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) |
tuple HSCParticleProducer_cff::dedxASmi = dedxProd.clone() |
Definition at line 100 of file HSCParticleProducer_cff.py.
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.
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.
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.
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 200 of file HSCParticleProducer_cff.py.
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 186 of file HSCParticleProducer_cff.py.