag( "hltPixelVerticesElectrons" ),
    max_eta = cms.double( 9999.0 ),
    d0_par2 = cms.vdouble( 0.4, 4.0 ),
    d0_par1 = cms.vdouble( 0.3, 4.0 ),
    res_par = cms.vdouble( 0.003, 0.001 ),
    minHitsToBypassChecks = cms.uint32( 20 )
)
process.hltIter2MergedForElectrons = cms.EDProducer( "SimpleTrackListMerger",
    ShareFrac = cms.double( 0.19 ),
    promoteTrackQuality = cms.bool( True ),
    MinPT = cms.double( 0.05 ),
    copyExtras = cms.untracked.bool( True ),
    Epsilon = cms.double( -0.001 ),
    allowFirstHitShare = cms.bool( True ),
    newQuality = cms.string( "confirmed" ),
    MaxNormalizedChisq = cms.double( 1000.0 ),
    TrackProducer1 = cms.string( "hltIter1MergedForElectrons" ),
    MinFound = cms.int32( 3 ),
    TrackProducer2 = cms.string( "hltIter2ElectronsTrackSelectionHighPurity" ),
    LostHitPenalty = cms.double( 20.0 ),
    FoundHitBonus = cms.double( 5.0 )
)
process.hltEgammaEleGsfTrackIso = cms.EDProducer( "EgammaHLTElectronTrackIsolationProducers",
    egTrkIsoStripEndcap = cms.double( 0.03 ),
    egTrkIsoVetoConeSizeBarrel = cms.double( 0.03 ),
    useGsfTrack = cms.bool( True ),
    useSCRefs = cms.bool( True ),
    trackProducer = cms.InputTag( "hltIter2MergedForElectrons" ),
    egTrkIsoStripBarrel = cms.double( 0.03 ),
    electronProducer = cms.InputTag( "hltEgammaGsfElectrons" ),
    egTrkIsoConeSize = cms.double( 0.3 ),
    egTrkIsoRSpan = cms.double( 999999.0 ),
    egTrkIsoVetoConeSizeEndcap = cms.double( 0.03 ),
    recoEcalCandidateProducer = cms.InputTag( "hltEgammaCandidates" ),
    beamSpotProducer = cms.InputTag( "hltOnlineBeamSpot" ),
    egTrkIsoPtMin = cms.double( 1.0 ),
    egTrkIsoZSpan = cms.double( 0.15 )
)
process.hltEle27WP85GsfTrackIsoFilter = cms.EDFilter( "HLTEgammaGenericFilter",
    doIsolated = cms.bool( True ),
    thrOverE2EE = cms.double( -1.0 ),
    L1NonIsoCand = cms.InputTag( "" ),
    saveTags = cms.bool( True ),
    thrOverE2EB = cms.double( -1.0 ),
    thrRegularEE = cms.double( -1.0 ),
    thrOverEEE = cms.double( 0.05 ),
    L1IsoCand = cms.InputTag( "hltEgammaCandidates" ),
    thrOverEEB = cms.double( 0.05 ),
    thrRegularEB = cms.double( -1.0 ),
    lessThan = cms.bool( True ),
    useEt = cms.bool( True ),
    ncandcut = cms.int32( 1 ),
    isoTag = cms.InputTag( "hltEgammaEleGsfTrackIso" ),
    candTag = cms.InputTag( "hltEle27WP85GsfDphiFilter" ),
    nonIsoTag = cms.InputTag( "" )
)
process.hltL1sL1SingleMu16ORSingleMu25 = cms.EDFilter( "HLTLevel1GTSeed",
    L1SeedsLogicalExpression = cms.string( "L1_SingleMu16 OR L1_SingleMu25" ),
    saveTags = cms.bool( True ),
    L1MuonCollectionTag = cms.InputTag( "hltL1extraParticles" ),
    L1UseL1TriggerObjectMaps = cms.bool( True ),
    L1UseAliasesForSeeding = cms.bool( True ),
    L1GtReadoutRecordTag = cms.InputTag( "hltGtDigis" ),
    L1CollectionsTag = cms.InputTag( "hltL1extraParticles" ),
    L1NrBxInEvent = cms.int32( 3 ),
    L1GtObjectMapTag = cms.InputTag( "hltL1GtObjectMap" ),
    L1TechTriggerSeeding = cms.bool( False )
)
process.hltPreMu40 = cms.EDFilter( "HLTPrescaler",
    L1GtReadoutRecordTag = cms.InputTag( "hltGtDigis" ),
    offset = cms.uint32( 0 )
)
process.hltL1fL1sMu16orMu25L1Filtered0 = cms.EDFilter( "HLTMuonL1Filter",
    saveTags = cms.bool( False ),
    CSCTFtag = cms.InputTag( "unused" ),
    PreviousCandTag = cms.InputTag( "hltL1sL1SingleMu16ORSingleMu25" ),
    MinPt = cms.double( 0.0 ),
    MinN = cms.int32( 1 ),
    MaxEta = cms.double( 2.5 ),
    SelectQualities = cms.vint32(  ),
    CandTag = cms.InputTag( "hltL1extraParticles" ),
    ExcludeSingleSegmentCSC = cms.bool( False )
)
process.hltMuonDTDigis = cms.EDProducer( "DTUnpackingModule",
    useStandardFEDid = cms.bool( True ),
    inputLabel = cms.InputTag( "rawDataCollector" ),
    dataType = cms.string( "DDU" ),
    fedbyType = cms.bool( False ),
    readOutParameters = cms.PSet( 
      debug = cms.untracked.bool( False ),
      rosParameters = cms.PSet( 
        writeSC = cms.untracked.bool( True ),
        readingDDU = cms.untracked.bool( True ),
        performDataIntegrityMonitor = cms.untracked.bool( False ),
        readDDUIDfromDDU = cms.untracked.bool( True ),
        debug = cms.untracked.bool( False ),
        localDAQ = cms.untracked.bool( False )
      ),
      localDAQ = cms.untracked.bool( False ),
      performDataIntegrityMonitor = cms.untracked.bool( False )
    ),
    dqmOnly = cms.bool( False )
)
process.hltDt1DRecHits = cms.EDProducer( "DTRecHitProducer",
    debug = cms.untracked.bool( False ),
    recAlgoConfig = cms.PSet( 
      tTrigMode = cms.string( "DTTTrigSyncFromDB" ),
      minTime = cms.double( -3.0 ),
      stepTwoFromDigi = cms.bool( False ),
      doVdriftCorr = cms.bool( True ),
      debug = cms.untracked.bool( False ),
      maxTime = cms.double( 420.0 ),
      tTrigModeConfig = cms.PSet( 
        vPropWire = cms.double( 24.4 ),
        doTOFCorrection = cms.bool( True ),
        tofCorrType = cms.int32( 0 ),
        wirePropCorrType = cms.int32( 0 ),
        tTrigLabel = cms.string( "" ),
        doWirePropCorrection = cms.bool( True ),
        doT0Correction = cms.bool( True ),
        debug = cms.untracked.bool( False )
      ),
      useUncertDB = cms.bool( True )
    ),
    dtDigiLabel = cms.InputTag( "hltMuonDTDigis" ),
    recAlgo = cms.string( "DTLinearDriftFromDBAlgo" )
)
process.hltDt4DSegments = cms.EDProducer( "DTRecSegment4DProducer",
    debug = cms.untracked.bool( False ),
    Reco4DAlgoName = cms.string( "DTCombinatorialPatternReco4D" ),
    recHits2DLabel = cms.InputTag( "dt2DSegments" ),
    recHits1DLabel = cms.InputTag( "hltDt1DRecHits" ),
    Reco4DAlgoConfig = cms.PSet( 
      segmCleanerMode = cms.int32( 2 ),
      Reco2DAlgoName = cms.string( "DTCombinatorialPatternReco" ),
      recAlgoConfig = cms.PSet( 
        tTrigMode = cms.string( "DTTTrigSyncFromDB" ),
        minTime = cms.double( -3.0 ),
        stepTwoFromDigi = cms.bool( False ),
        doVdriftCorr = cms.bool( True ),
        debug = cms.untracked.bool( False ),
        maxTime = cms.double( 420.0 ),
        tTrigModeConfig = cms.PSet( 
          vPropWire = cms.double( 24.4 ),
          doTOFCorrection = cms.bool( True ),
          tofCorrType = cms.int32( 0 ),
          wirePropCorrType = cms.int32( 0 ),
          tTrigLabel = cms.string( "" ),
          doWirePropCorrection = cms.bool( True ),
          doT0Correction = cms.bool( True ),
          debug = cms.untracked.bool( False )
        ),
        useUncertDB = cms.bool( True )
      ),
      nSharedHitsMax = cms.int32( 2 ),
      hit_afterT0_resolution = cms.double( 0.03 ),
      Reco2DAlgoConfig = cms.PSet( 
        segmCleanerMode = cms.int32( 2 ),
        recAlgoConfig = cms.PSet( 
          tTrigMode = cms.string( "DTTTrigSyncFromDB" ),
          minTime = cms.double( -3.0 ),
          stepTwoFromDigi = cms.bool( False ),
          doVdriftCorr = cms.bool( True ),
          debug = cms.untracked.bool( False ),
          maxTime = cms.double( 420.0 ),
          tTrigModeConfig = cms.PSet( 
            vPropWire = cms.double( 24.4 ),
            doTOFCorrection = cms.bool( True ),
            tofCorrType = cms.int32( 0 ),
            wirePropCorrType = cms.int32( 0 ),
            tTrigLabel = cms.string( "" ),
            doWirePropCorrection = cms.bool( True ),
            doT0Correction = cms.bool( True ),
            debug = cms.untracked.bool( False )
          ),
          useUncertDB = cms.bool( True )
        ),
        nSharedHitsMax = cms.int32( 2 ),
        AlphaMaxPhi = cms.double( 1.0 ),
        hit_afterT0_resolution = cms.double( 0.03 ),
        MaxAllowedHits = cms.uint32( 50 ),
        performT0_vdriftSegCorrection = cms.bool( False ),
        AlphaMaxTheta = cms.double( 0.9 ),
        debug = cms.untracked.bool( False ),
        recAlgo = cms.string( "DTLinearDriftFromDBAlgo" ),
        nUnSharedHitsMin = cms.int32( 2 ),
        performT0SegCorrection = cms.bool( False ),
        perform_delta_rejecting = cms.bool( False )
      ),
      performT0_vdriftSegCorrection = cms.bool( False ),
      debug = cms.untracked.bool( False ),
      recAlgo = cms.string( "DTLinearDriftFromDBAlgo" ),
      nUnSharedHitsMin = cms.int32( 2 ),
      AllDTRecHits = cms.bool( True ),
      performT0SegCorrection = cms.bool( False ),
      perform_delta_rejecting = cms.bool( False )
    )
)
process.hltMuonCSCDigis = cms.EDProducer( "CSCDCCUnpacker",
    PrintEventNumber = cms.untracked.bool( False ),
    UseSelectiveUnpacking = cms.bool( True ),
    UseExaminer = cms.bool( True ),
    ErrorMask = cms.uint32( 0x0 ),
    InputObjects = cms.InputTag( "rawDataCollector" ),
    UseFormatStatus = cms.bool( True ),
    ExaminerMask = cms.uint32( 0x1febf3f6 ),
    UnpackStatusDigis = cms.bool( False ),
    VisualFEDInspect = cms.untracked.bool( False ),
    FormatedEventDump = cms.untracked.bool( False ),
    Debug = cms.untracked.bool( False ),
    VisualFEDShort = cms.untracked.bool( False )
)
process.hltCsc2DRecHits = cms.EDProducer( "CSCRecHitDProducer",
    XTasymmetry_ME1b = cms.double( 0.0 ),
    XTasymmetry_ME1a = cms.double( 0.0 ),
    ConstSyst_ME1a = cms.double( 0.022 ),
    ConstSyst_ME1b = cms.double( 0.007 ),
    XTasymmetry_ME41 = cms.double( 0.0 ),
    CSCStripxtalksOffset = cms.double( 0.03 ),
    CSCUseCalibrations = cms.bool( True ),
    CSCUseTimingCorrections = cms.bool( True ),
    CSCNoOfTimeBinsForDynamicPedestal = cms.int32( 2 ),
    XTasymmetry_ME22 = cms.double( 0.0 ),
    UseFivePoleFit = cms.bool( True ),
    XTasymmetry_ME21 = cms.double( 0.0 ),
    ConstSyst_ME21 = cms.double( 0.0 ),
    CSCDebug = cms.untracked.bool( False ),
    ConstSyst_ME22 = cms.double( 0.0 ),
    CSCUseGasGainCorrections = cms.bool( False ),
    XTasymmetry_ME31 = cms.double( 0.0 ),
    readBadChambers = cms.bool( True ),
    NoiseLevel_ME13 = cms.double( 8.0 ),
    NoiseLevel_ME12 = cms.double( 9.0 ),
    NoiseLevel_ME32 = cms.double( 9.0 ),
    NoiseLevel_ME31 = cms.double( 9.0 ),
    XTasymmetry_ME32 = cms.double( 0.0 ),
    ConstSyst_ME41 = cms.double( 0.0 ),
    CSCStripClusterSize = cms.untracked.int32( 3 ),
    CSCStripClusterChargeCut = cms.double( 25.0 ),
    CSCStripPeakThreshold = cms.double( 10.0 ),
    readBadChannels = cms.bool( False ),
    UseParabolaFit = cms.bool( False ),
    XTasymmetry_ME13 = cms.double( 0.0 ),
    XTasymmetry_ME12 = cms.double( 0.0 ),
    wireDigiTag = cms.InputTag( 'hltMuonCSCDigis','MuonCSCWireDigi' ),
    ConstSyst_ME12 = cms.double( 0.0 ),
    ConstSyst_ME13 = cms.double( 0.0 ),
    ConstSyst_ME32 = cms.double( 0.0 ),
    ConstSyst_ME31 = cms.double( 0.0 ),
    UseAverageTime = cms.bool( False ),
    NoiseLevel_ME1a = cms.double( 7.0 ),
    NoiseLevel_ME1b = cms.double( 8.0 ),
    CSCWireClusterDeltaT = cms.int32( 1 ),
    CSCUseStaticPedestals = cms.bool( False ),
    stripDigiTag = cms.InputTag( 'hltMuonCSCDigis','MuonCSCStripDigi' ),
    CSCstripWireDeltaTime = cms.int32( 8 ),
    NoiseLevel_ME21 = cms.double( 9.0 ),
    NoiseLevel_ME22 = cms.double( 9.0 ),
    NoiseLevel_ME41 = cms.double( 9.0 )
)
process.hltCscSegments = cms.EDProducer( "CSCSegmentProducer",
    inputObjects = cms.InputTag( "hltCsc2DRecHits" ),
    algo_psets = cms.VPSet( 
      cms.PSet(  chamber_types = cms.vstring( 'ME1/a',
  'ME1/b',
  'ME1/2',
  'ME1/3',
  'ME2/1',
  'ME2/2',
  'ME3/1',
  'ME3/2',
  'ME4/1',
  'ME4/2' ),
        algo_name = cms.string( "CSCSegAlgoST" ),
        parameters_per_chamber_type = cms.vint32( 2, 1, 1, 1, 1, 1, 1, 1, 1, 1 ),
        algo_psets = cms.VPSet( 
          cms.PSet(  maxRatioResidualPrune = cms.double( 3.0 ),
            yweightPenalty = cms.double( 1.5 ),
            maxRecHitsInCluster = cms.int32( 20 ),
            dPhiFineMax = cms.double( 0.025 ),
            preClusteringUseChaining = cms.bool( True ),
            ForceCovariance = cms.bool( False ),
            hitDropLimit6Hits = cms.double( 0.3333 ),
            NormChi2Cut2D = cms.double( 20.0 ),
            BPMinImprovement = cms.double( 10000.0 ),
            Covariance = cms.double( 0.0 ),
            tanPhiMax = cms.double( 0.5 ),
            SeedBig = cms.double( 0.0015 ),
            onlyBestSegment = cms.bool( False ),
            dRPhiFineMax = cms.double( 8.0 ),
            SeedSmall = cms.double( 2.0E-4 ),
            curvePenalty = cms.double( 2.0 ),
            dXclusBoxMax = cms.double( 4.0 ),
            BrutePruning = cms.bool( True ),
            curvePenaltyThreshold = cms.double( 0.85 ),
            CorrectTheErrors = cms.bool( True ),
            hitDropLimit4Hits = cms.double( 0.6 ),
            useShowering = cms.bool( False ),
            CSCDebug = cms.untracked.bool( False ),
            tanThetaMax = cms.double( 1.2 ),
            NormChi2Cut3D = cms.double( 10.0 ),
            minHitsPerSegment = cms.int32( 3 ),
            ForceCovarianceAll = cms.bool( False ),
            yweightPenaltyThreshold = cms.double( 1.0 ),
            prePrunLimit = cms.double( 3.17 ),
            hitDropLimit5Hits = cms.double( 0.8 ),
            preClustering = cms.bool( True ),
            prePrun = cms.bool( True ),
            maxDPhi = cms.double( 999.0 ),
            maxDTheta = cms.double( 999.0 ),
            Pruning = cms.bool( True ),
            dYclusBoxMax = cms.double( 8.0 )
          ),
          cms.PSet(  maxRatioResidualPrune = cms.double( 3.0 ),
            yweightPenalty = cms.double( 1.5 ),
            maxRecHitsInCluster = cms.int32( 24 ),
            dPhiFineMax = cms.double( 0.025 ),
            preClusteringUseChaining = cms.bool( True ),
            ForceCovariance = cms.bool( False ),
            hitDropLimit6Hits = cms.double( 0.3333 ),
            NormChi2Cut2D = cms.double( 20.0 ),
            BPMinImprovement = cms.double( 10000.0 ),
            Covariance = cms.double( 0.0 ),
            tanPhiMax = cms.double( 0.5 ),
            SeedBig = cms.double( 0.0015 ),
            onlyBestSegment = cms.bool( False ),
            dRPhiFineMax = cms.double( 8.0 ),
            SeedSmall = cms.double( 2.0E-4 ),
            curvePenalty = cms.double( 2.0 ),
            dXclusBoxMax = cms.double( 4.0 ),
            BrutePruning = cms.bool( True ),
            curvePenaltyThreshold = cms.double( 0.85 ),
            CorrectTheErrors = cms.bool( True ),
            hitDropLimit4Hits = cms.double( 0.6 ),
            useShowering = cms.bool( False ),
            CSCDebug = cms.untracked.bool( False ),
            tanThetaMax = cms.double( 1.2 ),
            NormChi2Cut3D = cms.double( 10.0 ),
            minHitsPerSegment = cms.int32( 3 ),
            ForceCovarianceAll = cms.bool( False ),
            yweightPenaltyThreshold = cms.double( 1.0 ),
            prePrunLimit = cms.double( 3.17 ),
            hitDropLimit5Hits = cms.double( 0.8 ),
            preClustering = cms.bool( True ),
            prePrun = cms.bool( True ),
            maxDPhi = cms.double( 999.0 ),
            maxDTheta = cms.double( 999.0 ),
            Pruning = cms.bool( True ),
            dYclusBoxMax = cms.double( 8.0 )
          )
        )
      )
    ),
    algo_type = cms.int32( 1 )
)
process.hltMuonRPCDigis = cms.EDProducer( "RPCUnpackingModule",
    InputLabel = cms.InputTag( "rawDataCollector" ),
    doSynchro = cms.bool( False )
)
process.hltRpcRecHits = cms.EDProducer( "RPCRecHitProducer",
    recAlgoConfig = cms.PSet(  ),
    deadvecfile = cms.FileInPath( "RecoLocalMuon/RPCRecHit/data/RPCDeadVec.dat" ),
    rpcDigiLabel = cms.InputTag( "hltMuonRPCDigis" ),
    maskvecfile = cms.FileInPath( "RecoLocalMuon/RPCRecHit/data/RPCMaskVec.dat" ),
    recAlgo = cms.string( "RPCRecHitStandardAlgo" ),
    deadSource = cms.string( "File" ),
    maskSource = cms.string( "File" )
)
process.hltL2OfflineMuonSeeds = cms.EDProducer( "MuonSeedGenerator",
    SMB_21 = cms.vdouble( 1.043, -0.124, 0.0, 0.183, 0.0, 0.0 ),
    SMB_20 = cms.vdouble( 1.011, -0.052, 0.0, 0.188, 0.0, 0.0 ),
    SMB_22 = cms.vdouble( 1.474, -0.758, 0.0, 0.185, 0.0, 0.0 ),
    OL_2213 = cms.vdouble( 0.117, 0.0, 0.0, 0.044, 0.0, 0.0 ),
    SME_11 = cms.vdouble( 3.295, -1.527, 0.112, 0.378, 0.02, 0.0 ),
    SME_13 = cms.vdouble( -1.286, 1.711, 0.0, 0.356, 0.0, 0.0 ),
    SME_12 = cms.vdouble( 0.102, 0.599, 0.0, 0.38, 0.0, 0.0 ),
    DT_34_2_scale = cms.vdouble( -11.901897, 0.0 ),
    OL_1213_0_scale = cms.vdouble( -4.488158, 0.0 ),
    OL_1222_0_scale = cms.vdouble( -5.810449, 0.0 ),
    DT_13 = cms.vdouble( 0.315, 0.068, -0.127, 0.051, -0.002, 0.0 ),
    DT_12 = cms.vdouble( 0.183, 0.054, -0.087, 0.028, 0.002, 0.0 ),
    DT_14 = cms.vdouble( 0.359, 0.052, -0.107, 0.072, -0.004, 0.0 ),
    CSC_13_3_scale = cms.vdouble( -1.701268, 0.0 ),
    CSC_23 = cms.vdouble( -0.081, 0.113, -0.029, 0.015, 0.008, 0.0 ),
    CSC_24 = cms.vdouble( 0.004, 0.021, -0.002, 0.053, 0.0, 0.0 ),
    OL_2222 = cms.vdouble( 0.107, 0.0, 0.0, 0.04, 0.0, 0.0 ),
    DT_14_2_scale = cms.vdouble( -4.808546, 0.0 ),
    SMB_10 = cms.vdouble( 1.387, -0.038, 0.0, 0.19, 0.0, 0.0 ),
    SMB_11 = cms.vdouble( 1.247, 0.72, -0.802, 0.229, -0.075, 0.0 ),
    SMB_12 = cms.vdouble( 2.128, -0.956, 0.0, 0.199, 0.0, 0.0 ),
    SME_21 = cms.vdouble( -0.529, 1.194, -0.358, 0.472, 0.086, 0.0 ),
    SME_22 = cms.vdouble( -1.207, 1.491, -0.251, 0.189, 0.243, 0.0 ),
    DT_13_2_scale = cms.vdouble( -4.257687, 0.0 ),
    CSC_34 = cms.vdouble( 0.062, -0.067, 0.019, 0.021, 0.003, 0.0 ),
    SME_22_0_scale = cms.vdouble( -3.457901, 0.0 ),
    DT_24_1_scale = cms.vdouble( -7.490909, 0.0 ),
    OL_1232_0_scale = cms.vdouble( -5.964634, 0.0 ),
    SMB_32 = cms.vdouble( 0.67, -0.327, 0.0, 0.22, 0.0, 0.0 ),
    SME_13_0_scale = cms.vdouble( 0.104905, 0.0 ),
    SMB_22_0_scale = cms.vdouble( 1.346681, 0.0 ),
    CSC_12_1_scale = cms.vdouble( -6.434242, 0.0 ),
    DT_34 = cms.vdouble( 0.044, 0.004, -0.013, 0.029, 0.003, 0.0 ),
    SME_32 = cms.vdouble( -0.901, 1.333, -0.47, 0.41, 0.073, 0.0 ),
    SME_31 = cms.vdouble( -1.594, 1.482, -0.317, 0.487, 0.097, 0.0 ),
    SMB_32_0_scale = cms.vdouble( -3.054156, 0.0 ),
    crackEtas = cms.vdouble( 0.2, 1.6, 1.7 ),
    SME_11_0_scale = cms.vdouble( 1.325085, 0.0 ),
    SMB_20_0_scale = cms.vdouble( 1.486168, 0.0 ),
    DT_13_1_scale = cms.vdouble( -4.520923, 0.0 ),
    CSC_24_1_scale = cms.vdouble( -6.055701, 0.0 ),
    CSC_01_1_scale = cms.vdouble( -1.915329, 0.0 ),
    DT_23 = cms.vdouble( 0.13, 0.023, -0.057, 0.028, 0.004, 0.0 ),
    DT_24 = cms.vdouble( 0.176, 0.014, -0.051, 0.051, 0.003, 0.0 ),
    SMB_12_0_scale = cms.vdouble( 2.283221, 0.0 ),
    deltaPhiSearchWindow = cms.double( 0.25 ),
    SMB_30_0_scale = cms.vdouble( -3.629838, 0.0 ),
    SME_42 = cms.vdouble( -0.003, 0.005, 0.005, 0.608, 0.076, 0.0 ),
    SME_41 = cms.vdouble( -0.003, 0.005, 0.005, 0.608, 0.076, 0.0 ),
    deltaEtaSearchWindow = cms.double( 0.2 ),
    CSC_12_2_scale = cms.vdouble( -1.63622, 0.0 ),
    DT_34_1_scale = cms.vdouble( -13.783765, 0.0 ),
    CSC_34_1_scale = cms.vdouble( -11.520507, 0.0 ),
    OL_2213_0_scale = cms.vdouble( -7.239789, 0.0 ),
    CSC_13_2_scale = cms.vdouble( -6.077936, 0.0 ),
    CSC_12_3_scale = cms.vdouble( -1.63622, 0.0 ),
    deltaEtaCrackSearchWindow = cms.double( 0.25 ),
    SME_21_0_scale = cms.vdouble( -0.040862, 0.0 ),
    OL_1232 = cms.vdouble( 0.184, 0.0, 0.0, 0.066, 0.0, 0.0 ),
    DTRecSegmentLabel = cms.InputTag( "hltDt4DSegments" ),
    SMB_10_0_scale = cms.vdouble( 2.448566, 0.0 ),
    EnableDTMeasurement = cms.bool( True ),
    DT_24_2_scale = cms.vdouble( -6.63094, 0.0 ),
    CSC_23_2_scale = cms.vdouble( -6.079917, 0.0 ),
    scaleDT = cms.bool( True ),
    DT_12_2_scale = cms.vdouble( -3.518165, 0.0 ),
    OL_1222 = cms.vdouble( 0.848, -0.591, 0.0, 0.062, 0.0, 0.0 ),
    CSC_23_1_scale = cms.vdouble( -19.084285, 0.0 ),
    OL_1213 = cms.vdouble( 0.96, -0.737, 0.0, 0.052, 0.0, 0.0 ),
    CSC_02 = cms.vdouble( 0.612, -0.207, 0.0, 0.067, -0.001, 0.0 ),
    CSC_03 = cms.vdouble( 0.787, -0.338, 0.029, 0.101, -0.008, 0.0 ),
    CSC_01 = cms.vdouble( 0.166, 0.0, 0.0, 0.031, 0.0, 0.0 ),
    DT_23_1_scale = cms.vdouble( -5.320346, 0.0 ),
    SMB_30 = cms.vdouble( 0.505, -0.022, 0.0, 0.215, 0.0, 0.0 ),
    SMB_31 = cms.vdouble( 0.549, -0.145, 0.0, 0.207, 0.0, 0.0 ),
    crackWindow = cms.double( 0.04 ),
    CSC_14_3_scale = cms.vdouble( -1.969563, 0.0 ),
    SMB_31_0_scale = cms.vdouble( -3.323768, 0.0 ),
    DT_12_1_scale = cms.vdouble( -3.692398, 0.0 ),
    SMB_21_0_scale = cms.vdouble( 1.58384, 0.0 ),
    DT_23_2_scale = cms.vdouble( -5.117625, 0.0 ),
    SME_12_0_scale = cms.vdouble( 2.279181, 0.0 ),
    DT_14_1_scale = cms.vdouble( -5.644816, 0.0 ),
    beamSpotTag = cms.InputTag( "hltOnlineBeamSpot" ),
    SMB_11_0_scale = cms.vdouble( 2.56363, 0.0 ),
    CSCRecSegmentLabel = cms.InputTag( "hltCscSegments" ),
    CSC_13 = cms.vdouble( 0.901, -1.302, 0.533, 0.045, 0.005, 0.0 ),
    CSC_14 = cms.vdouble( 0.606, -0.181, -0.002, 0.111, -0.003, 0.0 ),
    OL_2222_0_scale = cms.vdouble( -7.667231, 0.0 ),
    EnableCSCMeasurement = cms.bool( True ),
    CSC_12 = cms.vdouble( -0.161, 0.254, -0.047, 0.042, -0.007, 0.0 )
)
process.hltL2MuonSeeds = cms.EDProducer( "L2MuonSeedGenerator",
    ServiceParameters = cms.PSet( 
      Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny' ),
      RPCLayers = cms.bool( True ),
      UseMuonNavigation = cms.untracked.bool( True )
    ),
    InputObjects = cms.InputTag( "hltL1extraParticles" ),
    L1MaxEta = cms.double( 2.5 ),
    OfflineSeedLabel = cms.untracked.InputTag( "hltL2OfflineMuonSeeds" ),
    L1MinPt = cms.double( 0.0 ),
    L1MinQuality = cms.uint32( 1 ),
    GMTReadoutCollection = cms.InputTag( "hltGtDigis" ),
    UseUnassociatedL1 = cms.bool( False ),
    UseOfflineSeed = cms.untracked.bool( True ),
    Propagator = cms.string( "SteppingHelixPropagatorAny" )
)
process.hltL2Muons = cms.EDProducer( "L2MuonProducer",
    ServiceParameters = cms.PSet( 
      Propagators = cms.untracked.vstring( 'hltESPFastSteppingHelixPropagatorAny',
        'hltESPFastSteppingHelixPropagatorOpposite' ),
      RPCLayers = cms.bool( True ),
      UseMuonNavigation = cms.untracked.bool( True )
    ),
    InputObjects = cms.InputTag( "hltL2MuonSeeds" ),
    SeedTransformerParameters = cms.PSet( 
      Fitter = cms.string( "hltESPKFFittingSmootherForL2Muon" ),
      MuonRecHitBuilder = cms.string( "hltESPMuonTransientTrackingRecHitBuilder" ),
      NMinRecHits = cms.uint32( 2 ),
      UseSubRecHits = cms.bool( False ),
      Propagator = cms.string( "hltESPFastSteppingHelixPropagatorAny" ),
      RescaleError = cms.double( 100.0 )
    ),
    L2TrajBuilderParameters = cms.PSet( 
      DoRefit = cms.bool( False ),
      SeedPropagator = cms.string( "hltESPFastSteppingHelixPropagatorAny" ),
      FilterParameters = cms.PSet( 
        NumberOfSigma = cms.double( 3.0 ),
        FitDirection = cms.string( "insideOut" ),
        DTRecSegmentLabel = cms.InputTag( "hltDt4DSegments" ),
        MaxChi2 = cms.double( 1000.0 ),
        MuonTrajectoryUpdatorParameters = cms.PSet( 
          MaxChi2 = cms.double( 25.0 ),
          RescaleErrorFactor = cms.double( 100.0 ),
          Granularity = cms.int32( 0 ),
          ExcludeRPCFromFit = cms.bool( False ),
          UseInvalidHits = cms.bool( True ),
          RescaleError = cms.bool( False )
        ),
        EnableRPCMeasurement = cms.bool( True ),
        CSCRecSegmentLabel = cms.InputTag( "hltCscSegments" ),
        EnableDTMeasurement = cms.bool( True ),
        RPCRecSegmentLabel = cms.InputTag( "hltRpcRecHits" ),
        Propagator = cms.string( "hltESPFastSteppingHelixPropagatorAny" ),
        EnableCSCMeasurement = cms.bool( True )
      ),
      NavigationType = cms.string( "Standard" ),
      SeedTransformerParameters = cms.PSet( 
        Fitter = cms.string( "hltESPKFFittingSmootherForL2Muon" ),
        MuonRecHitBuilder = cms.string( "hltESPMuonTransientTrackingRecHitBuilder" ),
        NMinRecHits = cms.uint32( 2 ),
        UseSubRecHits = cms.bool( False ),
        Propagator = cms.string( "hltESPFastSteppingHelixPropagatorAny" ),
        RescaleError = cms.double( 100.0 )
      ),
      DoBackwardFilter = cms.bool( True ),
      SeedPosition = cms.string( "in" ),
      BWFilterParameters = cms.PSet( 
        NumberOfSigma = cms.double( 3.0 ),
        CSCRecSegmentLabel = cms.InputTag( "hltCscSegments" ),
        FitDirection = cms.string( "outsideIn" ),
        DTRecSegmentLabel = cms.InputTag( "hltDt4DSegments" ),
        MaxChi2 = cms.double( 100.0 ),
        MuonTrajectoryUpdatorParameters = cms.PSet( 
          MaxChi2 = cms.double( 25.0 ),
          RescaleErrorFactor = cms.double( 100.0 ),
          Granularity = cms.int32( 0 ),
          ExcludeRPCFromFit = cms.bool( False ),
          UseInvalidHits = cms.bool( True ),
          RescaleError = cms.bool( False )
        ),
        EnableRPCMeasurement = cms.bool( True ),
        BWSeedType = cms.string( "fromGenerator" ),
        EnableDTMeasurement = cms.bool( True ),
        RPCRecSegmentLabel = cms.InputTag( "hltRpcRecHits" ),
        Propagator = cms.string( "hltESPFastSteppingHelixPropagatorAny" ),
        EnableCSCMeasurement = cms.bool( True )
      ),
      DoSeedRefit = cms.bool( False )
    ),
    DoSeedRefit = cms.bool( False ),
    TrackLoaderParameters = cms.PSet( 
      Smoother = cms.string( "hltESPKFTrajectorySmootherForMuonTrackLoader" ),
      DoSmoothing = cms.bool( False ),
      beamSpot = cms.InputTag( "hltOnlineBeamSpot" ),
      MuonUpdatorAtVertexParameters = cms.PSet( 
        MaxChi2 = cms.double( 1000000.0 ),
        BeamSpotPosition = cms.vdouble( 0.0, 0.0, 0.0 ),
        Propagator = cms.string( "hltESPFastSteppingHelixPropagatorOpposite" ),
        BeamSpotPositionErrors = cms.vdouble( 0.1, 0.1, 5.3 )
      ),
      VertexConstraint = cms.bool( True )
    ),
    MuonTrajectoryBuilder = cms.string( "Exhaustive" )
)
process.hltL2MuonCandidates = cms.EDProducer( "L2MuonCandidateProducer",
    InputObjects = cms.InputTag( 'hltL2Muons','UpdatedAtVtx' )
)
process.hltL2fL1sMu16orMu25L1f0L2Filtered16Q = cms.EDFilter( "HLTMuonL2PreFilter",
    saveTags = cms.bool( True ),
    MaxDr = cms.double( 9999.0 ),
    CutOnChambers = cms.bool( False ),
    PreviousCandTag = cms.InputTag( "hltL1fL1sMu16orMu25L1Filtered0" ),
    MinPt = cms.double( 16.0 ),
    MinN = cms.int32( 1 ),
    SeedMapTag = cms.InputTag( "hltL2Muons" ),
    MaxEta = cms.double( 2.5 ),
    MinNhits = cms.vint32( 0, 1, 0, 1 ),
    MinDxySig = cms.double( -1.0 ),
    MinNchambers = cms.vint32( 0 ),
    AbsEtaBins = cms.vdouble( 0.9, 1.5, 2.1, 5.0 ),
    MaxDz = cms.double( 9999.0 ),
    CandTag = cms.InputTag( "hltL2MuonCandidates" ),
    BeamSpotTag = cms.InputTag( "hltOnlineBeamSpot" ),
    MinDr = cms.double( -1.0 ),
    NSigmaPt = cms.double( 0.0 ),
    MinNstations = cms.vint32( 0, 2, 0, 2 )
)
process.hltL3TrajSeedOIState = cms.EDProducer( "TSGFromL2Muon",
    TkSeedGenerator = cms.PSet( 
      propagatorCompatibleName = cms.string( "hltESPSteppingHelixPropagatorOpposite" ),
      option = cms.uint32( 3 ),
      maxChi2 = cms.double( 40.0 ),
      errorMatrixPset = cms.PSet( 
        atIP = cms.bool( True ),
        action = cms.string( "use" ),
        errorMatrixValuesPSet = cms.PSet( 
          pf3_V12 = cms.PSet( 
            action = cms.string( "scale" ),
            values = cms.vdouble( 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0 )
          ),
          pf3_V13 = cms.PSet( 
            action = cms.string( "scale" ),
            values = cms.vdouble( 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0 )
          ),
          pf3_V11 = cms.PSet( 
            action = cms.string( "scale" ),
            values = cms.vdouble( 3.0, 3.0, 3.0, 5.0, 4.0, 5.0, 10.0, 7.0, 10.0, 10.0, 10.0, 10.0 )
          ),
          pf3_V14 = cms.PSet( 
            action = cms.string( "scale" ),
            values = cms.vdouble( 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0 )
          ),
          pf3_V15 = cms.PSet( 
            action = cms.string( "scale" ),
            values = cms.vdouble( 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0 )
          ),
          yAxis = cms.vdouble( 0.0, 1.0, 1.4, 10.0 ),
          pf3_V33 = cms.PSet( 
            action = cms.string( "scale" ),
            values = cms.vdouble( 3.0, 3.0, 3.0, 5.0, 4.0, 5.0, 10.0, 7.0, 10.0, 10.0, 10.0, 10.0 )
          ),
          zAxis = cms.vdouble( -3.14159, 3.14159 ),
          pf3_V44 = cms.PSet( 
            action = cms.string( "scale" ),
            values = cms.vdouble( 3.0, 3.0, 3.0, 5.0, 4.0, 5.0, 10.0, 7.0, 10.0, 10.0, 10.0, 10.0 )
          ),
          xAxis = cms.vdouble( 0.0, 13.0, 30.0, 70.0, 1000.0 ),
          pf3_V22 = cms.PSet( 
            action = cms.string( "scale" ),
            values = cms.vdouble( 3.0, 3.0, 3.0, 5.0, 4.0, 5.0, 10.0, 7.0, 10.0, 10.0, 10.0, 10.0 )
          ),
          pf3_V23 = cms.PSet( 
            action = cms.string( "scale" ),
            values = cms.vdouble( 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0 )
          ),
          pf3_V45 = cms.PSet( 
            action = cms.string( "scale" ),
            values = cms.vdouble( 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0 )
          ),
          pf3_V55 = cms.PSet( 
            action = cms.string( "scale" ),
            values = cms.vdouble( 3.0, 3.0, 3.0, 5.0, 4.0, 5.0, 10.0, 7.0, 10.0, 10.0, 10.0, 10.0 )
          ),
          pf3_V34 = cms.PSet( 
            action = cms.string( "scale" ),
            values = cms.vdouble( 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0 )
          ),
          pf3_V35 = cms.PSet( 
            action = cms.string( "scale" ),
            values = cms.vdouble( 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0 )
          ),
          pf3_V25 = cms.PSet( 
            action = cms.string( "scale" ),
            values = cms.vdouble( 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0 )
          ),
          pf3_V24 = cms.PSet( 
            action = cms.string( "scale" ),
            values = cms.vdouble( 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0 )
          )
        )
      ),
      propagatorName = cms.string( "hltESPSteppingHelixPropagatorAlong" ),
      manySeeds = cms.bool( False ),
      copyMuonRecHit = cms.bool( False ),
      ComponentName = cms.string( "TSGForRoadSearch" ),
      MeasurementTrackerEvent = cms.InputTag( "hltSiStripClusters" )
    ),
    ServiceParameters = cms.PSet( 
      Propagators = cms.untracked.vstring( 'hltESPSteppingHelixPropagatorOpposite',
        'hltESPSteppingHelixPropagatorAlong' ),
      RPCLayers = cms.bool( True ),
      UseMuonNavigation = cms.untracked.bool( True )
    ),
    MuonCollectionLabel = cms.InputTag( 'hltL2Muons','UpdatedAtVtx' ),
    MuonTrackingRegionBuilder = cms.PSet(  ),
    PCut = cms.double( 2.5 ),
    TrackerSeedCleaner = cms.PSet(  ),
    PtCut = cms.double( 1.0 )
)
process.hltL3TrackCandidateFromL2OIState = cms.EDProducer( "CkfTrajectoryMaker",
    src = cms.InputTag( "hltL3TrajSeedOIState" ),
    reverseTrajectories = cms.bool( True ),
    TransientInitialStateEstimatorParameters = cms.PSet( 
      propagatorAlongTISE = cms.string( "PropagatorWithMaterial" ),
      numberMeasurementsForFit = cms.int32( 4 ),
      propagatorOppositeTISE = cms.string( "PropagatorWithMaterialOpposite" )
    ),
    TrajectoryCleaner = cms.string( "hltESPTrajectoryCleanerBySharedHits" ),
    MeasurementTrackerEvent = cms.InputTag( "hltSiStripClusters" ),
    cleanTrajectoryAfterInOut = cms.bool( False ),
    useHitsSplitting = cms.bool( False ),
    RedundantSeedCleaner = cms.string( "CachingSeedCleanerBySharedInput" ),
    doSeedingRegionRebuilding = cms.bool( False ),
    trackCandidateAlso = cms.bool( True ),
    TrajectoryBuilderPSet = cms.PSet(  refToPSet_ = cms.string( "HLTPSetMuonCkfTrajectoryBuilderSeedHit" ) ),
    NavigationSchool = cms.string( "SimpleNavigationSchool" ),
    TrajectoryBuilder = cms.string( "hltESPMuonCkfTrajectoryBuilderSeedHit" ),
    maxNSeeds = cms.uint32( 100000 )
)
process.hltL3TkTracksFromL2OIState = cms.EDProducer( "TrackProducer",
    src = cms.InputTag( "hltL3TrackCandidateFromL2OIState" ),
    SimpleMagneticField = cms.string( "" ),
    clusterRemovalInfo = cms.InputTag( "" ),
    beamSpot = cms.InputTag( "hltOnlineBeamSpot" ),
    MeasurementTrackerEvent = cms.InputTag( "hltSiStripClusters" ),
    Fitter = cms.string( "hltESPKFFittingSmoother" ),
    useHitsSplitting = cms.bool( False ),
    MeasurementTracker = cms.string( "" ),
    AlgorithmName = cms.string( "hltIterX" ),
    alias = cms.untracked.string( "" ),
    NavigationSchool = cms.string( "" ),
    TrajectoryInEvent = cms.bool( True ),
    TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
    GeometricInnerState = cms.bool( True ),
    useSimpleMF = cms.bool( False ),
    Propagator = cms.string( "PropagatorWithMaterial" )
)
process.hltL3MuonsOIState = cms.EDProducer( "L3MuonProducer",
    ServiceParameters = cms.PSet( 
      Propagators = cms.untracked.vstring( 'hltESPSmartPropagatorAny',
        'SteppingHelixPropagatorAny',
        'hltESPSmartPropagator',
        'hltESPSteppingHelixPropagatorOpposite' ),
      RPCLayers = cms.bool( True ),
      UseMuonNavigation = cms.untracked.bool( True )
    ),
    L3TrajBuilderParameters = cms.PSet( 
      ScaleTECyFactor = cms.double( -1.0 ),
      GlbRefitterParameters = cms.PSet( 
        TrackerSkipSection = cms.int32( -1 ),
        DoPredictionsOnly = cms.bool( False ),
        PropDirForCosmics = cms.bool( False ),
        HitThreshold = cms.int32( 1 ),
        MuonHitsOption = cms.int32( 1 ),
        Chi2CutRPC = cms.double( 1.0 ),
        Fitter = cms.string( "hltESPL3MuKFTrajectoryFitter" ),
        DTRecSegmentLabel = cms.InputTag( "hltDt4DSegments" ),
        TrackerRecHitBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
        MuonRecHitBuilder = cms.string( "hltESPMuonTransientTrackingRecHitBuilder" ),
        RefitDirection = cms.string( "insideOut" ),
        CSCRecSegmentLabel = cms.InputTag( "hltCscSegments" ),
        Chi2CutCSC = cms.double( 150.0 ),
        Chi2CutDT = cms.double( 10.0 ),
        RefitRPCHits = cms.bool( True ),
        SkipStation = cms.int32( -1 ),
        Propagator = cms.string( "hltESPSmartPropagatorAny" ),
        TrackerSkipSystem = cms.int32( -1 ),
        DYTthrs = cms.vint32( 30, 15 )
      ),
      ScaleTECxFactor = cms.double( -1.0 ),
      TrackerRecHitBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
      MuonRecHitBuilder = cms.string( "hltESPMuonTransientTrackingRecHitBuilder" ),
      MuonTrackingRegionBuilder = cms.PSet( 
        EtaR_UpperLimit_Par1 = cms.double( 0.25 ),
        EtaR_UpperLimit_Par2 = cms.double( 0.15 ),
        OnDemand = cms.double( -1.0 ),
        Rescale_Dz = cms.double( 3.0 ),
        vertexCollection = cms.InputTag( "pixelVertices" ),
        Rescale_phi = cms.double( 3.0 ),
        Eta_fixed = cms.double( 0.2 ),
        DeltaZ_Region = cms.double( 15.9 ),
        MeasurementTrackerName = cms.string( "hltESPMeasurementTracker" ),
        PhiR_UpperLimit_Par2 = cms.double( 0.2 ),
        Eta_min = cms.double( 0.05 ),
        Phi_fixed = cms.double( 0.2 ),
        DeltaR = cms.double( 0.2 ),
        EscapePt = cms.double( 1.5 ),
        UseFixedRegion = cms.bool( False ),
        PhiR_UpperLimit_Par1 = cms.double( 0.6 ),
        Rescale_eta = cms.double( 3.0 ),
        Phi_min = cms.double( 0.05 ),
        UseVertex = cms.bool( False ),
        beamSpot = cms.InputTag( "hltOnlineBeamSpot" )
      ),
      RefitRPCHits = cms.bool( True ),
      PCut = cms.double( 2.5 ),
      TrackTransformer = cms.PSet( 
        DoPredictionsOnly = cms.bool( False ),
        Fitter = cms.string( "hltESPL3MuKFTrajectoryFitter" ),
        TrackerRecHitBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
        Smoother = cms.string( "hltESPKFTrajectorySmootherForMuonTrackLoader" ),
        MuonRecHitBuilder = cms.string( "hltESPMuonTransientTrackingRecHitBuilder" ),
        RefitDirection = cms.string( "insideOut" ),
