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import FWCore.ParameterSet.Config as cms
process = cms.Process("BeamMonitor")
#----------------------------
# Common part for PP and H.I Running
#-----------------------------
process.load("DQM.Integration.test.inputsource_cfi")
#--------------------------
# HLT Filter
process.load("HLTrigger.special.HLTTriggerTypeFilter_cfi")
# 0=random, 1=physics, 2=calibration, 3=technical
process.hltTriggerTypeFilter.SelectedTriggerType = 1
#----------------------------
# DQM Live Environment
#-----------------------------
process.load("DQM.Integration.test.environment_cfi")
process.dqmEnv.subSystemFolder = 'BeamMonitor'
import DQMServices.Components.DQMEnvironment_cfi
process.dqmEnvPixelLess = DQMServices.Components.DQMEnvironment_cfi.dqmEnv.clone()
process.dqmEnvPixelLess.subSystemFolder = 'BeamMonitor_PixelLess'
#----------------------------
# BeamMonitor
#-----------------------------
process.load("DQM.BeamMonitor.BeamMonitor_cff")
process.load("DQM.BeamMonitor.BeamMonitorBx_cff")
process.load("DQM.BeamMonitor.BeamMonitor_PixelLess_cff")
process.load("DQM.BeamMonitor.BeamConditionsMonitor_cff")
#### SETUP TRACKING RECONSTRUCTION ####
process.load("Configuration.StandardSequences.GeometryRecoDB_cff")
process.load('Configuration.StandardSequences.MagneticField_AutoFromDBCurrent_cff')
process.load("DQM.Integration.test.FrontierCondition_GT_cfi")
process.load("Configuration.StandardSequences.RawToDigi_Data_cff")
# Change Beam Monitor variables
if process.dqmSaver.producer.value() is "Playback":
process.dqmBeamMonitor.BeamFitter.WriteAscii = False
process.dqmBeamMonitor.BeamFitter.AsciiFileName = '/nfshome0/yumiceva/BeamMonitorDQM/BeamFitResults.txt'
process.dqmBeamMonitor.BeamFitter.WriteDIPAscii = True
process.dqmBeamMonitor.BeamFitter.DIPFileName = '/nfshome0/dqmdev/BeamMonitorDQM/BeamFitResults.txt'
else:
process.dqmBeamMonitor.BeamFitter.WriteAscii = True
process.dqmBeamMonitor.BeamFitter.AsciiFileName = '/nfshome0/yumiceva/BeamMonitorDQM/BeamFitResults.txt'
process.dqmBeamMonitor.BeamFitter.WriteDIPAscii = True
process.dqmBeamMonitor.BeamFitter.DIPFileName = '/nfshome0/dqmpro/BeamMonitorDQM/BeamFitResults.txt'
#process.dqmBeamMonitor.BeamFitter.SaveFitResults = False
#process.dqmBeamMonitor.BeamFitter.OutputFileName = '/nfshome0/yumiceva/BeamMonitorDQM/BeamFitResults.root'
process.dqmBeamMonitorBx.BeamFitter.WriteAscii = True
process.dqmBeamMonitorBx.BeamFitter.AsciiFileName = '/nfshome0/yumiceva/BeamMonitorDQM/BeamFitResults_Bx.txt'
## TKStatus
process.dqmTKStatus = cms.EDAnalyzer("TKStatus",
BeamFitter = cms.PSet(
DIPFileName = process.dqmBeamMonitor.BeamFitter.DIPFileName
)
)
process.dqmcommon = cms.Sequence(process.dqmEnv
*process.dqmSaver)
process.monitor = cms.Sequence(process.dqmBeamMonitor)
#--------------------------
# Proton-Proton Stuff
#--------------------------
if (process.runType.getRunType() == process.runType.pp_run or process.runType.getRunType() == process.runType.cosmic_run):
print("Running pp")
process.EventStreamHttpReader.SelectEvents = cms.untracked.PSet(
SelectEvents = cms.vstring('HLT_L1*',
'HLT_Jet*',
'HLT_*Cosmic*',
'HLT_HT*',
'HLT_MinBias_*',
'HLT_Physics*',
'HLT_ZeroBias_v*')
)
process.load("Configuration.StandardSequences.Reconstruction_cff")
process.load("RecoTracker.IterativeTracking.iterativeTk_cff")
## Pixelless Tracking
process.load('RecoTracker/Configuration/RecoTrackerNotStandard_cff')
process.MeasurementTracker.pixelClusterProducer = cms.string("")
# Offline Beam Spot
process.load("RecoVertex.BeamSpotProducer.BeamSpot_cff")
## Offline PrimaryVertices
import RecoVertex.PrimaryVertexProducer.OfflinePrimaryVertices_cfi
process.offlinePrimaryVertices = RecoVertex.PrimaryVertexProducer.OfflinePrimaryVertices_cfi.offlinePrimaryVertices.clone()
process.dqmBeamMonitor.OnlineMode = True
process.dqmBeamMonitor.resetEveryNLumi = 5
process.dqmBeamMonitor.resetPVEveryNLumi = 5
process.dqmBeamMonitor.PVFitter.minNrVerticesForFit = 25
process.dqmBeamMonitor.BeamFitter.TrackCollection = cms.untracked.InputTag('generalTracks')
process.offlinePrimaryVertices.TrackLabel = cms.InputTag("generalTracks")
process.offlinePrimaryVertices.label=cms.string("")
process.offlinePrimaryVertices.minNdof=cms.double(0.0)
process.offlinePrimaryVertices.useBeamConstraint=cms.bool(False)
#TriggerName for selecting pv for DIP publication, NO wildcard needed here
#it will pick all triggers which has these strings in theri name
process.dqmBeamMonitor.jetTrigger = cms.untracked.vstring("HLT_ZeroBias_v",
"HLT_Jet300_v",
"HLT_QuadJet70_v")
process.dqmBeamMonitor.hltResults = cms.InputTag("TriggerResults","","HLT")
#fast general track reco
process.iterTracking =cms.Sequence(process.InitialStep
*process.LowPtTripletStep
*process.PixelPairStep
*process.DetachedTripletStep
*process.MixedTripletStep
*process.PixelLessStep
*process.TobTecStep
*process.generalTracks)
process.tracking_FirstStep = cms.Sequence(process.siPixelDigis
*process.siStripDigis
*process.trackerlocalreco
*process.offlineBeamSpot
*process.recopixelvertexing
*process.iterTracking)
process.p = cms.Path(process.scalersRawToDigi
*process.onlineMetaDataDigis
*process.dqmTKStatus
*process.hltTriggerTypeFilter
*process.dqmcommon
*process.tracking_FirstStep
*process.offlinePrimaryVertices
*process.monitor)
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