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import FWCore.ParameterSet.Config as cms
# Define here the BeamSpotOnline record name,
# it will be used both in BeamMonitor setup and in payload creation/upload
BSOnlineRecordName = 'BeamSpotOnlineLegacyObjectsRcd'
BSOnlineTag = 'BeamSpotOnlineLegacy'
BSOnlineJobName = 'BeamSpotOnlineLegacy'
BSOnlineOmsServiceUrl = 'http://cmsoms-eventing.cms:9949/urn:xdaq-application:lid=100/getRunAndLumiSection'
useLockRecords = True
import sys
if 'runkey=hi_run' in sys.argv:
from Configuration.Eras.Era_Run3_pp_on_PbPb_approxSiStripClusters_cff import Run3_pp_on_PbPb_approxSiStripClusters
process = cms.Process("BeamMonitorLegacy", Run3_pp_on_PbPb_approxSiStripClusters)
else:
from Configuration.Eras.Era_Run3_2025_cff import Run3_2025
process = cms.Process("BeamMonitorLegacy", Run3_2025)
process.load('FWCore.MessageService.MessageLogger_cfi')
process.MessageLogger.debugModules = cms.untracked.vstring('*')
process.MessageLogger.cerr = cms.untracked.PSet(
threshold = cms.untracked.string('WARNING')
)
# switch
live = True # FIXME
unitTest = False
if 'unitTest=True' in sys.argv:
live=False
unitTest=True
useLockRecords = False
#---------------
# Input sources
if unitTest:
process.load("DQM.Integration.config.unittestinputsource_cfi")
from DQM.Integration.config.unittestinputsource_cfi import options
elif live:
process.load("DQM.Integration.config.inputsource_cfi")
from DQM.Integration.config.inputsource_cfi import options
else:
process.load("DQM.Integration.config.fileinputsource_cfi")
from DQM.Integration.config.fileinputsource_cfi import options
#--------------------------
# HLT Filter
process.hltTriggerTypeFilter = cms.EDFilter("HLTTriggerTypeFilter",
SelectedTriggerType = cms.int32(1) # physics
)
#----------------------------
# DQM Live Environment
process.load("DQM.Integration.config.environment_cfi")
process.dqmEnv.subSystemFolder = 'BeamMonitorLegacy'
process.dqmSaver.tag = 'BeamMonitorLegacy'
process.dqmSaver.runNumber = options.runNumber
# process.dqmSaverPB.tag = 'BeamMonitorLegacy'
# process.dqmSaverPB.runNumber = options.runNumber
process.dqmEnvPixelLess = process.dqmEnv.clone(
subSystemFolder = 'BeamMonitor_PixelLess'
)
# Configure tag and jobName if running Playback system
if process.isDqmPlayback.value :
BSOnlineTag = BSOnlineTag + 'Playback'
BSOnlineJobName = BSOnlineJobName + 'Playback'
BSOnlineOmsServiceUrl = ''
useLockRecords = False
#
#---------------
# Conditions
if (live):
process.load("DQM.Integration.config.FrontierCondition_GT_cfi")
process.GlobalTag.DBParameters.authenticationPath = '.'
else:
process.load('Configuration.StandardSequences.FrontierConditions_GlobalTag_cff')
from Configuration.AlCa.GlobalTag import GlobalTag as gtCustomise
process.GlobalTag = gtCustomise(process.GlobalTag, 'auto:run3_data', '')
process.GlobalTag.DBParameters.authenticationPath = '.'
