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import FWCore.ParameterSet.Config as cms
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("BeamPixel", Run3_pp_on_PbPb_approxSiStripClusters)
else:
from Configuration.Eras.Era_Run3_2025_cff import Run3_2025
process = cms.Process("BeamPixel", Run3_2025)
unitTest = False
if 'unitTest=True' in sys.argv:
unitTest = True
#----------------------------
# Common for PP and HI running
#----------------------------
if unitTest == True:
process.load("DQM.Integration.config.unittestinputsource_cfi")
from DQM.Integration.config.unittestinputsource_cfi import options
else:
process.load("DQM.Integration.config.inputsource_cfi")
from DQM.Integration.config.inputsource_cfi import options
# Use this to run locally (for testing purposes)
#process.load("DQM.Integration.config.fileinputsource_cfi")
#from DQM.Integration.config.fileinputsource_cfi import options
#----------------------------
# HLT Filter
#----------------------------
# 0=random, 1=physics, 2=calibration, 3=technical
process.hltTriggerTypeFilter = cms.EDFilter("HLTTriggerTypeFilter", SelectedTriggerType = cms.int32(1))
#----------------------------
# DQM Environment
#----------------------------
process.load("DQM.Integration.config.environment_cfi")
process.dqmEnv.subSystemFolder = "BeamPixel"
process.dqmSaver.tag = "BeamPixel"
process.dqmSaver.runNumber = options.runNumber
# process.dqmSaverPB.tag = 'BeamPixel'
# process.dqmSaverPB.runNumber = options.runNumber
#----------------------------
# Conditions
#----------------------------
# Use this to run locally (for testing purposes), choose the right GT
#process.load("Configuration.StandardSequences.FrontierConditions_GlobalTag_cff")
#from Configuration.AlCa.GlobalTag import GlobalTag
#process.GlobalTag = GlobalTag(process.GlobalTag, "auto:run3_data", "")
# Otherwise use this
process.load("DQM.Integration.config.FrontierCondition_GT_cfi")
#----------------------------
# Sub-system Configuration
#----------------------------
process.load("Configuration.StandardSequences.GeometryRecoDB_cff")
process.load("Configuration.StandardSequences.MagneticField_AutoFromDBCurrent_cff")
process.load("Configuration.StandardSequences.RawToDigi_Data_cff")
#----------------------------
# Define Sequences
#----------------------------
process.dqmModules = cms.Sequence(process.dqmEnv + process.dqmSaver )#+ process.dqmSaverPB)
process.physTrigger = cms.Sequence(process.hltTriggerTypeFilter)
#----------------------------
# Process Customizations
#----------------------------
from DQM.Integration.config.online_customizations_cfi import *
process = customise(process)
from DQMServices.Core.DQMEDAnalyzer import DQMEDAnalyzer
#----------------------------
# Tracking General Configuration
#----------------------------
process.load("RecoVertex.BeamSpotProducer.BeamSpot_cfi")
process.load("RecoLocalTracker.Configuration.RecoLocalTracker_cff")
process.load("TrackingTools.TransientTrack.TransientTrackBuilder_cfi")
#----------------------------
# Pixel-Tracks&Vertices Config
#----------------------------
from RecoTracker.PixelLowPtUtilities.siPixelClusterShapeCache_cfi import *
process.siPixelClusterShapeCachePreSplitting = siPixelClusterShapeCache.clone(src = 'siPixelClustersPreSplitting')
process.load("RecoLocalTracker.SiPixelRecHits.PixelCPEGeneric_cfi")
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.originRadius = 0.4
process.pixelTracksTrackingRegions.RegionPSet.originHalfLength = 15.
process.pixelTracksTrackingRegions.RegionPSet.originXPos = 0.08
process.pixelTracksTrackingRegions.RegionPSet.originYPos = -0.03
process.pixelTracksTrackingRegions.RegionPSet.originZPos = 0.