        RefitRPCHits = cms.bool( True ),
        Propagator = cms.string( "hltESPSmartPropagatorAny" )
      ),
      GlobalMuonTrackMatcher = cms.PSet( 
        Pt_threshold1 = cms.double( 0.0 ),
        DeltaDCut_3 = cms.double( 15.0 ),
        MinP = cms.double( 2.5 ),
        MinPt = cms.double( 1.0 ),
        Chi2Cut_1 = cms.double( 50.0 ),
        Pt_threshold2 = cms.double( 9.99999999E8 ),
        LocChi2Cut = cms.double( 0.001 ),
        Eta_threshold = cms.double( 1.2 ),
        Quality_3 = cms.double( 7.0 ),
        Quality_2 = cms.double( 15.0 ),
        Chi2Cut_2 = cms.double( 50.0 ),
        Chi2Cut_3 = cms.double( 200.0 ),
        DeltaDCut_1 = cms.double( 40.0 ),
        DeltaRCut_2 = cms.double( 0.2 ),
        DeltaRCut_3 = cms.double( 1.0 ),
        DeltaDCut_2 = cms.double( 10.0 ),
        DeltaRCut_1 = cms.double( 0.1 ),
        Propagator = cms.string( "hltESPSmartPropagator" ),
        Quality_1 = cms.double( 20.0 )
      ),
      PtCut = cms.double( 1.0 ),
      TrackerPropagator = cms.string( "SteppingHelixPropagatorAny" ),
      tkTrajLabel = cms.InputTag( "hltL3TkTracksFromL2OIState" ),
      tkTrajBeamSpot = cms.InputTag( "hltOnlineBeamSpot" ),
      tkTrajMaxChi2 = cms.double( 9999.0 ),
      tkTrajMaxDXYBeamSpot = cms.double( 0.2 ),
      tkTrajVertex = cms.InputTag( "pixelVertices" ),
      tkTrajUseVertex = cms.bool( False )
    ),
    TrackLoaderParameters = cms.PSet( 
      PutTkTrackIntoEvent = cms.untracked.bool( False ),
      beamSpot = cms.InputTag( "hltOnlineBeamSpot" ),
      SmoothTkTrack = cms.untracked.bool( False ),
      MuonSeededTracksInstance = cms.untracked.string( "L2Seeded" ),
      Smoother = cms.string( "hltESPKFTrajectorySmootherForMuonTrackLoader" ),
      MuonUpdatorAtVertexParameters = cms.PSet( 
        MaxChi2 = cms.double( 1000000.0 ),
        Propagator = cms.string( "hltESPSteppingHelixPropagatorOpposite" ),
        BeamSpotPositionErrors = cms.vdouble( 0.1, 0.1, 5.3 )
      ),
      VertexConstraint = cms.bool( False ),
      DoSmoothing = cms.bool( True )
    ),
    MuonCollectionLabel = cms.InputTag( 'hltL2Muons','UpdatedAtVtx' )
)
process.hltL3TrajSeedOIHit = cms.EDProducer( "TSGFromL2Muon",
    TkSeedGenerator = cms.PSet( 
      PSetNames = cms.vstring( 'skipTSG',
        'iterativeTSG' ),
      L3TkCollectionA = cms.InputTag( "hltL3MuonsOIState" ),
      iterativeTSG = cms.PSet( 
        ErrorRescaling = cms.double( 3.0 ),
        beamSpot = cms.InputTag( "unused" ),
        MaxChi2 = cms.double( 40.0 ),
        errorMatrixPset = cms.PSet( 
          atIP = cms.bool( True ),
          action = cms.string( "use" ),
          errorMatrixValuesPSet = cms.PSet( 
            pf3_V12 = cms.PSet( 
              action = cms.string( "scale" ),
              values = cms.vdouble( 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0 )
            ),
            pf3_V13 = cms.PSet( 
              action = cms.string( "scale" ),
              values = cms.vdouble( 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0 )
            ),
            pf3_V11 = cms.PSet( 
              action = cms.string( "scale" ),
              values = cms.vdouble( 3.0, 3.0, 3.0, 5.0, 4.0, 5.0, 10.0, 7.0, 10.0, 10.0, 10.0, 10.0 )
            ),
            pf3_V14 = cms.PSet( 
              action = cms.string( "scale" ),
              values = cms.vdouble( 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0 )
            ),
            pf3_V15 = cms.PSet( 
              action = cms.string( "scale" ),
              values = cms.vdouble( 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0 )
            ),
            yAxis = cms.vdouble( 0.0, 1.0, 1.4, 10.0 ),
            pf3_V33 = cms.PSet( 
              action = cms.string( "scale" ),
              values = cms.vdouble( 3.0, 3.0, 3.0, 5.0, 4.0, 5.0, 10.0, 7.0, 10.0, 10.0, 10.0, 10.0 )
            ),
            zAxis = cms.vdouble( -3.14159, 3.14159 ),
            pf3_V44 = cms.PSet( 
              action = cms.string( "scale" ),
              values = cms.vdouble( 3.0, 3.0, 3.0, 5.0, 4.0, 5.0, 10.0, 7.0, 10.0, 10.0, 10.0, 10.0 )
            ),
            xAxis = cms.vdouble( 0.0, 13.0, 30.0, 70.0, 1000.0 ),
            pf3_V22 = cms.PSet( 
              action = cms.string( "scale" ),
              values = cms.vdouble( 3.0, 3.0, 3.0, 5.0, 4.0, 5.0, 10.0, 7.0, 10.0, 10.0, 10.0, 10.0 )
            ),
            pf3_V23 = cms.PSet( 
              action = cms.string( "scale" ),
              values = cms.vdouble( 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0 )
            ),
            pf3_V45 = cms.PSet( 
              action = cms.string( "scale" ),
              values = cms.vdouble( 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0 )
            ),
            pf3_V55 = cms.PSet( 
              action = cms.string( "scale" ),
              values = cms.vdouble( 3.0, 3.0, 3.0, 5.0, 4.0, 5.0, 10.0, 7.0, 10.0, 10.0, 10.0, 10.0 )
            ),
            pf3_V34 = cms.PSet( 
              action = cms.string( "scale" ),
              values = cms.vdouble( 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0 )
            ),
            pf3_V35 = cms.PSet( 
              action = cms.string( "scale" ),
              values = cms.vdouble( 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0 )
            ),
            pf3_V25 = cms.PSet( 
              action = cms.string( "scale" ),
              values = cms.vdouble( 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0 )
            ),
            pf3_V24 = cms.PSet( 
              action = cms.string( "scale" ),
              values = cms.vdouble( 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0 )
            )
          )
        ),
        UpdateState = cms.bool( True ),
        MeasurementTrackerName = cms.string( "hltESPMeasurementTracker" ),
        SelectState = cms.bool( False ),
        SigmaZ = cms.double( 25.0 ),
        ResetMethod = cms.string( "matrix" ),
        ComponentName = cms.string( "TSGFromPropagation" ),
        UseVertexState = cms.bool( True ),
        Propagator = cms.string( "hltESPSmartPropagatorAnyOpposite" ),
        MeasurementTrackerEvent = cms.InputTag( "hltSiStripClusters" )
      ),
      skipTSG = cms.PSet(  ),
      ComponentName = cms.string( "DualByL2TSG" )
    ),
    ServiceParameters = cms.PSet( 
      Propagators = cms.untracked.vstring( 'PropagatorWithMaterial',
        'hltESPSmartPropagatorAnyOpposite' ),
      RPCLayers = cms.bool( True ),
      UseMuonNavigation = cms.untracked.bool( True )
    ),
    MuonCollectionLabel = cms.InputTag( 'hltL2Muons','UpdatedAtVtx' ),
    MuonTrackingRegionBuilder = cms.PSet(  ),
    PCut = cms.double( 2.5 ),
    TrackerSeedCleaner = cms.PSet( 
      cleanerFromSharedHits = cms.bool( True ),
      ptCleaner = cms.bool( True ),
      TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
      beamSpot = cms.InputTag( "hltOnlineBeamSpot" ),
      directionCleaner = cms.bool( True )
    ),
    PtCut = cms.double( 1.0 )
)
process.hltL3TrackCandidateFromL2OIHit = cms.EDProducer( "CkfTrajectoryMaker",
    src = cms.InputTag( "hltL3TrajSeedOIHit" ),
    reverseTrajectories = cms.bool( True ),
    TransientInitialStateEstimatorParameters = cms.PSet( 
      propagatorAlongTISE = cms.string( "PropagatorWithMaterial" ),
      numberMeasurementsForFit = cms.int32( 4 ),
      propagatorOppositeTISE = cms.string( "PropagatorWithMaterialOpposite" )
    ),
    TrajectoryCleaner = cms.string( "hltESPTrajectoryCleanerBySharedHits" ),
    MeasurementTrackerEvent = cms.InputTag( "hltSiStripClusters" ),
    cleanTrajectoryAfterInOut = cms.bool( False ),
    useHitsSplitting = cms.bool( False ),
    RedundantSeedCleaner = cms.string( "CachingSeedCleanerBySharedInput" ),
    doSeedingRegionRebuilding = cms.bool( False ),
    trackCandidateAlso = cms.bool( True ),
    TrajectoryBuilderPSet = cms.PSet(  refToPSet_ = cms.string( "HLTPSetMuonCkfTrajectoryBuilder" ) ),
    NavigationSchool = cms.string( "SimpleNavigationSchool" ),
    TrajectoryBuilder = cms.string( "hltESPMuonCkfTrajectoryBuilder" ),
    maxNSeeds = cms.uint32( 100000 )
)
process.hltL3TkTracksFromL2OIHit = cms.EDProducer( "TrackProducer",
    src = cms.InputTag( "hltL3TrackCandidateFromL2OIHit" ),
    SimpleMagneticField = cms.string( "" ),
    clusterRemovalInfo = cms.InputTag( "" ),
    beamSpot = cms.InputTag( "hltOnlineBeamSpot" ),
    MeasurementTrackerEvent = cms.InputTag( "hltSiStripClusters" ),
    Fitter = cms.string( "hltESPKFFittingSmoother" ),
    useHitsSplitting = cms.bool( False ),
    MeasurementTracker = cms.string( "" ),
    AlgorithmName = cms.string( "hltIterX" ),
    alias = cms.untracked.string( "" ),
    NavigationSchool = cms.string( "" ),
    TrajectoryInEvent = cms.bool( True ),
    TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
    GeometricInnerState = cms.bool( True ),
    useSimpleMF = cms.bool( False ),
    Propagator = cms.string( "PropagatorWithMaterial" )
)
process.hltL3MuonsOIHit = cms.EDProducer( "L3MuonProducer",
    ServiceParameters = cms.PSet( 
      Propagators = cms.untracked.vstring( 'hltESPSmartPropagatorAny',
        'SteppingHelixPropagatorAny',
        'hltESPSmartPropagator',
        'hltESPSteppingHelixPropagatorOpposite' ),
      RPCLayers = cms.bool( True ),
      UseMuonNavigation = cms.untracked.bool( True )
    ),
    L3TrajBuilderParameters = cms.PSet( 
      ScaleTECyFactor = cms.double( -1.0 ),
      GlbRefitterParameters = cms.PSet( 
        TrackerSkipSection = cms.int32( -1 ),
        DoPredictionsOnly = cms.bool( False ),
        PropDirForCosmics = cms.bool( False ),
        HitThreshold = cms.int32( 1 ),
        MuonHitsOption = cms.int32( 1 ),
        Chi2CutRPC = cms.double( 1.0 ),
        Fitter = cms.string( "hltESPL3MuKFTrajectoryFitter" ),
        DTRecSegmentLabel = cms.InputTag( "hltDt4DSegments" ),
        TrackerRecHitBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
        MuonRecHitBuilder = cms.string( "hltESPMuonTransientTrackingRecHitBuilder" ),
        RefitDirection = cms.string( "insideOut" ),
        CSCRecSegmentLabel = cms.InputTag( "hltCscSegments" ),
        Chi2CutCSC = cms.double( 150.0 ),
        Chi2CutDT = cms.double( 10.0 ),
        RefitRPCHits = cms.bool( True ),
        SkipStation = cms.int32( -1 ),
        Propagator = cms.string( "hltESPSmartPropagatorAny" ),
        TrackerSkipSystem = cms.int32( -1 ),
        DYTthrs = cms.vint32( 30, 15 )
      ),
      ScaleTECxFactor = cms.double( -1.0 ),
      TrackerRecHitBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
      MuonRecHitBuilder = cms.string( "hltESPMuonTransientTrackingRecHitBuilder" ),
      MuonTrackingRegionBuilder = cms.PSet( 
        EtaR_UpperLimit_Par1 = cms.double( 0.25 ),
        EtaR_UpperLimit_Par2 = cms.double( 0.15 ),
        OnDemand = cms.double( -1.0 ),
        Rescale_Dz = cms.double( 3.0 ),
        vertexCollection = cms.InputTag( "pixelVertices" ),
        Rescale_phi = cms.double( 3.0 ),
        Eta_fixed = cms.double( 0.2 ),
        DeltaZ_Region = cms.double( 15.9 ),
        MeasurementTrackerName = cms.string( "hltESPMeasurementTracker" ),
        PhiR_UpperLimit_Par2 = cms.double( 0.2 ),
        Eta_min = cms.double( 0.05 ),
        Phi_fixed = cms.double( 0.2 ),
        DeltaR = cms.double( 0.2 ),
        EscapePt = cms.double( 1.5 ),
        UseFixedRegion = cms.bool( False ),
        PhiR_UpperLimit_Par1 = cms.double( 0.6 ),
        Rescale_eta = cms.double( 3.0 ),
        Phi_min = cms.double( 0.05 ),
        UseVertex = cms.bool( False ),
        beamSpot = cms.InputTag( "hltOnlineBeamSpot" )
      ),
      RefitRPCHits = cms.bool( True ),
      PCut = cms.double( 2.5 ),
      TrackTransformer = cms.PSet( 
        DoPredictionsOnly = cms.bool( False ),
        Fitter = cms.string( "hltESPL3MuKFTrajectoryFitter" ),
        TrackerRecHitBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
        Smoother = cms.string( "hltESPKFTrajectorySmootherForMuonTrackLoader" ),
        MuonRecHitBuilder = cms.string( "hltESPMuonTransientTrackingRecHitBuilder" ),
        RefitDirection = cms.string( "insideOut" ),
        RefitRPCHits = cms.bool( True ),
        Propagator = cms.string( "hltESPSmartPropagatorAny" )
      ),
      GlobalMuonTrackMatcher = cms.PSet( 
        Pt_threshold1 = cms.double( 0.0 ),
        DeltaDCut_3 = cms.double( 15.0 ),
        MinP = cms.double( 2.5 ),
        MinPt = cms.double( 1.0 ),
        Chi2Cut_1 = cms.double( 50.0 ),
        Pt_threshold2 = cms.double( 9.99999999E8 ),
        LocChi2Cut = cms.double( 0.001 ),
        Eta_threshold = cms.double( 1.2 ),
        Quality_3 = cms.double( 7.0 ),
        Quality_2 = cms.double( 15.0 ),
        Chi2Cut_2 = cms.double( 50.0 ),
        Chi2Cut_3 = cms.double( 200.0 ),
        DeltaDCut_1 = cms.double( 40.0 ),
        DeltaRCut_2 = cms.double( 0.2 ),
        DeltaRCut_3 = cms.double( 1.0 ),
        DeltaDCut_2 = cms.double( 10.0 ),
        DeltaRCut_1 = cms.double( 0.1 ),
        Propagator = cms.string( "hltESPSmartPropagator" ),
        Quality_1 = cms.double( 20.0 )
      ),
      PtCut = cms.double( 1.0 ),
      TrackerPropagator = cms.string( "SteppingHelixPropagatorAny" ),
      tkTrajLabel = cms.InputTag( "hltL3TkTracksFromL2OIHit" ),
      tkTrajBeamSpot = cms.InputTag( "hltOnlineBeamSpot" ),
      tkTrajMaxChi2 = cms.double( 9999.0 ),
      tkTrajMaxDXYBeamSpot = cms.double( 0.2 ),
      tkTrajVertex = cms.InputTag( "pixelVertices" ),
      tkTrajUseVertex = cms.bool( False )
    ),
    TrackLoaderParameters = cms.PSet( 
      PutTkTrackIntoEvent = cms.untracked.bool( False ),
      beamSpot = cms.InputTag( "hltOnlineBeamSpot" ),
      SmoothTkTrack = cms.untracked.bool( False ),
      MuonSeededTracksInstance = cms.untracked.string( "L2Seeded" ),
      Smoother = cms.string( "hltESPKFTrajectorySmootherForMuonTrackLoader" ),
      MuonUpdatorAtVertexParameters = cms.PSet( 
        MaxChi2 = cms.double( 1000000.0 ),
        Propagator = cms.string( "hltESPSteppingHelixPropagatorOpposite" ),
        BeamSpotPositionErrors = cms.vdouble( 0.1, 0.1, 5.3 )
      ),
      VertexConstraint = cms.bool( False ),
      DoSmoothing = cms.bool( True )
    ),
    MuonCollectionLabel = cms.InputTag( 'hltL2Muons','UpdatedAtVtx' )
)
process.hltL3TkFromL2OICombination = cms.EDProducer( "L3TrackCombiner",
    labels = cms.VInputTag( 'hltL3MuonsOIState','hltL3MuonsOIHit' )
)
process.hltPixelLayerPairs = cms.EDProducer( "SeedingLayersEDProducer",
    layerList = cms.vstring( 'BPix1+BPix2',
      'BPix1+BPix3',
      'BPix2+BPix3',
      'BPix1+FPix1_pos',
      'BPix1+FPix1_neg',
      'BPix1+FPix2_pos',
      'BPix1+FPix2_neg',
      'BPix2+FPix1_pos',
      'BPix2+FPix1_neg',
      'BPix2+FPix2_pos',
      'BPix2+FPix2_neg',
      'FPix1_pos+FPix2_pos',
      'FPix1_neg+FPix2_neg' ),
    MTOB = cms.PSet(  ),
    TEC = cms.PSet(  ),
    MTID = cms.PSet(  ),
    FPix = cms.PSet( 
      useErrorsFromParam = cms.bool( True ),
      hitErrorRPhi = cms.double( 0.0051 ),
      TTRHBuilder = cms.string( "hltESPTTRHBuilderPixelOnly" ),
      HitProducer = cms.string( "hltSiPixelRecHits" ),
      hitErrorRZ = cms.double( 0.0036 )
    ),
    MTEC = cms.PSet(  ),
    MTIB = cms.PSet(  ),
    TID = cms.PSet(  ),
    TOB = cms.PSet(  ),
    BPix = cms.PSet( 
      useErrorsFromParam = cms.bool( True ),
      hitErrorRPhi = cms.double( 0.0027 ),
      TTRHBuilder = cms.string( "hltESPTTRHBuilderPixelOnly" ),
      HitProducer = cms.string( "hltSiPixelRecHits" ),
      hitErrorRZ = cms.double( 0.006 )
    ),
    TIB = cms.PSet(  )
)
process.hltL3TrajSeedIOHit = cms.EDProducer( "TSGFromL2Muon",
    TkSeedGenerator = cms.PSet( 
      PSetNames = cms.vstring( 'skipTSG',
        'iterativeTSG' ),
      L3TkCollectionA = cms.InputTag( "hltL3TkFromL2OICombination" ),
      iterativeTSG = cms.PSet( 
        firstTSG = cms.PSet( 
          ComponentName = cms.string( "TSGFromOrderedHits" ),
          OrderedHitsFactoryPSet = cms.PSet( 
            ComponentName = cms.string( "StandardHitTripletGenerator" ),
            GeneratorPSet = cms.PSet( 
              useBending = cms.bool( True ),
              useFixedPreFiltering = cms.bool( False ),
              maxElement = cms.uint32( 0 ),
              phiPreFiltering = cms.double( 0.3 ),
              extraHitRPhitolerance = cms.double( 0.06 ),
              useMultScattering = cms.bool( True ),
              ComponentName = cms.string( "PixelTripletHLTGenerator" ),
              extraHitRZtolerance = cms.double( 0.06 ),
              SeedComparitorPSet = cms.PSet(  ComponentName = cms.string( "none" ) )
            ),
            SeedingLayers = cms.InputTag( "hltPixelLayerTriplets" )
          ),
          TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" )
        ),
        PSetNames = cms.vstring( 'firstTSG',
          'secondTSG' ),
        ComponentName = cms.string( "CombinedTSG" ),
        thirdTSG = cms.PSet( 
          PSetNames = cms.vstring( 'endcapTSG',
            'barrelTSG' ),
          barrelTSG = cms.PSet(  ),
          endcapTSG = cms.PSet( 
            ComponentName = cms.string( "TSGFromOrderedHits" ),
            OrderedHitsFactoryPSet = cms.PSet( 
              maxElement = cms.uint32( 0 ),
              ComponentName = cms.string( "StandardHitPairGenerator" ),
              useOnDemandTracker = cms.untracked.int32( 0 ),
              SeedingLayers = cms.InputTag( "hltMixedLayerPairs" )
            ),
            TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" )
          ),
          etaSeparation = cms.double( 2.0 ),
          ComponentName = cms.string( "DualByEtaTSG" )
        ),
        secondTSG = cms.PSet( 
          ComponentName = cms.string( "TSGFromOrderedHits" ),
          OrderedHitsFactoryPSet = cms.PSet( 
            maxElement = cms.uint32( 0 ),
            ComponentName = cms.string( "StandardHitPairGenerator" ),
            useOnDemandTracker = cms.untracked.int32( 0 ),
            SeedingLayers = cms.InputTag( "hltPixelLayerPairs" )
          ),
          TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" )
        )
      ),
      skipTSG = cms.PSet(  ),
      ComponentName = cms.string( "DualByL2TSG" )
    ),
    ServiceParameters = cms.PSet( 
      Propagators = cms.untracked.vstring( 'PropagatorWithMaterial' ),
      RPCLayers = cms.bool( True ),
      UseMuonNavigation = cms.untracked.bool( True )
    ),
    MuonCollectionLabel = cms.InputTag( 'hltL2Muons','UpdatedAtVtx' ),
    MuonTrackingRegionBuilder = cms.PSet( 
      EtaR_UpperLimit_Par1 = cms.double( 0.25 ),
      EtaR_UpperLimit_Par2 = cms.double( 0.15 ),
      OnDemand = cms.double( -1.0 ),
      Rescale_Dz = cms.double( 3.0 ),
      vertexCollection = cms.InputTag( "pixelVertices" ),
      Rescale_phi = cms.double( 3.0 ),
      Eta_fixed = cms.double( 0.2 ),
      DeltaZ_Region = cms.double( 15.9 ),
      MeasurementTrackerName = cms.string( "hltESPMeasurementTracker" ),
      PhiR_UpperLimit_Par2 = cms.double( 0.2 ),
      Eta_min = cms.double( 0.1 ),
      Phi_fixed = cms.double( 0.2 ),
      DeltaR = cms.double( 0.2 ),
      EscapePt = cms.double( 1.5 ),
      UseFixedRegion = cms.bool( False ),
      PhiR_UpperLimit_Par1 = cms.double( 0.6 ),
      Rescale_eta = cms.double( 3.0 ),
      Phi_min = cms.double( 0.1 ),
      UseVertex = cms.bool( False ),
      beamSpot = cms.InputTag( "hltOnlineBeamSpot" )
    ),
    PCut = cms.double( 2.5 ),
    TrackerSeedCleaner = cms.PSet( 
      cleanerFromSharedHits = cms.bool( True ),
      ptCleaner = cms.bool( True ),
      TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
      beamSpot = cms.InputTag( "hltOnlineBeamSpot" ),
      directionCleaner = cms.bool( True )
    ),
    PtCut = cms.double( 1.0 )
)
process.hltL3TrackCandidateFromL2IOHit = cms.EDProducer( "CkfTrajectoryMaker",
    src = cms.InputTag( "hltL3TrajSeedIOHit" ),
    reverseTrajectories = cms.bool( False ),
    TransientInitialStateEstimatorParameters = cms.PSet( 
      propagatorAlongTISE = cms.string( "PropagatorWithMaterial" ),
      numberMeasurementsForFit = cms.int32( 4 ),
      propagatorOppositeTISE = cms.string( "PropagatorWithMaterialOpposite" )
    ),
    TrajectoryCleaner = cms.string( "hltESPTrajectoryCleanerBySharedHits" ),
    MeasurementTrackerEvent = cms.InputTag( "hltSiStripClusters" ),
    cleanTrajectoryAfterInOut = cms.bool( False ),
    useHitsSplitting = cms.bool( False ),
    RedundantSeedCleaner = cms.string( "CachingSeedCleanerBySharedInput" ),
    doSeedingRegionRebuilding = cms.bool( False ),
    trackCandidateAlso = cms.bool( True ),
    TrajectoryBuilderPSet = cms.PSet(  refToPSet_ = cms.string( "HLTPSetMuonCkfTrajectoryBuilder" ) ),
    NavigationSchool = cms.string( "SimpleNavigationSchool" ),
    TrajectoryBuilder = cms.string( "hltESPMuonCkfTrajectoryBuilder" ),
    maxNSeeds = cms.uint32( 100000 )
)
process.hltL3TkTracksFromL2IOHit = cms.EDProducer( "TrackProducer",
    src = cms.InputTag( "hltL3TrackCandidateFromL2IOHit" ),
    SimpleMagneticField = cms.string( "" ),
    clusterRemovalInfo = cms.InputTag( "" ),
    beamSpot = cms.InputTag( "hltOnlineBeamSpot" ),
    MeasurementTrackerEvent = cms.InputTag( "hltSiStripClusters" ),
    Fitter = cms.string( "hltESPKFFittingSmoother" ),
    useHitsSplitting = cms.bool( False ),
    MeasurementTracker = cms.string( "" ),
    AlgorithmName = cms.string( "hltIterX" ),
    alias = cms.untracked.string( "" ),
    NavigationSchool = cms.string( "" ),
    TrajectoryInEvent = cms.bool( True ),
    TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
    GeometricInnerState = cms.bool( True ),
    useSimpleMF = cms.bool( False ),
    Propagator = cms.string( "PropagatorWithMaterial" )
)
process.hltL3MuonsIOHit = cms.EDProducer( "L3MuonProducer",
    ServiceParameters = cms.PSet( 
      Propagators = cms.untracked.vstring( 'hltESPSmartPropagatorAny',
        'SteppingHelixPropagatorAny',
        'hltESPSmartPropagator',
        'hltESPSteppingHelixPropagatorOpposite' ),
      RPCLayers = cms.bool( True ),
      UseMuonNavigation = cms.untracked.bool( True )
    ),
    L3TrajBuilderParameters = cms.PSet( 
      ScaleTECyFactor = cms.double( -1.0 ),
      GlbRefitterParameters = cms.PSet( 
        TrackerSkipSection = cms.int32( -1 ),
        DoPredictionsOnly = cms.bool( False ),
        PropDirForCosmics = cms.bool( False ),
        HitThreshold = cms.int32( 1 ),
        MuonHitsOption = cms.int32( 1 ),
        Chi2CutRPC = cms.double( 1.0 ),
        Fitter = cms.string( "hltESPL3MuKFTrajectoryFitter" ),
        DTRecSegmentLabel = cms.InputTag( "hltDt4DSegments" ),
        TrackerRecHitBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
        MuonRecHitBuilder = cms.string( "hltESPMuonTransientTrackingRecHitBuilder" ),
        RefitDirection = cms.string( "insideOut" ),
        CSCRecSegmentLabel = cms.InputTag( "hltCscSegments" ),
        Chi2CutCSC = cms.double( 150.0 ),
        Chi2CutDT = cms.double( 10.0 ),
        RefitRPCHits = cms.bool( True ),
        SkipStation = cms.int32( -1 ),
        Propagator = cms.string( "hltESPSmartPropagatorAny" ),
        TrackerSkipSystem = cms.int32( -1 ),
        DYTthrs = cms.vint32( 30, 15 )
      ),
      ScaleTECxFactor = cms.double( -1.0 ),
      TrackerRecHitBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
      MuonRecHitBuilder = cms.string( "hltESPMuonTransientTrackingRecHitBuilder" ),
      MuonTrackingRegionBuilder = cms.PSet( 
        EtaR_UpperLimit_Par1 = cms.double( 0.25 ),
        EtaR_UpperLimit_Par2 = cms.double( 0.15 ),
        OnDemand = cms.double( -1.0 ),
        Rescale_Dz = cms.double( 3.0 ),
        vertexCollection = cms.InputTag( "pixelVertices" ),
        Rescale_phi = cms.double( 3.0 ),
        Eta_fixed = cms.double( 0.2 ),
        DeltaZ_Region = cms.double( 15.9 ),
        MeasurementTrackerName = cms.string( "hltESPMeasurementTracker" ),
        PhiR_UpperLimit_Par2 = cms.double( 0.2 ),
        Eta_min = cms.double( 0.05 ),
        Phi_fixed = cms.double( 0.2 ),
        DeltaR = cms.double( 0.2 ),
        EscapePt = cms.double( 1.5 ),
        UseFixedRegion = cms.bool( False ),
        PhiR_UpperLimit_Par1 = cms.double( 0.6 ),
        Rescale_eta = cms.double( 3.0 ),
        Phi_min = cms.double( 0.05 ),
        UseVertex = cms.bool( False ),
        beamSpot = cms.InputTag( "hltOnlineBeamSpot" )
      ),
      RefitRPCHits = cms.bool( True ),
      PCut = cms.double( 2.5 ),
      TrackTransformer = cms.PSet( 
        DoPredictionsOnly = cms.bool( False ),
        Fitter = cms.string( "hltESPL3MuKFTrajectoryFitter" ),
        TrackerRecHitBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
        Smoother = cms.string( "hltESPKFTrajectorySmootherForMuonTrackLoader" ),
        MuonRecHitBuilder = cms.string( "hltESPMuonTransientTrackingRecHitBuilder" ),
        RefitDirection = cms.string( "insideOut" ),
        RefitRPCHits = cms.bool( True ),
        Propagator = cms.string( "hltESPSmartPropagatorAny" )
      ),
      GlobalMuonTrackMatcher = cms.PSet( 
        Pt_threshold1 = cms.double( 0.0 ),
        DeltaDCut_3 = cms.double( 15.0 ),
        MinP = cms.double( 2.5 ),
        MinPt = cms.double( 1.0 ),
        Chi2Cut_1 = cms.double( 50.0 ),
        Pt_threshold2 = cms.double( 9.99999999E8 ),
        LocChi2Cut = cms.double( 0.001 ),
        Eta_threshold = cms.double( 1.2 ),
        Quality_3 = cms.double( 7.0 ),
        Quality_2 = cms.double( 15.0 ),
        Chi2Cut_2 = cms.double( 50.0 ),
        Chi2Cut_3 = cms.double( 200.0 ),
        DeltaDCut_1 = cms.double( 40.0 ),
        DeltaRCut_2 = cms.double( 0.2 ),
        DeltaRCut_3 = cms.double( 1.0 ),
        DeltaDCut_2 = cms.double( 10.0 ),
        DeltaRCut_1 = cms.double( 0.1 ),
        Propagator = cms.string( "hltESPSmartPropagator" ),
        Quality_1 = cms.double( 20.0 )
      ),
      PtCut = cms.double( 1.0 ),
      TrackerPropagator = cms.string( "SteppingHelixPropagatorAny" ),
      tkTrajLabel = cms.InputTag( "hltL3TkTracksFromL2IOHit" ),
      tkTrajBeamSpot = cms.InputTag( "hltOnlineBeamSpot" ),
      tkTrajMaxChi2 = cms.double( 9999.0 ),
      tkTrajMaxDXYBeamSpot = cms.double( 0.2 ),
      tkTrajVertex = cms.InputTag( "pixelVertices" ),
      tkTrajUseVertex = cms.bool( False )
    ),
    TrackLoaderParameters = cms.PSet( 
      PutTkTrackIntoEvent = cms.untracked.bool( False ),
      beamSpot = cms.InputTag( "hltOnlineBeamSpot" ),
      SmoothTkTrack = cms.untracked.bool( False ),
      MuonSeededTracksInstance = cms.untracked.string( "L2Seeded" ),
      Smoother = cms.string( "hltESPKFTrajectorySmootherForMuonTrackLoader" ),
      MuonUpdatorAtVertexParameters = cms.PSet( 
        MaxChi2 = cms.double( 1000000.0 ),
        Propagator = cms.string( "hltESPSteppingHelixPropagatorOpposite" ),
        BeamSpotPositionErrors = cms.vdouble( 0.1, 0.1, 5.3 )
      ),
      VertexConstraint = cms.bool( False ),
      DoSmoothing = cms.bool( True )
    ),
    MuonCollectionLabel = cms.InputTag( 'hltL2Muons','UpdatedAtVtx' )
)
process.hltL3TrajectorySeed = cms.EDProducer( "L3MuonTrajectorySeedCombiner",
    labels = cms.VInputTag( 'hltL3TrajSeedIOHit','hltL3TrajSeedOIState','hltL3TrajSeedOIHit' )
)
process.hltL3TrackCandidateFromL2 = cms.EDProducer( "L3TrackCandCombiner",
    labels = cms.VInputTag( 'hltL3TrackCandidateFromL2IOHit','hltL3TrackCandidateFromL2OIHit','hltL3TrackCandidateFromL2OIState' )
)
process.hltL3TkTracksMergeStep1 = cms.EDProducer( "SimpleTrackListMerger",
    ShareFrac = cms.double( 0.19 ),
    promoteTrackQuality = cms.bool( True ),
    MinPT = cms.double( 0.05 ),
    copyExtras = cms.untracked.bool( True ),
    Epsilon = cms.double( -0.001 ),
    allowFirstHitShare = cms.bool( True ),
    newQuality = cms.string( "confirmed" ),
    MaxNormalizedChisq = cms.double( 1000.0 ),
    TrackProducer1 = cms.string( "hltL3TkTracksFromL2OIState" ),
    MinFound = cms.int32( 3 ),
    TrackProducer2 = cms.string( "hltL3TkTracksFromL2OIHit" ),
    LostHitPenalty = cms.double( 0.0 ),
    FoundHitBonus = cms.double( 100.0 )
)
process.hltL3TkTracksFromL2 = cms.EDProducer( "SimpleTrackListMerger",
    ShareFrac = cms.double( 0.19 ),
    promoteTrackQuality = cms.bool( True ),
    MinPT = cms.double( 0.05 ),
    copyExtras = cms.untracked.bool( True ),
    Epsilon = cms.double( -0.001 ),
    allowFirstHitShare = cms.bool( True ),
    newQuality = cms.string( "confirmed" ),
    MaxNormalizedChisq = cms.double( 1000.0 ),
    TrackProducer1 = cms.string( "hltL3TkTracksMergeStep1" ),
    MinFound = cms.int32( 3 ),
    TrackProducer2 = cms.string( "hltL3TkTracksFromL2IOHit" ),
    LostHitPenalty = cms.double( 0.0 ),
    FoundHitBonus = cms.double( 100.0 )
)
process.hltL3MuonsLinksCombination = cms.EDProducer( "L3TrackLinksCombiner",
    labels = cms.VInputTag( 'hltL3MuonsOIState','hltL3MuonsOIHit','hltL3MuonsIOHit' )
)
process.hltL3Muons = cms.EDProducer( "L3TrackCombiner",
    labels = cms.VInputTag( 'hltL3MuonsOIState','hltL3MuonsOIHit','hltL3MuonsIOHit' )
)
process.hltL3MuonCandidates = cms.EDProducer( "L3MuonCandidateProducer",
    InputLinksObjects = cms.InputTag( "hltL3MuonsLinksCombination" ),
    InputObjects = cms.InputTag( "hltL3Muons" ),
    MuonPtOption = cms.string( "Tracker" )
)
process.hltL3fL1sMu16orMu25L1f0L2f16QL3Filtered40Q = cms.EDFilter( "HLTMuonL3PreFilter",
    MaxNormalizedChi2 = cms.double( 20.0 ),
    saveTags = cms.bool( True ),
    PreviousCandTag = cms.InputTag( "hltL2fL1sMu16orMu25L1f0L2Filtered16Q" ),
    MinNmuonHits = cms.int32( 0 ),
    MinN = cms.int32( 1 ),
    MinTrackPt = cms.double( 0.0 ),
    MaxEta = cms.double( 2.5 ),
    MaxDXYBeamSpot = cms.double( 0.1 ),
    MinNhits = cms.int32( 0 ),
    MinDxySig = cms.double( -1.0 ),
    NSigmaPt = cms.double( 0.0 ),
    MaxDz = cms.double( 9999.0 ),
    MaxPtDifference = cms.double( 9999.0 ),
    MaxDr = cms.double( 2.0 ),
    CandTag = cms.InputTag( "hltL3MuonCandidates" ),
    MinDXYBeamSpot = cms.double( -1.0 ),
    MinDr = cms.double( -1.0 ),
    BeamSpotTag = cms.InputTag( "hltOnlineBeamSpot" ),
    MinPt = cms.double( 40.0 )
)
process.hltPrePFJet260 = cms.EDFilter( "HLTPrescaler",
    L1GtReadoutRecordTag = cms.InputTag( "hltGtDigis" ),
    offset = cms.uint32( 0 )
)
process.hltSingleCaloJet210 = cms.EDFilter( "HLT1CaloJet",
    saveTags = cms.bool( True ),
    MinPt = cms.double( 210.0 ),
    MinN = cms.int32( 1 ),
    MaxEta = cms.double( 5.0 ),
    MinMass = cms.double( -1.0 ),
    inputTag = cms.InputTag( "hltAK4CaloJetsCorrectedIDPassed" ),
    MinE = cms.double( -1.0 ),
    triggerType = cms.int32( 85 )
)
process.hltTowerMakerForPF = cms.EDProducer( "CaloTowersCreator",
    EBSumThreshold = cms.double( 0.2 ),
    MomHBDepth = cms.double( 0.2 ),
    UseEtEBTreshold = cms.bool( False ),
    hfInput = cms.InputTag( "hltHfreco" ),
    AllowMissingInputs = cms.bool( False ),
    MomEEDepth = cms.double( 0.0 ),
    EESumThreshold = cms.double( 0.45 ),
    HBGrid = cms.vdouble(  ),
    HcalAcceptSeverityLevelForRejectedHit = cms.uint32( 9999 ),
    HBThreshold = cms.double( 0.4 ),
    EcalSeveritiesToBeUsedInBadTowers = cms.vstring(  ),
    UseEcalRecoveredHits = cms.bool( False ),
    MomConstrMethod = cms.int32( 1 ),
    MomHEDepth = cms.double( 0.4 ),
    HcalThreshold = cms.double( -1000.0 ),
    HF2Weights = cms.vdouble(  ),
    HOWeights = cms.vdouble(  ),
    EEGrid = cms.vdouble(  ),
    UseSymEBTreshold = cms.bool( False ),
    EEWeights = cms.vdouble(  ),
    EEWeight = cms.double( 1.0 ),
    UseHO = cms.bool( False ),
    HBWeights = cms.vdouble(  ),
    HF1Weight = cms.double( 1.0 ),
    HF2Grid = cms.vdouble(  ),
    HEDWeights = cms.vdouble(  ),
    HEDGrid = cms.vdouble(  ),
    EBWeight = cms.double( 1.0 ),
    HF1Grid = cms.vdouble(  ),
    EBWeights = cms.vdouble(  ),
    HOWeight = cms.double( 1.0 ),
    HESWeight = cms.double( 1.0 ),
    HESThreshold = cms.double( 0.4 ),
    hbheInput = cms.InputTag( "hltHbhereco" ),
    HF2Weight = cms.double( 1.0 ),
    HF2Threshold = cms.double( 1.8 ),
    HcalAcceptSeverityLevel = cms.uint32( 11 ),
    EEThreshold = cms.double( 0.3 ),
    HOThresholdPlus1 = cms.double( 1.1 ),
    HOThresholdPlus2 = cms.double( 1.1 ),
    HF1Weights = cms.vdouble(  ),
    hoInput = cms.InputTag( "hltHoreco" ),
    HF1Threshold = cms.double( 1.2 ),
    HOThresholdMinus1 = cms.double( 1.1 ),
    HESGrid = cms.vdouble(  ),
    EcutTower = cms.double( -1000.0 ),
    UseRejectedRecoveredEcalHits = cms.bool( False ),
    UseEtEETreshold = cms.bool( False ),
    HESWeights = cms.vdouble(  ),
    EcalRecHitSeveritiesToBeExcluded = cms.vstring( 'kTime',
      'kWeird',
      'kBad' ),
    HEDWeight = cms.double( 1.0 ),
    UseSymEETreshold = cms.bool( False ),
    HEDThreshold = cms.double( 0.4 ),
    EBThreshold = cms.double( 0.07 ),
    UseRejectedHitsOnly = cms.bool( False ),
    UseHcalRecoveredHits = cms.bool( True ),
    HOThresholdMinus2 = cms.double( 1.1 ),
    HOThreshold0 = cms.double( 1.1 ),
    ecalInputs = cms.VInputTag( 'hltEcalRecHit:EcalRecHitsEB','hltEcalRecHit:EcalRecHitsEE' ),
    UseRejectedRecoveredHcalHits = cms.bool( False ),
    MomEBDepth = cms.double( 0.3 ),
    HBWeight = cms.double( 1.0 ),
    HOGrid = cms.vdouble(  ),
    EBGrid = cms.vdouble(  )
)
process.hltAK4CaloJetsPF = cms.EDProducer( "FastjetJetProducer",
    Active_Area_Repeats = cms.int32( 5 ),
    doAreaFastjet = cms.bool( False ),
    voronoiRfact = cms.double( -9.0 ),
    maxBadHcalCells = cms.uint32( 9999999 ),
    doAreaDiskApprox = cms.bool( False ),
    maxRecoveredEcalCells = cms.uint32( 9999999 ),
    jetType = cms.string( "CaloJet" ),
    minSeed = cms.uint32( 0 ),
    Ghost_EtaMax = cms.double( 6.0 ),
    doRhoFastjet = cms.bool( False ),
    jetAlgorithm = cms.string( "AntiKt" ),
    nSigmaPU = cms.double( 1.0 ),
    GhostArea = cms.double( 0.01 ),
    Rho_EtaMax = cms.double( 4.4 ),
    maxBadEcalCells = cms.uint32( 9999999 ),
    useDeterministicSeed = cms.bool( True ),
    doPVCorrection = cms.bool( False ),
    maxRecoveredHcalCells = cms.uint32( 9999999 ),
    rParam = cms.double( 0.4 ),
    maxProblematicHcalCells = cms.uint32( 9999999 ),
    doOutputJets = cms.bool( True ),
    src = cms.InputTag( "hltTowerMakerForPF" ),
    inputEtMin = cms.double( 0.3 ),
    puPtMin = cms.double( 10.0 ),
    srcPVs = cms.InputTag( "NotUsed" ),
    jetPtMin = cms.double( 1.0 ),
    radiusPU = cms.double( 0.4 ),
    maxProblematicEcalCells = cms.uint32( 9999999 ),
    doPUOffsetCorr = cms.bool( False ),
    inputEMin = cms.double( 0.0 ),
    useMassDropTagger = cms.bool( False ),
    muMin = cms.double( -1.0 ),
    subtractorName = cms.string( "" ),
    muCut = cms.double( -1.0 ),
    subjetPtMin = cms.double( -1.0 ),
    useTrimming = cms.bool( False ),
    muMax = cms.double( -1.0 ),
    yMin = cms.double( -1.0 ),
    useFiltering = cms.bool( False ),
    rFilt = cms.double( -1.0 ),
    yMax = cms.double( -1.0 ),
    zcut = cms.double( -1.0 ),
    MinVtxNdof = cms.int32( 5 ),
    MaxVtxZ = cms.double( 15.0 ),
    UseOnlyVertexTracks = cms.bool( False ),
    dRMin = cms.double( -1.0 ),
    nFilt = cms.int32( -1 ),
    usePruning = cms.bool( False ),
    maxDepth = cms.int32( -1 ),
    yCut = cms.double( -1.0 ),
    DzTrVtxMax = cms.double( 0.0 ),
    UseOnlyOnePV = cms.bool( False ),
    rcut_factor = cms.double( -1.0 ),
    sumRecHits = cms.bool( False ),
    trimPtFracMin = cms.double( -1.0 ),
    dRMax = cms.double( -1.0 ),
    DxyTrVtxMax = cms.double( 0.0 ),
    useCMSBoostedTauSeedingAlgorithm = cms.bool( False )
)
process.hltAK4CaloJetsPFEt5 = cms.EDFilter( "EtMinCaloJetSelector",
    filter = cms.bool( False ),
    src = cms.InputTag( "hltAK4CaloJetsPF" ),
    etMin = cms.double( 5.0 )
)
process.hltPixelTracks = cms.EDProducer( "PixelTrackProducer",
    FilterPSet = cms.PSet( 
      chi2 = cms.double( 1000.0 ),
      nSigmaTipMaxTolerance = cms.double( 0.0 ),
      ComponentName = cms.string( "PixelTrackFilterByKinematics" ),
      nSigmaInvPtTolerance = cms.double( 0.0 ),
