process.load("FWCore.MessageService.MessageLogger_cfi") process.load("Configuration.StandardSequences.GeometryDB_cff") process.load("Configuration.StandardSequences.MagneticField_cff") #process.load("Configuration.StandardSequences.FrontierConditions_GlobalTag_condDBv2_cff") # gives deprecated message in 80X but still runs process.load( "Configuration.StandardSequences.FrontierConditions_GlobalTag_cff") from Configuration.AlCa.GlobalTag import GlobalTag process.maxEvents = cms.untracked.PSet(input=cms.untracked.int32(100)) process.MessageLogger.cerr.FwkReport.reportEvery = cms.untracked.int32(1000) import os if os.environ["CMSSW_VERSION"].count("CMSSW_7_6"): process.GlobalTag = GlobalTag(process.GlobalTag, '76X_mcRun2_asymptotic_v13') elif os.environ["CMSSW_VERSION"].count("CMSSW_8_0"): process.GlobalTag = GlobalTag(process.GlobalTag, '80X_mcRun2_asymptotic_2016_miniAODv2') else: raise Exception, "The default setup for microAODstd.py does not support releases other than 76X and 80X" process.RandomNumberGeneratorService = cms.Service( "RandomNumberGeneratorService") process.RandomNumberGeneratorService.flashggRandomizedPhotons = cms.PSet( initialSeed=cms.untracked.uint32(16253245)) # 2012 data #process.GlobalTag = GlobalTag(process.GlobalTag, 'GR_R_74_V8A::All') #process.source = cms.Source("PoolSource",fileNames=cms.untracked.vstring( # "/store/relval/CMSSW_7_4_0_pre9/DoubleElectron/MINIAOD/GR_R_74_V8A_RelVal_zEl2012D-v1/00000/5A04EF0A-29D4-E411-BB12-003048FFCC2C.root",
process.AODSIMoutput = cms.OutputModule( "PoolOutputModule", compressionAlgorithm=cms.untracked.string('LZMA'), compressionLevel=cms.untracked.int32(4), dataset=cms.untracked.PSet(dataTier=cms.untracked.string('AODSIM'), filterName=cms.untracked.string('')), eventAutoFlushCompressedSize=cms.untracked.int32(15728640), fileName=cms.untracked.string( 'file:SUS-RunIISummer16DR80Premix-00036.root'), outputCommands=process.AODSIMEventContent.outputCommands) # Additional output definition # Other statements from Configuration.AlCa.GlobalTag import GlobalTag process.GlobalTag = GlobalTag(process.GlobalTag, '80X_mcRun2_asymptotic_2016_TrancheIV_v6', '') # Path and EndPath definitions process.raw2digi_step = cms.Path(process.RawToDigi) process.reconstruction_step = cms.Path(process.reconstruction) process.eventinterpretaion_step = cms.Path(process.EIsequence) process.endjob_step = cms.EndPath(process.endOfProcess) process.AODSIMoutput_step = cms.EndPath(process.AODSIMoutput) # Schedule definition process.schedule = cms.Schedule(process.raw2digi_step, process.reconstruction_step, process.eventinterpretaion_step, process.endjob_step, process.AODSIMoutput_step) # customisation of the process.