#----------------------------
# Proton-Proton Specific Section
#----------------------------
if (process.runType.getRunType() == process.runType.pp_run or process.runType.getRunType() == process.runType.pp_run_stage1 or
process.runType.getRunType() == process.runType.cosmic_run or process.runType.getRunType() == process.runType.cosmic_run_stage1 or
process.runType.getRunType() == process.runType.hpu_run or process.runType.getRunType() == process.runType.commissioning_run ):
print("[beampixel_dqm_sourceclient-live_cfg]::running pp")
#----------------------------
# Tracking Configuration
#----------------------------
process.castorDigis.InputLabel = "rawDataCollector"
process.csctfDigis.producer = "rawDataCollector"
process.dttfDigis.DTTF_FED_Source = "rawDataCollector"
process.ecalDigisCPU.InputLabel = "rawDataCollector"
process.ecalPreshowerDigis.sourceTag = "rawDataCollector"
process.gctDigis.inputLabel = "rawDataCollector"
process.gtDigis.DaqGtInputTag = "rawDataCollector"
process.hcalDigis.InputLabel = "rawDataCollector"
process.muonCSCDigis.InputObjects = "rawDataCollector"
process.muonDTDigis.inputLabel = "rawDataCollector"
process.muonRPCDigis.InputLabel = "rawDataCollector"
process.scalersRawToDigi.scalersInputTag = "rawDataCollector"
process.siPixelDigis.InputLabel = "rawDataCollector"
process.siStripDigis.ProductLabel = "rawDataCollector"
#----------------------------
# pixelVertexDQM Config
#----------------------------
process.pixelVertexDQM = DQMEDAnalyzer('Vx3DHLTAnalyzer',
vertexCollection = cms.untracked.InputTag("pixelVertices"),
pixelHitCollection = cms.untracked.InputTag("siPixelRecHitsPreSplitting"),
debugMode = cms.bool(True),
nLumiFit = cms.uint32(2),
maxLumiIntegration = cms.uint32(15),
nLumiXaxisRange = cms.uint32(5000),
dataFromFit = cms.bool(True),
minNentries = cms.uint32(20),
# If the histogram has at least "minNentries" then extract Mean and RMS,
# or, if we are performing the fit, the number of vertices must be greater
# than minNentries otherwise it waits for other nLumiFit
xRange = cms.double(0.8),
xStep = cms.double(0.001),
yRange = cms.double(0.8),
yStep = cms.double(0.001),
zRange = cms.double(30.0),
zStep = cms.double(0.04),
VxErrCorr = cms.double(1.0), # Was 1.2, changed to 1.0 in Run3 13.6 TeV collisions - Keep checking this with later release
minVxDoF = cms.double(10.0),
minVxWgt = cms.double(0.5),
fileName = cms.string("/nfshome0/dqmdev/BeamMonitorDQM/BeamPixelResults.txt"))
#----------------------------
# Heavy Ion Specific Section
#----------------------------
if (process.runType.getRunType() == process.runType.hi_run):
print("[beampixel_dqm_sourceclient-live_cfg]::running HI")
#----------------------------
# Tracking Configuration
#----------------------------
process.castorDigis.InputLabel = "rawDataRepacker"
process.csctfDigis.producer = "rawDataRepacker"
process.dttfDigis.DTTF_FED_Source = "rawDataRepacker"
process.ecalDigisCPU.InputLabel = "rawDataRepacker"
process.ecalPreshowerDigis.sourceTag = "rawDataRepacker"
process.gctDigis.inputLabel = "rawDataRepacker"
process.gtDigis.DaqGtInputTag = "rawDataRepacker"
process.hcalDigis.InputLabel = "rawDataRepacker"
process.muonCSCDigis.InputObjects = "rawDataRepacker"
process.muonDTDigis.inputLabel = "rawDataRepacker"
process.muonRPCDigis.InputLabel = "rawDataRepacker"
process.scalersRawToDigi.scalersInputTag = "rawDataRepacker"
process.siPixelDigis.InputLabel = "rawDataRepacker"
process.siStripDigis.ProductLabel = "rawDataRepacker"
#----------------------------
# pixelVertexDQM Config
#----------------------------
process.pixelVertexDQM = DQMEDAnalyzer('Vx3DHLTAnalyzer',
vertexCollection = cms.untracked.InputTag("pixelVertices"),
pixelHitCollection = cms.untracked.InputTag("siPixelRecHitsPreSplitting"),
debugMode = cms.bool(True),
nLumiFit = cms.uint32(5),
maxLumiIntegration = cms.uint32(15),
nLumiXaxisRange = cms.uint32(5000),
dataFromFit = cms.bool(True),
minNentries = cms.uint32(20),
# If the histogram has at least "minNentries" then extract Mean and RMS,
# or, if we are performing the fit, the number of vertices must be greater
# than minNentries otherwise it waits for other nLumiFit
xRange = cms.double(0.8),
xStep = cms.double(0.001),
yRange = cms.double(0.8),
yStep = cms.double(0.001),
zRange = cms.double(30.0),
zStep = cms.double(0.04),
VxErrCorr = cms.double(1.0), # Was 1.2, changed to 1.0 in Run3 13.6 TeV collisions - Keep checking this with later release
minVxDoF = cms.double(10.0),
minVxWgt = cms.double(0.5),
fileName = cms.string("/nfshome0/dqmdev/BeamMonitorDQM/BeamPixelResults.txt"))
#----------------------------
# File to save beamspot info
#----------------------------
if process.dqmRunConfig.type.value() == "production":
process.pixelVertexDQM.fileName = "/nfshome0/dqmpro/BeamMonitorDQM/BeamPixelResults.txt"
else:
process.pixelVertexDQM.fileName = "/nfshome0/dqmdev/BeamMonitorDQM/BeamPixelResults.txt"
print("[beampixel_dqm_sourceclient-live_cfg]::saving DIP file into " + str(process.pixelVertexDQM.fileName))
#----------------------------
# Pixel-Tracks&Vertices Reco
#----------------------------
process.reconstructionStep = cms.Sequence(process.siPixelDigis*
process.siStripDigis*
process.striptrackerlocalreco*
process.offlineBeamSpot*
process.siPixelClustersPreSplitting*
process.siPixelRecHitsPreSplitting*
process.siPixelClusterShapeCachePreSplitting*
process.recopixelvertexing)
#----------------------------
# Define Path
#----------------------------
process.p = cms.Path(process.scalersRawToDigi*process.physTrigger*process.reconstructionStep*process.pixelVertexDQM*process.dqmModules)
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