      ptMin = cms.double( 0.1 ),
      tipMax = cms.double( 1.0 )
    ),
    useFilterWithES = cms.bool( False ),
    passLabel = cms.string( "Pixel triplet primary tracks with vertex constraint" ),
    FitterPSet = cms.PSet( 
      ComponentName = cms.string( "PixelFitterByHelixProjections" ),
      TTRHBuilder = cms.string( "hltESPTTRHBuilderPixelOnly" ),
      fixImpactParameter = cms.double( 0.0 )
    ),
    RegionFactoryPSet = cms.PSet( 
      ComponentName = cms.string( "GlobalRegionProducerFromBeamSpot" ),
      RegionPSet = cms.PSet( 
        precise = cms.bool( True ),
        originRadius = cms.double( 0.2 ),
        ptMin = cms.double( 0.9 ),
        originHalfLength = cms.double( 24.0 ),
        beamSpot = cms.InputTag( "hltOnlineBeamSpot" )
      )
    ),
    CleanerPSet = cms.PSet(  ComponentName = cms.string( "PixelTrackCleanerBySharedHits" ) ),
    OrderedHitsFactoryPSet = cms.PSet( 
      ComponentName = cms.string( "StandardHitTripletGenerator" ),
      GeneratorPSet = cms.PSet( 
        useBending = cms.bool( True ),
        useFixedPreFiltering = cms.bool( False ),
        maxElement = cms.uint32( 100000 ),
        phiPreFiltering = cms.double( 0.3 ),
        extraHitRPhitolerance = cms.double( 0.06 ),
        useMultScattering = cms.bool( True ),
        SeedComparitorPSet = cms.PSet( 
          ComponentName = cms.string( "LowPtClusterShapeSeedComparitor" ),
          clusterShapeCacheSrc = cms.InputTag( "hltSiPixelClustersCache" )
        ),
        extraHitRZtolerance = cms.double( 0.06 ),
        ComponentName = cms.string( "PixelTripletHLTGenerator" )
      ),
      SeedingLayers = cms.InputTag( "hltPixelLayerTriplets" )
    )
)
process.hltPixelVertices = cms.EDProducer( "PixelVertexProducer",
    WtAverage = cms.bool( True ),
    Method2 = cms.bool( True ),
    beamSpot = cms.InputTag( "hltOnlineBeamSpot" ),
    PVcomparer = cms.PSet(  refToPSet_ = cms.string( "HLTPSetPvClusterComparerForIT" ) ),
    Verbosity = cms.int32( 0 ),
    UseError = cms.bool( True ),
    TrackCollection = cms.InputTag( "hltPixelTracks" ),
    PtMin = cms.double( 1.0 ),
    NTrkMin = cms.int32( 2 ),
    ZOffset = cms.double( 5.0 ),
    Finder = cms.string( "DivisiveVertexFinder" ),
    ZSeparation = cms.double( 0.05 )
)
process.hltTrimmedPixelVertices = cms.EDProducer( "PixelVertexCollectionTrimmer",
    minSumPt2 = cms.double( 0.0 ),
    PVcomparer = cms.PSet(  refToPSet_ = cms.string( "HLTPSetPvClusterComparerForIT" ) ),
    maxVtx = cms.uint32( 100 ),
    fractionSumPt2 = cms.double( 0.3 ),
    src = cms.InputTag( "hltPixelVertices" )
)
process.hltIter0PFLowPixelSeedsFromPixelTracks = cms.EDProducer( "SeedGeneratorFromProtoTracksEDProducer",
    useEventsWithNoVertex = cms.bool( True ),
    originHalfLength = cms.double( 0.3 ),
    useProtoTrackKinematics = cms.bool( False ),
    usePV = cms.bool( False ),
    InputVertexCollection = cms.InputTag( "hltTrimmedPixelVertices" ),
    TTRHBuilder = cms.string( "hltESPTTRHBuilderPixelOnly" ),
    InputCollection = cms.InputTag( "hltPixelTracks" ),
    originRadius = cms.double( 0.1 )
)
process.hltIter0PFlowCkfTrackCandidates = cms.EDProducer( "CkfTrackCandidateMaker",
    src = cms.InputTag( "hltIter0PFLowPixelSeedsFromPixelTracks" ),
    maxSeedsBeforeCleaning = cms.uint32( 1000 ),
    SimpleMagneticField = cms.string( "ParabolicMf" ),
    TransientInitialStateEstimatorParameters = cms.PSet( 
      propagatorAlongTISE = cms.string( "PropagatorWithMaterialParabolicMf" ),
      numberMeasurementsForFit = cms.int32( 4 ),
      propagatorOppositeTISE = cms.string( "PropagatorWithMaterialParabolicMfOpposite" )
    ),
    TrajectoryCleaner = cms.string( "hltESPTrajectoryCleanerBySharedHits" ),
    MeasurementTrackerEvent = cms.InputTag( "hltSiStripClusters" ),
    cleanTrajectoryAfterInOut = cms.bool( False ),
    useHitsSplitting = cms.bool( False ),
    RedundantSeedCleaner = cms.string( "CachingSeedCleanerBySharedInput" ),
    doSeedingRegionRebuilding = cms.bool( False ),
    maxNSeeds = cms.uint32( 100000 ),
    TrajectoryBuilderPSet = cms.PSet(  refToPSet_ = cms.string( "HLTIter0PSetTrajectoryBuilderIT" ) ),
    NavigationSchool = cms.string( "SimpleNavigationSchool" ),
    TrajectoryBuilder = cms.string( "" )
)
process.hltIter0PFlowCtfWithMaterialTracks = cms.EDProducer( "TrackProducer",
    src = cms.InputTag( "hltIter0PFlowCkfTrackCandidates" ),
    SimpleMagneticField = cms.string( "ParabolicMf" ),
    clusterRemovalInfo = cms.InputTag( "" ),
    beamSpot = cms.InputTag( "hltOnlineBeamSpot" ),
    MeasurementTrackerEvent = cms.InputTag( "hltSiStripClusters" ),
    Fitter = cms.string( "hltESPFittingSmootherIT" ),
    useHitsSplitting = cms.bool( False ),
    MeasurementTracker = cms.string( "" ),
    AlgorithmName = cms.string( "hltIter0" ),
    alias = cms.untracked.string( "ctfWithMaterialTracks" ),
    NavigationSchool = cms.string( "" ),
    TrajectoryInEvent = cms.bool( True ),
    TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
    GeometricInnerState = cms.bool( True ),
    useSimpleMF = cms.bool( True ),
    Propagator = cms.string( "hltESPRungeKuttaTrackerPropagator" )
)
process.hltIter0PFlowTrackSelectionHighPurity = cms.EDProducer( "AnalyticalTrackSelector",
    max_d0 = cms.double( 100.0 ),
    minNumber3DLayers = cms.uint32( 0 ),
    max_lostHitFraction = cms.double( 1.0 ),
    applyAbsCutsIfNoPV = cms.bool( False ),
    qualityBit = cms.string( "highPurity" ),
    minNumberLayers = cms.uint32( 3 ),
    chi2n_par = cms.double( 0.7 ),
    useVtxError = cms.bool( False ),
    nSigmaZ = cms.double( 3.0 ),
    dz_par2 = cms.vdouble( 0.4, 4.0 ),
    applyAdaptedPVCuts = cms.bool( True ),
    min_eta = cms.double( -9999.0 ),
    dz_par1 = cms.vdouble( 0.35, 4.0 ),
    copyTrajectories = cms.untracked.bool( True ),
    vtxNumber = cms.int32( -1 ),
    max_d0NoPV = cms.double( 100.0 ),
    keepAllTracks = cms.bool( False ),
    maxNumberLostLayers = cms.uint32( 1 ),
    beamspot = cms.InputTag( "hltOnlineBeamSpot" ),
    max_relpterr = cms.double( 9999.0 ),
    copyExtras = cms.untracked.bool( True ),
    max_z0NoPV = cms.double( 100.0 ),
    vertexCut = cms.string( "tracksSize>=3" ),
    max_z0 = cms.double( 100.0 ),
    useVertices = cms.bool( True ),
    min_nhits = cms.uint32( 0 ),
    src = cms.InputTag( "hltIter0PFlowCtfWithMaterialTracks" ),
    max_minMissHitOutOrIn = cms.int32( 99 ),
    chi2n_no1Dmod_par = cms.double( 9999.0 ),
    vertices = cms.InputTag( "hltTrimmedPixelVertices" ),
    max_eta = cms.double( 9999.0 ),
    d0_par2 = cms.vdouble( 0.4, 4.0 ),
    d0_par1 = cms.vdouble( 0.3, 4.0 ),
    res_par = cms.vdouble( 0.003, 0.001 ),
    minHitsToBypassChecks = cms.uint32( 20 )
)
process.hltTrackIter0RefsForJets4Iter1 = cms.EDProducer( "ChargedRefCandidateProducer",
    src = cms.InputTag( "hltIter0PFlowTrackSelectionHighPurity" ),
    particleType = cms.string( "pi+" )
)
process.hltAK4Iter0TrackJets4Iter1 = cms.EDProducer( "FastjetJetProducer",
    Active_Area_Repeats = cms.int32( 5 ),
    doAreaFastjet = cms.bool( False ),
    voronoiRfact = cms.double( 0.9 ),
    maxBadHcalCells = cms.uint32( 9999999 ),
    doAreaDiskApprox = cms.bool( False ),
    maxRecoveredEcalCells = cms.uint32( 9999999 ),
    jetType = cms.string( "TrackJet" ),
    minSeed = cms.uint32( 14327 ),
    Ghost_EtaMax = cms.double( 6.0 ),
    doRhoFastjet = cms.bool( False ),
    jetAlgorithm = cms.string( "AntiKt" ),
    nSigmaPU = cms.double( 1.0 ),
    GhostArea = cms.double( 0.01 ),
    Rho_EtaMax = cms.double( 4.4 ),
    maxBadEcalCells = cms.uint32( 9999999 ),
    useDeterministicSeed = cms.bool( True ),
    doPVCorrection = cms.bool( False ),
    maxRecoveredHcalCells = cms.uint32( 9999999 ),
    rParam = cms.double( 0.4 ),
    maxProblematicHcalCells = cms.uint32( 9999999 ),
    doOutputJets = cms.bool( True ),
    src = cms.InputTag( "hltTrackIter0RefsForJets4Iter1" ),
    inputEtMin = cms.double( 0.1 ),
    puPtMin = cms.double( 0.0 ),
    srcPVs = cms.InputTag( "hltTrimmedPixelVertices" ),
    jetPtMin = cms.double( 1.0 ),
    radiusPU = cms.double( 0.4 ),
    maxProblematicEcalCells = cms.uint32( 9999999 ),
    doPUOffsetCorr = cms.bool( False ),
    inputEMin = cms.double( 0.0 ),
    useMassDropTagger = cms.bool( False ),
    muMin = cms.double( -1.0 ),
    subtractorName = cms.string( "" ),
    muCut = cms.double( -1.0 ),
    subjetPtMin = cms.double( -1.0 ),
    useTrimming = cms.bool( False ),
    muMax = cms.double( -1.0 ),
    yMin = cms.double( -1.0 ),
    useFiltering = cms.bool( False ),
    rFilt = cms.double( -1.0 ),
    yMax = cms.double( -1.0 ),
    zcut = cms.double( -1.0 ),
    MinVtxNdof = cms.int32( 0 ),
    MaxVtxZ = cms.double( 30.0 ),
    UseOnlyVertexTracks = cms.bool( False ),
    dRMin = cms.double( -1.0 ),
    nFilt = cms.int32( -1 ),
    usePruning = cms.bool( False ),
    maxDepth = cms.int32( -1 ),
    yCut = cms.double( -1.0 ),
    DzTrVtxMax = cms.double( 0.5 ),
    UseOnlyOnePV = cms.bool( True ),
    rcut_factor = cms.double( -1.0 ),
    sumRecHits = cms.bool( False ),
    trimPtFracMin = cms.double( -1.0 ),
    dRMax = cms.double( -1.0 ),
    DxyTrVtxMax = cms.double( 0.2 ),
    useCMSBoostedTauSeedingAlgorithm = cms.bool( False )
)
process.hltIter0TrackAndTauJets4Iter1 = cms.EDProducer( "TauJetSelectorForHLTTrackSeeding",
    fractionMinCaloInTauCone = cms.double( 0.7 ),
    fractionMaxChargedPUInCaloCone = cms.double( 0.3 ),
    tauConeSize = cms.double( 0.2 ),
    ptTrkMaxInCaloCone = cms.double( 1.0 ),
    isolationConeSize = cms.double( 0.5 ),
    inputTrackJetTag = cms.InputTag( "hltAK4Iter0TrackJets4Iter1" ),
    nTrkMaxInCaloCone = cms.int32( 0 ),
    inputCaloJetTag = cms.InputTag( "hltAK4CaloJetsPFEt5" ),
    etaMinCaloJet = cms.double( -2.7 ),
    etaMaxCaloJet = cms.double( 2.7 ),
    ptMinCaloJet = cms.double( 5.0 ),
    inputTrackTag = cms.InputTag( "hltIter0PFlowTrackSelectionHighPurity" )
)
process.hltIter1ClustersRefRemoval = cms.EDProducer( "HLTTrackClusterRemoverNew",
    doStrip = cms.bool( True ),
    doStripChargeCheck = cms.bool( False ),
    trajectories = cms.InputTag( "hltIter0PFlowTrackSelectionHighPurity" ),
    oldClusterRemovalInfo = cms.InputTag( "" ),
    stripClusters = cms.InputTag( "hltSiStripRawToClustersFacility" ),
    pixelClusters = cms.InputTag( "hltSiPixelClusters" ),
    Common = cms.PSet(  maxChi2 = cms.double( 9.0 ) ),
    doPixel = cms.bool( True )
)
process.hltIter1MaskedMeasurementTrackerEvent = cms.EDProducer( "MaskedMeasurementTrackerEventProducer",
    clustersToSkip = cms.InputTag( "hltIter1ClustersRefRemoval" ),
    OnDemand = cms.bool( False ),
    src = cms.InputTag( "hltSiStripClusters" )
)
process.hltIter1PixelLayerTriplets = cms.EDProducer( "SeedingLayersEDProducer",
    layerList = cms.vstring( 'BPix1+BPix2+BPix3',
      'BPix1+BPix2+FPix1_pos',
      'BPix1+BPix2+FPix1_neg',
      'BPix1+FPix1_pos+FPix2_pos',
      'BPix1+FPix1_neg+FPix2_neg' ),
    MTOB = cms.PSet(  ),
    TEC = cms.PSet(  ),
    MTID = cms.PSet(  ),
    FPix = cms.PSet( 
      HitProducer = cms.string( "hltSiPixelRecHits" ),
      hitErrorRZ = cms.double( 0.0036 ),
      useErrorsFromParam = cms.bool( True ),
      TTRHBuilder = cms.string( "hltESPTTRHBuilderPixelOnly" ),
      skipClusters = cms.InputTag( "hltIter1ClustersRefRemoval" ),
      hitErrorRPhi = cms.double( 0.0051 )
    ),
    MTEC = cms.PSet(  ),
    MTIB = cms.PSet(  ),
    TID = cms.PSet(  ),
    TOB = cms.PSet(  ),
    BPix = cms.PSet( 
      HitProducer = cms.string( "hltSiPixelRecHits" ),
      hitErrorRZ = cms.double( 0.006 ),
      useErrorsFromParam = cms.bool( True ),
      TTRHBuilder = cms.string( "hltESPTTRHBuilderPixelOnly" ),
      skipClusters = cms.InputTag( "hltIter1ClustersRefRemoval" ),
      hitErrorRPhi = cms.double( 0.0027 )
    ),
    TIB = cms.PSet(  )
)
process.hltIter1PFlowPixelSeeds = cms.EDProducer( "SeedGeneratorFromRegionHitsEDProducer",
    RegionFactoryPSet = cms.PSet( 
      ComponentName = cms.string( "CandidateSeededTrackingRegionsProducer" ),
      RegionPSet = cms.PSet( 
        precise = cms.bool( True ),
        originRadius = cms.double( 0.05 ),
        searchOpt = cms.bool( True ),
        ptMin = cms.double( 0.5 ),
        measurementTrackerName = cms.string( "hltIter1MaskedMeasurementTrackerEvent" ),
        mode = cms.string( "VerticesFixed" ),
        maxNRegions = cms.int32( 100 ),
        maxNVertices = cms.int32( 10 ),
        deltaPhi = cms.double( 1.0 ),
        deltaEta = cms.double( 1.0 ),
        zErrorBeamSpot = cms.double( 15.0 ),
        nSigmaZBeamSpot = cms.double( 3.0 ),
        zErrorVetex = cms.double( 0.1 ),
        vertexCollection = cms.InputTag( "hltTrimmedPixelVertices" ),
        beamSpot = cms.InputTag( "hltOnlineBeamSpot" ),
        input = cms.InputTag( "hltIter0TrackAndTauJets4Iter1" )
      )
    ),
    SeedComparitorPSet = cms.PSet(  ComponentName = cms.string( "none" ) ),
    ClusterCheckPSet = cms.PSet( 
      PixelClusterCollectionLabel = cms.InputTag( "hltSiPixelClusters" ),
      MaxNumberOfCosmicClusters = cms.uint32( 50000 ),
      doClusterCheck = cms.bool( False ),
      ClusterCollectionLabel = cms.InputTag( "hltSiStripClusters" ),
      MaxNumberOfPixelClusters = cms.uint32( 10000 )
    ),
    OrderedHitsFactoryPSet = cms.PSet( 
      maxElement = cms.uint32( 0 ),
      ComponentName = cms.string( "StandardHitTripletGenerator" ),
      GeneratorPSet = cms.PSet( 
        useBending = cms.bool( True ),
        useFixedPreFiltering = cms.bool( False ),
        maxElement = cms.uint32( 100000 ),
        phiPreFiltering = cms.double( 0.3 ),
        extraHitRPhitolerance = cms.double( 0.032 ),
        useMultScattering = cms.bool( True ),
        ComponentName = cms.string( "PixelTripletHLTGenerator" ),
        extraHitRZtolerance = cms.double( 0.037 ),
        SeedComparitorPSet = cms.PSet(  ComponentName = cms.string( "none" ) )
      ),
      SeedingLayers = cms.InputTag( "hltIter1PixelLayerTriplets" )
    ),
    SeedCreatorPSet = cms.PSet( 
      ComponentName = cms.string( "SeedFromConsecutiveHitsTripletOnlyCreator" ),
      propagator = cms.string( "PropagatorWithMaterialParabolicMf" )
    ),
    TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" )
)
process.hltIter1PFlowCkfTrackCandidates = cms.EDProducer( "CkfTrackCandidateMaker",
    src = cms.InputTag( "hltIter1PFlowPixelSeeds" ),
    maxSeedsBeforeCleaning = cms.uint32( 1000 ),
    SimpleMagneticField = cms.string( "ParabolicMf" ),
    TransientInitialStateEstimatorParameters = cms.PSet( 
      propagatorAlongTISE = cms.string( "PropagatorWithMaterialParabolicMf" ),
      numberMeasurementsForFit = cms.int32( 4 ),
      propagatorOppositeTISE = cms.string( "PropagatorWithMaterialParabolicMfOpposite" )
    ),
    TrajectoryCleaner = cms.string( "hltESPTrajectoryCleanerBySharedHits" ),
    MeasurementTrackerEvent = cms.InputTag( "hltIter1MaskedMeasurementTrackerEvent" ),
    cleanTrajectoryAfterInOut = cms.bool( False ),
    useHitsSplitting = cms.bool( False ),
    RedundantSeedCleaner = cms.string( "CachingSeedCleanerBySharedInput" ),
    doSeedingRegionRebuilding = cms.bool( False ),
    maxNSeeds = cms.uint32( 100000 ),
    TrajectoryBuilderPSet = cms.PSet(  refToPSet_ = cms.string( "HLTIter1PSetTrajectoryBuilderIT" ) ),
    NavigationSchool = cms.string( "SimpleNavigationSchool" ),
    TrajectoryBuilder = cms.string( "" )
)
process.hltIter1PFlowCtfWithMaterialTracks = cms.EDProducer( "TrackProducer",
    src = cms.InputTag( "hltIter1PFlowCkfTrackCandidates" ),
    SimpleMagneticField = cms.string( "ParabolicMf" ),
    clusterRemovalInfo = cms.InputTag( "" ),
    beamSpot = cms.InputTag( "hltOnlineBeamSpot" ),
    MeasurementTrackerEvent = cms.InputTag( "hltIter1MaskedMeasurementTrackerEvent" ),
    Fitter = cms.string( "hltESPFittingSmootherIT" ),
    useHitsSplitting = cms.bool( False ),
    MeasurementTracker = cms.string( "" ),
    AlgorithmName = cms.string( "hltIter1" ),
    alias = cms.untracked.string( "ctfWithMaterialTracks" ),
    NavigationSchool = cms.string( "" ),
    TrajectoryInEvent = cms.bool( True ),
    TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
    GeometricInnerState = cms.bool( True ),
    useSimpleMF = cms.bool( True ),
    Propagator = cms.string( "hltESPRungeKuttaTrackerPropagator" )
)
process.hltIter1PFlowTrackSelectionHighPurityLoose = cms.EDProducer( "AnalyticalTrackSelector",
    max_d0 = cms.double( 100.0 ),
    minNumber3DLayers = cms.uint32( 0 ),
    max_lostHitFraction = cms.double( 1.0 ),
    applyAbsCutsIfNoPV = cms.bool( False ),
    qualityBit = cms.string( "highPurity" ),
    minNumberLayers = cms.uint32( 3 ),
    chi2n_par = cms.double( 0.7 ),
    useVtxError = cms.bool( False ),
    nSigmaZ = cms.double( 3.0 ),
    dz_par2 = cms.vdouble( 0.9, 3.0 ),
    applyAdaptedPVCuts = cms.bool( True ),
    min_eta = cms.double( -9999.0 ),
    dz_par1 = cms.vdouble( 0.8, 3.0 ),
    copyTrajectories = cms.untracked.bool( True ),
    vtxNumber = cms.int32( -1 ),
    max_d0NoPV = cms.double( 100.0 ),
    keepAllTracks = cms.bool( False ),
    maxNumberLostLayers = cms.uint32( 1 ),
    beamspot = cms.InputTag( "hltOnlineBeamSpot" ),
    max_relpterr = cms.double( 9999.0 ),
    copyExtras = cms.untracked.bool( True ),
    max_z0NoPV = cms.double( 100.0 ),
    vertexCut = cms.string( "tracksSize>=3" ),
    max_z0 = cms.double( 100.0 ),
    useVertices = cms.bool( True ),
    min_nhits = cms.uint32( 0 ),
    src = cms.InputTag( "hltIter1PFlowCtfWithMaterialTracks" ),
    max_minMissHitOutOrIn = cms.int32( 99 ),
    chi2n_no1Dmod_par = cms.double( 9999.0 ),
    vertices = cms.InputTag( "hltTrimmedPixelVertices" ),
    max_eta = cms.double( 9999.0 ),
    d0_par2 = cms.vdouble( 0.9, 3.0 ),
    d0_par1 = cms.vdouble( 0.85, 3.0 ),
    res_par = cms.vdouble( 0.003, 0.001 ),
    minHitsToBypassChecks = cms.uint32( 20 )
)
process.hltIter1PFlowTrackSelectionHighPurityTight = cms.EDProducer( "AnalyticalTrackSelector",
    max_d0 = cms.double( 100.0 ),
    minNumber3DLayers = cms.uint32( 0 ),
    max_lostHitFraction = cms.double( 1.0 ),
    applyAbsCutsIfNoPV = cms.bool( False ),
    qualityBit = cms.string( "highPurity" ),
    minNumberLayers = cms.uint32( 5 ),
    chi2n_par = cms.double( 0.4 ),
    useVtxError = cms.bool( False ),
    nSigmaZ = cms.double( 3.0 ),
    dz_par2 = cms.vdouble( 1.0, 4.0 ),
    applyAdaptedPVCuts = cms.bool( True ),
    min_eta = cms.double( -9999.0 ),
    dz_par1 = cms.vdouble( 1.0, 4.0 ),
    copyTrajectories = cms.untracked.bool( True ),
    vtxNumber = cms.int32( -1 ),
    max_d0NoPV = cms.double( 100.0 ),
    keepAllTracks = cms.bool( False ),
    maxNumberLostLayers = cms.uint32( 1 ),
    beamspot = cms.InputTag( "hltOnlineBeamSpot" ),
    max_relpterr = cms.double( 9999.0 ),
    copyExtras = cms.untracked.bool( True ),
    max_z0NoPV = cms.double( 100.0 ),
    vertexCut = cms.string( "tracksSize>=3" ),
    max_z0 = cms.double( 100.0 ),
    useVertices = cms.bool( True ),
    min_nhits = cms.uint32( 0 ),
    src = cms.InputTag( "hltIter1PFlowCtfWithMaterialTracks" ),
    max_minMissHitOutOrIn = cms.int32( 99 ),
    chi2n_no1Dmod_par = cms.double( 9999.0 ),
    vertices = cms.InputTag( "hltTrimmedPixelVertices" ),
    max_eta = cms.double( 9999.0 ),
    d0_par2 = cms.vdouble( 1.0, 4.0 ),
    d0_par1 = cms.vdouble( 1.0, 4.0 ),
    res_par = cms.vdouble( 0.003, 0.001 ),
    minHitsToBypassChecks = cms.uint32( 20 )
)
process.hltIter1PFlowTrackSelectionHighPurity = cms.EDProducer( "SimpleTrackListMerger",
    ShareFrac = cms.double( 0.19 ),
    promoteTrackQuality = cms.bool( True ),
    MinPT = cms.double( 0.05 ),
    copyExtras = cms.untracked.bool( True ),
    Epsilon = cms.double( -0.001 ),
    allowFirstHitShare = cms.bool( True ),
    newQuality = cms.string( "confirmed" ),
    MaxNormalizedChisq = cms.double( 1000.0 ),
    TrackProducer1 = cms.string( "hltIter1PFlowTrackSelectionHighPurityLoose" ),
    MinFound = cms.int32( 3 ),
    TrackProducer2 = cms.string( "hltIter1PFlowTrackSelectionHighPurityTight" ),
    LostHitPenalty = cms.double( 20.0 ),
    FoundHitBonus = cms.double( 5.0 )
)
process.hltIter1Merged = cms.EDProducer( "SimpleTrackListMerger",
    ShareFrac = cms.double( 0.19 ),
    promoteTrackQuality = cms.bool( True ),
    MinPT = cms.double( 0.05 ),
    copyExtras = cms.untracked.bool( True ),
    Epsilon = cms.double( -0.001 ),
    allowFirstHitShare = cms.bool( True ),
    newQuality = cms.string( "confirmed" ),
    MaxNormalizedChisq = cms.double( 1000.0 ),
    TrackProducer1 = cms.string( "hltIter0PFlowTrackSelectionHighPurity" ),
    MinFound = cms.int32( 3 ),
    TrackProducer2 = cms.string( "hltIter1PFlowTrackSelectionHighPurity" ),
    LostHitPenalty = cms.double( 20.0 ),
    FoundHitBonus = cms.double( 5.0 )
)
process.hltIter1TrackRefsForJets4Iter2 = cms.EDProducer( "ChargedRefCandidateProducer",
    src = cms.InputTag( "hltIter1Merged" ),
    particleType = cms.string( "pi+" )
)
process.hltAK4Iter1TrackJets4Iter2 = cms.EDProducer( "FastjetJetProducer",
    Active_Area_Repeats = cms.int32( 5 ),
    doAreaFastjet = cms.bool( False ),
    voronoiRfact = cms.double( 0.9 ),
    maxBadHcalCells = cms.uint32( 9999999 ),
    doAreaDiskApprox = cms.bool( False ),
    maxRecoveredEcalCells = cms.uint32( 9999999 ),
    jetType = cms.string( "TrackJet" ),
    minSeed = cms.uint32( 14327 ),
    Ghost_EtaMax = cms.double( 6.0 ),
    doRhoFastjet = cms.bool( False ),
    jetAlgorithm = cms.string( "AntiKt" ),
    nSigmaPU = cms.double( 1.0 ),
    GhostArea = cms.double( 0.01 ),
    Rho_EtaMax = cms.double( 4.4 ),
    maxBadEcalCells = cms.uint32( 9999999 ),
    useDeterministicSeed = cms.bool( True ),
    doPVCorrection = cms.bool( False ),
    maxRecoveredHcalCells = cms.uint32( 9999999 ),
    rParam = cms.double( 0.4 ),
    maxProblematicHcalCells = cms.uint32( 9999999 ),
    doOutputJets = cms.bool( True ),
    src = cms.InputTag( "hltIter1TrackRefsForJets4Iter2" ),
    inputEtMin = cms.double( 0.1 ),
    puPtMin = cms.double( 0.0 ),
    srcPVs = cms.InputTag( "hltTrimmedPixelVertices" ),
    jetPtMin = cms.double( 7.5 ),
    radiusPU = cms.double( 0.4 ),
    maxProblematicEcalCells = cms.uint32( 9999999 ),
    doPUOffsetCorr = cms.bool( False ),
    inputEMin = cms.double( 0.0 ),
    useMassDropTagger = cms.bool( False ),
    muMin = cms.double( -1.0 ),
    subtractorName = cms.string( "" ),
    muCut = cms.double( -1.0 ),
    subjetPtMin = cms.double( -1.0 ),
    useTrimming = cms.bool( False ),
    muMax = cms.double( -1.0 ),
    yMin = cms.double( -1.0 ),
    useFiltering = cms.bool( False ),
    rFilt = cms.double( -1.0 ),
    yMax = cms.double( -1.0 ),
    zcut = cms.double( -1.0 ),
    MinVtxNdof = cms.int32( 0 ),
    MaxVtxZ = cms.double( 30.0 ),
    UseOnlyVertexTracks = cms.bool( False ),
    dRMin = cms.double( -1.0 ),
    nFilt = cms.int32( -1 ),
    usePruning = cms.bool( False ),
    maxDepth = cms.int32( -1 ),
    yCut = cms.double( -1.0 ),
    DzTrVtxMax = cms.double( 0.5 ),
    UseOnlyOnePV = cms.bool( True ),
    rcut_factor = cms.double( -1.0 ),
    sumRecHits = cms.bool( False ),
    trimPtFracMin = cms.double( -1.0 ),
    dRMax = cms.double( -1.0 ),
    DxyTrVtxMax = cms.double( 0.2 ),
    useCMSBoostedTauSeedingAlgorithm = cms.bool( False )
)
process.hltIter1TrackAndTauJets4Iter2 = cms.EDProducer( "TauJetSelectorForHLTTrackSeeding",
    fractionMinCaloInTauCone = cms.double( 0.7 ),
    fractionMaxChargedPUInCaloCone = cms.double( 0.3 ),
    tauConeSize = cms.double( 0.2 ),
    ptTrkMaxInCaloCone = cms.double( 1.4 ),
    isolationConeSize = cms.double( 0.5 ),
    inputTrackJetTag = cms.InputTag( "hltAK4Iter1TrackJets4Iter2" ),
    nTrkMaxInCaloCone = cms.int32( 0 ),
    inputCaloJetTag = cms.InputTag( "hltAK4CaloJetsPFEt5" ),
    etaMinCaloJet = cms.double( -2.7 ),
    etaMaxCaloJet = cms.double( 2.7 ),
    ptMinCaloJet = cms.double( 5.0 ),
    inputTrackTag = cms.InputTag( "hltIter1Merged" )
)
process.hltIter2ClustersRefRemoval = cms.EDProducer( "HLTTrackClusterRemoverNew",
    doStrip = cms.bool( True ),
    doStripChargeCheck = cms.bool( False ),
    trajectories = cms.InputTag( "hltIter1PFlowTrackSelectionHighPurity" ),
    oldClusterRemovalInfo = cms.InputTag( "hltIter1ClustersRefRemoval" ),
    stripClusters = cms.InputTag( "hltSiStripRawToClustersFacility" ),
    pixelClusters = cms.InputTag( "hltSiPixelClusters" ),
    Common = cms.PSet(  maxChi2 = cms.double( 16.0 ) ),
    doPixel = cms.bool( True )
)
process.hltIter2MaskedMeasurementTrackerEvent = cms.EDProducer( "MaskedMeasurementTrackerEventProducer",
    clustersToSkip = cms.InputTag( "hltIter2ClustersRefRemoval" ),
    OnDemand = cms.bool( False ),
    src = cms.InputTag( "hltSiStripClusters" )
)
process.hltIter2PixelLayerPairs = cms.EDProducer( "SeedingLayersEDProducer",
    layerList = cms.vstring( 'BPix1+BPix2',
      'BPix1+BPix3',
      'BPix2+BPix3',
      'BPix1+FPix1_pos',
      'BPix1+FPix1_neg',
      'BPix1+FPix2_pos',
      'BPix1+FPix2_neg',
      'BPix2+FPix1_pos',
      'BPix2+FPix1_neg',
      'BPix2+FPix2_pos',
      'BPix2+FPix2_neg',
      'FPix1_pos+FPix2_pos',
      'FPix1_neg+FPix2_neg' ),
    MTOB = cms.PSet(  ),
    TEC = cms.PSet(  ),
    MTID = cms.PSet(  ),
    FPix = cms.PSet( 
      HitProducer = cms.string( "hltSiPixelRecHits" ),
      hitErrorRZ = cms.double( 0.0036 ),
      useErrorsFromParam = cms.bool( True ),
      TTRHBuilder = cms.string( "hltESPTTRHBuilderPixelOnly" ),
      skipClusters = cms.InputTag( "hltIter2ClustersRefRemoval" ),
      hitErrorRPhi = cms.double( 0.0051 )
    ),
    MTEC = cms.PSet(  ),
    MTIB = cms.PSet(  ),
    TID = cms.PSet(  ),
    TOB = cms.PSet(  ),
    BPix = cms.PSet( 
      HitProducer = cms.string( "hltSiPixelRecHits" ),
      hitErrorRZ = cms.double( 0.006 ),
      useErrorsFromParam = cms.bool( True ),
      TTRHBuilder = cms.string( "hltESPTTRHBuilderPixelOnly" ),
      skipClusters = cms.InputTag( "hltIter2ClustersRefRemoval" ),
      hitErrorRPhi = cms.double( 0.0027 )
    ),
    TIB = cms.PSet(  )
)
process.hltIter2PFlowPixelSeeds = cms.EDProducer( "SeedGeneratorFromRegionHitsEDProducer",
    RegionFactoryPSet = cms.PSet( 
      ComponentName = cms.string( "CandidateSeededTrackingRegionsProducer" ),
      RegionPSet = cms.PSet( 
        precise = cms.bool( True ),
        originRadius = cms.double( 0.025 ),
        searchOpt = cms.bool( True ),
        originZPos = cms.double( 0.0 ),
        ptMin = cms.double( 1.2 ),
        measurementTrackerName = cms.string( "hltIter2MaskedMeasurementTrackerEvent" ),
        mode = cms.string( "VerticesFixed" ),
        maxNRegions = cms.int32( 100 ),
        maxNVertices = cms.int32( 10 ),
        deltaPhi = cms.double( 0.8 ),
        deltaEta = cms.double( 0.8 ),
        zErrorBeamSpot = cms.double( 15.0 ),
        nSigmaZBeamSpot = cms.double( 3.0 ),
        zErrorVetex = cms.double( 0.05 ),
        vertexCollection = cms.InputTag( "hltTrimmedPixelVertices" ),
        beamSpot = cms.InputTag( "hltOnlineBeamSpot" ),
        input = cms.InputTag( "hltIter1TrackAndTauJets4Iter2" )
      )
    ),
    SeedComparitorPSet = cms.PSet(  ComponentName = cms.string( "none" ) ),
    ClusterCheckPSet = cms.PSet( 
      PixelClusterCollectionLabel = cms.InputTag( "hltSiPixelClusters" ),
      MaxNumberOfCosmicClusters = cms.uint32( 50000 ),
      doClusterCheck = cms.bool( False ),
      ClusterCollectionLabel = cms.InputTag( "hltSiStripClusters" ),
      MaxNumberOfPixelClusters = cms.uint32( 10000 )
    ),
    OrderedHitsFactoryPSet = cms.PSet( 
      maxElement = cms.uint32( 0 ),
      ComponentName = cms.string( "StandardHitPairGenerator" ),
      GeneratorPSet = cms.PSet( 
        maxElement = cms.uint32( 100000 ),
        SeedComparitorPSet = cms.PSet(  ComponentName = cms.string( "none" ) )
      ),
      SeedingLayers = cms.InputTag( "hltIter2PixelLayerPairs" )
    ),
    SeedCreatorPSet = cms.PSet( 
      ComponentName = cms.string( "SeedFromConsecutiveHitsCreator" ),
      propagator = cms.string( "PropagatorWithMaterialParabolicMf" )
    ),
    TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" )
)
process.hltIter2PFlowCkfTrackCandidates = cms.EDProducer( "CkfTrackCandidateMaker",
    src = cms.InputTag( "hltIter2PFlowPixelSeeds" ),
    maxSeedsBeforeCleaning = cms.uint32( 1000 ),
    SimpleMagneticField = cms.string( "ParabolicMf" ),
    TransientInitialStateEstimatorParameters = cms.PSet( 
      propagatorAlongTISE = cms.string( "PropagatorWithMaterialParabolicMf" ),
      numberMeasurementsForFit = cms.int32( 4 ),
      propagatorOppositeTISE = cms.string( "PropagatorWithMaterialParabolicMfOpposite" )
    ),
    TrajectoryCleaner = cms.string( "hltESPTrajectoryCleanerBySharedHits" ),
    MeasurementTrackerEvent = cms.InputTag( "hltIter2MaskedMeasurementTrackerEvent" ),
    cleanTrajectoryAfterInOut = cms.bool( False ),
    useHitsSplitting = cms.bool( False ),
    RedundantSeedCleaner = cms.string( "CachingSeedCleanerBySharedInput" ),
    doSeedingRegionRebuilding = cms.bool( False ),
    maxNSeeds = cms.uint32( 100000 ),
    TrajectoryBuilderPSet = cms.PSet(  refToPSet_ = cms.string( "HLTIter2PSetTrajectoryBuilderIT" ) ),
    NavigationSchool = cms.string( "SimpleNavigationSchool" ),
    TrajectoryBuilder = cms.string( "" )
)
process.hltIter2PFlowCtfWithMaterialTracks = cms.EDProducer( "TrackProducer",
    src = cms.InputTag( "hltIter2PFlowCkfTrackCandidates" ),
    SimpleMagneticField = cms.string( "ParabolicMf" ),
    clusterRemovalInfo = cms.InputTag( "" ),
    beamSpot = cms.InputTag( "hltOnlineBeamSpot" ),
    MeasurementTrackerEvent = cms.InputTag( "hltIter2MaskedMeasurementTrackerEvent" ),
    Fitter = cms.string( "hltESPFittingSmootherIT" ),
    useHitsSplitting = cms.bool( False ),
    MeasurementTracker = cms.string( "" ),
    AlgorithmName = cms.string( "hltIter2" ),
    alias = cms.untracked.string( "ctfWithMaterialTracks" ),
    NavigationSchool = cms.string( "" ),
    TrajectoryInEvent = cms.bool( True ),
    TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
    GeometricInnerState = cms.bool( True ),
    useSimpleMF = cms.bool( True ),
    Propagator = cms.string( "hltESPRungeKuttaTrackerPropagator" )
)
process.hltIter2PFlowTrackSelectionHighPurity = cms.EDProducer( "AnalyticalTrackSelector",
    max_d0 = cms.double( 100.0 ),
    minNumber3DLayers = cms.uint32( 0 ),
    max_lostHitFraction = cms.double( 1.0 ),
    applyAbsCutsIfNoPV = cms.bool( False ),
    qualityBit = cms.string( "highPurity" ),
    minNumberLayers = cms.uint32( 3 ),
    chi2n_par = cms.double( 0.7 ),
    useVtxError = cms.bool( False ),
    nSigmaZ = cms.double( 3.0 ),
    dz_par2 = cms.vdouble( 0.4, 4.0 ),
    applyAdaptedPVCuts = cms.bool( True ),
    min_eta = cms.double( -9999.0 ),
    dz_par1 = cms.vdouble( 0.35, 4.0 ),
    copyTrajectories = cms.untracked.bool( True ),
    vtxNumber = cms.int32( -1 ),
    max_d0NoPV = cms.double( 100.0 ),
    keepAllTracks = cms.bool( False ),
    maxNumberLostLayers = cms.uint32( 1 ),
    beamspot = cms.InputTag( "hltOnlineBeamSpot" ),
    max_relpterr = cms.double( 9999.0 ),
    copyExtras = cms.untracked.bool( True ),
    max_z0NoPV = cms.double( 100.0 ),
    vertexCut = cms.string( "tracksSize>=3" ),
    max_z0 = cms.double( 100.0 ),
    useVertices = cms.bool( True ),
    min_nhits = cms.uint32( 0 ),
    src = cms.InputTag( "hltIter2PFlowCtfWithMaterialTracks" ),
    max_minMissHitOutOrIn = cms.int32( 99 ),
    chi2n_no1Dmod_par = cms.double( 9999.0 ),
    vertices = cms.InputTag( "hltTrimmedPixelVertices" ),
    max_eta = cms.double( 9999.0 ),
    d0_par2 = cms.vdouble( 0.4, 4.0 ),
    d0_par1 = cms.vdouble( 0.3, 4.0 ),
    res_par = cms.vdouble( 0.003, 0.001 ),
    minHitsToBypassChecks = cms.uint32( 20 )
)
process.hltIter2Merged = cms.EDProducer( "SimpleTrackListMerger",
    ShareFrac = cms.double( 0.19 ),
    promoteTrackQuality = cms.bool( True ),
    MinPT = cms.double( 0.05 ),
    copyExtras = cms.untracked.bool( True ),
    Epsilon = cms.double( -0.001 ),
    allowFirstHitShare = cms.bool( True ),
    newQuality = cms.string( "confirmed" ),
    MaxNormalizedChisq = cms.double( 1000.0 ),
    TrackProducer1 = cms.string( "hltIter1Merged" ),
    MinFound = cms.int32( 3 ),
    TrackProducer2 = cms.string( "hltIter2PFlowTrackSelectionHighPurity" ),
    LostHitPenalty = cms.double( 20.0 ),
    FoundHitBonus = cms.double( 5.0 )
)
process.hltPFMuonMerging = cms.EDProducer( "SimpleTrackListMerger",
    ShareFrac = cms.double( 0.19 ),
    promoteTrackQuality = cms.bool( True ),
    MinPT = cms.double( 0.05 ),
    copyExtras = cms.untracked.bool( True ),
    Epsilon = cms.double( -0.001 ),
    allowFirstHitShare = cms.bool( True ),
    newQuality = cms.string( "confirmed" ),
    MaxNormalizedChisq = cms.double( 1000.0 ),
    TrackProducer1 = cms.string( "hltL3TkTracksFromL2" ),
    MinFound = cms.int32( 3 ),
    TrackProducer2 = cms.string( "hltIter2Merged" ),
    LostHitPenalty = cms.double( 20.0 ),
    FoundHitBonus = cms.double( 5.0 )
)
process.hltMuonLinks = cms.EDProducer( "MuonLinksProducerForHLT",
    pMin = cms.double( 2.5 ),
    InclusiveTrackerTrackCollection = cms.InputTag( "hltPFMuonMerging" ),
    shareHitFraction = cms.double( 0.8 ),
    LinkCollection = cms.InputTag( "hltL3MuonsLinksCombination" ),
    ptMin = cms.double( 2.5 )
)
process.hltMuons = cms.EDProducer( "MuonIdProducer",
    TrackExtractorPSet = cms.PSet( 
      Diff_z = cms.double( 0.2 ),
      inputTrackCollection = cms.InputTag( "hltPFMuonMerging" ),
      BeamSpotLabel = cms.InputTag( "hltOnlineBeamSpot" ),
      ComponentName = cms.string( "TrackExtractor" ),
      DR_Max = cms.double( 1.0 ),
      Diff_r = cms.double( 0.1 ),
      Chi2Prob_Min = cms.double( -1.0 ),
      DR_Veto = cms.double( 0.01 ),
      NHits_Min = cms.uint32( 0 ),
      Chi2Ndof_Max = cms.double( 1.0E64 ),
      Pt_Min = cms.double( -1.0 ),
      DepositLabel = cms.untracked.string( "" ),
      BeamlineOption = cms.string( "BeamSpotFromEvent" )
    ),
    maxAbsEta = cms.double( 3.0 ),
    fillGlobalTrackRefits = cms.bool( False ),
    arbitrationCleanerOptions = cms.PSet( 
      Clustering = cms.bool( True ),
      ME1a = cms.bool( True ),
      ClusterDPhi = cms.double( 0.6 ),
      OverlapDTheta = cms.double( 0.02 ),
      Overlap = cms.bool( True ),
      OverlapDPhi = cms.double( 0.0786 ),
      ClusterDTheta = cms.double( 0.02 )
    ),
    globalTrackQualityInputTag = cms.InputTag( "glbTrackQual" ),
    addExtraSoftMuons = cms.bool( False ),
    debugWithTruthMatching = cms.bool( False ),
    CaloExtractorPSet = cms.PSet( 
      PrintTimeReport = cms.untracked.bool( False ),
      DR_Max = cms.double( 1.0 ),
      DepositInstanceLabels = cms.vstring( 'ecal',
        'hcal',
        'ho' ),
      Noise_HE = cms.double( 0.2 ),
      NoiseTow_EB = cms.double( 0.04 ),
      NoiseTow_EE = cms.double( 0.15 ),
      Threshold_H = cms.double( 0.5 ),
      ServiceParameters = cms.PSet( 
        Propagators = cms.untracked.vstring( 'hltESPFastSteppingHelixPropagatorAny' ),
        RPCLayers = cms.bool( False ),
        UseMuonNavigation = cms.untracked.bool( False )
      ),
      Threshold_E = cms.double( 0.2 ),
      PropagatorName = cms.string( "hltESPFastSteppingHelixPropagatorAny" ),
      DepositLabel = cms.untracked.string( "Cal" ),
      UseRecHitsFlag = cms.bool( False ),
      TrackAssociatorParameters = cms.PSet( 
        muonMaxDistanceSigmaX = cms.double( 0.0 ),
        muonMaxDistanceSigmaY = cms.double( 0.0 ),
        CSCSegmentCollectionLabel = cms.InputTag( "hltCscSegments" ),
        dRHcal = cms.double( 1.0 ),
        dRPreshowerPreselection = cms.double( 0.2 ),
        CaloTowerCollectionLabel = cms.InputTag( "hltTowerMakerForPF" ),
        useEcal = cms.bool( False ),
        dREcal = cms.double( 1.0 ),
        dREcalPreselection = cms.double( 1.0 ),
        HORecHitCollectionLabel = cms.InputTag( "hltHoreco" ),
        dRMuon = cms.double( 9999.0 ),
        propagateAllDirections = cms.bool( True ),
        muonMaxDistanceX = cms.double( 5.0 ),
