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forest_miniAOD_112X_DATA.py
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forest_miniAOD_112X_DATA.py
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### HiForest Configuration
# Input: miniAOD
# Type: data
import FWCore.ParameterSet.Config as cms
from Configuration.Eras.Era_Run2_2018_pp_on_AA_cff import Run2_2018_pp_on_AA
from Configuration.ProcessModifiers.run2_miniAOD_pp_on_AA_103X_cff import run2_miniAOD_pp_on_AA_103X
process = cms.Process('HiForest', Run2_2018_pp_on_AA,run2_miniAOD_pp_on_AA_103X)
###############################################################################
# HiForest info
process.load("HeavyIonsAnalysis.EventAnalysis.HiForestInfo_cfi")
process.HiForestInfo.info = cms.vstring("HiForest, miniAOD, 112X, data")
# import subprocess, os
# version = subprocess.check_output(
# ['git', '-C', os.path.expandvars('$CMSSW_BASE/src'), 'describe', '--tags'])
# if version == '':
# version = 'no git info'
# process.HiForestInfo.HiForestVersion = cms.string(version)
###############################################################################
# input files
process.source = cms.Source("PoolSource",
duplicateCheckMode = cms.untracked.string("noDuplicateCheck"),
fileNames = cms.untracked.vstring(
"/store/hidata/HIRun2018A/HISingleMuon/MINIAOD/PbPb18_MiniAODv1-v1/00000/00345f79-641f-4002-baf1-19ae8e83c48b.root"
),
)
#input file produced from:
#"file:/afs/cern.ch/work/r/rbi/public/forest/HIHardProbes_HIRun2018A-PromptReco-v2_AOD.root"
# number of events to process, set to -1 to process all events
process.maxEvents = cms.untracked.PSet(
input = cms.untracked.int32(10)
)
###############################################################################
# load Global Tag, geometry, etc.
process.load('Configuration.Geometry.GeometryDB_cff')
process.load('Configuration.StandardSequences.Services_cff')
process.load('Configuration.StandardSequences.MagneticField_38T_cff')
process.load('Configuration.StandardSequences.FrontierConditions_GlobalTag_cff')
process.load('FWCore.MessageService.MessageLogger_cfi')
from Configuration.AlCa.GlobalTag import GlobalTag
process.GlobalTag = GlobalTag(process.GlobalTag, 'auto:run2_data_promptlike_hi', '')
process.HiForestInfo.GlobalTagLabel = process.GlobalTag.globaltag
centralityTag = "CentralityTable_HFtowers200_DataPbPb_periHYDJETshape_run2v1031x02_offline"
process.HiForestInfo.info.append(centralityTag)
print('\n')
print('\033[31m~*~ CENTRALITY TABLE FOR 2018 PBPB DATA ~*~\033[0m')
print('\033[36m~*~ TAG: ' + centralityTag + ' ~*~\033[0m')
print('\n')
process.GlobalTag.snapshotTime = cms.string("9999-12-31 23:59:59.000")
process.GlobalTag.toGet.extend([
cms.PSet(
record = cms.string("HeavyIonRcd"),
tag = cms.string(centralityTag),
label = cms.untracked.string("HFtowers"),
connect = cms.string("frontier://FrontierProd/CMS_CONDITIONS"),
),
])
process.GlobalTag.toGet.extend([
cms.PSet(
record = cms.string("BTagTrackProbability3DRcd"),
tag = cms.string("JPcalib_Data103X_2018PbPb_v1"),
connect = cms.string("frontier://FrontierProd/CMS_CONDITIONS"),
)
])
###############################################################################
# root output
process.TFileService = cms.Service("TFileService",
fileName = cms.string("HiForestMiniAOD.root"))
# # edm output for debugging purposes
# process.output = cms.OutputModule(
# "PoolOutputModule",
# fileName = cms.untracked.string('HiForestEDM.root'),
# outputCommands = cms.untracked.vstring(
# 'keep *',
# )
# )
# process.output_path = cms.EndPath(process.output)
###############################################################################
# event analysis
process.load('HeavyIonsAnalysis.EventAnalysis.hltanalysis_cfi')
process.load('HeavyIonsAnalysis.EventAnalysis.hievtanalyzer_data_cfi')
process.load('HeavyIonsAnalysis.EventAnalysis.skimanalysis_cfi')
process.load('HeavyIonsAnalysis.EventAnalysis.hltobject_cfi')
process.load('HeavyIonsAnalysis.EventAnalysis.l1object_cfi')
from HeavyIonsAnalysis.EventAnalysis.hltobject_cfi import trigger_list_data
process.hltobject.triggerNames = trigger_list_data
process.load('HeavyIonsAnalysis.EventAnalysis.particleFlowAnalyser_cfi')
################################
# electrons, photons, muons
SSHIRun2018A = "HeavyIonsAnalysis/EGMAnalysis/data/SSHIRun2018A.dat"
process.load('HeavyIonsAnalysis.EGMAnalysis.correctedElectronProducer_cfi')
process.correctedElectrons.correctionFile = SSHIRun2018A