import FWCore.ParameterSet.Config as cms process = cms.Process("Source") #process.load("DQM.SiStripCommon.MessageLogger_cfi") process.load("DQM.SiStripCommon.DaqMonitorROOTBackEnd_cfi") process.load('Configuration.Geometry.GeometryRecoDB_cff') process.load( 'Configuration.StandardSequences.FrontierConditions_GlobalTag_cff') from Configuration.AlCa.GlobalTag import GlobalTag process.GlobalTag = GlobalTag(process.GlobalTag, 'auto:run2_data') process.SiStripDetInfoFileReader = cms.Service("SiStripDetInfoFileReader") process.sistripconn = cms.ESProducer("SiStripConnectivity") #CHANGED -- use a list to have more than 255 args list = [ '/store/data/Run2016G/VRRandom0/RAW/v1/000/280/667/00000/04ABEFF1-8E7A-E611-995E-02163E014384.root', '/store/data/Run2016G/VRRandom0/RAW/v1/000/280/667/00000/0623B0EC-9F7A-E611-81EC-02163E011FA0.root', '/store/data/Run2016G/VRRandom0/RAW/v1/000/280/667/00000/0A0C7BF6-A17A-E611-9CEE-02163E014165.root', '/store/data/Run2016G/VRRandom0/RAW/v1/000/280/667/00000/0C3F7AEC-9F7A-E611-84AA-02163E0144E4.root', '/store/data/Run2016G/VRRandom0/RAW/v1/000/280/667/00000/0C62CDEE-9F7A-E611-99AF-02163E0143EF.root', '/store/data/Run2016G/VRRandom0/RAW/v1/000/280/667/00000/0CBE29F0-9F7A-E611-9B3A-02163E011C02.root', '/store/data/Run2016G/VRRandom0/RAW/v1/000/280/667/00000/1435443E-9F7A-E611-A015-02163E014136.root', '/store/data/Run2016G/VRRandom0/RAW/v1/000/280/667/00000/144C4E40-9F7A-E611-A094-02163E014789.root', '/store/data/Run2016G/VRRandom0/RAW/v1/000/280/667/00000/1AD7CDDE-9F7A-E611-8221-FA163E69A996.root', '/store/data/Run2016G/VRRandom0/RAW/v1/000/280/667/00000/220866EF-9F7A-E611-A918-FA163E2648F7.root', '/store/data/Run2016G/VRRandom0/RAW/v1/000/280/667/00000/228C2EEE-9F7A-E611-AE1D-02163E011DFF.root',
process.load('Configuration.StandardSequences.Services_cff') process.load('FWCore.MessageService.MessageLogger_cfi') process.load('Configuration.EventContent.EventContent_cff') #process.load('Configuration.Geometry.GeometryExtended2023TTIReco_cff') process.load( 'Configuration.Geometry.GeometryExtendedPhase2TkBE5DPixel10DReco_cff') process.load('Configuration.Geometry.GeometryExtendedPhase2TkBE5DPixel10D_cff') process.load('Configuration.StandardSequences.MagneticField_38T_PostLS1_cff') process.load('Configuration.StandardSequences.L1TrackTrigger_cff') process.load( 'Configuration.StandardSequences.FrontierConditions_GlobalTag_cff') process.load('Geometry.TrackerGeometryBuilder.StackedTrackerGeometry_cfi') process.load('IOMC.EventVertexGenerators.VtxSmearedGauss_cfi') from Configuration.AlCa.GlobalTag import GlobalTag process.GlobalTag = GlobalTag(process.GlobalTag, 'auto:upgradePLS3', '') ############################################################ # Path definitions & schedule ############################################################ #run the tracking BeamSpotFromSim = cms.EDProducer("BeamSpotFromSimProducer") process.TT_step = cms.Path(process.TrackTriggerTTTracks) process.TTAssociator_step = cms.Path(process.TrackTriggerAssociatorTracks) ############################################################ # Define the track ntuple process, MyProcess is the (unsigned) PDGID corresponding to the process which is run # e.g. single electron/positron = 11 # single pion+/pion- = 211 # single muon+/muon- = 13
