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Variables

HSCParticleProducer_cff Namespace Reference

Variables

tuple dedxASmi = dedxProd.clone()
tuple dedxHarm2
 DEDX ESTIMATORS.
tuple dedxNPASmi = dedxASmi.clone()
tuple dedxNPHarm2 = dedxHarm2.clone()
tuple dedxNPProd = dedxProd.clone()
tuple dedxNPTru40 = dedxTru40.clone()
tuple dedxNSHarm2 = dedxHarm2.clone()
tuple dedxNSTru40 = dedxTru40.clone()
tuple dedxProd
 DEDX DISCRIMINATORS.
tuple dedxTru40
tuple HSCParticleProducer
tuple HSCParticleProducerSeq = cms.Sequence(offlineBeamSpot + TrackRefitter + dedxHarm2 + dedxTru40 + dedxNPHarm2 + dedxNPTru40 + dedxNSHarm2 + dedxNSTru40 + dedxProd + dedxASmi + dedxNPProd + dedxNPASmi + muontiming + HSCParticleProducer)
 HSCP Candidate Sequence.
tuple HSCParticleSelector
 HSCParticle Selector (Just an Example of what we can do)

Variable Documentation

tuple HSCParticleProducer_cff::dedxASmi = dedxProd.clone()

Definition at line 100 of file HSCParticleProducer_cff.py.

tuple HSCParticleProducer_cff::dedxHarm2
Initial value:
00001 cms.EDProducer("DeDxEstimatorProducer",
00002     tracks                     = cms.InputTag("TrackRefitter"),
00003     trajectoryTrackAssociation = cms.InputTag("TrackRefitter"),
00004 
00005     estimator      = cms.string('generic'),
00006     exponent       = cms.double(-2.0),
00007 
00008     UseStrip       = cms.bool(True),
00009     UsePixel       = cms.bool(True),
00010     MeVperADCStrip = cms.double(3.61e-06*265),
00011     MeVperADCPixel = cms.double(3.61e-06),
00012 
00013     MisCalib_Mean      = cms.untracked.double(1.0),
00014     MisCalib_Sigma     = cms.untracked.double(0.00),
00015 
00016     UseCalibration  = cms.bool(False),
00017     calibrationPath = cms.string(""),
00018     ShapeTest       = cms.bool(True),
00019 )

DEDX ESTIMATORS.

Definition at line 18 of file HSCParticleProducer_cff.py.

tuple HSCParticleProducer_cff::dedxNPASmi = dedxASmi.clone()

Definition at line 106 of file HSCParticleProducer_cff.py.

tuple HSCParticleProducer_cff::dedxNPHarm2 = dedxHarm2.clone()

Definition at line 58 of file HSCParticleProducer_cff.py.

tuple HSCParticleProducer_cff::dedxNPProd = dedxProd.clone()

Definition at line 103 of file HSCParticleProducer_cff.py.

tuple HSCParticleProducer_cff::dedxNPTru40 = dedxTru40.clone()

Definition at line 61 of file HSCParticleProducer_cff.py.

tuple HSCParticleProducer_cff::dedxNSHarm2 = dedxHarm2.clone()

Definition at line 64 of file HSCParticleProducer_cff.py.

tuple HSCParticleProducer_cff::dedxNSTru40 = dedxTru40.clone()

Definition at line 67 of file HSCParticleProducer_cff.py.

tuple HSCParticleProducer_cff::dedxProd
Initial value:
00001 cms.EDProducer("DeDxDiscriminatorProducer",
00002     tracks                     = cms.InputTag("TrackRefitter"),
00003     trajectoryTrackAssociation = cms.InputTag("TrackRefitter"),
00004 
00005     Reccord            = cms.untracked.string("SiStripDeDxMip_3D_Rcd"),
00006     Formula            = cms.untracked.uint32(0),
00007 #    ProbabilityMode    = cms.untracked.string("Integral"),
00008     ProbabilityMode    = cms.untracked.string("Accumulation"),
00009 
00010 
00011     UseStrip           = cms.bool(True),
00012     UsePixel           = cms.bool(True),
00013     MeVperADCStrip     = cms.double(3.61e-06*265),
00014     MeVperADCPixel     = cms.double(3.61e-06),
00015 
00016     MisCalib_Mean      = cms.untracked.double(1.0),
00017     MisCalib_Sigma     = cms.untracked.double(0.00),
00018 
00019     UseCalibration  = cms.bool(False),
00020     calibrationPath = cms.string("file:Gains.root"),
00021     ShapeTest          = cms.bool(True),
00022 
00023     MaxNrStrips        = cms.untracked.uint32(255)
00024 )

DEDX DISCRIMINATORS.

Definition at line 75 of file HSCParticleProducer_cff.py.

tuple HSCParticleProducer_cff::dedxTru40
Initial value:
00001 cms.EDProducer("DeDxEstimatorProducer",
00002     tracks                     = cms.InputTag("TrackRefitter"),
00003     trajectoryTrackAssociation = cms.InputTag("TrackRefitter"),
00004 
00005     estimator      = cms.string('truncated'),
00006     fraction       = cms.double(0.4),
00007 
00008     UseStrip       = cms.bool(True),
00009     UsePixel       = cms.bool(True),
00010     MeVperADCStrip = cms.double(3.61e-06*265),
00011     MeVperADCPixel = cms.double(3.61e-06),
00012 
00013     MisCalib_Mean      = cms.untracked.double(1.0),
00014     MisCalib_Sigma     = cms.untracked.double(0.00),
00015 
00016     UseCalibration  = cms.bool(False),
00017     calibrationPath = cms.string(""),
00018     ShapeTest       = cms.bool(True),
00019 )

Definition at line 38 of file HSCParticleProducer_cff.py.

tuple HSCParticleProducer_cff::HSCParticleProducer

Definition at line 145 of file HSCParticleProducer_cff.py.

tuple HSCParticleProducer_cff::HSCParticleProducerSeq = cms.Sequence(offlineBeamSpot + TrackRefitter + dedxHarm2 + dedxTru40 + dedxNPHarm2 + dedxNPTru40 + dedxNSHarm2 + dedxNSTru40 + dedxProd + dedxASmi + dedxNPProd + dedxNPASmi + muontiming + HSCParticleProducer)

HSCP Candidate Sequence.

Definition at line 199 of file HSCParticleProducer_cff.py.

tuple HSCParticleProducer_cff::HSCParticleSelector
Initial value:
00001 cms.EDFilter("HSCParticleSelector",
00002    source = cms.InputTag("HSCParticleProducer"),
00003    filter = cms.bool(True),
00004 
00005    SelectionParameters = cms.VPSet(
00006       HSCPSelectionHighdEdx, #THE OR OF THE TWO SELECTION WILL BE APPLIED
00007       HSCPSelectionHighTOF,
00008    ),
00009 )

HSCParticle Selector (Just an Example of what we can do)

Definition at line 185 of file HSCParticleProducer_cff.py.

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