# you may need to set manually the GT in the line below
#process.GlobalTag.globaltag = '100X_upgrade2018_realistic_v10'
#--------------------------------------------------------
# Swap offline <-> online BeamSpot as in Express and HLT
import RecoVertex.BeamSpotProducer.BeamSpotOnline_cfi
process.offlineBeamSpot = RecoVertex.BeamSpotProducer.BeamSpotOnline_cfi.onlineBeamSpotProducer.clone()
#----------------------------
# BeamMonitor
process.load("DQM.BeamMonitor.BeamMonitor_Pixel_cff")
process.load("DQM.BeamMonitor.BeamSpotProblemMonitor_cff")
process.load("DQM.BeamMonitor.BeamConditionsMonitor_cff")
if process.dqmRunConfig.type.value() == "production":
process.dqmBeamMonitor.BeamFitter.WriteAscii = True
process.dqmBeamMonitor.BeamFitter.AsciiFileName = '/nfshome0/yumiceva/BeamMonitorDQM/BeamFitResultsOld.txt'
process.dqmBeamMonitor.BeamFitter.WriteDIPAscii = True
process.dqmBeamMonitor.BeamFitter.DIPFileName = '/nfshome0/dqmpro/BeamMonitorDQM/BeamFitResultsOld.txt'
else:
process.dqmBeamMonitor.BeamFitter.WriteAscii = False
process.dqmBeamMonitor.BeamFitter.AsciiFileName = '/nfshome0/yumiceva/BeamMonitorDQM/BeamFitResultsOld.txt'
process.dqmBeamMonitor.BeamFitter.WriteDIPAscii = True
if (live):
process.dqmBeamMonitor.BeamFitter.DIPFileName = '/nfshome0/dqmdev/BeamMonitorDQM/BeamFitResultsOld.txt'
else:
process.dqmBeamMonitor.BeamFitter.DIPFileName = 'BeamFitResultsOld.txt'
#----------------
# Setup tracking
process.load("Configuration.StandardSequences.GeometryRecoDB_cff")
process.load('Configuration.StandardSequences.MagneticField_AutoFromDBCurrent_cff')
process.load("Configuration.StandardSequences.RawToDigi_Data_cff")
process.load("RecoLocalTracker.Configuration.RecoLocalTracker_cff")
process.load("TrackingTools.TransientTrack.TransientTrackBuilder_cfi")
from RecoTracker.PixelLowPtUtilities.siPixelClusterShapeCache_cfi import *
process.siPixelClusterShapeCachePreSplitting = siPixelClusterShapeCache.clone(
src = 'siPixelClustersPreSplitting'
)
process.load("RecoLocalTracker.SiPixelRecHits.PixelCPEGeneric_cfi")
#-----------------
# TrackingMonitor
process.pixelTracksCutClassifier = cms.EDProducer( "TrackCutClassifier",
src = cms.InputTag( "pixelTracks" ),
beamspot = cms.InputTag( "offlineBeamSpot" ),
vertices = cms.InputTag( "" ),
qualityCuts = cms.vdouble( -0.7, 0.1, 0.7 ),
mva = cms.PSet(
minPixelHits = cms.vint32( 0, 3, 3 ),
maxDzWrtBS = cms.vdouble( 3.40282346639E38, 3.40282346639E38, 60.0 ),
dr_par = cms.PSet(
d0err = cms.vdouble( 0.003, 0.003, 3.40282346639E38 ),
dr_par2 = cms.vdouble( 0.3, 0.3, 3.40282346639E38 ),
dr_par1 = cms.vdouble( 0.4, 0.4, 3.40282346639E38 ),
dr_exp = cms.vint32( 4, 4, 4 ),
d0err_par = cms.vdouble( 0.001, 0.001, 3.40282346639E38 )
),
maxLostLayers = cms.vint32( 99, 99, 99 ),
min3DLayers = cms.vint32( 0, 2, 3 ),
dz_par = cms.PSet(
dz_par1 = cms.vdouble( 0.4, 0.4, 3.40282346639E38 ),
dz_par2 = cms.vdouble( 0.35, 0.35, 3.40282346639E38 ),
dz_exp = cms.vint32( 4, 4, 4 )
),
minNVtxTrk = cms.int32( 3 ),
maxDz = cms.vdouble( 3.40282346639E38, 3.40282346639E38, 3.40282346639E38 ),
minNdof = cms.vdouble( 1.0E-5, 1.0E-5, 1.0E-5 ),
maxChi2 = cms.vdouble( 9999., 9999., 30.0 ),