import os import FWCore.ParameterSet.Config as cms process = cms.Process("FED") # conditions process.load('Configuration.StandardSequences.GeometryRecoDB_cff') process.load('Configuration.StandardSequences.MagneticField_cff') process.load( 'Configuration.StandardSequences.FrontierConditions_GlobalTag_cff') from Configuration.AlCa.GlobalTag import GlobalTag process.GlobalTag = GlobalTag(process.GlobalTag, '103X_dataRun2_HLT_v1', '') # services process.load('FWCore.MessageService.MessageLogger_cfi') # input #import sys, os, inspect #sys.path.append(os.path.dirname(os.path.abspath(inspect.getfile(inspect.currentframe())))) #process.load('sourceFromRaw_Run2018D_HLTPhysics_cff') ## process.load('sourceFromRaw_Run2018D_JetHT_cff') #process.source = cms.Source("PoolSource", #fileNames = cms.untracked.vstring('/store/data/Run2018D/EphemeralHLTPhysics1/RAW/v1/000/323/775/00000/A27DFA33-8FCB-BE42-A2D2-1A396EEE2B6E.root') #) process.source = cms.Source( "PoolSource", fileNames=cms.untracked.vstring( 'file:/mnt/ceph/users/fwyzard/store/data/Run2018D/HLTPhysics/RAW/v1/000/321/177/00000/6225A60D-B99E-E811-AAF2-FA163E33DDD7.root',
eventAutoFlushCompressedSize=cms.untracked.int32(5242880), outputCommands=process.RECOSIMEventContent.outputCommands, fileName=cms.untracked.string( 'SinglePi0Pt5-50_cfi_py_GEN_SIM_DIGI_L1_DIGI2RAW_RAW2DIGI_L1Reco_RECO.root' ), dataset=cms.untracked.PSet(filterName=cms.untracked.string(''), dataTier=cms.untracked.string('RECOSIM')), SelectEvents=cms.untracked.PSet( SelectEvents=cms.vstring('generation_step'))) # Additional output definition # Other statements process.genstepfilter.triggerConditions = cms.vstring("generation_step") from Configuration.AlCa.GlobalTag import GlobalTag process.GlobalTag = GlobalTag(process.GlobalTag, 'START61_V11::All', '') process.generator = cms.EDProducer("FlatRandomPtGunProducer", PGunParameters=cms.PSet( MaxPt=cms.double(50.0), MinPt=cms.double(5.0), PartID=cms.vint32(111), MaxEta=cms.double(2.6), MaxPhi=cms.double(3.14159265359), MinEta=cms.double(1.5), MinPhi=cms.double(-3.14159265359)), Verbosity=cms.untracked.int32(0), psethack=cms.string('single gamma pt 35'), AddAntiParticle=cms.bool(False), firstRun=cms.untracked.uint32(1))
process.load('Configuration.StandardSequences.Services_cff') process.load('Configuration.Geometry.GeometryDB_cff') process.load('Configuration.StandardSequences.MagneticField_38T_cff') process.load( 'Configuration.StandardSequences.FrontierConditions_GlobalTag_cff') process.load('Configuration.StandardSequences.Digi_cff') process.load('Configuration.StandardSequences.SimL1Emulator_cff') process.load('Configuration.StandardSequences.DigiToRaw_cff') process.load('Configuration.StandardSequences.RawToDigi_cff') process.load('Configuration.StandardSequences.ReconstructionHeavyIons_cff') process.load('FWCore.MessageService.MessageLogger_cfi') # PbPb 53X MC from Configuration.AlCa.GlobalTag import GlobalTag process.GlobalTag = GlobalTag(process.GlobalTag, 'STARTHI53_LV1::All', '') from HeavyIonsAnalysis.Configuration.CommonFunctions_cff import * overrideGT_PbPb2760(process) process.HeavyIonGlobalParameters = cms.PSet( centralityVariable=cms.string("HFtowers"), nonDefaultGlauberModel=cms.string("Hydjet_Drum"), centralitySrc=cms.InputTag("hiCentrality")) ##################################################################################### # Define tree output ##################################################################################### process.TFileService = cms.Service("TFileService", fileName=cms.string("HiForest.root"))