        muonMaxDistanceY = cms.double( 5.0 ),
        useHO = cms.bool( False ),
        trajectoryUncertaintyTolerance = cms.double( -1.0 ),
        usePreshower = cms.bool( False ),
        DTRecSegment4DCollectionLabel = cms.InputTag( "hltDt4DSegments" ),
        EERecHitCollectionLabel = cms.InputTag( 'hltEcalRecHit','EcalRecHitsEE' ),
        dRHcalPreselection = cms.double( 1.0 ),
        useMuon = cms.bool( False ),
        useCalo = cms.bool( True ),
        accountForTrajectoryChangeCalo = cms.bool( False ),
        EBRecHitCollectionLabel = cms.InputTag( 'hltEcalRecHit','EcalRecHitsEB' ),
        dRMuonPreselection = cms.double( 0.2 ),
        truthMatch = cms.bool( False ),
        HBHERecHitCollectionLabel = cms.InputTag( "hltHbhereco" ),
        useHcal = cms.bool( False )
      ),
      Threshold_HO = cms.double( 0.5 ),
      Noise_EE = cms.double( 0.1 ),
      Noise_EB = cms.double( 0.025 ),
      DR_Veto_H = cms.double( 0.1 ),
      CenterConeOnCalIntersection = cms.bool( False ),
      ComponentName = cms.string( "CaloExtractorByAssociator" ),
      Noise_HB = cms.double( 0.2 ),
      DR_Veto_E = cms.double( 0.07 ),
      DR_Veto_HO = cms.double( 0.1 ),
      Noise_HO = cms.double( 0.2 )
    ),
    runArbitrationCleaner = cms.bool( False ),
    fillEnergy = cms.bool( True ),
    TrackerKinkFinderParameters = cms.PSet( 
      usePosition = cms.bool( False ),
      diagonalOnly = cms.bool( False )
    ),
    TimingFillerParameters = cms.PSet( 
      UseDT = cms.bool( True ),
      ErrorDT = cms.double( 6.0 ),
      EcalEnergyCut = cms.double( 0.4 ),
      ErrorEB = cms.double( 2.085 ),
      ErrorCSC = cms.double( 7.4 ),
      CSCTimingParameters = cms.PSet( 
        CSCsegments = cms.InputTag( "hltCscSegments" ),
        CSCTimeOffset = cms.double( 0.0 ),
        CSCStripTimeOffset = cms.double( 0.0 ),
        MatchParameters = cms.PSet( 
          CSCsegments = cms.InputTag( "hltCscSegments" ),
          DTsegments = cms.InputTag( "hltDt4DSegments" ),
          DTradius = cms.double( 0.01 ),
          TightMatchDT = cms.bool( False ),
          TightMatchCSC = cms.bool( True )
        ),
        debug = cms.bool( False ),
        UseStripTime = cms.bool( True ),
        CSCStripError = cms.double( 7.0 ),
        CSCWireError = cms.double( 8.6 ),
        CSCWireTimeOffset = cms.double( 0.0 ),
        ServiceParameters = cms.PSet( 
          Propagators = cms.untracked.vstring( 'hltESPFastSteppingHelixPropagatorAny' ),
          RPCLayers = cms.bool( True )
        ),
        PruneCut = cms.double( 100.0 ),
        UseWireTime = cms.bool( True )
      ),
      DTTimingParameters = cms.PSet( 
        HitError = cms.double( 6.0 ),
        DoWireCorr = cms.bool( False ),
        MatchParameters = cms.PSet( 
          CSCsegments = cms.InputTag( "hltCscSegments" ),
          DTsegments = cms.InputTag( "hltDt4DSegments" ),
          DTradius = cms.double( 0.01 ),
          TightMatchDT = cms.bool( False ),
          TightMatchCSC = cms.bool( True )
        ),
        debug = cms.bool( False ),
        DTsegments = cms.InputTag( "hltDt4DSegments" ),
        PruneCut = cms.double( 10000.0 ),
        RequireBothProjections = cms.bool( False ),
        HitsMin = cms.int32( 5 ),
        DTTimeOffset = cms.double( 2.7 ),
        DropTheta = cms.bool( True ),
        UseSegmentT0 = cms.bool( False ),
        ServiceParameters = cms.PSet( 
          Propagators = cms.untracked.vstring( 'hltESPFastSteppingHelixPropagatorAny' ),
          RPCLayers = cms.bool( True )
        )
      ),
      ErrorEE = cms.double( 6.95 ),
      UseCSC = cms.bool( True ),
      UseECAL = cms.bool( True )
    ),
    inputCollectionTypes = cms.vstring( 'inner tracks',
      'links',
      'outer tracks' ),
    minCaloCompatibility = cms.double( 0.6 ),
    ecalDepositName = cms.string( "ecal" ),
    minP = cms.double( 10.0 ),
    fillIsolation = cms.bool( True ),
    jetDepositName = cms.string( "jets" ),
    hoDepositName = cms.string( "ho" ),
    writeIsoDeposits = cms.bool( False ),
    maxAbsPullX = cms.double( 4.0 ),
    maxAbsPullY = cms.double( 9999.0 ),
    minPt = cms.double( 10.0 ),
    TrackAssociatorParameters = cms.PSet( 
      muonMaxDistanceSigmaX = cms.double( 0.0 ),
      muonMaxDistanceSigmaY = cms.double( 0.0 ),
      CSCSegmentCollectionLabel = cms.InputTag( "hltCscSegments" ),
      dRHcal = cms.double( 9999.0 ),
      dRPreshowerPreselection = cms.double( 0.2 ),
      CaloTowerCollectionLabel = cms.InputTag( "hltTowerMakerForPF" ),
      useEcal = cms.bool( True ),
      dREcal = cms.double( 9999.0 ),
      dREcalPreselection = cms.double( 0.05 ),
      HORecHitCollectionLabel = cms.InputTag( "hltHoreco" ),
      dRMuon = cms.double( 9999.0 ),
      propagateAllDirections = cms.bool( True ),
      muonMaxDistanceX = cms.double( 5.0 ),
      muonMaxDistanceY = cms.double( 5.0 ),
      useHO = cms.bool( True ),
      trajectoryUncertaintyTolerance = cms.double( -1.0 ),
      usePreshower = cms.bool( False ),
      DTRecSegment4DCollectionLabel = cms.InputTag( "hltDt4DSegments" ),
      EERecHitCollectionLabel = cms.InputTag( 'hltEcalRecHit','EcalRecHitsEE' ),
      dRHcalPreselection = cms.double( 0.2 ),
      useMuon = cms.bool( True ),
      useCalo = cms.bool( False ),
      accountForTrajectoryChangeCalo = cms.bool( False ),
      EBRecHitCollectionLabel = cms.InputTag( 'hltEcalRecHit','EcalRecHitsEB' ),
      dRMuonPreselection = cms.double( 0.2 ),
      truthMatch = cms.bool( False ),
      HBHERecHitCollectionLabel = cms.InputTag( "hltHbhereco" ),
      useHcal = cms.bool( True )
    ),
    JetExtractorPSet = cms.PSet( 
      PrintTimeReport = cms.untracked.bool( False ),
      ExcludeMuonVeto = cms.bool( True ),
      TrackAssociatorParameters = cms.PSet( 
        muonMaxDistanceSigmaX = cms.double( 0.0 ),
        muonMaxDistanceSigmaY = cms.double( 0.0 ),
        CSCSegmentCollectionLabel = cms.InputTag( "hltCscSegments" ),
        dRHcal = cms.double( 0.5 ),
        dRPreshowerPreselection = cms.double( 0.2 ),
        CaloTowerCollectionLabel = cms.InputTag( "hltTowerMakerForPF" ),
        useEcal = cms.bool( False ),
        dREcal = cms.double( 0.5 ),
        dREcalPreselection = cms.double( 0.5 ),
        HORecHitCollectionLabel = cms.InputTag( "hltHoreco" ),
        dRMuon = cms.double( 9999.0 ),
        propagateAllDirections = cms.bool( True ),
        muonMaxDistanceX = cms.double( 5.0 ),
        muonMaxDistanceY = cms.double( 5.0 ),
        useHO = cms.bool( False ),
        trajectoryUncertaintyTolerance = cms.double( -1.0 ),
        usePreshower = cms.bool( False ),
        DTRecSegment4DCollectionLabel = cms.InputTag( "hltDt4DSegments" ),
        EERecHitCollectionLabel = cms.InputTag( 'hltEcalRecHit','EcalRecHitsEE' ),
        dRHcalPreselection = cms.double( 0.5 ),
        useMuon = cms.bool( False ),
        useCalo = cms.bool( True ),
        accountForTrajectoryChangeCalo = cms.bool( False ),
        EBRecHitCollectionLabel = cms.InputTag( 'hltEcalRecHit','EcalRecHitsEB' ),
        dRMuonPreselection = cms.double( 0.2 ),
        truthMatch = cms.bool( False ),
        HBHERecHitCollectionLabel = cms.InputTag( "hltHbhereco" ),
        useHcal = cms.bool( False )
      ),
      ServiceParameters = cms.PSet( 
        Propagators = cms.untracked.vstring( 'hltESPFastSteppingHelixPropagatorAny' ),
        RPCLayers = cms.bool( False ),
        UseMuonNavigation = cms.untracked.bool( False )
      ),
      ComponentName = cms.string( "JetExtractor" ),
      DR_Max = cms.double( 1.0 ),
      PropagatorName = cms.string( "hltESPFastSteppingHelixPropagatorAny" ),
      JetCollectionLabel = cms.InputTag( "hltAK4CaloJetsPFEt5" ),
      DR_Veto = cms.double( 0.1 ),
      Threshold = cms.double( 5.0 )
    ),
    fillGlobalTrackQuality = cms.bool( False ),
    minPCaloMuon = cms.double( 1.0E9 ),
    maxAbsDy = cms.double( 9999.0 ),
    fillCaloCompatibility = cms.bool( True ),
    fillMatching = cms.bool( True ),
    MuonCaloCompatibility = cms.PSet( 
      allSiPMHO = cms.bool( False ),
      PionTemplateFileName = cms.FileInPath( "RecoMuon/MuonIdentification/data/MuID_templates_pions_lowPt_3_1_norm.root" ),
      MuonTemplateFileName = cms.FileInPath( "RecoMuon/MuonIdentification/data/MuID_templates_muons_lowPt_3_1_norm.root" ),
      delta_eta = cms.double( 0.02 ),
      delta_phi = cms.double( 0.02 )
    ),
    fillTrackerKink = cms.bool( False ),
    hcalDepositName = cms.string( "hcal" ),
    sigmaThresholdToFillCandidateP4WithGlobalFit = cms.double( 2.0 ),
    inputCollectionLabels = cms.VInputTag( 'hltPFMuonMerging','hltMuonLinks','hltL2Muons' ),
    trackDepositName = cms.string( "tracker" ),
    maxAbsDx = cms.double( 3.0 ),
    ptThresholdToFillCandidateP4WithGlobalFit = cms.double( 200.0 ),
    minNumberOfMatches = cms.int32( 1 )
)
process.hltParticleFlowRecHitECALUnseeded = cms.EDProducer( "PFRecHitProducer",
    producers = cms.VPSet( 
      cms.PSet(  src = cms.InputTag( 'hltEcalRecHit','EcalRecHitsEB' ),
        qualityTests = cms.VPSet( 
          cms.PSet(  threshold = cms.double( 0.08 ),
            name = cms.string( "PFRecHitQTestThreshold" )
          ),
          cms.PSet(  timingCleaning = cms.bool( True ),
            topologicalCleaning = cms.bool( True ),
            cleaningThreshold = cms.double( 2.0 ),
            skipTTRecoveredHits = cms.bool( True ),
            name = cms.string( "PFRecHitQTestECAL" )
          )
        ),
        name = cms.string( "PFEBRecHitCreator" )
      ),
      cms.PSet(  src = cms.InputTag( 'hltEcalRecHit','EcalRecHitsEE' ),
        qualityTests = cms.VPSet( 
          cms.PSet(  threshold = cms.double( 0.3 ),
            name = cms.string( "PFRecHitQTestThreshold" )
          ),
          cms.PSet(  timingCleaning = cms.bool( True ),
            topologicalCleaning = cms.bool( True ),
            cleaningThreshold = cms.double( 2.0 ),
            skipTTRecoveredHits = cms.bool( True ),
            name = cms.string( "PFRecHitQTestECAL" )
          )
        ),
        name = cms.string( "PFEERecHitCreator" )
      )
    ),
    navigator = cms.PSet( 
      barrel = cms.PSet(  ),
      endcap = cms.PSet(  ),
      name = cms.string( "PFRecHitECALNavigator" )
    )
)
process.hltParticleFlowRecHitHCAL = cms.EDProducer( "PFCTRecHitProducer",
    ECAL_Compensate = cms.bool( False ),
    ECAL_Dead_Code = cms.uint32( 10 ),
    MinLongTiming_Cut = cms.double( -5.0 ),
    ECAL_Compensation = cms.double( 0.5 ),
    MaxLongTiming_Cut = cms.double( 5.0 ),
    weight_HFhad = cms.double( 1.0 ),
    ApplyPulseDPG = cms.bool( False ),
    navigator = cms.PSet(  name = cms.string( "PFRecHitCaloTowerNavigator" ) ),
    ECAL_Threshold = cms.double( 10.0 ),
    ApplyTimeDPG = cms.bool( False ),
    caloTowers = cms.InputTag( "hltTowerMakerForPF" ),
    hcalRecHitsHBHE = cms.InputTag( "hltHbhereco" ),
    LongFibre_Fraction = cms.double( 0.1 ),
    MaxShortTiming_Cut = cms.double( 5.0 ),
    HcalMaxAllowedHFLongShortSev = cms.int32( 9 ),
    thresh_Barrel = cms.double( 0.4 ),
    navigation_HF = cms.bool( True ),
    HcalMaxAllowedHFInTimeWindowSev = cms.int32( 9 ),
    HF_Calib_29 = cms.double( 1.07 ),
    LongFibre_Cut = cms.double( 120.0 ),
    EM_Depth = cms.double( 22.0 ),
    weight_HFem = cms.double( 1.0 ),
    LongShortFibre_Cut = cms.double( 1.0E9 ),
    MinShortTiming_Cut = cms.double( -5.0 ),
    HCAL_Calib = cms.bool( True ),
    thresh_HF = cms.double( 0.4 ),
    HcalMaxAllowedHFDigiTimeSev = cms.int32( 9 ),
    thresh_Endcap = cms.double( 0.4 ),
    HcalMaxAllowedChannelStatusSev = cms.int32( 9 ),
    hcalRecHitsHF = cms.InputTag( "hltHfreco" ),
    ShortFibre_Cut = cms.double( 60.0 ),
    ApplyLongShortDPG = cms.bool( True ),
    HF_Calib = cms.bool( True ),
    HAD_Depth = cms.double( 47.0 ),
    ShortFibre_Fraction = cms.double( 0.01 ),
    HCAL_Calib_29 = cms.double( 1.35 )
)
process.hltParticleFlowRecHitPSUnseeded = cms.EDProducer( "PFRecHitProducer",
    producers = cms.VPSet( 
      cms.PSet(  src = cms.InputTag( 'hltEcalPreshowerRecHit','EcalRecHitsES' ),
        qualityTests = cms.VPSet( 
          cms.PSet(  threshold = cms.double( 7.0E-6 ),
            name = cms.string( "PFRecHitQTestThreshold" )
          )
        ),
        name = cms.string( "PFPSRecHitCreator" )
      )
    ),
    navigator = cms.PSet(  name = cms.string( "PFRecHitPreshowerNavigator" ) )
)
process.hltParticleFlowClusterECALUncorrectedUnseeded = cms.EDProducer( "PFClusterProducer",
    pfClusterBuilder = cms.PSet( 
      positionCalc = cms.PSet( 
        minFractionInCalc = cms.double( 1.0E-9 ),
        logWeightDenominator = cms.double( 0.08 ),
        minAllowedNormalization = cms.double( 1.0E-9 ),
        posCalcNCrystals = cms.int32( 9 ),
        algoName = cms.string( "Basic2DGenericPFlowPositionCalc" )
      ),
      minFracTot = cms.double( 1.0E-20 ),
      positionCalcForConvergence = cms.PSet( 
        minFractionInCalc = cms.double( 0.0 ),
        W0 = cms.double( 4.2 ),
        minAllowedNormalization = cms.double( 0.0 ),
        T0_EB = cms.double( 7.4 ),
        X0 = cms.double( 0.89 ),
        T0_ES = cms.double( 1.2 ),
        T0_EE = cms.double( 3.1 ),
        algoName = cms.string( "ECAL2DPositionCalcWithDepthCorr" )
      ),
      maxIterations = cms.uint32( 50 ),
      stoppingTolerance = cms.double( 1.0E-8 ),
      minFractionToKeep = cms.double( 1.0E-7 ),
      excludeOtherSeeds = cms.bool( True ),
      showerSigma = cms.double( 1.5 ),
      recHitEnergyNorms = cms.VPSet( 
        cms.PSet(  detector = cms.string( "ECAL_BARREL" ),
          recHitEnergyNorm = cms.double( 0.08 )
        ),
        cms.PSet(  detector = cms.string( "ECAL_ENDCAP" ),
          recHitEnergyNorm = cms.double( 0.3 )
        )
      ),
      algoName = cms.string( "Basic2DGenericPFlowClusterizer" ),
      allCellsPositionCalc = cms.PSet( 
        minFractionInCalc = cms.double( 1.0E-9 ),
        logWeightDenominator = cms.double( 0.08 ),
        minAllowedNormalization = cms.double( 1.0E-9 ),
        posCalcNCrystals = cms.int32( -1 ),
        algoName = cms.string( "Basic2DGenericPFlowPositionCalc" )
      )
    ),
    positionReCalc = cms.PSet( 
      minFractionInCalc = cms.double( 0.0 ),
      W0 = cms.double( 4.2 ),
      minAllowedNormalization = cms.double( 0.0 ),
      T0_EB = cms.double( 7.4 ),
      X0 = cms.double( 0.89 ),
      T0_ES = cms.double( 1.2 ),
      T0_EE = cms.double( 3.1 ),
      algoName = cms.string( "ECAL2DPositionCalcWithDepthCorr" )
    ),
    initialClusteringStep = cms.PSet( 
      thresholdsByDetector = cms.VPSet( 
        cms.PSet(  gatheringThreshold = cms.double( 0.08 ),
          detector = cms.string( "ECAL_BARREL" ),
          gatheringThresholdPt = cms.double( 0.0 )
        ),
        cms.PSet(  gatheringThreshold = cms.double( 0.3 ),
          detector = cms.string( "ECAL_ENDCAP" ),
          gatheringThresholdPt = cms.double( 0.0 )
        )
      ),
      useCornerCells = cms.bool( True ),
      algoName = cms.string( "Basic2DGenericTopoClusterizer" )
    ),
    energyCorrector = cms.PSet(  ),
    recHitCleaners = cms.VPSet( 
      cms.PSet(  cleaningByDetector = cms.VPSet( 
  cms.PSet(  doubleSpikeS6S2 = cms.double( 0.04 ),
    fractionThresholdModifier = cms.double( 3.0 ),
    doubleSpikeThresh = cms.double( 10.0 ),
    minS4S1_b = cms.double( -0.024 ),
    singleSpikeThresh = cms.double( 4.0 ),
    detector = cms.string( "ECAL_BARREL" ),
    minS4S1_a = cms.double( 0.04 ),
    energyThresholdModifier = cms.double( 2.0 )
  ),
  cms.PSet(  doubleSpikeS6S2 = cms.double( -1.0 ),
    fractionThresholdModifier = cms.double( 3.0 ),
    doubleSpikeThresh = cms.double( 1.0E9 ),
    minS4S1_b = cms.double( -0.0125 ),
    singleSpikeThresh = cms.double( 15.0 ),
    detector = cms.string( "ECAL_ENDCAP" ),
    minS4S1_a = cms.double( 0.02 ),
    energyThresholdModifier = cms.double( 2.0 )
  )
),
        algoName = cms.string( "SpikeAndDoubleSpikeCleaner" )
      )
    ),
    seedFinder = cms.PSet( 
      nNeighbours = cms.int32( 8 ),
      thresholdsByDetector = cms.VPSet( 
        cms.PSet(  seedingThreshold = cms.double( 0.6 ),
          seedingThresholdPt = cms.double( 0.15 ),
          detector = cms.string( "ECAL_ENDCAP" )
        ),
        cms.PSet(  seedingThreshold = cms.double( 0.23 ),
          seedingThresholdPt = cms.double( 0.0 ),
          detector = cms.string( "ECAL_BARREL" )
        )
      ),
      algoName = cms.string( "LocalMaximumSeedFinder" )
    ),
    recHitsSource = cms.InputTag( "hltParticleFlowRecHitECALUnseeded" )
)
process.hltParticleFlowClusterPSUnseeded = cms.EDProducer( "PFClusterProducer",
    pfClusterBuilder = cms.PSet( 
      minFracTot = cms.double( 1.0E-20 ),
      positionCalc = cms.PSet( 
        minFractionInCalc = cms.double( 1.0E-9 ),
        logWeightDenominator = cms.double( 6.0E-5 ),
        minAllowedNormalization = cms.double( 1.0E-9 ),
        posCalcNCrystals = cms.int32( -1 ),
        algoName = cms.string( "Basic2DGenericPFlowPositionCalc" )
      ),
      maxIterations = cms.uint32( 50 ),
      stoppingTolerance = cms.double( 1.0E-8 ),
      minFractionToKeep = cms.double( 1.0E-7 ),
      excludeOtherSeeds = cms.bool( True ),
      showerSigma = cms.double( 0.3 ),
      recHitEnergyNorms = cms.VPSet( 
        cms.PSet(  detector = cms.string( "PS1" ),
          recHitEnergyNorm = cms.double( 6.0E-5 )
        ),
        cms.PSet(  detector = cms.string( "PS2" ),
          recHitEnergyNorm = cms.double( 6.0E-5 )
        )
      ),
      algoName = cms.string( "Basic2DGenericPFlowClusterizer" )
    ),
    positionReCalc = cms.PSet(  ),
    initialClusteringStep = cms.PSet( 
      thresholdsByDetector = cms.VPSet( 
        cms.PSet(  gatheringThreshold = cms.double( 6.0E-5 ),
          detector = cms.string( "PS1" ),
          gatheringThresholdPt = cms.double( 0.0 )
        ),
        cms.PSet(  gatheringThreshold = cms.double( 6.0E-5 ),
          detector = cms.string( "PS2" ),
          gatheringThresholdPt = cms.double( 0.0 )
        )
      ),
      useCornerCells = cms.bool( False ),
      algoName = cms.string( "Basic2DGenericTopoClusterizer" )
    ),
    energyCorrector = cms.PSet(  ),
    recHitCleaners = cms.VPSet( 
    ),
    seedFinder = cms.PSet( 
      nNeighbours = cms.int32( 4 ),
      thresholdsByDetector = cms.VPSet( 
        cms.PSet(  seedingThreshold = cms.double( 1.2E-4 ),
          seedingThresholdPt = cms.double( 0.0 ),
          detector = cms.string( "PS1" )
        ),
        cms.PSet(  seedingThreshold = cms.double( 1.2E-4 ),
          seedingThresholdPt = cms.double( 0.0 ),
          detector = cms.string( "PS2" )
        )
      ),
      algoName = cms.string( "LocalMaximumSeedFinder" )
    ),
    recHitsSource = cms.InputTag( "hltParticleFlowRecHitPSUnseeded" )
)
process.hltParticleFlowClusterECALUnseeded = cms.EDProducer( "CorrectedECALPFClusterProducer",
    minimumPSEnergy = cms.double( 0.0 ),
    inputPS = cms.InputTag( "hltParticleFlowClusterPSUnseeded" ),
    energyCorrector = cms.PSet( 
      applyCrackCorrections = cms.bool( False ),
      algoName = cms.string( "PFClusterEMEnergyCorrector" )
    ),
    inputECAL = cms.InputTag( "hltParticleFlowClusterECALUncorrectedUnseeded" )
)
process.hltParticleFlowClusterHCAL = cms.EDProducer( "PFClusterProducer",
    pfClusterBuilder = cms.PSet( 
      positionCalc = cms.PSet( 
        minFractionInCalc = cms.double( 1.0E-9 ),
        logWeightDenominator = cms.double( 0.8 ),
        minAllowedNormalization = cms.double( 1.0E-9 ),
        posCalcNCrystals = cms.int32( 5 ),
        algoName = cms.string( "Basic2DGenericPFlowPositionCalc" )
      ),
      minFracTot = cms.double( 1.0E-20 ),
      maxIterations = cms.uint32( 50 ),
      stoppingTolerance = cms.double( 1.0E-8 ),
      minFractionToKeep = cms.double( 1.0E-7 ),
      excludeOtherSeeds = cms.bool( True ),
      showerSigma = cms.double( 10.0 ),
      recHitEnergyNorms = cms.VPSet( 
        cms.PSet(  detector = cms.string( "HCAL_BARREL1" ),
          recHitEnergyNorm = cms.double( 0.8 )
        ),
        cms.PSet(  detector = cms.string( "HCAL_ENDCAP" ),
          recHitEnergyNorm = cms.double( 0.8 )
        )
      ),
      algoName = cms.string( "Basic2DGenericPFlowClusterizer" ),
      allCellsPositionCalc = cms.PSet( 
        minFractionInCalc = cms.double( 1.0E-9 ),
        logWeightDenominator = cms.double( 0.8 ),
        minAllowedNormalization = cms.double( 1.0E-9 ),
        posCalcNCrystals = cms.int32( -1 ),
        algoName = cms.string( "Basic2DGenericPFlowPositionCalc" )
      )
    ),
    positionReCalc = cms.PSet(  ),
    initialClusteringStep = cms.PSet( 
      thresholdsByDetector = cms.VPSet( 
        cms.PSet(  gatheringThreshold = cms.double( 0.8 ),
          detector = cms.string( "HCAL_BARREL1" ),
          gatheringThresholdPt = cms.double( 0.0 )
        ),
        cms.PSet(  gatheringThreshold = cms.double( 0.8 ),
          detector = cms.string( "HCAL_ENDCAP" ),
          gatheringThresholdPt = cms.double( 0.0 )
        )
      ),
      useCornerCells = cms.bool( True ),
      algoName = cms.string( "Basic2DGenericTopoClusterizer" )
    ),
    energyCorrector = cms.PSet(  ),
    recHitCleaners = cms.VPSet( 
      cms.PSet(  algoName = cms.string( "RBXAndHPDCleaner" )      )
    ),
    seedFinder = cms.PSet( 
      nNeighbours = cms.int32( 4 ),
      thresholdsByDetector = cms.VPSet( 
        cms.PSet(  seedingThreshold = cms.double( 0.8 ),
          seedingThresholdPt = cms.double( 0.0 ),
          detector = cms.string( "HCAL_BARREL1" )
        ),
        cms.PSet(  seedingThreshold = cms.double( 1.1 ),
          seedingThresholdPt = cms.double( 0.0 ),
          detector = cms.string( "HCAL_ENDCAP" )
        )
      ),
      algoName = cms.string( "LocalMaximumSeedFinder" )
    ),
    recHitsSource = cms.InputTag( "hltParticleFlowRecHitHCAL" )
)
process.hltParticleFlowClusterHFEM = cms.EDProducer( "PFClusterProducer",
    pfClusterBuilder = cms.PSet( 
      positionCalc = cms.PSet( 
        minFractionInCalc = cms.double( 1.0E-9 ),
        logWeightDenominator = cms.double( 0.8 ),
        minAllowedNormalization = cms.double( 1.0E-9 ),
        posCalcNCrystals = cms.int32( 5 ),
        algoName = cms.string( "Basic2DGenericPFlowPositionCalc" )
      ),
      minFracTot = cms.double( 1.0E-20 ),
      maxIterations = cms.uint32( 50 ),
      stoppingTolerance = cms.double( 1.0E-8 ),
      minFractionToKeep = cms.double( 1.0E-7 ),
      excludeOtherSeeds = cms.bool( True ),
      showerSigma = cms.double( 10.0 ),
      recHitEnergyNorms = cms.VPSet( 
        cms.PSet(  detector = cms.string( "HF_EM" ),
          recHitEnergyNorm = cms.double( 0.8 )
        )
      ),
      algoName = cms.string( "Basic2DGenericPFlowClusterizer" ),
      allCellsPositionCalc = cms.PSet( 
        minFractionInCalc = cms.double( 1.0E-9 ),
        logWeightDenominator = cms.double( 0.8 ),
        minAllowedNormalization = cms.double( 1.0E-9 ),
        posCalcNCrystals = cms.int32( -1 ),
        algoName = cms.string( "Basic2DGenericPFlowPositionCalc" )
      )
    ),
    positionReCalc = cms.PSet(  ),
    initialClusteringStep = cms.PSet( 
      thresholdsByDetector = cms.VPSet( 
        cms.PSet(  gatheringThreshold = cms.double( 0.8 ),
          detector = cms.string( "HF_EM" ),
          gatheringThresholdPt = cms.double( 0.0 )
        )
      ),
      useCornerCells = cms.bool( False ),
      algoName = cms.string( "Basic2DGenericTopoClusterizer" )
    ),
    energyCorrector = cms.PSet(  ),
    recHitCleaners = cms.VPSet( 
      cms.PSet(  cleaningByDetector = cms.VPSet( 
  cms.PSet(  doubleSpikeS6S2 = cms.double( -1.0 ),
    fractionThresholdModifier = cms.double( 1.0 ),
    doubleSpikeThresh = cms.double( 1.0E9 ),
    minS4S1_b = cms.double( -0.19 ),
    singleSpikeThresh = cms.double( 80.0 ),
    detector = cms.string( "HF_EM" ),
    minS4S1_a = cms.double( 0.11 ),
    energyThresholdModifier = cms.double( 1.0 )
  )
),
        algoName = cms.string( "SpikeAndDoubleSpikeCleaner" )
      )
    ),
    seedFinder = cms.PSet( 
      nNeighbours = cms.int32( 0 ),
      thresholdsByDetector = cms.VPSet( 
        cms.PSet(  seedingThreshold = cms.double( 1.4 ),
          seedingThresholdPt = cms.double( 0.0 ),
          detector = cms.string( "HF_EM" )
        )
      ),
      algoName = cms.string( "LocalMaximumSeedFinder" )
    ),
    recHitsSource = cms.InputTag( 'hltParticleFlowRecHitHCAL','HFEM' )
)
process.hltParticleFlowClusterHFHAD = cms.EDProducer( "PFClusterProducer",
    pfClusterBuilder = cms.PSet( 
      positionCalc = cms.PSet( 
        minFractionInCalc = cms.double( 1.0E-9 ),
        logWeightDenominator = cms.double( 0.8 ),
        minAllowedNormalization = cms.double( 1.0E-9 ),
        posCalcNCrystals = cms.int32( 5 ),
        algoName = cms.string( "Basic2DGenericPFlowPositionCalc" )
      ),
      minFracTot = cms.double( 1.0E-20 ),
      maxIterations = cms.uint32( 50 ),
      stoppingTolerance = cms.double( 1.0E-8 ),
      minFractionToKeep = cms.double( 1.0E-7 ),
      excludeOtherSeeds = cms.bool( True ),
      showerSigma = cms.double( 10.0 ),
      recHitEnergyNorms = cms.VPSet( 
        cms.PSet(  detector = cms.string( "HF_HAD" ),
          recHitEnergyNorm = cms.double( 0.8 )
        )
      ),
      algoName = cms.string( "Basic2DGenericPFlowClusterizer" ),
      allCellsPositionCalc = cms.PSet( 
        minFractionInCalc = cms.double( 1.0E-9 ),
        logWeightDenominator = cms.double( 0.8 ),
        minAllowedNormalization = cms.double( 1.0E-9 ),
        posCalcNCrystals = cms.int32( -1 ),
        algoName = cms.string( "Basic2DGenericPFlowPositionCalc" )
      )
    ),
    positionReCalc = cms.PSet(  ),
    initialClusteringStep = cms.PSet( 
      thresholdsByDetector = cms.VPSet( 
        cms.PSet(  gatheringThreshold = cms.double( 0.8 ),
          detector = cms.string( "HF_HAD" ),
          gatheringThresholdPt = cms.double( 0.0 )
        )
      ),
      useCornerCells = cms.bool( False ),
      algoName = cms.string( "Basic2DGenericTopoClusterizer" )
    ),
    energyCorrector = cms.PSet(  ),
    recHitCleaners = cms.VPSet( 
      cms.PSet(  cleaningByDetector = cms.VPSet( 
  cms.PSet(  doubleSpikeS6S2 = cms.double( -1.0 ),
    fractionThresholdModifier = cms.double( 1.0 ),
    doubleSpikeThresh = cms.double( 1.0E9 ),
    minS4S1_b = cms.double( -0.08 ),
    singleSpikeThresh = cms.double( 120.0 ),
    detector = cms.string( "HF_HAD" ),
    minS4S1_a = cms.double( 0.045 ),
    energyThresholdModifier = cms.double( 1.0 )
  )
),
        algoName = cms.string( "SpikeAndDoubleSpikeCleaner" )
      )
    ),
    seedFinder = cms.PSet( 
      nNeighbours = cms.int32( 0 ),
      thresholdsByDetector = cms.VPSet( 
        cms.PSet(  seedingThreshold = cms.double( 1.4 ),
          seedingThresholdPt = cms.double( 0.0 ),
          detector = cms.string( "HF_HAD" )
        )
      ),
      algoName = cms.string( "LocalMaximumSeedFinder" )
    ),
    recHitsSource = cms.InputTag( 'hltParticleFlowRecHitHCAL','HFHAD' )
)
process.hltLightPFTracks = cms.EDProducer( "LightPFTrackProducer",
    TrackQuality = cms.string( "none" ),
    UseQuality = cms.bool( False ),
    TkColList = cms.VInputTag( 'hltPFMuonMerging' )
)
process.hltParticleFlowBlock = cms.EDProducer( "PFBlockProducer",
    debug = cms.untracked.bool( False ),
    linkDefinitions = cms.VPSet( 
      cms.PSet(  useKDTree = cms.bool( True ),
        linkType = cms.string( "PS1:ECAL" ),
        linkerName = cms.string( "PreshowerAndECALLinker" )
      ),
      cms.PSet(  useKDTree = cms.bool( True ),
        linkType = cms.string( "PS2:ECAL" ),
        linkerName = cms.string( "PreshowerAndECALLinker" )
      ),
      cms.PSet(  useKDTree = cms.bool( True ),
        linkType = cms.string( "TRACK:ECAL" ),
        linkerName = cms.string( "TrackAndECALLinker" )
      ),
      cms.PSet(  useKDTree = cms.bool( True ),
        linkType = cms.string( "TRACK:HCAL" ),
        linkerName = cms.string( "TrackAndHCALLinker" )
      ),
      cms.PSet(  useKDTree = cms.bool( False ),
        linkType = cms.string( "ECAL:HCAL" ),
        linkerName = cms.string( "ECALAndHCALLinker" )
      ),
      cms.PSet(  useKDTree = cms.bool( False ),
        linkType = cms.string( "HFEM:HFHAD" ),
        linkerName = cms.string( "HFEMAndHFHADLinker" )
      )
    ),
    elementImporters = cms.VPSet( 
      cms.PSet(  importerName = cms.string( "GeneralTracksImporter" ),
        useIterativeTracking = cms.bool( False ),
        source = cms.InputTag( "hltLightPFTracks" ),
        NHitCuts_byTrackAlgo = cms.vuint32( 3, 3, 3, 3, 3 ),
        muonSrc = cms.InputTag( "hltMuons" ),
        DPtOverPtCuts_byTrackAlgo = cms.vdouble( 0.5, 0.5, 0.5, 0.5, 0.5 )
      ),
      cms.PSet(  importerName = cms.string( "ECALClusterImporter" ),
        source = cms.InputTag( "hltParticleFlowClusterECALUnseeded" ),
        BCtoPFCMap = cms.InputTag( "" )
      ),
      cms.PSet(  importerName = cms.string( "GenericClusterImporter" ),
        source = cms.InputTag( "hltParticleFlowClusterHCAL" )
      ),
      cms.PSet(  importerName = cms.string( "GenericClusterImporter" ),
        source = cms.InputTag( "hltParticleFlowClusterHFEM" )
      ),
      cms.PSet(  importerName = cms.string( "GenericClusterImporter" ),
        source = cms.InputTag( "hltParticleFlowClusterHFHAD" )
      ),
      cms.PSet(  importerName = cms.string( "GenericClusterImporter" ),
        source = cms.InputTag( "hltParticleFlowClusterPSUnseeded" )
      )
    ),
    verbose = cms.untracked.bool( False )
)
process.hltParticleFlow = cms.EDProducer( "PFProducer",
    photon_SigmaiEtaiEta_endcap = cms.double( 0.034 ),
    minPtForPostCleaning = cms.double( 20.0 ),
    pf_nsigma_ECAL = cms.double( 0.0 ),
    GedPhotonValueMap = cms.InputTag( 'tmpGedPhotons','valMapPFEgammaCandToPhoton' ),
    sumPtTrackIsoForPhoton = cms.double( -1.0 ),
    metFactorForFakes = cms.double( 4.0 ),
    muon_HO = cms.vdouble( 0.9, 0.9 ),
    electron_missinghits = cms.uint32( 1 ),
    metSignificanceForCleaning = cms.double( 3.0 ),
    usePFPhotons = cms.bool( False ),
    dptRel_DispVtx = cms.double( 10.0 ),
    nTrackIsoForEgammaSC = cms.uint32( 2 ),
    pf_nsigma_HCAL = cms.double( 1.0 ),
    cosmicRejectionDistance = cms.double( 1.0 ),
    useEGammaFilters = cms.bool( False ),
    useEGammaElectrons = cms.bool( False ),
    nsigma_TRACK = cms.double( 1.0 ),
    useEGammaSupercluster = cms.bool( False ),
    sumPtTrackIsoForEgammaSC_barrel = cms.double( 4.0 ),
    eventFractionForCleaning = cms.double( 0.8 ),
    usePFDecays = cms.bool( False ),
    rejectTracks_Step45 = cms.bool( False ),
    eventFractionForRejection = cms.double( 0.8 ),
    photon_MinEt = cms.double( 10.0 ),
    usePFNuclearInteractions = cms.bool( False ),
    maxSignificance = cms.double( 2.5 ),
    electron_iso_mva_endcap = cms.double( -0.1075 ),
    debug = cms.untracked.bool( False ),
    pf_convID_mvaWeightFile = cms.string( "RecoParticleFlow/PFProducer/data/MVAnalysis_BDT.weights_pfConversionAug0411.txt" ),
    calibHF_eta_step = cms.vdouble( 0.0, 2.9, 3.0, 3.2, 4.2, 4.4, 4.6, 4.8, 5.2, 5.4 ),
    ptErrorScale = cms.double( 8.0 ),
    minSignificance = cms.double( 2.5 ),
    minMomentumForPunchThrough = cms.double( 100.0 ),
    pf_conv_mvaCut = cms.double( 0.0 ),
    useCalibrationsFromDB = cms.bool( True ),
    usePFElectrons = cms.bool( False ),
    electron_iso_combIso_endcap = cms.double( 10.0 ),
    photon_combIso = cms.double( 10.0 ),
    electron_iso_mva_barrel = cms.double( -0.1875 ),
    postHFCleaning = cms.bool( False ),
    factors_45 = cms.vdouble( 10.0, 100.0 ),
    cleanedHF = cms.VInputTag( 'hltParticleFlowRecHitHCAL:Cleaned','hltParticleFlowClusterHFHAD:Cleaned','hltParticleFlowClusterHFEM:Cleaned' ),
    coneEcalIsoForEgammaSC = cms.double( 0.3 ),
    minSignificanceReduction = cms.double( 1.4 ),
    photon_SigmaiEtaiEta_barrel = cms.double( 0.0125 ),
    calibHF_b_HADonly = cms.vdouble( 1.27541, 0.85361, 0.86333, 0.89091, 0.94348, 0.94348, 0.9437, 1.0034, 1.0444, 1.0444 ),
    minPixelHits = cms.int32( 1 ),
    maxDPtOPt = cms.double( 1.0 ),
    useHO = cms.bool( False ),
    pf_electron_output_col = cms.string( "electrons" ),
    electron_noniso_mvaCut = cms.double( -0.1 ),
    GedElectronValueMap = cms.InputTag( "gedGsfElectronsTmp" ),
    useVerticesForNeutral = cms.bool( True ),
    pf_Res_mvaWeightFile = cms.string( "RecoParticleFlow/PFProducer/data/TMVARegression_BDTG_PFRes.root" ),
    PFEGammaCandidates = cms.InputTag( "particleFlowEGamma" ),
    sumPtTrackIsoSlopeForPhoton = cms.double( -1.0 ),
    coneTrackIsoForEgammaSC = cms.double( 0.3 ),
    minDeltaMet = cms.double( 0.4 ),
    pt_Error = cms.double( 1.0 ),
    useProtectionsForJetMET = cms.bool( True ),
    metFactorForRejection = cms.double( 4.0 ),
    sumPtTrackIsoForEgammaSC_endcap = cms.double( 4.0 ),
    calibHF_use = cms.bool( False ),
    verbose = cms.untracked.bool( False ),
    usePFConversions = cms.bool( False ),
    trackQuality = cms.string( "highPurity" ),
    calibPFSCEle_endcap = cms.vdouble( 1.153, -16.5975, 5.668, -0.1772, 16.22, 7.326, 0.0483, -4.068, 9.406 ),
    metFactorForCleaning = cms.double( 4.0 ),
    eventFactorForCosmics = cms.double( 10.0 ),
    egammaElectrons = cms.InputTag( "" ),
    minEnergyForPunchThrough = cms.double( 100.0 ),
    minTrackerHits = cms.int32( 8 ),
    iCfgCandConnector = cms.PSet( 
      bCalibSecondary = cms.bool( False ),
      bCalibPrimary = cms.bool( False ),
      bCorrect = cms.bool( False ),
      nuclCalibFactors = cms.vdouble( 0.8, 0.15, 0.5, 0.5, 0.05 )
    ),
    rejectTracks_Bad = cms.bool( False ),
    pf_electronID_crackCorrection = cms.bool( False ),
    pf_locC_mvaWeightFile = cms.string( "RecoParticleFlow/PFProducer/data/TMVARegression_BDTG_PFClusterCorr.root" ),
    calibHF_a_EMonly = cms.vdouble( 0.96945, 0.96701, 0.76309, 0.82268, 0.87583, 0.89718, 0.98674, 1.4681, 1.458, 1.458 ),
    muons = cms.InputTag( "hltMuons" ),
    metFactorForHighEta = cms.double( 25.0 ),
    minHFCleaningPt = cms.double( 5.0 ),
    muon_HCAL = cms.vdouble( 3.0, 3.0 ),
    pf_electron_mvaCut = cms.double( -0.1 ),
    ptFactorForHighEta = cms.double( 2.0 ),
    maxDeltaPhiPt = cms.double( 7.0 ),
    pf_electronID_mvaWeightFile = cms.string( "RecoParticleFlow/PFProducer/data/MVAnalysis_BDT.weights_PfElectrons23Jan_IntToFloat.txt" ),
    sumEtEcalIsoForEgammaSC_endcap = cms.double( 2.0 ),
    calibHF_b_EMHAD = cms.vdouble( 1.27541, 0.85361, 0.86333, 0.89091, 0.94348, 0.94348, 0.9437, 1.0034, 1.0444, 1.0444 ),
    pf_GlobC_mvaWeightFile = cms.string( "RecoParticleFlow/PFProducer/data/TMVARegression_BDTG_PFGlobalCorr.root" ),
    photon_HoE = cms.double( 0.1 ),
    sumEtEcalIsoForEgammaSC_barrel = cms.double( 1.0 ),
    calibPFSCEle_Fbrem_endcap = cms.vdouble( 0.9, 6.5, -0.0692932, 0.101776, 0.995338, -0.00236548, 0.874998, 1.653, -0.0750184, 0.147, 0.923165, 4.74665E-4, 1.10782 ),
    punchThroughFactor = cms.double( 3.0 ),
    algoType = cms.uint32( 0 ),
    electron_iso_combIso_barrel = cms.double( 10.0 ),
    postMuonCleaning = cms.bool( True ),
    calibPFSCEle_barrel = cms.vdouble( 1.004, -1.536, 22.88, -1.467, 0.3555, 0.6227, 14.65, 2051.0, 25.0, 0.9932, -0.5444, 0.0, 0.5438, 0.7109, 7.645, 0.2904, 0.0 ),
    electron_protectionsForJetMET = cms.PSet( 
      maxE = cms.double( 50.0 ),
      maxTrackPOverEele = cms.double( 1.0 ),
      maxEcalEOverP_2 = cms.double( 0.2 ),
      maxHcalEOverEcalE = cms.double( 0.1 ),
      maxEcalEOverP_1 = cms.double( 0.5 ),
      maxHcalEOverP = cms.double( 1.0 ),
      maxEcalEOverPRes = cms.double( 0.2 ),
      maxHcalE = cms.double( 10.0 ),
      maxEeleOverPout = cms.double( 0.2 ),
      maxNtracks = cms.double( 3.0 ),
      maxEleHcalEOverEcalE = cms.double( 0.1 ),
      maxDPhiIN = cms.double( 0.1 ),
      maxEeleOverPoutRes = cms.double( 0.5 )
    ),
    electron_iso_pt = cms.double( 10.0 ),
