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import FWCore.ParameterSet.Config as cms
from DQM.TrackingMonitor.BXlumiParameters_cfi import BXlumiSetup
from DQMServices.Core.DQMEDAnalyzer import DQMEDAnalyzer
TrackMon = DQMEDAnalyzer('TrackingMonitor',
# input tags
numCut = cms.string(" pt >= 1 & quality('highPurity') "),
denCut = cms.string(" pt >= 1 "),
allTrackProducer = cms.InputTag("generalTracks"),
TrackProducer = cms.InputTag("generalTracks"),
SeedProducer = cms.InputTag("initialStepSeeds"),
TCProducer = cms.InputTag("initialStepTrackCandidates"),
MVAProducers = cms.vstring("initialStepClassifier1", "initialStepClassifier2"),
TrackProducerForMVA = cms.InputTag("initialStepTracks"),
ClusterLabels = cms.vstring('Tot'), # to decide which Seeds-Clusters correlation plots to have default is Total other options 'Strip', 'Pix'
beamSpot = cms.InputTag("offlineBeamSpot"),
primaryVertex = cms.InputTag('offlinePrimaryVertices'),
stripCluster = cms.InputTag('siStripClusters'),
pixelCluster = cms.InputTag('siPixelClusters'),
BXlumiSetup = BXlumiSetup.clone(),
genericTriggerEventPSet = cms.PSet(),
# lumi = cms.InputTag('lumiProducer'),
# # taken from
# # DPGAnalysis/SiStripTools/src/DigiLumiCorrHistogramMaker.cc
# # the scale factor 6.37 should follow the lumi prescriptions
# # AS SOON AS THE CORRECTED LUMI WILL BE AVAILABLE IT HAS TO BE SET TO 1.
# lumiScale = cms.double(6.37),
# PU monitoring
primaryVertexInputTags = cms.VInputTag(),
selPrimaryVertexInputTags = cms.VInputTag(),
pvLabels = cms.vstring(),
# output parameters
AlgoName = cms.string('GenTk'),
Quality = cms.string(''),
FolderName = cms.string('Tracking/GlobalParameters'),
BSFolderName = cms.string('Tracking/ParametersVsBeamSpot'),
PVFolderName = cms.string('Tracking/PrimaryVertices'),
# determines where to evaluate track parameters
# options: 'default' --> straight up track parametes
# 'ImpactPoint' --> evalutate at impact point
# 'InnerSurface' --> evalutate at innermost measurement state
# 'OuterSurface' --> evalutate at outermost measurement state
MeasurementState = cms.string('ImpactPoint'),
# which plots to do
doTestPlots = cms.bool(False),
doAllPlots = cms.bool(True),
doTrackerSpecific = cms.bool(False),
doBeamSpotPlots = cms.bool(False),
doPrimaryVertexPlots = cms.bool(False),
doSeedParameterHistos = cms.bool(False),
doTrackCandHistos = cms.bool(False),
doAllTrackCandHistos = cms.bool(False),
doDCAPlots = cms.bool(False),
doDCAwrtPVPlots = cms.bool(False),
doDCAwrt000Plots = cms.bool(False),
doSIPPlots = cms.bool(False),
doEffFromHitPatternVsPU = cms.bool(False),
doEffFromHitPatternVsBX = cms.bool(False),
doEffFromHitPatternVsLUMI = cms.bool(False),
pvNDOF = cms.int32(4),
pixelCluster4lumi = cms.InputTag('siPixelClustersPreSplitting'),
scal = cms.InputTag('scalersRawToDigi'),
forceSCAL = cms.bool(True),
metadata = cms.InputTag('onlineMetaDataDigis'),
useBPixLayer1 = cms.bool(False),
minNumberOfPixelsPerCluster = cms.int32(2), # from DQM/PixelLumi/python/PixelLumiDQM_cfi.py
minPixelClusterCharge = cms.double(15000.),
doGeneralPropertiesPlots = cms.bool(False),
doHitPropertiesPlots = cms.bool(False),
# doGoodTrackPlots = cms.bool(False),
doMeasurementStatePlots = cms.bool(True),
doProfilesVsLS = cms.bool(False),
doRecHitsPerTrackProfile = cms.bool(True),
doRecHitVsPhiVsEtaPerTrack = cms.bool(False),
doRecHitVsPtVsEtaPerTrack = cms.bool(False),
# doGoodTrackRecHitVsPhiVsEtaPerTrack = cms.bool(False),
doLayersVsPhiVsEtaPerTrack = cms.bool(False),
# doGoodTrackLayersVsPhiVsEtaPerTrack = cms.bool(False),
# doGoodTrack2DChi2Plots = cms.bool(False),
doThetaPlots = cms.bool(False),