maxDr = cms.vdouble( 99., 99., 1. ),
minLayers = cms.vint32( 0, 2, 3 )
),
ignoreVertices = cms.bool( True ),
)
#
process.pixelTracksHP = cms.EDProducer( "TrackCollectionFilterCloner",
minQuality = cms.string( "highPurity" ),
copyExtras = cms.untracked.bool( True ),
copyTrajectories = cms.untracked.bool( False ),
originalSource = cms.InputTag( "pixelTracks" ),
originalQualVals = cms.InputTag( 'pixelTracksCutClassifier','QualityMasks' ),
originalMVAVals = cms.InputTag( 'pixelTracksCutClassifier','MVAValues' )
)
#-------------------------------------
# PixelTracksMonitor
import DQM.TrackingMonitor.TrackerCollisionTrackingMonitor_cfi
process.pixelTracksMonitor = DQM.TrackingMonitor.TrackerCollisionTrackingMonitor_cfi.TrackerCollisionTrackMon.clone(
FolderName = 'BeamMonitorLegacy/Tracking/pixelTracks',
TrackProducer = 'pixelTracks',
allTrackProducer = 'pixelTracks',
beamSpot = "offlineBeamSpot",
primaryVertex = "pixelVertices",
doAllPlots = False,
doLumiAnalysis = False,
doProfilesVsLS = True,
doDCAPlots = True,
doPlotsVsGoodPVtx = True,
doEffFromHitPatternVsPU = False,
doEffFromHitPatternVsBX = True,
doEffFromHitPatternVsLUMI = False,
doPlotsVsLUMI = True,
doPlotsVsBX = True,
AbsDxyMax = 1.2,
AbsDxyBin = 12,
DxyMin = -1.2,
DxyMax = 1.2,
DxyBin = 60,
Chi2NDFMax = 35.,
Chi2NDFMin = 0.,
Chi2NDFBin = 70,
VZBin = 124,
VZMin = -62.,
VZMax = 62.,
TrackPtMin = 0.,
TrackPtMax = 50.,
TrackPtBin = 250
)
#
process.tracks2monitor = cms.EDFilter('TrackSelector',
src = cms.InputTag('pixelTracks'),
cut = cms.string("")
)
process.tracks2monitor.src = 'pixelTracksHP'
process.tracks2monitor.cut = 'pt > 1 & abs(eta) < 2.4'
#
process.selectedPixelTracksMonitor = process.pixelTracksMonitor.clone(
FolderName = 'BeamMonitorLegacy/Tracking/selectedPixelTracks',
TrackProducer = 'tracks2monitor',
allTrackProducer = 'tracks2monitor'
)
process.selectedPixelTracksMonitorSequence = cms.Sequence(
process.pixelTracksCutClassifier
+ process.pixelTracksHP
+ process.tracks2monitor
+ process.selectedPixelTracksMonitor
)
#---------------------------------
# Putting together combined paths
#
process.dqmTKStatus = cms.EDAnalyzer("TKStatus",
BeamFitter = cms.PSet(
DIPFileName = process.dqmBeamMonitor.BeamFitter.DIPFileName
)
)
#
process.dqmcommon = cms.Sequence(process.dqmEnv
* process.dqmSaver)#*process.dqmSaverPB)
#
process.monitor = cms.Sequence(process.dqmBeamMonitor
+ process.selectedPixelTracksMonitorSequence)
#------------------------
# BeamSpotProblemMonitor
#
process.dqmBeamSpotProblemMonitor.monitorName = "BeamMonitorLegacy/BeamSpotProblemMonitor"
process.dqmBeamSpotProblemMonitor.AlarmONThreshold = 15 # was 10
process.dqmBeamSpotProblemMonitor.AlarmOFFThreshold = 17 # was 12
process.dqmBeamSpotProblemMonitor.nCosmicTrk = 10
process.dqmBeamSpotProblemMonitor.doTest = False
process.dqmBeamSpotProblemMonitor.pixelTracks = 'pixelTracks'
#
from DQMServices.Core.DQMQualityTester import DQMQualityTester
process.qTester = DQMQualityTester(
qtList = cms.untracked.FileInPath('DQM/BeamMonitor/test/BeamSpotAvailableTest.xml'),
prescaleFactor = cms.untracked.int32(1),
qtestOnEndLumi = cms.untracked.bool(True),
testInEventloop = cms.untracked.bool(False),