    isolatedElectronID_mvaWeightFile = cms.string( "RecoEgamma/ElectronIdentification/data/TMVA_BDTSimpleCat_17Feb2011.weights.xml" ),
    vertexCollection = cms.InputTag( "hltPixelVertices" ),
    X0_Map = cms.string( "RecoParticleFlow/PFProducer/data/allX0histos.root" ),
    calibPFSCEle_Fbrem_barrel = cms.vdouble( 0.6, 6.0, -0.0255975, 0.0576727, 0.975442, -5.46394E-4, 1.26147, 25.0, -0.02025, 0.04537, 0.9728, -8.962E-4, 1.172 ),
    blocks = cms.InputTag( "hltParticleFlowBlock" ),
    punchThroughMETFactor = cms.double( 4.0 ),
    metSignificanceForRejection = cms.double( 4.0 ),
    photon_protectionsForJetMET = cms.PSet( 
      sumPtTrackIsoSlope = cms.double( 0.001 ),
      sumPtTrackIso = cms.double( 2.0 )
    ),
    usePhotonReg = cms.bool( False ),
    dzPV = cms.double( 0.2 ),
    calibHF_a_EMHAD = cms.vdouble( 1.42215, 1.00496, 0.68961, 0.81656, 0.98504, 0.98504, 1.00802, 1.0593, 1.4576, 1.4576 ),
    useRegressionFromDB = cms.bool( False ),
    muon_ECAL = cms.vdouble( 0.5, 0.5 ),
    usePFSCEleCalib = cms.bool( True )
)
process.hltAK4PFJets = cms.EDProducer( "FastjetJetProducer",
    Active_Area_Repeats = cms.int32( 5 ),
    doAreaFastjet = cms.bool( False ),
    voronoiRfact = cms.double( -9.0 ),
    maxBadHcalCells = cms.uint32( 9999999 ),
    doAreaDiskApprox = cms.bool( True ),
    maxRecoveredEcalCells = cms.uint32( 9999999 ),
    jetType = cms.string( "PFJet" ),
    minSeed = cms.uint32( 0 ),
    Ghost_EtaMax = cms.double( 6.0 ),
    doRhoFastjet = cms.bool( False ),
    jetAlgorithm = cms.string( "AntiKt" ),
    nSigmaPU = cms.double( 1.0 ),
    GhostArea = cms.double( 0.01 ),
    Rho_EtaMax = cms.double( 4.4 ),
    maxBadEcalCells = cms.uint32( 9999999 ),
    useDeterministicSeed = cms.bool( True ),
    doPVCorrection = cms.bool( False ),
    maxRecoveredHcalCells = cms.uint32( 9999999 ),
    rParam = cms.double( 0.4 ),
    maxProblematicHcalCells = cms.uint32( 9999999 ),
    doOutputJets = cms.bool( True ),
    src = cms.InputTag( "hltParticleFlow" ),
    inputEtMin = cms.double( 0.0 ),
    puPtMin = cms.double( 10.0 ),
    srcPVs = cms.InputTag( "hltPixelVertices" ),
    jetPtMin = cms.double( 0.0 ),
    radiusPU = cms.double( 0.4 ),
    maxProblematicEcalCells = cms.uint32( 9999999 ),
    doPUOffsetCorr = cms.bool( False ),
    inputEMin = cms.double( 0.0 ),
    useMassDropTagger = cms.bool( False ),
    muMin = cms.double( -1.0 ),
    subtractorName = cms.string( "" ),
    muCut = cms.double( -1.0 ),
    subjetPtMin = cms.double( -1.0 ),
    useTrimming = cms.bool( False ),
    muMax = cms.double( -1.0 ),
    yMin = cms.double( -1.0 ),
    useFiltering = cms.bool( False ),
    rFilt = cms.double( -1.0 ),
    yMax = cms.double( -1.0 ),
    zcut = cms.double( -1.0 ),
    MinVtxNdof = cms.int32( 0 ),
    MaxVtxZ = cms.double( 15.0 ),
    UseOnlyVertexTracks = cms.bool( False ),
    dRMin = cms.double( -1.0 ),
    nFilt = cms.int32( -1 ),
    usePruning = cms.bool( False ),
    maxDepth = cms.int32( -1 ),
    yCut = cms.double( -1.0 ),
    DzTrVtxMax = cms.double( 0.0 ),
    UseOnlyOnePV = cms.bool( False ),
    rcut_factor = cms.double( -1.0 ),
    sumRecHits = cms.bool( False ),
    trimPtFracMin = cms.double( -1.0 ),
    dRMax = cms.double( -1.0 ),
    DxyTrVtxMax = cms.double( 0.0 ),
    useCMSBoostedTauSeedingAlgorithm = cms.bool( False )
)
process.hltFixedGridRhoFastjetAll = cms.EDProducer( "FixedGridRhoProducerFastjet",
    gridSpacing = cms.double( 0.55 ),
    maxRapidity = cms.double( 5.0 ),
    pfCandidatesTag = cms.InputTag( "hltParticleFlow" )
)
process.hltAK4PFJetsCorrected = cms.EDProducer( "PFJetCorrectionProducer",
    src = cms.InputTag( "hltAK4PFJets" ),
    correctors = cms.vstring( 'hltESPAK4PFCorrection' )
)
process.hltPFJetsCorrectedMatchedToCaloJets210 = cms.EDProducer( "PFJetsMatchedToFilteredCaloJetsProducer",
    DeltaR = cms.double( 0.5 ),
    CaloJetFilter = cms.InputTag( "hltSingleCaloJet210" ),
    TriggerType = cms.int32( 85 ),
    PFJetSrc = cms.InputTag( "hltAK4PFJetsCorrected" )
)
process.hltSinglePFJet260 = cms.EDFilter( "HLT1PFJet",
    saveTags = cms.bool( True ),
    MinPt = cms.double( 260.0 ),
    MinN = cms.int32( 1 ),
    MaxEta = cms.double( 5.0 ),
    MinMass = cms.double( -1.0 ),
    inputTag = cms.InputTag( "hltPFJetsCorrectedMatchedToCaloJets210" ),
    MinE = cms.double( -1.0 ),
    triggerType = cms.int32( 85 )
)
process.hltL1sL1SingleEG10 = cms.EDFilter( "HLTLevel1GTSeed",
    L1SeedsLogicalExpression = cms.string( "L1_SingleEG10" ),
    saveTags = cms.bool( True ),
    L1MuonCollectionTag = cms.InputTag( "hltL1extraParticles" ),
    L1UseL1TriggerObjectMaps = cms.bool( True ),
    L1UseAliasesForSeeding = cms.bool( True ),
    L1GtReadoutRecordTag = cms.InputTag( "hltGtDigis" ),
    L1CollectionsTag = cms.InputTag( "hltL1extraParticles" ),
    L1NrBxInEvent = cms.int32( 3 ),
    L1GtObjectMapTag = cms.InputTag( "hltL1GtObjectMap" ),
    L1TechTriggerSeeding = cms.bool( False )
)
process.hltPrePhoton20CaloIdVLIsoL = cms.EDFilter( "HLTPrescaler",
    L1GtReadoutRecordTag = cms.InputTag( "hltGtDigis" ),
    offset = cms.uint32( 0 )
)
process.hltEGL1SingleEG12Filter = cms.EDFilter( "HLTEgammaL1MatchFilterRegional",
    doIsolated = cms.bool( False ),
    endcap_end = cms.double( 2.65 ),
    saveTags = cms.bool( False ),
    region_eta_size_ecap = cms.double( 1.0 ),
    barrel_end = cms.double( 1.4791 ),
    l1IsolatedTag = cms.InputTag( 'hltL1extraParticles','Isolated' ),
    candIsolatedTag = cms.InputTag( "hltEgammaCandidates" ),
    region_phi_size = cms.double( 1.044 ),
    region_eta_size = cms.double( 0.522 ),
    L1SeedFilterTag = cms.InputTag( "hltL1sL1SingleEG10" ),
    candNonIsolatedTag = cms.InputTag( "" ),
    l1NonIsolatedTag = cms.InputTag( 'hltL1extraParticles','NonIsolated' ),
    ncandcut = cms.int32( 1 )
)
process.hltEG20EtFilter = cms.EDFilter( "HLTEgammaEtFilter",
    saveTags = cms.bool( False ),
    L1NonIsoCand = cms.InputTag( "" ),
    relaxed = cms.untracked.bool( False ),
    L1IsoCand = cms.InputTag( "hltEgammaCandidates" ),
    inputTag = cms.InputTag( "hltEGL1SingleEG12Filter" ),
    etcutEB = cms.double( 20.0 ),
    etcutEE = cms.double( 20.0 ),
    ncandcut = cms.int32( 1 )
)
process.hltEG20CaloIdVLClusterShapeFilter = cms.EDFilter( "HLTEgammaGenericFilter",
    doIsolated = cms.bool( True ),
    thrOverE2EE = cms.double( -1.0 ),
    L1NonIsoCand = cms.InputTag( "" ),
    saveTags = cms.bool( False ),
    thrOverE2EB = cms.double( -1.0 ),
    thrRegularEE = cms.double( 0.04 ),
    thrOverEEE = cms.double( -1.0 ),
    L1IsoCand = cms.InputTag( "hltEgammaCandidates" ),
    thrOverEEB = cms.double( -1.0 ),
    thrRegularEB = cms.double( 0.024 ),
    lessThan = cms.bool( True ),
    useEt = cms.bool( False ),
    ncandcut = cms.int32( 1 ),
    isoTag = cms.InputTag( 'hltEgammaClusterShape','sigmaIEtaIEta5x5' ),
    candTag = cms.InputTag( "hltEG20EtFilter" ),
    nonIsoTag = cms.InputTag( "" )
)
process.hltEG20CaloIdVLHEFilter = cms.EDFilter( "HLTEgammaGenericFilter",
    doIsolated = cms.bool( True ),
    thrOverE2EE = cms.double( -1.0 ),
    L1NonIsoCand = cms.InputTag( "" ),
    saveTags = cms.bool( False ),
    thrOverE2EB = cms.double( -1.0 ),
    thrRegularEE = cms.double( -1.0 ),
    thrOverEEE = cms.double( 0.1 ),
    L1IsoCand = cms.InputTag( "hltEgammaCandidates" ),
    thrOverEEB = cms.double( 0.15 ),
    thrRegularEB = cms.double( -1.0 ),
    lessThan = cms.bool( True ),
    useEt = cms.bool( False ),
    ncandcut = cms.int32( 1 ),
    isoTag = cms.InputTag( "hltEgammaHoverE" ),
    candTag = cms.InputTag( "hltEG20CaloIdVLClusterShapeFilter" ),
    nonIsoTag = cms.InputTag( "" )
)
process.hltEG20CaloIdVLIsoLEcalIsoFilter = cms.EDFilter( "HLTEgammaGenericQuadraticFilter",
    doIsolated = cms.bool( True ),
    thrOverE2EE = cms.double( 0.0 ),
    L1NonIsoCand = cms.InputTag( "" ),
    saveTags = cms.bool( False ),
    thrOverE2EB = cms.double( 0.0 ),
    thrRegularEE = cms.double( 5.5 ),
    thrOverEEE = cms.double( 0.012 ),
    L1IsoCand = cms.InputTag( "hltEgammaCandidates" ),
    thrOverEEB = cms.double( 0.012 ),
    thrRegularEB = cms.double( 5.5 ),
    lessThan = cms.bool( True ),
    useEt = cms.bool( True ),
    ncandcut = cms.int32( 1 ),
    isoTag = cms.InputTag( "hltEgammaEcalPFClusterIso" ),
    candTag = cms.InputTag( "hltEG20CaloIdVLHEFilter" ),
    nonIsoTag = cms.InputTag( "" )
)
process.hltEG20CaloIdVLIsoLHcalIsoFilter = cms.EDFilter( "HLTEgammaGenericQuadraticFilter",
    doIsolated = cms.bool( True ),
    thrOverE2EE = cms.double( 0.0 ),
    L1NonIsoCand = cms.InputTag( "" ),
    saveTags = cms.bool( False ),
    thrOverE2EB = cms.double( 0.0 ),
    thrRegularEE = cms.double( 3.5 ),
    thrOverEEE = cms.double( 0.005 ),
    L1IsoCand = cms.InputTag( "hltEgammaCandidates" ),
    thrOverEEB = cms.double( 0.005 ),
    thrRegularEB = cms.double( 3.5 ),
    lessThan = cms.bool( True ),
    useEt = cms.bool( True ),
    ncandcut = cms.int32( 1 ),
    isoTag = cms.InputTag( "hltEgammaHcalPFClusterIso" ),
    candTag = cms.InputTag( "hltEG20CaloIdVLHEFilter" ),
    nonIsoTag = cms.InputTag( "" )
)
process.hltPixelVerticesForPhotons = cms.EDProducer( "PixelVertexProducer",
    WtAverage = cms.bool( True ),
    Method2 = cms.bool( True ),
    beamSpot = cms.InputTag( "hltOnlineBeamSpot" ),
    PVcomparer = cms.PSet(  refToPSet_ = cms.string( "HLTPSetPvClusterComparer" ) ),
    Verbosity = cms.int32( 0 ),
    UseError = cms.bool( True ),
    TrackCollection = cms.InputTag( "hltPixelTracks" ),
    PtMin = cms.double( 1.0 ),
    NTrkMin = cms.int32( 2 ),
    ZOffset = cms.double( 5.0 ),
    Finder = cms.string( "DivisiveVertexFinder" ),
    ZSeparation = cms.double( 0.05 )
)
process.hltIter0PFlowPixelSeedsFromPixelTracksForPhotons = cms.EDProducer( "SeedGeneratorFromProtoTracksEDProducer",
    useEventsWithNoVertex = cms.bool( True ),
    originHalfLength = cms.double( 0.3 ),
    useProtoTrackKinematics = cms.bool( False ),
    usePV = cms.bool( True ),
    InputVertexCollection = cms.InputTag( "hltPixelVerticesForPhotons" ),
    TTRHBuilder = cms.string( "hltESPTTRHBuilderPixelOnly" ),
    InputCollection = cms.InputTag( "hltPixelTracks" ),
    originRadius = cms.double( 0.1 )
)
process.hltIter0PFlowCkfTrackCandidatesForPhotons = cms.EDProducer( "CkfTrackCandidateMaker",
    src = cms.InputTag( "hltIter0PFlowPixelSeedsFromPixelTracksForPhotons" ),
    maxSeedsBeforeCleaning = cms.uint32( 1000 ),
    SimpleMagneticField = cms.string( "ParabolicMf" ),
    TransientInitialStateEstimatorParameters = cms.PSet( 
      propagatorAlongTISE = cms.string( "PropagatorWithMaterialParabolicMf" ),
      numberMeasurementsForFit = cms.int32( 4 ),
      propagatorOppositeTISE = cms.string( "PropagatorWithMaterialParabolicMfOpposite" )
    ),
    TrajectoryCleaner = cms.string( "hltESPTrajectoryCleanerBySharedHits" ),
    MeasurementTrackerEvent = cms.InputTag( "hltSiStripClusters" ),
    cleanTrajectoryAfterInOut = cms.bool( False ),
    useHitsSplitting = cms.bool( False ),
    RedundantSeedCleaner = cms.string( "CachingSeedCleanerBySharedInput" ),
    doSeedingRegionRebuilding = cms.bool( False ),
    maxNSeeds = cms.uint32( 100000 ),
    TrajectoryBuilderPSet = cms.PSet(  refToPSet_ = cms.string( "HLTIter0PSetTrajectoryBuilderIT" ) ),
    NavigationSchool = cms.string( "SimpleNavigationSchool" ),
    TrajectoryBuilder = cms.string( "" )
)
process.hltIter0PFlowCtfWithMaterialTracksForPhotons = cms.EDProducer( "TrackProducer",
    src = cms.InputTag( "hltIter0PFlowCkfTrackCandidatesForPhotons" ),
    SimpleMagneticField = cms.string( "ParabolicMf" ),
    clusterRemovalInfo = cms.InputTag( "" ),
    beamSpot = cms.InputTag( "hltOnlineBeamSpot" ),
    MeasurementTrackerEvent = cms.InputTag( "hltSiStripClusters" ),
    Fitter = cms.string( "hltESPFittingSmootherIT" ),
    useHitsSplitting = cms.bool( False ),
    MeasurementTracker = cms.string( "" ),
    AlgorithmName = cms.string( "hltIterX" ),
    alias = cms.untracked.string( "ctfWithMaterialTracks" ),
    NavigationSchool = cms.string( "" ),
    TrajectoryInEvent = cms.bool( True ),
    TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
    GeometricInnerState = cms.bool( True ),
    useSimpleMF = cms.bool( True ),
    Propagator = cms.string( "hltESPRungeKuttaTrackerPropagator" )
)
process.hltIter0PFlowTrackSelectionHighPurityForPhotons = cms.EDProducer( "AnalyticalTrackSelector",
    max_d0 = cms.double( 100.0 ),
    minNumber3DLayers = cms.uint32( 0 ),
    max_lostHitFraction = cms.double( 1.0 ),
    applyAbsCutsIfNoPV = cms.bool( False ),
    qualityBit = cms.string( "highPurity" ),
    minNumberLayers = cms.uint32( 3 ),
    chi2n_par = cms.double( 0.7 ),
    useVtxError = cms.bool( False ),
    nSigmaZ = cms.double( 3.0 ),
    dz_par2 = cms.vdouble( 0.4, 4.0 ),
    applyAdaptedPVCuts = cms.bool( True ),
    min_eta = cms.double( -9999.0 ),
    dz_par1 = cms.vdouble( 0.35, 4.0 ),
    copyTrajectories = cms.untracked.bool( True ),
    vtxNumber = cms.int32( -1 ),
    max_d0NoPV = cms.double( 100.0 ),
    keepAllTracks = cms.bool( False ),
    maxNumberLostLayers = cms.uint32( 1 ),
    beamspot = cms.InputTag( "hltOnlineBeamSpot" ),
    max_relpterr = cms.double( 9999.0 ),
    copyExtras = cms.untracked.bool( True ),
    max_z0NoPV = cms.double( 100.0 ),
    vertexCut = cms.string( "tracksSize>=3" ),
    max_z0 = cms.double( 100.0 ),
    useVertices = cms.bool( True ),
    min_nhits = cms.uint32( 0 ),
    src = cms.InputTag( "hltIter0PFlowCtfWithMaterialTracksForPhotons" ),
    max_minMissHitOutOrIn = cms.int32( 99 ),
    chi2n_no1Dmod_par = cms.double( 9999.0 ),
    vertices = cms.InputTag( "hltPixelVerticesForPhotons" ),
    max_eta = cms.double( 9999.0 ),
    d0_par2 = cms.vdouble( 0.4, 4.0 ),
    d0_par1 = cms.vdouble( 0.3, 4.0 ),
    res_par = cms.vdouble( 0.003, 0.001 ),
    minHitsToBypassChecks = cms.uint32( 20 )
)
process.hltIter1ClustersRefRemovalForPhotons = cms.EDProducer( "HLTTrackClusterRemoverNew",
    doStrip = cms.bool( True ),
    doStripChargeCheck = cms.bool( False ),
    trajectories = cms.InputTag( "hltIter0PFlowTrackSelectionHighPurityForPhotons" ),
    oldClusterRemovalInfo = cms.InputTag( "" ),
    stripClusters = cms.InputTag( "hltSiStripRawToClustersFacility" ),
    pixelClusters = cms.InputTag( "hltSiPixelClusters" ),
    Common = cms.PSet(  maxChi2 = cms.double( 9.0 ) ),
    doPixel = cms.bool( True )
)
process.hltIter1MaskedMeasurementTrackerEventForPhotons = cms.EDProducer( "MaskedMeasurementTrackerEventProducer",
    clustersToSkip = cms.InputTag( "hltIter1ClustersRefRemovalForPhotons" ),
    OnDemand = cms.bool( False ),
    src = cms.InputTag( "hltSiStripClusters" )
)
process.hltIter1PixelLayerTripletsForPhotons = cms.EDProducer( "SeedingLayersEDProducer",
    layerList = cms.vstring( 'BPix1+BPix2+BPix3',
      'BPix1+BPix2+FPix1_pos',
      'BPix1+BPix2+FPix1_neg',
      'BPix1+FPix1_pos+FPix2_pos',
      'BPix1+FPix1_neg+FPix2_neg' ),
    MTOB = cms.PSet(  ),
    TEC = cms.PSet(  ),
    MTID = cms.PSet(  ),
    FPix = cms.PSet( 
      HitProducer = cms.string( "hltSiPixelRecHits" ),
      hitErrorRZ = cms.double( 0.0036 ),
      useErrorsFromParam = cms.bool( True ),
      TTRHBuilder = cms.string( "hltESPTTRHBuilderPixelOnly" ),
      skipClusters = cms.InputTag( "hltIter1ClustersRefRemovalForPhotons" ),
      hitErrorRPhi = cms.double( 0.0051 )
    ),
    MTEC = cms.PSet(  ),
    MTIB = cms.PSet(  ),
    TID = cms.PSet(  ),
    TOB = cms.PSet(  ),
    BPix = cms.PSet( 
      HitProducer = cms.string( "hltSiPixelRecHits" ),
      hitErrorRZ = cms.double( 0.006 ),
      useErrorsFromParam = cms.bool( True ),
      TTRHBuilder = cms.string( "hltESPTTRHBuilderPixelOnly" ),
      skipClusters = cms.InputTag( "hltIter1ClustersRefRemovalForPhotons" ),
      hitErrorRPhi = cms.double( 0.0027 )
    ),
    TIB = cms.PSet(  )
)
process.hltIter1PFlowPixelSeedsForPhotons = cms.EDProducer( "SeedGeneratorFromRegionHitsEDProducer",
    RegionFactoryPSet = cms.PSet( 
      ComponentName = cms.string( "CandidateSeededTrackingRegionsProducer" ),
      RegionPSet = cms.PSet( 
        precise = cms.bool( True ),
        originRadius = cms.double( 0.05 ),
        ptMin = cms.double( 0.5 ),
        input = cms.InputTag( "hltEgammaCandidates" ),
        maxNRegions = cms.int32( 10 ),
        beamSpot = cms.InputTag( "hltOnlineBeamSpot" ),
        vertexCollection = cms.InputTag( "hltPixelVerticesForPhotons" ),
        zErrorBeamSpot = cms.double( 24.2 ),
        deltaEta = cms.double( 0.5 ),
        deltaPhi = cms.double( 0.5 ),
        nSigmaZVertex = cms.double( 3.0 ),
        nSigmaZBeamSpot = cms.double( 4.0 ),
        mode = cms.string( "VerticesFixed" ),
        maxNVertices = cms.int32( 3 ),
        zErrorVetex = cms.double( 0.2 )
      )
    ),
    SeedComparitorPSet = cms.PSet(  ComponentName = cms.string( "none" ) ),
    ClusterCheckPSet = cms.PSet( 
      PixelClusterCollectionLabel = cms.InputTag( "hltSiPixelClusters" ),
      MaxNumberOfCosmicClusters = cms.uint32( 50000 ),
      doClusterCheck = cms.bool( False ),
      ClusterCollectionLabel = cms.InputTag( "hltSiStripClusters" ),
      MaxNumberOfPixelClusters = cms.uint32( 10000 )
    ),
    OrderedHitsFactoryPSet = cms.PSet( 
      maxElement = cms.uint32( 0 ),
      ComponentName = cms.string( "StandardHitTripletGenerator" ),
      GeneratorPSet = cms.PSet( 
        useBending = cms.bool( True ),
        useFixedPreFiltering = cms.bool( False ),
        maxElement = cms.uint32( 100000 ),
        phiPreFiltering = cms.double( 0.3 ),
        extraHitRPhitolerance = cms.double( 0.032 ),
        useMultScattering = cms.bool( True ),
        ComponentName = cms.string( "PixelTripletHLTGenerator" ),
        extraHitRZtolerance = cms.double( 0.037 ),
        SeedComparitorPSet = cms.PSet(  ComponentName = cms.string( "none" ) )
      ),
      SeedingLayers = cms.InputTag( "hltIter1PixelLayerTripletsForPhotons" )
    ),
    SeedCreatorPSet = cms.PSet( 
      ComponentName = cms.string( "SeedFromConsecutiveHitsTripletOnlyCreator" ),
      propagator = cms.string( "PropagatorWithMaterialParabolicMf" )
    ),
    TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" )
)
process.hltIter1PFlowCkfTrackCandidatesForPhotons = cms.EDProducer( "CkfTrackCandidateMaker",
    src = cms.InputTag( "hltIter1PFlowPixelSeedsForPhotons" ),
    maxSeedsBeforeCleaning = cms.uint32( 1000 ),
    SimpleMagneticField = cms.string( "ParabolicMf" ),
    TransientInitialStateEstimatorParameters = cms.PSet( 
      propagatorAlongTISE = cms.string( "PropagatorWithMaterialParabolicMf" ),
      numberMeasurementsForFit = cms.int32( 4 ),
      propagatorOppositeTISE = cms.string( "PropagatorWithMaterialParabolicMfOpposite" )
    ),
    TrajectoryCleaner = cms.string( "hltESPTrajectoryCleanerBySharedHits" ),
    MeasurementTrackerEvent = cms.InputTag( "hltIter1MaskedMeasurementTrackerEventForPhotons" ),
    cleanTrajectoryAfterInOut = cms.bool( False ),
    useHitsSplitting = cms.bool( False ),
    RedundantSeedCleaner = cms.string( "CachingSeedCleanerBySharedInput" ),
    doSeedingRegionRebuilding = cms.bool( False ),
    maxNSeeds = cms.uint32( 100000 ),
    TrajectoryBuilderPSet = cms.PSet(  refToPSet_ = cms.string( "HLTIter1PSetTrajectoryBuilderIT" ) ),
    NavigationSchool = cms.string( "SimpleNavigationSchool" ),
    TrajectoryBuilder = cms.string( "" )
)
process.hltIter1PFlowCtfWithMaterialTracksForPhotons = cms.EDProducer( "TrackProducer",
    src = cms.InputTag( "hltIter1PFlowCkfTrackCandidatesForPhotons" ),
    SimpleMagneticField = cms.string( "ParabolicMf" ),
    clusterRemovalInfo = cms.InputTag( "" ),
    beamSpot = cms.InputTag( "hltOnlineBeamSpot" ),
    MeasurementTrackerEvent = cms.InputTag( "hltIter1MaskedMeasurementTrackerEventForPhotons" ),
    Fitter = cms.string( "hltESPFittingSmootherIT" ),
    useHitsSplitting = cms.bool( False ),
    MeasurementTracker = cms.string( "" ),
    AlgorithmName = cms.string( "hltIterX" ),
    alias = cms.untracked.string( "ctfWithMaterialTracks" ),
    NavigationSchool = cms.string( "" ),
    TrajectoryInEvent = cms.bool( True ),
    TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
    GeometricInnerState = cms.bool( True ),
    useSimpleMF = cms.bool( True ),
    Propagator = cms.string( "hltESPRungeKuttaTrackerPropagator" )
)
process.hltIter1PFlowTrackSelectionHighPurityLooseForPhotons = cms.EDProducer( "AnalyticalTrackSelector",
    max_d0 = cms.double( 100.0 ),
    minNumber3DLayers = cms.uint32( 0 ),
    max_lostHitFraction = cms.double( 1.0 ),
    applyAbsCutsIfNoPV = cms.bool( False ),
    qualityBit = cms.string( "highPurity" ),
    minNumberLayers = cms.uint32( 3 ),
    chi2n_par = cms.double( 0.7 ),
    useVtxError = cms.bool( False ),
    nSigmaZ = cms.double( 3.0 ),
    dz_par2 = cms.vdouble( 0.9, 3.0 ),
    applyAdaptedPVCuts = cms.bool( True ),
    min_eta = cms.double( -9999.0 ),
    dz_par1 = cms.vdouble( 0.8, 3.0 ),
    copyTrajectories = cms.untracked.bool( True ),
    vtxNumber = cms.int32( -1 ),
    max_d0NoPV = cms.double( 100.0 ),
    keepAllTracks = cms.bool( False ),
    maxNumberLostLayers = cms.uint32( 1 ),
    beamspot = cms.InputTag( "hltOnlineBeamSpot" ),
    max_relpterr = cms.double( 9999.0 ),
    copyExtras = cms.untracked.bool( True ),
    max_z0NoPV = cms.double( 100.0 ),
    vertexCut = cms.string( "tracksSize>=3" ),
    max_z0 = cms.double( 100.0 ),
    useVertices = cms.bool( True ),
    min_nhits = cms.uint32( 0 ),
    src = cms.InputTag( "hltIter1PFlowCtfWithMaterialTracksForPhotons" ),
    max_minMissHitOutOrIn = cms.int32( 99 ),
    chi2n_no1Dmod_par = cms.double( 9999.0 ),
    vertices = cms.InputTag( "hltPixelVerticesForPhotons" ),
    max_eta = cms.double( 9999.0 ),
    d0_par2 = cms.vdouble( 0.9, 3.0 ),
    d0_par1 = cms.vdouble( 0.85, 3.0 ),
    res_par = cms.vdouble( 0.003, 0.001 ),
    minHitsToBypassChecks = cms.uint32( 20 )
)
process.hltIter1PFlowTrackSelectionHighPurityTightForPhotons = cms.EDProducer( "AnalyticalTrackSelector",
    max_d0 = cms.double( 100.0 ),
    minNumber3DLayers = cms.uint32( 0 ),
    max_lostHitFraction = cms.double( 1.0 ),
    applyAbsCutsIfNoPV = cms.bool( False ),
    qualityBit = cms.string( "highPurity" ),
    minNumberLayers = cms.uint32( 5 ),
    chi2n_par = cms.double( 0.4 ),
    useVtxError = cms.bool( False ),
    nSigmaZ = cms.double( 3.0 ),
    dz_par2 = cms.vdouble( 1.0, 4.0 ),
    applyAdaptedPVCuts = cms.bool( True ),
    min_eta = cms.double( -9999.0 ),
    dz_par1 = cms.vdouble( 1.0, 4.0 ),
    copyTrajectories = cms.untracked.bool( True ),
    vtxNumber = cms.int32( -1 ),
    max_d0NoPV = cms.double( 100.0 ),
    keepAllTracks = cms.bool( False ),
    maxNumberLostLayers = cms.uint32( 1 ),
    beamspot = cms.InputTag( "hltOnlineBeamSpot" ),
    max_relpterr = cms.double( 9999.0 ),
    copyExtras = cms.untracked.bool( True ),
    max_z0NoPV = cms.double( 100.0 ),
    vertexCut = cms.string( "tracksSize>=3" ),
    max_z0 = cms.double( 100.0 ),
    useVertices = cms.bool( True ),
    min_nhits = cms.uint32( 0 ),
    src = cms.InputTag( "hltIter1PFlowCtfWithMaterialTracksForPhotons" ),
    max_minMissHitOutOrIn = cms.int32( 99 ),
    chi2n_no1Dmod_par = cms.double( 9999.0 ),
    vertices = cms.InputTag( "hltPixelVerticesForPhotons" ),
    max_eta = cms.double( 9999.0 ),
    d0_par2 = cms.vdouble( 1.0, 4.0 ),
    d0_par1 = cms.vdouble( 1.0, 4.0 ),
    res_par = cms.vdouble( 0.003, 0.001 ),
    minHitsToBypassChecks = cms.uint32( 20 )
)
process.hltIter1PFlowTrackSelectionHighPurityForPhotons = cms.EDProducer( "SimpleTrackListMerger",
    ShareFrac = cms.double( 0.19 ),
    promoteTrackQuality = cms.bool( True ),
    MinPT = cms.double( 0.05 ),
    copyExtras = cms.untracked.bool( True ),
    Epsilon = cms.double( -0.001 ),
    allowFirstHitShare = cms.bool( True ),
    newQuality = cms.string( "confirmed" ),
    MaxNormalizedChisq = cms.double( 1000.0 ),
    TrackProducer1 = cms.string( "hltIter1PFlowTrackSelectionHighPurityLooseForPhotons" ),
    MinFound = cms.int32( 3 ),
    TrackProducer2 = cms.string( "hltIter1PFlowTrackSelectionHighPurityTightForPhotons" ),
    LostHitPenalty = cms.double( 20.0 ),
    FoundHitBonus = cms.double( 5.0 )
)
process.hltIter1MergedForPhotons = cms.EDProducer( "SimpleTrackListMerger",
    ShareFrac = cms.double( 0.19 ),
    promoteTrackQuality = cms.bool( True ),
    MinPT = cms.double( 0.05 ),
    copyExtras = cms.untracked.bool( True ),
    Epsilon = cms.double( -0.001 ),
    allowFirstHitShare = cms.bool( True ),
    newQuality = cms.string( "confirmed" ),
    MaxNormalizedChisq = cms.double( 1000.0 ),
    TrackProducer1 = cms.string( "hltIter0PFlowTrackSelectionHighPurityForPhotons" ),
    MinFound = cms.int32( 3 ),
    TrackProducer2 = cms.string( "hltIter1PFlowTrackSelectionHighPurityForPhotons" ),
    LostHitPenalty = cms.double( 20.0 ),
    FoundHitBonus = cms.double( 5.0 )
)
process.hltIter2ClustersRefRemovalForPhotons = cms.EDProducer( "HLTTrackClusterRemoverNew",
    doStrip = cms.bool( True ),
    doStripChargeCheck = cms.bool( False ),
    trajectories = cms.InputTag( "hltIter1PFlowTrackSelectionHighPurityForPhotons" ),
    oldClusterRemovalInfo = cms.InputTag( "hltIter1ClustersRefRemovalForPhotons" ),
    stripClusters = cms.InputTag( "hltSiStripRawToClustersFacility" ),
    pixelClusters = cms.InputTag( "hltSiPixelClusters" ),
    Common = cms.PSet(  maxChi2 = cms.double( 16.0 ) ),
    doPixel = cms.bool( True )
)
process.hltIter2MaskedMeasurementTrackerEventForPhotons = cms.EDProducer( "MaskedMeasurementTrackerEventProducer",
    clustersToSkip = cms.InputTag( "hltIter2ClustersRefRemovalForPhotons" ),
    OnDemand = cms.bool( False ),
    src = cms.InputTag( "hltSiStripClusters" )
)
process.hltIter2PixelLayerPairsForPhotons = cms.EDProducer( "SeedingLayersEDProducer",
    layerList = cms.vstring( 'BPix1+BPix2',
      'BPix1+BPix3',
      'BPix2+BPix3',
      'BPix1+FPix1_pos',
      'BPix1+FPix1_neg',
      'BPix1+FPix2_pos',
      'BPix1+FPix2_neg',
      'BPix2+FPix1_pos',
      'BPix2+FPix1_neg',
      'BPix2+FPix2_pos',
      'BPix2+FPix2_neg',
      'FPix1_pos+FPix2_pos',
      'FPix1_neg+FPix2_neg' ),
    MTOB = cms.PSet(  ),
    TEC = cms.PSet(  ),
    MTID = cms.PSet(  ),
    FPix = cms.PSet( 
      HitProducer = cms.string( "hltSiPixelRecHits" ),
      hitErrorRZ = cms.double( 0.0036 ),
      useErrorsFromParam = cms.bool( True ),
      TTRHBuilder = cms.string( "hltESPTTRHBuilderPixelOnly" ),
      skipClusters = cms.InputTag( "hltIter2ClustersRefRemovalForPhotons" ),
      hitErrorRPhi = cms.double( 0.0051 )
    ),
    MTEC = cms.PSet(  ),
    MTIB = cms.PSet(  ),
    TID = cms.PSet(  ),
    TOB = cms.PSet(  ),
    BPix = cms.PSet( 
      HitProducer = cms.string( "hltSiPixelRecHits" ),
      hitErrorRZ = cms.double( 0.006 ),
      useErrorsFromParam = cms.bool( True ),
      TTRHBuilder = cms.string( "hltESPTTRHBuilderPixelOnly" ),
      skipClusters = cms.InputTag( "hltIter2ClustersRefRemovalForPhotons" ),
      hitErrorRPhi = cms.double( 0.0027 )
    ),
    TIB = cms.PSet(  )
)
process.hltIter2PFlowPixelSeedsForPhotons = cms.EDProducer( "SeedGeneratorFromRegionHitsEDProducer",
    RegionFactoryPSet = cms.PSet( 
      ComponentName = cms.string( "CandidateSeededTrackingRegionsProducer" ),
      RegionPSet = cms.PSet( 
        precise = cms.bool( True ),
        originRadius = cms.double( 0.05 ),
        ptMin = cms.double( 1.2 ),
        deltaEta = cms.double( 0.5 ),
        deltaPhi = cms.double( 0.5 ),
        vertexCollection = cms.InputTag( "hltPixelVerticesForPhotons" ),
        input = cms.InputTag( "hltEgammaCandidates" ),
        mode = cms.string( "VerticesFixed" ),
        maxNRegions = cms.int32( 10 ),
        beamSpot = cms.InputTag( "hltOnlineBeamSpot" ),
        maxNVertices = cms.int32( 3 ),
        zErrorBeamSpot = cms.double( 24.2 ),
        nSigmaZVertex = cms.double( 3.0 ),
        nSigmaZBeamSpot = cms.double( 4.0 ),
        zErrorVetex = cms.double( 0.2 )
      )
    ),
    SeedComparitorPSet = cms.PSet(  ComponentName = cms.string( "none" ) ),
    ClusterCheckPSet = cms.PSet( 
      PixelClusterCollectionLabel = cms.InputTag( "hltSiPixelClusters" ),
      MaxNumberOfCosmicClusters = cms.uint32( 50000 ),
      doClusterCheck = cms.bool( False ),
      ClusterCollectionLabel = cms.InputTag( "hltSiStripClusters" ),
      MaxNumberOfPixelClusters = cms.uint32( 10000 )
    ),
    OrderedHitsFactoryPSet = cms.PSet( 
      maxElement = cms.uint32( 0 ),
      ComponentName = cms.string( "StandardHitPairGenerator" ),
      GeneratorPSet = cms.PSet( 
        maxElement = cms.uint32( 100000 ),
        SeedComparitorPSet = cms.PSet(  ComponentName = cms.string( "none" ) )
      ),
      SeedingLayers = cms.InputTag( "hltIter2PixelLayerPairsForPhotons" )
    ),
    SeedCreatorPSet = cms.PSet( 
      ComponentName = cms.string( "SeedFromConsecutiveHitsCreator" ),
      propagator = cms.string( "PropagatorWithMaterialParabolicMf" )
    ),
    TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" )
)
process.hltIter2PFlowCkfTrackCandidatesForPhotons = cms.EDProducer( "CkfTrackCandidateMaker",
    src = cms.InputTag( "hltIter2PFlowPixelSeedsForPhotons" ),
    maxSeedsBeforeCleaning = cms.uint32( 1000 ),
    SimpleMagneticField = cms.string( "ParabolicMf" ),
    TransientInitialStateEstimatorParameters = cms.PSet( 
      propagatorAlongTISE = cms.string( "PropagatorWithMaterialParabolicMf" ),
      numberMeasurementsForFit = cms.int32( 4 ),
      propagatorOppositeTISE = cms.string( "PropagatorWithMaterialParabolicMfOpposite" )
    ),
    TrajectoryCleaner = cms.string( "hltESPTrajectoryCleanerBySharedHits" ),
    MeasurementTrackerEvent = cms.InputTag( "hltIter2MaskedMeasurementTrackerEventForPhotons" ),
    cleanTrajectoryAfterInOut = cms.bool( False ),
    useHitsSplitting = cms.bool( False ),
    RedundantSeedCleaner = cms.string( "CachingSeedCleanerBySharedInput" ),
    doSeedingRegionRebuilding = cms.bool( False ),
    maxNSeeds = cms.uint32( 100000 ),
    TrajectoryBuilderPSet = cms.PSet(  refToPSet_ = cms.string( "HLTIter2PSetTrajectoryBuilderIT" ) ),
    NavigationSchool = cms.string( "SimpleNavigationSchool" ),
    TrajectoryBuilder = cms.string( "" )
)
process.hltIter2PFlowCtfWithMaterialTracksForPhotons = cms.EDProducer( "TrackProducer",
    src = cms.InputTag( "hltIter2PFlowCkfTrackCandidatesForPhotons" ),
    SimpleMagneticField = cms.string( "ParabolicMf" ),
    clusterRemovalInfo = cms.InputTag( "" ),
    beamSpot = cms.InputTag( "hltOnlineBeamSpot" ),
    MeasurementTrackerEvent = cms.InputTag( "hltIter2MaskedMeasurementTrackerEventForPhotons" ),
    Fitter = cms.string( "hltESPFittingSmootherIT" ),
    useHitsSplitting = cms.bool( False ),
    MeasurementTracker = cms.string( "" ),
    AlgorithmName = cms.string( "hltIterX" ),
    alias = cms.untracked.string( "ctfWithMaterialTracks" ),
    NavigationSchool = cms.string( "" ),
    TrajectoryInEvent = cms.bool( True ),
    TTRHBuilder = cms.string( "hltESPTTRHBWithTrackAngle" ),
    GeometricInnerState = cms.bool( True ),
    useSimpleMF = cms.bool( True ),
    Propagator = cms.string( "hltESPRungeKuttaTrackerPropagator" )
)
process.hltIter2PFlowTrackSelectionHighPurityForPhotons = cms.EDProducer( "AnalyticalTrackSelector",
    max_d0 = cms.double( 100.0 ),
    minNumber3DLayers = cms.uint32( 0 ),
    max_lostHitFraction = cms.double( 1.0 ),
    applyAbsCutsIfNoPV = cms.bool( False ),
    qualityBit = cms.string( "highPurity" ),
    minNumberLayers = cms.uint32( 3 ),
    chi2n_par = cms.double( 0.7 ),
    useVtxError = cms.bool( False ),
    nSigmaZ = cms.double( 3.0 ),
    dz_par2 = cms.vdouble( 0.4, 4.0 ),
    applyAdaptedPVCuts = cms.bool( True ),
    min_eta = cms.double( -9999.0 ),
    dz_par1 = cms.vdouble( 0.35, 4.0 ),
    copyTrajectories = cms.untracked.bool( True ),
    vtxNumber = cms.int32( -1 ),
    max_d0NoPV = cms.double( 100.0 ),
    keepAllTracks = cms.bool( False ),
    maxNumberLostLayers = cms.uint32( 1 ),
    beamspot = cms.InputTag( "hltOnlineBeamSpot" ),
    max_relpterr = cms.double( 9999.0 ),
    copyExtras = cms.untracked.bool( True ),
    max_z0NoPV = cms.double( 100.0 ),
    vertexCut = cms.string( "tracksSize>=3" ),
    max_z0 = cms.double( 100.0 ),
    useVertices = cms.bool( True ),
    min_nhits = cms.uint32( 0 ),
    src = cms.InputTag( "hltIter2PFlowCtfWithMaterialTracksForPhotons" ),
    max_minMissHitOutOrIn = cms.int32( 99 ),
    chi2n_no1Dmod_par = cms.double( 9999.0 ),
    vertices = cms.InputTag( "hltPixelVerticesForPhotons" ),
    max_eta = cms.double( 9999.0 ),
    d0_par2 = cms.vdouble( 0.4, 4.0 ),
    d0_par1 = cms.vdouble( 0.3, 4.0 ),
    res_par = cms.vdouble( 0.003, 0.001 ),
    minHitsToBypassChecks = cms.uint32( 20 )
)
process.hltIter2MergedForPhotons = cms.EDProducer( "SimpleTrackListMerger",
    ShareFrac = cms.double( 0.19 ),
    promoteTrackQuality = cms.bool( True ),
    MinPT = cms.double( 0.05 ),
    copyExtras = cms.untracked.bool( True ),
    Epsilon = cms.double( -0.001 ),
    allowFirstHitShare = cms.bool( True ),
    newQuality = cms.string( "confirmed" ),
    MaxNormalizedChisq = cms.double( 1000.0 ),
    TrackProducer1 = cms.string( "hltIter1MergedForPhotons" ),
    MinFound = cms.int32( 3 ),
    TrackProducer2 = cms.string( "hltIter2PFlowTrackSelectionHighPurityForPhotons" ),
    LostHitPenalty = cms.double( 20.0 ),
    FoundHitBonus = cms.double( 5.0 )
)
process.hltEgammaHollowTrackIso = cms.EDProducer( "EgammaHLTPhotonTrackIsolationProducersRegional",
    egTrkIsoStripEndcap = cms.double( 0.03 ),
    egTrkIsoConeSize = cms.double( 0.29 ),
    trackProducer = cms.InputTag( "hltIter2MergedForPhotons" ),
    egTrkIsoStripBarrel = cms.double( 0.03 ),
    countTracks = cms.bool( False ),
    egTrkIsoRSpan = cms.double( 999999.0 ),
    egTrkIsoVetoConeSize = cms.double( 0.06 ),
    recoEcalCandidateProducer = cms.InputTag( "hltEgammaCandidates" ),
    egTrkIsoPtMin = cms.double( 1.0 ),
    egTrkIsoZSpan = cms.double( 999999.0 )
)
process.hltEG20CaloIdVLIsoLTrackIsoFilter = cms.EDFilter( "HLTEgammaGenericQuadraticFilter",
    doIsolated = cms.bool( True ),
    thrOverE2EE = cms.double( 0.0 ),
    L1NonIsoCand = cms.InputTag( "" ),
    saveTags = cms.bool( True ),
    thrOverE2EB = cms.double( 0.0 ),
    thrRegularEE = cms.double( 3.5 ),
    thrOverEEE = cms.double( 0.002 ),
    L1IsoCand = cms.InputTag( "hltEgammaCandidates" ),
    thrOverEEB = cms.double( 0.002 ),
    thrRegularEB = cms.double( 3.5 ),
    lessThan = cms.bool( True ),
    useEt = cms.bool( True ),
    ncandcut = cms.int32( 1 ),
    isoTag = cms.InputTag( "hltEgammaHollowTrackIso" ),
    candTag = cms.InputTag( "hltEG20CaloIdVLIsoLHcalIsoFilter" ),
    nonIsoTag = cms.InputTag( "" )
)
process.hltPrePhysics = cms.EDFilter( "HLTPrescaler",
    L1GtReadoutRecordTag = cms.InputTag( "hltGtDigis" ),
    offset = cms.uint32( 0 )
)
process.hltFEDSelector = cms.EDProducer( "EvFFEDSelector",
    inputTag = cms.InputTag( "rawDataCollector" ),
    fedList = cms.vuint32( 1023 )
)
process.hltTriggerSummaryAOD = cms.EDProducer( "TriggerSummaryProducerAOD",
    processName = cms.string( "@" )
)
process.hltTriggerSummaryRAW = cms.EDProducer( "TriggerSummaryProducerRAW",
    processName = cms.string( "@" )
)
process.hltPreAOutput = cms.EDFilter( "HLTPrescaler",
    L1GtReadoutRecordTag = cms.InputTag( "hltGtDigis" ),
    offset = cms.uint32( 0 )
)
process.hltL1GtTrigReport = cms.EDAnalyzer( "L1GtTrigReport",
    PrintVerbosity = cms.untracked.int32( 10 ),
    UseL1GlobalTriggerRecord = cms.bool( False ),
    PrintOutput = cms.untracked.int32( 3 ),
    L1GtRecordInputTag = cms.InputTag( "hltGtDigis" )
)
process.hltTrigReport = cms.EDAnalyzer( "HLTrigReport",
    ReferencePath = cms.untracked.string( "HLTriggerFinalPath" ),
    ReferenceRate = cms.untracked.double( 100.0 ),
    serviceBy = cms.untracked.string( "never" ),
    resetBy = cms.untracked.string( "never" ),
    reportBy = cms.untracked.string( "job" ),
    HLTriggerResults = cms.InputTag( 'TriggerResults','','HLT' )
)