doTrackPxPyPlots = cms.bool(False),
doPUmonitoring = cms.bool(False),
doPlotsVsBXlumi = cms.bool(False),
doPlotsVsGoodPVtx = cms.bool(True),
doPlotsVsLUMI = cms.bool(False),
doPlotsVsBX = cms.bool(False),
doHIPlots = cms.bool(False),
doMVAPlots = cms.bool(False),
qualityString = cms.string("highPurity"),
#which seed plots to do
doSeedNumberHisto = cms.bool(False),
doSeedLumiAnalysis = cms.bool(False),
doSeedVsClusterHisto = cms.bool(False),
doSeedPTHisto = cms.bool(False),
doSeedETAHisto = cms.bool(False),
doSeedPHIHisto = cms.bool(False),
doSeedPHIVsETAHisto = cms.bool(False),
doSeedThetaHisto = cms.bool(False),
doSeedQHisto = cms.bool(False),
doSeedDxyHisto= cms.bool(False),
doSeedDzHisto= cms.bool(False),
doSeedNRecHitsHisto= cms.bool(False),
doSeedNVsPhiProf= cms.bool(False),
doSeedNVsEtaProf= cms.bool(False),
doStopSource = cms.bool(False),
TTRHBuilder = cms.string('WithTrackAngle'),
# Luminosity based analysis
doLumiAnalysis = cms.bool(False),
# For plots vs LS
LSBin = cms.int32(2000),
LSMin = cms.double(0),
LSMax = cms.double(2000.),
# paramters of the Track
# ============================================================
# chi2
Chi2Bin = cms.int32(50),
Chi2Max = cms.double(199.5),
Chi2Min = cms.double(-0.5),
# chi2 dof
Chi2NDFBin = cms.int32(50),
Chi2NDFMax = cms.double(19.5),
Chi2NDFMin = cms.double(-0.5),
# chi^2 probability
Chi2ProbBin = cms.int32(100),
Chi2ProbMax = cms.double(1.0),
Chi2ProbMin = cms.double(0.0),
# Number of Tracks per Event
TkSizeBin = cms.int32(100),
TkSizeMax = cms.double(99.5),
TkSizeMin = cms.double(-0.5),
# Number of seeds per Event
TkSeedSizeBin = cms.int32(200),
TkSeedSizeMax = cms.double(999.5),
TkSeedSizeMin = cms.double(-0.5),
# Number of Track Cadidates per Event
TCSizeBin = cms.int32(200),
TCSizeMax = cms.double(999.5),
TCSizeMin = cms.double(-0.5),
# num rec hits
TrackQBin = cms.int32(8),
TrackQMax = cms.double(2.5),
TrackQMin = cms.double(-2.5),
# num rec hits in seed
SeedHitBin = cms.int32(6),
SeedHitMax = cms.double(5.5),
SeedHitMin = cms.double(-0.5),
# num rec hits per track candidate
TCHitBin = cms.int32(40),
TCHitMax = cms.double(39.5),
TCHitMin = cms.double(-0.5),
# num rec hits
RecHitBin = cms.int32(40),
RecHitMax = cms.double(39.5),
RecHitMin = cms.double(-0.5),
# mean rec hits
MeanHitBin = cms.int32(30),
MeanHitMax = cms.double(29.5),
MeanHitMin = cms.double(-0.5),
subdetectors = cms.vstring( "TIB", "TOB", "TID", "TEC", "PixBarrel", "PixEndcap", "Pixel", "Strip" ),
subdetectorBin = cms.int32(25),
# num rec hits lost
RecLostBin = cms.int32(10),
RecLostMax = cms.double(9.5),
RecLostMin = cms.double(-0.5),
# num layers
RecLayBin = cms.int32(25),
RecLayMax = cms.double(24.5),
RecLayMin = cms.double(-0.5),
# mean layers
MeanLayBin = cms.int32(25),
MeanLayMax = cms.double(24.5),
MeanLayMin = cms.double(-0.5),
# num TOB Layers
TOBLayBin = cms.int32(10),
TOBLayMax = cms.double(9.5),
TOBLayMin = cms.double(-0.5),
# num TIB Layers
TIBLayBin = cms.int32(6),
TIBLayMax = cms.double(5.5),
TIBLayMin = cms.double(-0.5),
# num TID Layers
TIDLayBin = cms.int32(6),
TIDLayMax = cms.double(5.5),
TIDLayMin = cms.double(-0.5),
# num TEC Layers
TECLayBin = cms.int32(15),
TECLayMax = cms.double(14.5),
TECLayMin = cms.double(-0.5),
# num PXB Layers
PXBLayBin = cms.int32(6),
PXBLayMax = cms.double(5.5),
PXBLayMin = cms.double(-0.5),
# num PXF Layers
PXFLayBin = cms.int32(6),
PXFLayMax = cms.double(5.5),
PXFLayMin = cms.double(-0.5),
# Track |p|
TrackPBin = cms.int32(100),
TrackPMax = cms.double(100),
TrackPMin = cms.double(0),
# Track pT
TrackPtBin = cms.int32(100),
