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/data/refman/pasoursint/CMSSW_5_3_0/src/SUSYBSMAnalysis/HSCP/python/HSCParticleProducer_cff.py

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00001 import FWCore.ParameterSet.Config as cms
00002 
00003 ####################################################################################
00004 #   BEAMSPOT + TRAJECTORY BUILDERS
00005 ####################################################################################
00006 
00007 from RecoVertex.BeamSpotProducer.BeamSpot_cff import *
00008 from RecoTracker.TrackProducer.TrackRefitters_cff import *
00009 
00010 
00011 
00012 
00013 
00014 ####################################################################################
00015 #   DEDX ESTIMATORS 
00016 ####################################################################################
00017 
00018 dedxHarm2 = cms.EDProducer("DeDxEstimatorProducer",
00019     tracks                     = cms.InputTag("TrackRefitter"),
00020     trajectoryTrackAssociation = cms.InputTag("TrackRefitter"),
00021 
00022     estimator      = cms.string('generic'),
00023     exponent       = cms.double(-2.0),
00024 
00025     UseStrip       = cms.bool(True),
00026     UsePixel       = cms.bool(True),
00027     MeVperADCStrip = cms.double(3.61e-06*265),
00028     MeVperADCPixel = cms.double(3.61e-06),
00029 
00030     MisCalib_Mean      = cms.untracked.double(1.0),
00031     MisCalib_Sigma     = cms.untracked.double(0.00),
00032 
00033     UseCalibration  = cms.bool(False),
00034     calibrationPath = cms.string(""),
00035     ShapeTest       = cms.bool(True),
00036 )
00037 
00038 dedxTru40 = cms.EDProducer("DeDxEstimatorProducer",
00039     tracks                     = cms.InputTag("TrackRefitter"),
00040     trajectoryTrackAssociation = cms.InputTag("TrackRefitter"),
00041 
00042     estimator      = cms.string('truncated'),
00043     fraction       = cms.double(0.4),
00044 
00045     UseStrip       = cms.bool(True),
00046     UsePixel       = cms.bool(True),
00047     MeVperADCStrip = cms.double(3.61e-06*265),
00048     MeVperADCPixel = cms.double(3.61e-06),
00049 
00050     MisCalib_Mean      = cms.untracked.double(1.0),
00051     MisCalib_Sigma     = cms.untracked.double(0.00),
00052 
00053     UseCalibration  = cms.bool(False),
00054     calibrationPath = cms.string(""),
00055     ShapeTest       = cms.bool(True),
00056 )
00057 
00058 dedxNPHarm2                  = dedxHarm2.clone()
00059 dedxNPHarm2.UsePixel         = cms.bool(False)
00060 
00061 dedxNPTru40                  = dedxTru40.clone()
00062 dedxNPTru40.UsePixel         = cms.bool(False)
00063 
00064 dedxNSHarm2                  = dedxHarm2.clone()
00065 dedxNSHarm2.UseStrip         = cms.bool(False)
00066 
00067 dedxNSTru40                  = dedxTru40.clone()
00068 dedxNSTru40.UseStrip         = cms.bool(False)
00069 
00070 
00071 ####################################################################################
00072 #   DEDX DISCRIMINATORS 
00073 ####################################################################################
00074 
00075 dedxProd               = cms.EDProducer("DeDxDiscriminatorProducer",
00076     tracks                     = cms.InputTag("TrackRefitter"),
00077     trajectoryTrackAssociation = cms.InputTag("TrackRefitter"),
00078 
00079     Reccord            = cms.untracked.string("SiStripDeDxMip_3D_Rcd"),
00080     Formula            = cms.untracked.uint32(0),
00081 #    ProbabilityMode    = cms.untracked.string("Integral"),
00082     ProbabilityMode    = cms.untracked.string("Accumulation"),
00083 
00084 
00085     UseStrip           = cms.bool(True),
00086     UsePixel           = cms.bool(True),
00087     MeVperADCStrip     = cms.double(3.61e-06*265),
00088     MeVperADCPixel     = cms.double(3.61e-06),
00089 
00090     MisCalib_Mean      = cms.untracked.double(1.0),
00091     MisCalib_Sigma     = cms.untracked.double(0.00),
00092 
00093     UseCalibration  = cms.bool(False),
00094     calibrationPath = cms.string("file:Gains.root"),
00095     ShapeTest          = cms.bool(True),
00096 
00097     MaxNrStrips        = cms.untracked.uint32(255)
00098 )
00099 
00100 dedxASmi = dedxProd.clone()
00101 dedxASmi.Formula = cms.untracked.uint32(3)
00102 
00103 dedxNPProd = dedxProd.clone()
00104 dedxNPProd.UsePixel = cms.bool(False)
00105 
00106 dedxNPASmi = dedxASmi.clone()
00107 dedxNPASmi.UsePixel = cms.bool(False)
00108 
00109 
00110 ####################################################################################