process.hltOutputA = cms.OutputModule( "PoolOutputModule",
    fileName = cms.untracked.string( "outputA.root" ),
    fastCloning = cms.untracked.bool( False ),
    dataset = cms.untracked.PSet(
        filterName = cms.untracked.string( "" ),
        dataTier = cms.untracked.string( "RAW" )
    ),
    SelectEvents = cms.untracked.PSet(  SelectEvents = cms.vstring( 'HLT_CaloJet260_v1',
  'HLT_Ele27_eta2p1_WP85_Gsf_v1',
  'HLT_Mu40_v1',
  'HLT_PFJet260_v1',
  'HLT_Photon20_CaloIdVL_IsoL_v1',
  'HLT_Physics_v1' ) ),
    outputCommands = cms.untracked.vstring( 'drop *',
      'keep *_hltL1GtObjectMap_*_*',
      'keep FEDRawDataCollection_rawDataCollector_*_*',
      'keep FEDRawDataCollection_source_*_*',
      'keep edmTriggerResults_*_*_*',
      'keep triggerTriggerEvent_*_*_*' )
)

process.HLTL1UnpackerSequence = cms.Sequence( process.hltGtDigis + process.hltGctDigis + process.hltL1GtObjectMap + process.hltL1extraParticles )
process.HLTBeamSpot = cms.Sequence( process.hltScalersRawToDigi + process.hltOnlineBeamSpot )
process.HLTBeginSequence = cms.Sequence( process.hltTriggerType + process.HLTL1UnpackerSequence + process.HLTBeamSpot )
process.HLTDoFullUnpackingEgammaEcalWithoutPreshowerSequence = cms.Sequence( process.hltEcalDigis + process.hltEcalUncalibRecHit + process.hltEcalDetIdToBeRecovered + process.hltEcalRecHit )
process.HLTDoLocalHcalSequence = cms.Sequence( process.hltHcalDigis + process.hltHbhereco + process.hltHfreco + process.hltHoreco )
process.HLTDoCaloSequence = cms.Sequence( process.HLTDoFullUnpackingEgammaEcalWithoutPreshowerSequence + process.HLTDoLocalHcalSequence + process.hltTowerMakerForAll )
process.HLTAK4CaloJetsReconstructionSequence = cms.Sequence( process.HLTDoCaloSequence + process.hltAK4CaloJets + process.hltAK4CaloJetsIDPassed )
process.HLTAK4CaloJetsCorrectionSequence = cms.Sequence( process.hltFixedGridRhoFastjetAllCalo + process.hltAK4CaloJetsCorrected + process.hltAK4CaloJetsCorrectedIDPassed )
process.HLTAK4CaloJetsSequence = cms.Sequence( process.HLTAK4CaloJetsReconstructionSequence + process.HLTAK4CaloJetsCorrectionSequence )
process.HLTEndSequence = cms.Sequence( process.hltBoolEnd )
process.HLTDoFullUnpackingEgammaEcalSequence = cms.Sequence( process.hltEcalDigis + process.hltEcalPreshowerDigis + process.hltEcalUncalibRecHit + process.hltEcalDetIdToBeRecovered + process.hltEcalRecHit + process.hltEcalPreshowerRecHit )
process.HLTPFClusteringForEgamma = cms.Sequence( process.hltRechitInRegionsECAL + process.hltRechitInRegionsES + process.hltParticleFlowRecHitECALL1Seeded + process.hltParticleFlowRecHitPSL1Seeded + process.hltParticleFlowClusterPSL1Seeded + process.hltParticleFlowClusterECALUncorrectedL1Seeded + process.hltParticleFlowClusterECALL1Seeded + process.hltParticleFlowSuperClusterECALL1Seeded )
process.HLTDoLocalHcalWithTowerSequence = cms.Sequence( process.hltHcalDigis + process.hltHbhereco + process.hltHfreco + process.hltHoreco + process.hltTowerMakerForAll )
process.HLTFastJetForEgamma = cms.Sequence( process.hltFixedGridRhoFastjetAllCaloForMuons )
process.HLTPFHcalClusteringForEgamma = cms.Sequence( process.hltRegionalTowerForEgamma + process.hltParticleFlowRecHitHCALForEgamma + process.hltParticleFlowClusterHCALForEgamma )
process.HLTDoLocalPixelSequence = cms.Sequence( process.hltSiPixelDigis + process.hltSiPixelClusters + process.hltSiPixelClustersCache + process.hltSiPixelRecHits )
process.HLTDoLocalStripSequence = cms.Sequence( process.hltSiStripExcludedFEDListProducer + process.hltSiStripRawToClustersFacility + process.hltSiStripClusters )
process.HLTGsfElectronSequence = cms.Sequence( process.hltEgammaCkfTrackCandidatesForGSF + process.hltEgammaGsfTracks + process.hltEgammaGsfElectrons + process.hltEgammaGsfTrackVars )
process.HLTRecoPixelVertexingForElectronSequence = cms.Sequence( process.hltPixelLayerTriplets + process.hltPixelTracksElectrons + process.hltPixelVerticesElectrons )
process.HLTPixelTrackingForElectron = cms.Sequence( process.hltElectronsVertex + process.HLTDoLocalPixelSequence + process.HLTRecoPixelVertexingForElectronSequence )
process.HLTIterativeTrackingForElectronsIteration0 = cms.Sequence( process.hltIter0ElectronsPixelSeedsFromPixelTracks + process.hltIter0ElectronsCkfTrackCandidates + process.hltIter0ElectronsCtfWithMaterialTracks + process.hltIter0ElectronsTrackSelectionHighPurity )
process.HLTIterativeTrackingForElectronsIteration1 = cms.Sequence( process.hltIter1ElectronsClustersRefRemoval + process.hltIter1ElectronsMaskedMeasurementTrackerEvent + process.hltIter1ElectronsPixelLayerTriplets + process.hltIter1ElectronsPixelSeeds + process.hltIter1ElectronsCkfTrackCandidates + process.hltIter1ElectronsCtfWithMaterialTracks + process.hltIter1ElectronsTrackSelectionHighPurityLoose + process.hltIter1ElectronsTrackSelectionHighPurityTight + process.hltIter1ElectronsTrackSelectionHighPurity )
process.HLTIterativeTrackingForElectronsIteration2 = cms.Sequence( process.hltIter2ElectronsClustersRefRemoval + process.hltIter2ElectronsMaskedMeasurementTrackerEvent + process.hltIter2ElectronsPixelLayerPairs + process.hltIter2ElectronsPixelSeeds + process.hltIter2ElectronsCkfTrackCandidates + process.hltIter2ElectronsCtfWithMaterialTracks + process.hltIter2ElectronsTrackSelectionHighPurity )
process.HLTIterativeTrackingForElectronIter02 = cms.Sequence( process.HLTIterativeTrackingForElectronsIteration0 + process.HLTIterativeTrackingForElectronsIteration1 + process.hltIter1MergedForElectrons + process.HLTIterativeTrackingForElectronsIteration2 + process.hltIter2MergedForElectrons )
process.HLTTrackReconstructionForIsoElectronIter02 = cms.Sequence( process.HLTPixelTrackingForElectron + process.HLTDoLocalStripSequence + process.HLTIterativeTrackingForElectronIter02 )
process.HLTEle27erWP85GsfSequence = cms.Sequence( process.HLTDoFullUnpackingEgammaEcalSequence + process.HLTPFClusteringForEgamma + process.hltEgammaCandidates + process.hltEGL1SingleIsoEG25erFilter + process.hltEG27EtFilter + process.hltEgammaClusterShape + process.hltEle27WP85ClusterShapeFilter + process.HLTDoLocalHcalWithTowerSequence + process.HLTFastJetForEgamma + process.hltEgammaHoverE + process.hltEle27WP85HEFilter + process.hltEgammaEcalPFClusterIso + process.hltEle27WP85EcalIsoFilter + process.HLTPFHcalClusteringForEgamma + process.hltEgammaHcalPFClusterIso + process.hltEle27WP85HcalIsoFilter + process.HLTDoLocalPixelSequence + process.HLTDoLocalStripSequence + process.hltMixedLayerPairs + process.hltEgammaElectronPixelSeeds + process.hltEle27WP85PixelMatchFilter + process.HLTGsfElectronSequence + process.hltEle27WP85GsfOneOEMinusOneOPFilter + process.hltEle27WP85GsfMissingHitsFilter + process.hltEle27WP85GsfDetaFilter + process.hltEle27WP85GsfDphiFilter + process.HLTTrackReconstructionForIsoElectronIter02 + process.hltEgammaEleGsfTrackIso + process.hltEle27WP85GsfTrackIsoFilter )
process.HLTMuonLocalRecoSequence = cms.Sequence( process.hltMuonDTDigis + process.hltDt1DRecHits + process.hltDt4DSegments + process.hltMuonCSCDigis + process.hltCsc2DRecHits + process.hltCscSegments + process.hltMuonRPCDigis + process.hltRpcRecHits )
process.HLTL2muonrecoNocandSequence = cms.Sequence( process.HLTMuonLocalRecoSequence + process.hltL2OfflineMuonSeeds + process.hltL2MuonSeeds + process.hltL2Muons )
process.HLTL2muonrecoSequence = cms.Sequence( process.HLTL2muonrecoNocandSequence + process.hltL2MuonCandidates )
process.HLTL3muonTkCandidateSequence = cms.Sequence( process.HLTDoLocalPixelSequence + process.HLTDoLocalStripSequence + process.hltL3TrajSeedOIState + process.hltL3TrackCandidateFromL2OIState + process.hltL3TkTracksFromL2OIState + process.hltL3MuonsOIState + process.hltL3TrajSeedOIHit + process.hltL3TrackCandidateFromL2OIHit + process.hltL3TkTracksFromL2OIHit + process.hltL3MuonsOIHit + process.hltL3TkFromL2OICombination + process.hltPixelLayerTriplets + process.hltPixelLayerPairs + process.hltMixedLayerPairs + process.hltL3TrajSeedIOHit + process.hltL3TrackCandidateFromL2IOHit + process.hltL3TkTracksFromL2IOHit + process.hltL3MuonsIOHit + process.hltL3TrajectorySeed + process.hltL3TrackCandidateFromL2 )
process.HLTL3muonrecoNocandSequence = cms.Sequence( process.HLTL3muonTkCandidateSequence + process.hltL3TkTracksMergeStep1 + process.hltL3TkTracksFromL2 + process.hltL3MuonsLinksCombination + process.hltL3Muons )
process.HLTL3muonrecoSequence = cms.Sequence( process.HLTL3muonrecoNocandSequence + process.hltL3MuonCandidates )
process.HLTDoCaloSequencePF = cms.Sequence( process.HLTDoFullUnpackingEgammaEcalWithoutPreshowerSequence + process.HLTDoLocalHcalSequence + process.hltTowerMakerForPF )
process.HLTAK4CaloJetsPrePFRecoSequence = cms.Sequence( process.HLTDoCaloSequencePF + process.hltAK4CaloJetsPF )
process.HLTPreAK4PFJetsRecoSequence = cms.Sequence( process.HLTAK4CaloJetsPrePFRecoSequence + process.hltAK4CaloJetsPFEt5 )
process.HLTRecopixelvertexingSequence = cms.Sequence( process.hltPixelLayerTriplets + process.hltPixelTracks + process.hltPixelVertices + process.hltTrimmedPixelVertices )
process.HLTIterativeTrackingIteration0 = cms.Sequence( process.hltIter0PFLowPixelSeedsFromPixelTracks + process.hltIter0PFlowCkfTrackCandidates + process.hltIter0PFlowCtfWithMaterialTracks + process.hltIter0PFlowTrackSelectionHighPurity )
process.HLTIter0TrackAndTauJet4Iter1Sequence = cms.Sequence( process.hltTrackIter0RefsForJets4Iter1 + process.hltAK4Iter0TrackJets4Iter1 + process.hltIter0TrackAndTauJets4Iter1 )
process.HLTIterativeTrackingIteration1 = cms.Sequence( process.hltIter1ClustersRefRemoval + process.hltIter1MaskedMeasurementTrackerEvent + process.hltIter1PixelLayerTriplets + process.hltIter1PFlowPixelSeeds + process.hltIter1PFlowCkfTrackCandidates + process.hltIter1PFlowCtfWithMaterialTracks + process.hltIter1PFlowTrackSelectionHighPurityLoose + process.hltIter1PFlowTrackSelectionHighPurityTight + process.hltIter1PFlowTrackSelectionHighPurity )
process.HLTIter1TrackAndTauJets4Iter2Sequence = cms.Sequence( process.hltIter1TrackRefsForJets4Iter2 + process.hltAK4Iter1TrackJets4Iter2 + process.hltIter1TrackAndTauJets4Iter2 )
process.HLTIterativeTrackingIteration2 = cms.Sequence( process.hltIter2ClustersRefRemoval + process.hltIter2MaskedMeasurementTrackerEvent + process.hltIter2PixelLayerPairs + process.hltIter2PFlowPixelSeeds + process.hltIter2PFlowCkfTrackCandidates + process.hltIter2PFlowCtfWithMaterialTracks + process.hltIter2PFlowTrackSelectionHighPurity )
process.HLTIterativeTrackingIter02 = cms.Sequence( process.HLTIterativeTrackingIteration0 + process.HLTIter0TrackAndTauJet4Iter1Sequence + process.HLTIterativeTrackingIteration1 + process.hltIter1Merged + process.HLTIter1TrackAndTauJets4Iter2Sequence + process.HLTIterativeTrackingIteration2 + process.hltIter2Merged )
process.HLTTrackReconstructionForPF = cms.Sequence( process.HLTDoLocalPixelSequence + process.HLTRecopixelvertexingSequence + process.HLTDoLocalStripSequence + process.HLTIterativeTrackingIter02 + process.hltPFMuonMerging + process.hltMuonLinks + process.hltMuons )
process.HLTPreshowerSequence = cms.Sequence( process.hltEcalPreshowerDigis + process.hltEcalPreshowerRecHit )
process.HLTParticleFlowSequence = cms.Sequence( process.HLTPreshowerSequence + process.hltParticleFlowRecHitECALUnseeded + process.hltParticleFlowRecHitHCAL + process.hltParticleFlowRecHitPSUnseeded + process.hltParticleFlowClusterECALUncorrectedUnseeded + process.hltParticleFlowClusterPSUnseeded + process.hltParticleFlowClusterECALUnseeded + process.hltParticleFlowClusterHCAL + process.hltParticleFlowClusterHFEM + process.hltParticleFlowClusterHFHAD + process.hltLightPFTracks + process.hltParticleFlowBlock + process.hltParticleFlow )
process.HLTAK4PFJetsReconstructionSequence = cms.Sequence( process.HLTL2muonrecoSequence + process.HLTL3muonrecoSequence + process.HLTTrackReconstructionForPF + process.HLTParticleFlowSequence + process.hltAK4PFJets )
process.HLTAK4PFJetsCorrectionSequence = cms.Sequence( process.hltFixedGridRhoFastjetAll + process.hltAK4PFJetsCorrected )
process.HLTAK4PFJetsSequence = cms.Sequence( process.HLTPreAK4PFJetsRecoSequence + process.HLTAK4PFJetsReconstructionSequence + process.HLTAK4PFJetsCorrectionSequence )
process.HLTRecoPixelVertexingForPhotonsSequence = cms.Sequence( process.hltPixelLayerTriplets + process.hltPixelTracks + process.hltPixelVerticesForPhotons )
process.HLTIterativeTrackingForPhotonsIteration0 = cms.Sequence( process.hltIter0PFlowPixelSeedsFromPixelTracksForPhotons + process.hltIter0PFlowCkfTrackCandidatesForPhotons + process.hltIter0PFlowCtfWithMaterialTracksForPhotons + process.hltIter0PFlowTrackSelectionHighPurityForPhotons )
process.HLTIterativeTrackingForPhotonsIteration1 = cms.Sequence( process.hltIter1ClustersRefRemovalForPhotons + process.hltIter1MaskedMeasurementTrackerEventForPhotons + process.hltIter1PixelLayerTripletsForPhotons + process.hltIter1PFlowPixelSeedsForPhotons + process.hltIter1PFlowCkfTrackCandidatesForPhotons + process.hltIter1PFlowCtfWithMaterialTracksForPhotons + process.hltIter1PFlowTrackSelectionHighPurityLooseForPhotons + process.hltIter1PFlowTrackSelectionHighPurityTightForPhotons + process.hltIter1PFlowTrackSelectionHighPurityForPhotons )
process.HLTIterativeTrackingForPhotonsIteration2 = cms.Sequence( process.hltIter2ClustersRefRemovalForPhotons + process.hltIter2MaskedMeasurementTrackerEventForPhotons + process.hltIter2PixelLayerPairsForPhotons + process.hltIter2PFlowPixelSeedsForPhotons + process.hltIter2PFlowCkfTrackCandidatesForPhotons + process.hltIter2PFlowCtfWithMaterialTracksForPhotons + process.hltIter2PFlowTrackSelectionHighPurityForPhotons )
process.HLTIterativeTrackingForPhotonsIter02 = cms.Sequence( process.HLTIterativeTrackingForPhotonsIteration0 + process.HLTIterativeTrackingForPhotonsIteration1 + process.hltIter1MergedForPhotons + process.HLTIterativeTrackingForPhotonsIteration2 + process.hltIter2MergedForPhotons )
process.HLTTrackReconstructionForIsoForPhotons = cms.Sequence( process.HLTDoLocalPixelSequence + process.HLTRecoPixelVertexingForPhotonsSequence + process.HLTDoLocalStripSequence + process.HLTIterativeTrackingForPhotonsIter02 )
process.HLTPhoton20CaloIdVLIsoLSequence = cms.Sequence( process.HLTDoFullUnpackingEgammaEcalSequence + process.HLTPFClusteringForEgamma + process.hltEgammaCandidates + process.hltEGL1SingleEG12Filter + process.hltEG20EtFilter + process.hltEgammaClusterShape + process.hltEG20CaloIdVLClusterShapeFilter + process.HLTDoLocalHcalWithTowerSequence + process.HLTFastJetForEgamma + process.hltEgammaHoverE + process.hltEG20CaloIdVLHEFilter + process.hltEgammaEcalPFClusterIso + process.hltEG20CaloIdVLIsoLEcalIsoFilter + process.HLTPFHcalClusteringForEgamma + process.hltEgammaHcalPFClusterIso + process.hltEG20CaloIdVLIsoLHcalIsoFilter + process.HLTDoLocalPixelSequence + process.HLTDoLocalStripSequence + process.HLTTrackReconstructionForIsoForPhotons + process.hltEgammaHollowTrackIso + process.hltEG20CaloIdVLIsoLTrackIsoFilter )