TrackPtMax = cms.double(100),
TrackPtMin = cms.double(0.1),
# Track px
TrackPxBin = cms.int32(50),
TrackPxMax = cms.double(50.0),
TrackPxMin = cms.double(-50.0),
# Track py
TrackPyBin = cms.int32(50),
TrackPyMax = cms.double(50.0),
TrackPyMin = cms.double(-50.0),
# Track pz
TrackPzBin = cms.int32(50),
TrackPzMax = cms.double(50.0),
TrackPzMin = cms.double(-50.0),
# track theta
ThetaBin = cms.int32(32),
ThetaMax = cms.double(3.2),
ThetaMin = cms.double(0.0),
# track eta
EtaBin = cms.int32(26),
EtaMax = cms.double(2.5),
EtaMin = cms.double(-2.5),
# track phi
PhiBin = cms.int32(32),
PhiMax = cms.double(3.141592654),
PhiMin = cms.double(-3.141592654),
# Track |p| error
pErrBin = cms.int32(50),
pErrMax = cms.double(1.0),
pErrMin = cms.double(0.0),
# Track pT error
ptErrBin = cms.int32(50),
ptErrMax = cms.double(1.0),
ptErrMin = cms.double(0.0),
# Track px error
pxErrBin = cms.int32(50),
pxErrMax = cms.double(1.0),
pxErrMin = cms.double(0.0),
# Track py error
pyErrBin = cms.int32(50),
pyErrMax = cms.double(1.0),
pyErrMin = cms.double(0.0),
# Track pz error
pzErrBin = cms.int32(50),
pzErrMax = cms.double(1.0),
pzErrMin = cms.double(0.0),
# track eta error
etaErrBin = cms.int32(50),
etaErrMax = cms.double(0.1),
etaErrMin = cms.double(0.0),
# track phi Error
phiErrBin = cms.int32(50),
phiErrMax = cms.double(0.1),
phiErrMin = cms.double(0.0),
# PCA x position
VXBin = cms.int32(100),
VXMax = cms.double(0.5),
VXMin = cms.double(-0.5),
# PCA y position
VYBin = cms.int32(100),
VYMax = cms.double(0.5),
VYMin = cms.double(-0.5),
# PCA z position
VZBin = cms.int32(100),
VZMax = cms.double(30.0),
VZMin = cms.double(-30.0),
# PCA z position (to PV)
VZ_PVMax = cms.double(30.0),
VZ_PVMin = cms.double(-30.0),
# PCA z position for profile
VZBinProf = cms.int32(100),
VZMaxProf = cms.double(0.2),
VZMinProf = cms.double(-0.2),
# PCA x position for 2D plot
X0Bin = cms.int32(100),
X0Max = cms.double(0.5),
X0Min = cms.double(-0.5),
# PCA y position for 2D plot
Y0Bin = cms.int32(100),
Y0Max = cms.double(0.5),
Y0Min = cms.double(-0.5),
# PCA z position for 2D plot
Z0Bin = cms.int32(120),
Z0Max = cms.double(60.0),
Z0Min = cms.double(-60.0),
# Track dxy (transverse impact parameter)
DxyBin = cms.int32(100),
DxyMax = cms.double(0.5),
DxyMin = cms.double(-0.5),
AbsDxyBin = cms.int32(120),
AbsDxyMin = cms.double(0.),
AbsDxyMax = cms.double(60.),
# Seed dxy (transverse impact parameter)
SeedDxyBin = cms.int32(100),
SeedDxyMax = cms.double(0.5),
SeedDxyMin = cms.double(-0.5),
# Seed dz (longitudinal impact parameter)
SeedDzBin = cms.int32(120),
SeedDzMax = cms.double(30.0),
SeedDzMin = cms.double(-30.0),
# Track Candidate dxy (transverse impact parameter)
TCDxyBin = cms.int32(100),
TCDxyMax = cms.double(100.0),
TCDxyMin = cms.double(-100.0),
# Track Candidate dz (transverse impact parameter)
TCDzBin = cms.int32(100),
TCDzMax = cms.double(400.0),
TCDzMin = cms.double(-400.0),
# Track selection MVA
MVABin = cms.int32(100),
MVAMin = cms.double(-1),
MVAMax = cms.double(1),
#######################################
## needed for tracksVScluster and seedVScluster
# NCluster Pixel
NClusPxBin = cms.int32(200),
NClusPxMax = cms.double(49999.5),
NClusPxMin = cms.double(-0.5),
# NCluster Strip
NClusStrBin = cms.int32(500),
NClusStrMax = cms.double(199999.5),
NClusStrMin = cms.double(-0.5),
# NCluster Vs Tracks
NTrk2D = cms.PSet(
NTrk2DBin = cms.int32(50),
NTrk2DMax = cms.double(1999.5),
NTrk2DMin = cms.double(-0.5),
),
# PU monitoring
# Nunmber of Tracks per Primary Vertices
NTrkPVtx = cms.PSet(
NTrkPVtxBin = cms.int32(100),
NTrkPVtxMin = cms.double( 0.),
NTrkPVtxMax = cms.double(100.)