process.load('HeavyIonsAnalysis.MuonAnalysis.unpackedMuons_cfi')
process.load("HeavyIonsAnalysis.MuonAnalysis.muonAnalyzer_cfi")
process.load('HeavyIonsAnalysis.EGMAnalysis.ggHiNtuplizer_cfi')
process.ggHiNtuplizer.doMuons = cms.bool(False)
process.ggHiNtuplizer.electronSrc = "correctedElectrons"
process.load("TrackingTools.TransientTrack.TransientTrackBuilder_cfi")
################################
# jet reco sequence
process.load('HeavyIonsAnalysis.JetAnalysis.akCs4PFJetSequence_pponPbPb_data_cff')
################################
# tracks
process.load("HeavyIonsAnalysis.TrackAnalysis.TrackAnalyzers_cff")
###############################################################################
# ZDC RecHit Producer
process.load('HeavyIonsAnalysis.ZDCAnalysis.QWZDC2018Producer_cfi')
process.load('HeavyIonsAnalysis.ZDCAnalysis.QWZDC2018RecHit_cfi')
process.load('HeavyIonsAnalysis.ZDCAnalysis.zdcanalyzer_cfi')
process.zdcanalyzer.doZDCRecHit = True
process.zdcanalyzer.doZDCDigi = False
process.zdcanalyzer.zdcRecHitSrc = cms.InputTag("QWzdcreco")
process.zdcanalyzer.calZDCDigi = True
################################
###############################################################################
# main forest sequence
process.forest = cms.Path(
process.HiForestInfo +
process.hltanalysis +
process.hltobject +
process.l1object +
process.trackSequencePbPb +
process.particleFlowAnalyser +
process.hiEvtAnalyzer +
process.unpackedMuons +
process.correctedElectrons +
process.ggHiNtuplizer +
process.zdcdigi +
process.QWzdcreco +
process.zdcanalyzer +
process.muonAnalyzer
)
#customisation
addR3Jets = False
addR4Jets = True
if addR3Jets or addR4Jets :
process.load("HeavyIonsAnalysis.JetAnalysis.extraJets_cff")
from HeavyIonsAnalysis.JetAnalysis.clusterJetsFromMiniAOD_cff import setupHeavyIonJets
if addR3Jets :
process.jetsR3 = cms.Sequence()
setupHeavyIonJets('akCs3PF', process.jetsR3, process, isMC = 0, radius = 0.30, JECTag = 'AK3PF')
process.akCs3PFpatJetCorrFactors.levels = ['L2Relative', 'L2L3Residual']
process.load("HeavyIonsAnalysis.JetAnalysis.candidateBtaggingMiniAOD_cff")
process.akCs3PFJetAnalyzer = process.akCs4PFJetAnalyzer.clone(jetTag = "akCs3PFpatJets", jetName = 'akCs3PF')
process.forest += process.extraJetsData * process.jetsR3 * process.akCs3PFJetAnalyzer
if addR4Jets :
# Recluster using an alias "0" in order not to get mixed up with the default AK4 collections
process.jetsR4 = cms.Sequence()
setupHeavyIonJets('akCs0PF', process.jetsR4, process, isMC = 0, radius = 0.40, JECTag = 'AK4PF')
process.akCs0PFpatJetCorrFactors.levels = ['L2Relative', 'L2L3Residual']
process.load("HeavyIonsAnalysis.JetAnalysis.candidateBtaggingMiniAOD_cff")
process.akCs4PFJetAnalyzer.jetTag = 'akCs0PFpatJets'
process.akCs4PFJetAnalyzer.jetName = 'akCs0PF'
process.forest += process.extraJetsData * process.jetsR4 * process.akCs4PFJetAnalyzer
# this is only for non-reclustered jets
addCandidateTagging = False
if addCandidateTagging:
process.load("HeavyIonsAnalysis.JetAnalysis.candidateBtaggingMiniAOD_cff")
from PhysicsTools.PatAlgos.tools.jetTools import updateJetCollection
updateJetCollection(
process,
jetSource = cms.InputTag('slimmedJets'),
jetCorrections = ('AK4PFchs', cms.vstring(['L1FastJet', 'L2Relative', 'L3Absolute']), 'None'),
btagDiscriminators = ['pfCombinedSecondaryVertexV2BJetTags', 'pfDeepCSVDiscriminatorsJetTags:BvsAll', 'pfDeepCSVDiscriminatorsJetTags:CvsB', 'pfDeepCSVDiscriminatorsJetTags:CvsL'], ## to add discriminators,
btagPrefix = 'TEST',
)
process.updatedPatJets.addJetCorrFactors = False
process.updatedPatJets.discriminatorSources = cms.VInputTag(
cms.InputTag('pfDeepCSVJetTags:probb'),
cms.InputTag('pfDeepCSVJetTags:probc'),
cms.InputTag('pfDeepCSVJetTags:probudsg'),
cms.InputTag('pfDeepCSVJetTags:probbb'),
)
process.akCs4PFJetAnalyzer.jetTag = "updatedPatJets"
process.forest.insert(1,process.candidateBtagging*process.updatedPatJets)
#########################
# Event Selection -> add the needed filters here
#########################
process.load('HeavyIonsAnalysis.EventAnalysis.collisionEventSelection_cff')
process.pclusterCompatibilityFilter = cms.Path(process.clusterCompatibilityFilter)
process.pprimaryVertexFilter = cms.Path(process.primaryVertexFilter)
process.load('HeavyIonsAnalysis.EventAnalysis.hffilter_cfi')
process.pphfCoincFilter2Th4 = cms.Path(process.phfCoincFilter2Th4)
process.pAna = cms.EndPath(process.skimanalysis)