process.HLTriggerFirstPath = cms.Path( process.hltGetConditions + process.hltGetRaw + process.hltBoolFalse )
process.HLT_CaloJet260_v1 = cms.Path( process.HLTBeginSequence + process.hltL1sL1SingleJet200 + process.hltPreCaloJet260 + process.HLTAK4CaloJetsSequence + process.hltSingleCaloJet260 + process.HLTEndSequence )
process.HLT_Ele27_eta2p1_WP85_Gsf_v1 = cms.Path( process.HLTBeginSequence + process.hltL1sL1SingleIsoEG25er + process.hltPreEle27eta2p1WP85Gsf + process.HLTEle27erWP85GsfSequence + process.HLTEndSequence )
process.HLT_Mu40_v1 = cms.Path( process.HLTBeginSequence + process.hltL1sL1SingleMu16ORSingleMu25 + process.hltPreMu40 + process.hltL1fL1sMu16orMu25L1Filtered0 + process.HLTL2muonrecoSequence + process.hltL2fL1sMu16orMu25L1f0L2Filtered16Q + process.HLTL3muonrecoSequence + process.hltL3fL1sMu16orMu25L1f0L2f16QL3Filtered40Q + process.HLTEndSequence )
process.HLT_PFJet260_v1 = cms.Path( process.HLTBeginSequence + process.hltL1sL1SingleJet200 + process.hltPrePFJet260 + process.HLTAK4CaloJetsSequence + process.hltSingleCaloJet210 + process.HLTAK4PFJetsSequence + process.hltPFJetsCorrectedMatchedToCaloJets210 + process.hltSinglePFJet260 + process.HLTEndSequence )
process.HLT_Photon20_CaloIdVL_IsoL_v1 = cms.Path( process.HLTBeginSequence + process.hltL1sL1SingleEG10 + process.hltPrePhoton20CaloIdVLIsoL + process.HLTPhoton20CaloIdVLIsoLSequence + process.HLTEndSequence )
process.HLT_Physics_v1 = cms.Path( process.HLTBeginSequence + process.hltPrePhysics + process.HLTEndSequence )
process.HLTriggerFinalPath = cms.Path( process.hltGtDigis + process.hltScalersRawToDigi + process.hltFEDSelector + process.hltTriggerSummaryAOD + process.hltTriggerSummaryRAW )
process.AOutput = cms.EndPath( process.hltPreAOutput + process.hltOutputA )