),
# Nunmber of Good Primary Vertices
SumPtPVtx = cms.PSet(
SumPtPVtxBin = cms.int32(100),
SumPtPVtxMin = cms.double( 0.),
SumPtPVtxMax = cms.double(500.)
),
# Nunmber of Good Primary Vertices
GoodPVtx = cms.PSet(
GoodPVtxBin = cms.int32(200),
GoodPVtxMin = cms.double( 0.),
GoodPVtxMax = cms.double(200.)
),
LUMIBin = cms.int32 ( 300 ), # irrelevant
LUMIMin = cms.double( 200.),
LUMIMax = cms.double(20000.),
# # BXlumi
# BXlumiBin = cms.int32(400),
# BXlumiMin = cms.double(4000),
# BXlumiMax = cms.double(20000),
###############################
################## FOR HI PLOTS#####################
#######
TransDCABins = cms.int32(100),
TransDCAMin = cms.double(-8.0),
TransDCAMax = cms.double(8.0),
LongDCABins = cms.int32(100),
LongDCAMin = cms.double(-8.0),
LongDCAMax = cms.double(8.0),
)
# Overcoming the 255 arguments limit
# binning for 2D plots (identical to 1D, but in muon tracks)
# track eta 2D histo
TrackMon.Eta2DBin = cms.int32(26)
# track phi 2D histo
TrackMon.Phi2DBin = cms.int32(32)
# track pt 2D histo
TrackMon.TrackPt2DBin = cms.int32(100)
# TrackingRegion monitoring
TrackMon.PVBin = cms.int32 ( 40 )
TrackMon.PVMin = cms.double( -0.5)
TrackMon.PVMax = cms.double( 79.5) ## it might need to be adjust if CMS asks to have lumi levelling at lower values
TrackMon.DxyErrBin = cms.int32(200)
TrackMon.DxyErrMax = cms.double(0.1)
TrackMon.RegionProducer = cms.InputTag("")
TrackMon.RegionSeedingLayersProducer = cms.InputTag("")
TrackMon.RegionCandidates = cms.InputTag("")
TrackMon.doRegionPlots = cms.bool(False)
TrackMon.doRegionCandidatePlots = cms.bool(False)
TrackMon.RegionSizeBin = cms.int32(20)
TrackMon.RegionSizeMax = cms.double(19.5)
TrackMon.RegionSizeMin = cms.double(-0.5)
TrackMon.RegionCandidatePtBin = cms.int32(100)
TrackMon.RegionCandidatePtMax = cms.double(1000)
TrackMon.RegionCandidatePtMin = cms.double(0)
# Number of candidates/seed within pattern recognition
TrackMon.SeedCandBin = cms.int32(20)
TrackMon.SeedCandMax = cms.double(19.5)
TrackMon.SeedCandMin = cms.double(-0.5)
from Configuration.Eras.Modifier_phase1Pixel_cff import phase1Pixel
from Configuration.Eras.Modifier_phase2_tracker_cff import phase2_tracker
from Configuration.Eras.Modifier_run3_common_cff import run3_common
phase1Pixel.toModify(TrackMon, EtaBin=31, EtaMin=-3., EtaMax=3.)
phase1Pixel.toModify(TrackMon, LUMIBin=300, LUMIMin=200., LUMIMax=20000.)
run3_common.toModify(TrackMon, forceSCAL = False)
run3_common.toModify(TrackMon, LUMIBin=375, LUMIMin=200., LUMIMax=25000.)
phase2_tracker.toModify(TrackMon, EtaBin=46, EtaMin=-4.5, EtaMax=4.5)
phase2_tracker.toModify(TrackMon, PVBin=125, PVMin=-0.5, PVMax=249.5)
phase2_tracker.toModify(TrackMon, LUMIBin=700, LUMIMin=200., LUMIMax=70000.)
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