process.NANOAODSIMoutput = cms.OutputModule( "NanoAODOutputModule", compressionAlgorithm=cms.untracked.string('LZMA'), compressionLevel=cms.untracked.int32(9), dataset=cms.untracked.PSet(dataTier=cms.untracked.string('NANOAODSIM'), filterName=cms.untracked.string('')), fileName=cms.untracked.string( 'TTbar_nano102x_on_mini94x_2017_mc_NANO_test.root'), outputCommands=process.NANOAODSIMEventContent.outputCommands) # Additional output definition # Other statements from Configuration.AlCa.GlobalTag import GlobalTag process.GlobalTag = GlobalTag(process.GlobalTag, '102X_mc2017_realistic_v7', '') # Path and EndPath definitions process.nanoAOD_step = cms.Path(process.nanoSequenceMC) process.endjob_step = cms.EndPath(process.endOfProcess) process.NANOAODSIMoutput_step = cms.EndPath(process.NANOAODSIMoutput) # Schedule definition process.schedule = cms.Schedule(process.nanoAOD_step, process.endjob_step, process.NANOAODSIMoutput_step) from PhysicsTools.PatAlgos.tools.helpers import associatePatAlgosToolsTask associatePatAlgosToolsTask(process) #Setup FWK for multithreaded process.options.numberOfThreads = cms.untracked.uint32(8) process.options.numberOfStreams = cms.untracked.uint32(0)
compressionAlgorithm=cms.untracked.string('LZMA'), compressionLevel=cms.untracked.int32(4), dataset=cms.untracked.PSet(dataTier=cms.untracked.string('MINIAOD'), filterName=cms.untracked.string('')), dropMetaData=cms.untracked.string('ALL'), eventAutoFlushCompressedSize=cms.untracked.int32(15728640), fastCloning=cms.untracked.bool(False), fileName=cms.untracked.string('RAWskimmed_inMINIAOD.root'), outputCommands=process.MINIAODEventContent.outputCommands, overrideInputFileSplitLevels=cms.untracked.bool(True)) # Additional output definition # Other statements from Configuration.AlCa.GlobalTag import GlobalTag process.GlobalTag = GlobalTag(process.GlobalTag, '76X_dataRun2_v15', '') # Path and EndPath definitions process.raw2digi_step = cms.Path(process.RawToDigi) process.L1Reco_step = cms.Path(process.L1Reco) process.reconstruction_step = cms.Path(process.reconstruction) process.Flag_trackingFailureFilter = cms.Path(process.goodVertices + process.trackingFailureFilter) process.Flag_goodVertices = cms.Path(process.primaryVertexFilter) process.Flag_CSCTightHaloFilter = cms.Path(process.CSCTightHaloFilter) process.Flag_trkPOGFilters = cms.Path(process.trkPOGFilters) process.Flag_trkPOG_logErrorTooManyClusters = cms.Path( ~process.logErrorTooManyClusters) process.Flag_EcalDeadCellTriggerPrimitiveFilter = cms.Path( process.EcalDeadCellTriggerPrimitiveFilter) process.Flag_ecalLaserCorrFilter = cms.Path(process.ecalLaserCorrFilter)
dataset=cms.untracked.PSet(dataTier=cms.untracked.string(''), filterName=cms.untracked.string('')), eventAutoFlushCompressedSize=cms.untracked.int32(5242880), fileName=cms.untracked.string( 'SinglePiPt10_pythia8_cfi_py_GEN_SIM_DIGI_L1_DIGI2RAW_RAW2DIGI_RECO.root' ), outputCommands=process.FEVTDEBUGEventContent.outputCommands, splitLevel=cms.untracked.int32(0)) # Additional output definition # Other statements process.genstepfilter.triggerConditions = cms.vstring("generation_step") process.mix.digitizers = cms.PSet(process.theDigitizersValid) from Configuration.AlCa.GlobalTag import GlobalTag process.GlobalTag = GlobalTag(process.GlobalTag, '90X_upgrade2017_realistic_v20', '') process.generator = cms.EDFilter( "Pythia8PtGun", PGunParameters=cms.PSet(AddAntiParticle=cms.bool(True), MaxEta=cms.double(2.5), MaxPhi=cms.double(3.14159265359), MaxPt=cms.double(10.01), MinEta=cms.double(-2.5), MinPhi=cms.double(-3.14159265359), MinPt=cms.double(9.99), ParticleID=cms.vint32(211)), PythiaParameters=cms.PSet(parameterSets=cms.vstring()), Verbosity=cms.untracked.int32(0), firstRun=cms.untracked.uint32(1), psethack=cms.string('single pi pt 10'))