# load the DQMStore and DQMRootOutputModule
process.load( "DQMServices.Core.DQMStore_cfi" )
process.DQMStore.enableMultiThread = True

process.dqmOutput = cms.OutputModule("DQMRootOutputModule",
    fileName = cms.untracked.string("DQMIO.root")
)

process.DQMOutput = cms.EndPath( process.dqmOutput )

process.HLTAnalyzerEndpath = cms.EndPath( process.hltL1GtTrigReport + process.hltTrigReport )


process.source = cms.Source( "PoolSource",
    fileNames = cms.untracked.vstring(
        'file:RelVal_Raw_PIon_MC.root',
    ),
    secondaryFileNames = cms.untracked.vstring(
    ),
    inputCommands = cms.untracked.vstring(
        'keep *'
    )
)

# customise the HLT menu for running on MC
from HLTrigger.Configuration.customizeHLTforMC import customizeHLTforMC
process = customizeHLTforMC(process)

# CMSSW version specific customizations
import os
cmsswVersion = os.environ['CMSSW_VERSION']

# none for now

# load PostLS1 customisation
from SLHCUpgradeSimulations.Configuration.postLS1Customs import customisePostLS1
process = customisePostLS1(process)

# adapt HLT modules to the correct process name
if 'hltTrigReport' in process.__dict__:
    process.hltTrigReport.HLTriggerResults                    = cms.InputTag( 'TriggerResults', '', 'HLTPIon' )

if 'hltPreExpressCosmicsOutputSmart' in process.__dict__:
    process.hltPreExpressCosmicsOutputSmart.hltResults = cms.InputTag( 'TriggerResults', '', 'HLTPIon' )

if 'hltPreExpressOutputSmart' in process.__dict__:
    process.hltPreExpressOutputSmart.hltResults        = cms.InputTag( 'TriggerResults', '', 'HLTPIon' )

if 'hltPreDQMForHIOutputSmart' in process.__dict__:
    process.hltPreDQMForHIOutputSmart.hltResults       = cms.InputTag( 'TriggerResults', '', 'HLTPIon' )

if 'hltPreDQMForPPOutputSmart' in process.__dict__:
    process.hltPreDQMForPPOutputSmart.hltResults       = cms.InputTag( 'TriggerResults', '', 'HLTPIon' )

if 'hltPreHLTDQMResultsOutputSmart' in process.__dict__:
    process.hltPreHLTDQMResultsOutputSmart.hltResults  = cms.InputTag( 'TriggerResults', '', 'HLTPIon' )

if 'hltPreHLTDQMOutputSmart' in process.__dict__:
    process.hltPreHLTDQMOutputSmart.hltResults         = cms.InputTag( 'TriggerResults', '', 'HLTPIon' )

if 'hltPreHLTMONOutputSmart' in process.__dict__:
    process.hltPreHLTMONOutputSmart.hltResults         = cms.InputTag( 'TriggerResults', '', 'HLTPIon' )

if 'hltDQMHLTScalers' in process.__dict__:
    process.hltDQMHLTScalers.triggerResults                   = cms.InputTag( 'TriggerResults', '', 'HLTPIon' )
    process.hltDQMHLTScalers.processname                      = 'HLTPIon'

if 'hltDQML1SeedLogicScalers' in process.__dict__:
    process.hltDQML1SeedLogicScalers.processname              = 'HLTPIon'

# limit the number of events to be processed
process.maxEvents = cms.untracked.PSet(
    input = cms.untracked.int32( 100 )
)

# enable the TrigReport and TimeReport
process.options = cms.untracked.PSet(
    wantSummary = cms.untracked.bool( True )
)

# override the GlobalTag, connection string and pfnPrefix
if 'GlobalTag' in process.__dict__:
    from Configuration.AlCa.GlobalTag_condDBv2 import GlobalTag as customiseGlobalTag
    process.GlobalTag = customiseGlobalTag(process.GlobalTag, globaltag = 'auto:run2_mc_PIon')
    process.GlobalTag.connect   = 'frontier://FrontierProd/CMS_CONDITIONS'
    process.GlobalTag.pfnPrefix = cms.untracked.string('frontier://FrontierProd/')
    for pset in process.GlobalTag.toGet.value():
        pset.connect = pset.connect.value().replace('frontier://FrontierProd/', 'frontier://FrontierProd/')
    # fix for multi-run processing
    process.GlobalTag.RefreshEachRun = cms.untracked.bool( False )
    process.GlobalTag.ReconnectEachRun = cms.untracked.bool( False )

if 'MessageLogger' in process.__dict__:
    process.MessageLogger.categories.append('TriggerSummaryProducerAOD')
    process.MessageLogger.categories.append('L1GtTrigReport')
    process.MessageLogger.categories.append('HLTrigReport')
    process.MessageLogger.categories.append('FastReport')