00111 #   MUON TIMING
00112 ####################################################################################
00113 
00114 from RecoMuon.MuonIdentification.muonTiming_cfi import *
00115 muontiming.MuonCollection = cms.InputTag("muons")
00116 muontiming.TimingFillerParameters.UseECAL=False
00117 
00118 ####################################################################################
00119 #   HSCParticle Producer
00120 ####################################################################################
00121 
00122 #ALL THIS IS NEEDED BY ECAL BETA CALCULATOR (TrackAssociator)
00123 from TrackingTools.TrackAssociator.DetIdAssociatorESProducer_cff import *
00124 from TrackingTools.TrackAssociator.default_cfi import * 
00125 from TrackPropagation.SteppingHelixPropagator.SteppingHelixPropagatorAlong_cfi import *
00126 from TrackPropagation.SteppingHelixPropagator.SteppingHelixPropagatorOpposite_cfi import *
00127 from TrackPropagation.SteppingHelixPropagator.SteppingHelixPropagatorAny_cfi import *
00128 from Geometry.CMSCommonData.cmsIdealGeometryXML_cfi import *
00129 from Geometry.CaloEventSetup.CaloGeometry_cff import *
00130 from Geometry.CaloEventSetup.CaloTopology_cfi import *
00131 from Geometry.CaloEventSetup.EcalTrigTowerConstituents_cfi import *
00132 from Geometry.TrackerGeometryBuilder.trackerGeometry_cfi import *
00133 from Geometry.TrackerNumberingBuilder.trackerNumberingGeometry_cfi import *
00134 from Geometry.MuonNumbering.muonNumberingInitialization_cfi import *
00135 from Geometry.DTGeometry.dtGeometry_cfi import *
00136 from Geometry.RPCGeometry.rpcGeometry_cfi import *
00137 from Geometry.CSCGeometry.cscGeometry_cfi import *
00138 from Geometry.CommonDetUnit.bareGlobalTrackingGeometry_cfi import *
00139 
00140 
00141 from SUSYBSMAnalysis.HSCP.HSCPSelections_cff import *
00142 
00143 
00144 
00145 HSCParticleProducer = cms.EDFilter("HSCParticleProducer",
00146    TrackAssociatorParameterBlock, #Needed for ECAL/Track Matching
00147 
00148    #DOES THE PRODUCER ACT AS AN EDFILTER?
00149    filter = cms.bool(True),
00150 
00151    #WHAT (BETA) INFORMATION TO COMPUTE
00152    useBetaFromTk      = cms.bool(True),
00153    useBetaFromMuon    = cms.bool(True),
00154    useBetaFromRpc     = cms.bool(True),
00155    useBetaFromEcal    = cms.bool(True),
00156 
00157    #TAG OF THE REQUIRED INPUT COLLECTION (ONLY ACTIVATED CALCULATOR)
00158    tracks             = cms.InputTag("TrackRefitter"),
00159    tracksIsolation    = cms.InputTag("generalTracks"),
00160    muons              = cms.InputTag("muons"),
00161    EBRecHitCollection = cms.InputTag("ecalRecHit:EcalRecHitsEB"),
00162    EERecHitCollection = cms.InputTag("ecalRecHit:EcalRecHitsEE"),
00163    rpcRecHits         = cms.InputTag("rpcRecHits"),
00164 
00165    #TRACK SELECTION FOR THE HSCP SEED
00166    minMuP             = cms.double(25),
00167    minTkP             = cms.double(25),
00168    maxTkChi2          = cms.double(25),
00169    minTkHits          = cms.uint32(3),
00170 
00171    #MUON/TRACK MATCHING THRESHOLDS (ONLY IF NO MUON INNER TRACK)
00172    minDR              = cms.double(0.1),
00173    maxInvPtDiff       = cms.double(0.005),
00174 
00175    #SELECTION ON THE PRODUCED HSCP CANDIDATES (WILL STORE ONLY INTERESTING CANDIDATES)
00176    SelectionParameters = cms.VPSet(
00177       HSCPSelectionDefault,
00178    ),
00179 )
00180 
00181 ####################################################################################
00182 #   HSCParticle Selector  (Just an Example of what we can do)
00183 ####################################################################################
00184 
00185 HSCParticleSelector = cms.EDFilter("HSCParticleSelector",
00186    source = cms.InputTag("HSCParticleProducer"),
00187    filter = cms.bool(True),
00188 
00189    SelectionParameters = cms.VPSet(
00190       HSCPSelectionHighdEdx, #THE OR OF THE TWO SELECTION WILL BE APPLIED
00191       HSCPSelectionHighTOF,
00192    ),
00193 )
00194 
00195 ####################################################################################
00196 #   HSCP Candidate Sequence
00197 ####################################################################################
00198 
00199 HSCParticleProducerSeq = cms.Sequence(offlineBeamSpot + TrackRefitter + dedxHarm2 + dedxTru40 + dedxNPHarm2 + dedxNPTru40 + dedxNSHarm2 + dedxNSTru40 + dedxProd + dedxASmi + dedxNPProd + dedxNPASmi + muontiming + HSCParticleProducer)
00200 
00201