outputCommands=process.RAWSIMEventContent.outputCommands, fileName=cms.untracked.string( 'file:step1_PYTHIA8DijetsPt20_RPRECO_CMS_SIM_newformat_v1.root'), dataset=cms.untracked.PSet(filterName=cms.untracked.string(''), dataTier=cms.untracked.string('SIM'))) # Additional output definition outputCommandsRP = [ 'keep *_totemRPAnalysis_*_*', 'drop *_*_TotemHitsRP_SIM', 'drop *_*_TotemHitsT1_SIM', 'drop *_*_TotemHitsT2Gem_SIM' ] process.RAWSIMoutput.outputCommands.extend(outputCommandsRP) # Other statements from Configuration.AlCa.GlobalTag import GlobalTag process.GlobalTag = GlobalTag(process.GlobalTag, 'MCRUN2_71_V3::All', '') # Path and EndPath definitions process.simulation_step = cms.Path(process.psim) process.endjob_step = cms.EndPath(process.endOfProcess) process.RAWSIMoutput_step = cms.EndPath(process.RAWSIMoutput) # Schedule definition process.schedule = cms.Schedule(process.simulation_step, process.endjob_step, process.RAWSIMoutput_step) # customisation of the process. # Automatic addition of the customisation function from Configuration.DataProcessing.Utils from Configuration.DataProcessing.Utils import addMonitoring
process.RAWSIMoutput = cms.OutputModule("PoolOutputModule", splitLevel = cms.untracked.int32(0), eventAutoFlushCompressedSize = cms.untracked.int32(5242880), outputCommands = process.RAWSIMEventContent.outputCommands, fileName = cms.untracked.string('HSCPstopToBottom_M_200_100mm_Tune4C_8TeV_pythia8_cff_DIGI_L1_DIGI2RAW_HLT_PU.root'), dataset = cms.untracked.PSet( filterName = cms.untracked.string(''), dataTier = cms.untracked.string('GEN-SIM-RAW') ) ) # Additional output definition # Other statements from Configuration.AlCa.GlobalTag import GlobalTag process.GlobalTag = GlobalTag(process.GlobalTag, 'START53_V19::All', '') # Path and EndPath definitions process.digitisation_step = cms.Path(process.pdigi) process.L1simulation_step = cms.Path(process.SimL1Emulator) process.digi2raw_step = cms.Path(process.DigiToRaw) process.endjob_step = cms.EndPath(process.endOfProcess) process.RAWSIMoutput_step = cms.EndPath(process.RAWSIMoutput) # Schedule definition process.schedule = cms.Schedule(process.digitisation_step,process.L1simulation_step,process.digi2raw_step) process.schedule.extend(process.HLTSchedule) process.schedule.extend([process.endjob_step,process.RAWSIMoutput_step]) # customisation of the process.
process.load('Configuration.StandardSequences.FrontierConditions_GlobalTag_cff') process.load('Configuration.StandardSequences.Digi_cff') process.load('Configuration.StandardSequences.SimL1Emulator_cff') process.load('Configuration.StandardSequences.DigiToRaw_cff') process.load('Configuration.StandardSequences.RawToDigi_cff') process.load('Configuration.StandardSequences.ReconstructionHeavyIons_cff') #process.load('RecoHI.HiCentralityAlgos.CentralityBin_cfi') process.load('RecoParticleFlow.PFClusterProducer.particleFlowCluster_cff') process.load('RecoParticleFlow.Configuration.RecoParticleFlow_cff') process.load('FWCore.MessageService.MessageLogger_cfi') # PbPb 53X MC from Configuration.AlCa.GlobalTag import GlobalTag process.GlobalTag = GlobalTag(process.GlobalTag, 'START53_LV6::All', '') from HeavyIonsAnalysis.Configuration.CommonFunctions_cff import * #overrideCentrality(process) overrideGT_pp2760(process) overrideJEC_pp2760(process) #process.HeavyIonGlobalParameters = cms.PSet( # centralityVariable = cms.string("HFtowersTrunc"), # nonDefaultGlauberModel = cms.string(""), # centralitySrc = cms.InputTag("pACentrality") # ) ##################################################################################### # Define tree output #####################################################################################