verboseQT = cms.untracked.bool(True)
)
#
process.BeamSpotProblemModule = cms.Sequence(process.qTester
* process.dqmBeamSpotProblemMonitor)
# make it off for cosmic run
if ( process.runType.getRunType() == process.runType.cosmic_run or
process.runType.getRunType() == process.runType.cosmic_run_stage1):
process.dqmBeamSpotProblemMonitor.AlarmOFFThreshold = 5 # <AlarmONThreshold
#------------------------
# Process customizations
from DQM.Integration.config.online_customizations_cfi import *
process = customise(process)
# Digitisation: produce the TCDS digis containing BST record
from EventFilter.OnlineMetaDataRawToDigi.tcdsRawToDigi_cfi import *
process.tcdsDigis = tcdsRawToDigi.clone()
#------------------------
# Set rawDataRepacker (HI and live) or rawDataCollector (for all the rest)
if (process.runType.getRunType() == process.runType.hi_run and live):
rawDataInputTag = "rawDataRepacker"
else:
rawDataInputTag = "rawDataCollector"
process.castorDigis.InputLabel = rawDataInputTag
process.csctfDigis.producer = rawDataInputTag
process.dttfDigis.DTTF_FED_Source = rawDataInputTag
process.ecalDigisCPU.InputLabel = rawDataInputTag
process.ecalPreshowerDigis.sourceTag = rawDataInputTag
process.gctDigis.inputLabel = rawDataInputTag
process.gtDigis.DaqGtInputTag = rawDataInputTag
process.hcalDigis.InputLabel = rawDataInputTag
process.muonCSCDigis.InputObjects = rawDataInputTag
process.muonDTDigis.inputLabel = rawDataInputTag
process.muonRPCDigis.InputLabel = rawDataInputTag
process.scalersRawToDigi.scalersInputTag = rawDataInputTag
process.siPixelDigis.InputLabel = rawDataInputTag
process.siStripDigis.ProductLabel = rawDataInputTag
process.tcdsDigis.InputLabel = rawDataInputTag
process.load("RecoVertex.BeamSpotProducer.BeamSpot_cfi")
process.dqmBeamMonitor.OnlineMode = True
process.dqmBeamMonitor.monitorName = "BeamMonitorLegacy"
process.dqmBeamMonitor.recordName = BSOnlineRecordName
process.dqmBeamMonitor.useLockRecords = useLockRecords
process.dqmBeamMonitor.resetEveryNLumi = 5 # was 10 for HI
process.dqmBeamMonitor.resetPVEveryNLumi = 5 # was 10 for HI
process.dqmBeamMonitor.PVFitter.minNrVerticesForFit = 20
process.dqmBeamMonitor.PVFitter.minVertexNdf = 10
process.dqmBeamMonitor.PVFitter.errorScale = 1.2
#----------------------------
# Pixel tracks/vertices reco
process.load("RecoVertex.Configuration.RecoPixelVertexing_cff")
from RecoVertex.PrimaryVertexProducer.OfflinePixel3DPrimaryVertices_cfi import *
process.pixelVertices = pixelVertices.clone(
TkFilterParameters = dict( minPt = process.pixelTracksTrackingRegions.RegionPSet.ptMin)
)
#process.pixelTracksTrackingRegions.RegionPSet.ptMin = 0.1 # used in PilotBeam 2021, but not ok for standard collisions
process.pixelTracksTrackingRegions.RegionPSet.originRadius = 0.4 # used in PilotBeam 2021, to be checked again for standard collisions
# The following parameters were used in 2018 HI:
#process.pixelTracksTrackingRegions.RegionPSet.originHalfLength = 12
#process.pixelTracksTrackingRegions.RegionPSet.originXPos = 0.08
#process.pixelTracksTrackingRegions.RegionPSet.originYPos = -0.03
#process.pixelTracksTrackingRegions.RegionPSet.originZPos = 0.
process.tracking_FirstStep = cms.Sequence(
process.siPixelDigis
* process.siStripDigis
* process.striptrackerlocalreco
* process.offlineBeamSpot
* process.siPixelClustersPreSplitting
* process.siPixelRecHitsPreSplitting
* process.siPixelClusterShapeCachePreSplitting
* process.recopixelvertexing)
# triggerName for selecting pv for DIP publication, no wildcard needed here
# it will pick all triggers which have these strings in their name
process.dqmBeamMonitor.jetTrigger = [
"HLT_PAZeroBias_v", "HLT_ZeroBias_v", "HLT_QuadJet",
"HLT_ZeroBias_",
"HLT_HI",
"HLT_PixelClusters"]
# for HI only: select events based on the pixel cluster multiplicity
if (process.runType.getRunType() == process.runType.hi_run):
import HLTrigger.special.hltPixelActivityFilter_cfi
process.multFilter = HLTrigger.special.hltPixelActivityFilter_cfi.hltPixelActivityFilter.clone(
inputTag = 'siPixelClustersPreSplitting',
minClusters = 150,
maxClusters = 50000 # was 10000
)
process.filter_step = cms.Sequence( process.siPixelDigis
* process.siPixelClustersPreSplitting
* process.multFilter
)
process.dqmBeamMonitor.hltResults = "TriggerResults::HLT"
#---------
# Upload BeamSpotOnlineObject (LegacyRcd) to CondDB
if unitTest == False:
process.OnlineDBOutputService = cms.Service("OnlineDBOutputService",
DBParameters = cms.PSet(
messageLevel = cms.untracked.int32(0),
authenticationPath = cms.untracked.string('.')
),
# Upload to CondDB
connect = cms.string('oracle://cms_orcon_prod/CMS_CONDITIONS'),
preLoadConnectionString = cms.untracked.string('frontier://FrontierProd/CMS_CONDITIONS'),
runNumber = cms.untracked.uint64(options.runNumber),
omsServiceUrl = cms.untracked.string(BSOnlineOmsServiceUrl),
latency = cms.untracked.uint32(2),
autoCommit = cms.untracked.bool(True),
saveLogsOnDB = cms.untracked.bool(True),
jobName = cms.untracked.string(BSOnlineJobName), # name of the DB log record
toPut = cms.VPSet(cms.PSet(
record = cms.string(BSOnlineRecordName),
tag = cms.string(BSOnlineTag),
timetype = cms.untracked.string('Lumi'),
onlyAppendUpdatePolicy = cms.untracked.bool(True)
)),
frontierKey = cms.untracked.string(options.runUniqueKey)
)
else:
process.OnlineDBOutputService = cms.Service("OnlineDBOutputService",
DBParameters = cms.PSet(
messageLevel = cms.untracked.int32(0),
authenticationPath = cms.untracked.string('.')
),
# Upload to CondDB
connect = cms.string('sqlite_file:BeamSpotOnlineLegacy.db'),
preLoadConnectionString = cms.untracked.string('sqlite_file:BeamSpotOnlineLegacy.db'),
runNumber = cms.untracked.uint64(options.runNumber),
lastLumiFile = cms.untracked.string('last_lumi.txt'),
latency = cms.untracked.uint32(2),
autoCommit = cms.untracked.bool(True),
toPut = cms.VPSet(cms.PSet(
record = cms.string(BSOnlineRecordName),
tag = cms.string(BSOnlineTag),
timetype = cms.untracked.string('Lumi'),
onlyAppendUpdatePolicy = cms.untracked.bool(True)
)),
frontierKey = cms.untracked.string(options.runUniqueKey)
)
print("Configured frontierKey", options.runUniqueKey)
#--------
# Do no run on events with pixel with HV off
process.pixelTrackerHVOn = cms.EDFilter( "DetectorStateFilter",
DCSRecordLabel = cms.untracked.InputTag( "onlineMetaDataDigis" ),
DcsStatusLabel = cms.untracked.InputTag( "scalersRawToDigi" ),
DebugOn = cms.untracked.bool( False ),
DetectorType = cms.untracked.string( "pixel" )
)
#---------
# Final path
if (not process.runType.getRunType() == process.runType.hi_run):
process.p = cms.Path(process.scalersRawToDigi
* process.tcdsDigis
* process.onlineMetaDataDigis
* process.pixelTrackerHVOn
* process.dqmTKStatus
* process.hltTriggerTypeFilter
* process.dqmcommon
* process.tracking_FirstStep
* process.monitor
* process.BeamSpotProblemModule)
else:
process.p = cms.Path(process.scalersRawToDigi
* process.tcdsDigis
* process.onlineMetaDataDigis
* process.pixelTrackerHVOn
* process.dqmTKStatus
* process.hltTriggerTypeFilter
* process.filter_step # the only extra: pix-multi filter
* process.dqmcommon
* process.tracking_FirstStep
* process.monitor
* process.BeamSpotProblemModule)
print("Global Tag used:", process.GlobalTag.globaltag.value())
print("Final Source settings:", process.source)
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