# Output definition process.RAWoutput = cms.OutputModule( "PoolOutputModule", dataset=cms.untracked.PSet(dataTier=cms.untracked.string('RAW'), filterName=cms.untracked.string('')), eventAutoFlushCompressedSize=cms.untracked.int32(5242880), fileName=cms.untracked.string('PreRAWskimmed.root'), outputCommands=process.RAWEventContent.outputCommands, splitLevel=cms.untracked.int32(0)) # Additional output definition # Other statements from Configuration.AlCa.GlobalTag import GlobalTag process.GlobalTag = GlobalTag(process.GlobalTag, '80X_dataRun2_2016LegacyRepro_v4', '') # Path and EndPath definitions process.raw2digi_step = cms.Path(process.RawToDigi) process.L1Reco_step = cms.Path(process.L1Reco) process.reconstruction_step = cms.Path(process.reconstruction) process.Flag_trackingFailureFilter = cms.Path(process.goodVertices + process.trackingFailureFilter) process.Flag_goodVertices = cms.Path(process.primaryVertexFilter) process.Flag_CSCTightHaloFilter = cms.Path(process.CSCTightHaloFilter) process.Flag_trkPOGFilters = cms.Path(process.trkPOGFilters) process.Flag_HcalStripHaloFilter = cms.Path(process.HcalStripHaloFilter) process.Flag_trkPOG_logErrorTooManyClusters = cms.Path( ~process.logErrorTooManyClusters) process.Flag_EcalDeadCellTriggerPrimitiveFilter = cms.Path( process.EcalDeadCellTriggerPrimitiveFilter)
process.LHEoutput = cms.OutputModule("PoolOutputModule", dataset = cms.untracked.PSet( dataTier = cms.untracked.string('LHE'), filterName = cms.untracked.string('') ), eventAutoFlushCompressedSize = cms.untracked.int32(5242880), fileName = cms.untracked.string(options.outputFile), outputCommands = process.LHEEventContent.outputCommands, splitLevel = cms.untracked.int32(0) ) # Additional output definition # Other statements from Configuration.AlCa.GlobalTag import GlobalTag process.GlobalTag = GlobalTag(process.GlobalTag, 'auto:mc', '') # Path and EndPath definitions process.LHEoutput_step = cms.EndPath(process.LHEoutput) # Schedule definition process.schedule = cms.Schedule(process.LHEoutput_step) # customisation of the process. # Automatic addition of the customisation function from Configuration.DataProcessing.Utils from Configuration.DataProcessing.Utils import addMonitoring #call to customisation function addMonitoring imported from Configuration.DataProcessing.Utils process = addMonitoring(process)
import FWCore.ParameterSet.Config as cms from Configuration.AlCa.GlobalTag import GlobalTag from Configuration.StandardSequences.Eras import eras process = cms.Process('PLOT', eras.Run2_2016) process.load( "Configuration.StandardSequences.FrontierConditions_GlobalTag_condDBv2_cff" ) process.GlobalTag = GlobalTag( process.GlobalTag, '90X_dataRun2_HLT_Candidate_HCAL_payloads_tests_2017_03_24', '') process.maxEvents = cms.untracked.PSet(input=cms.untracked.int32(-1)) process.source = cms.Source( "HcalTBSource", fileNames=cms.untracked.vstring( '/store/group/dpg_hcal/comm_hcal/USC/run292952/USC_292952.root')) process.load('Configuration.StandardSequences.GeometryRecoDB_cff') process.load("Configuration.StandardSequences.RawToDigi_Data_cff") process.load("SimCalorimetry.Configuration.hcalDigiSequence_cff") process.load('SimCalorimetry.HcalTrigPrimProducers.hcaltpdigi_cff') process.hcalDigis.InputLabel = cms.InputTag("source") process.TFileService = cms.Service("TFileService", closeFileFast=cms.untracked.bool(True), fileName=cms.string('analyze_292952.root'))
##'/store/user/eschliec/Summer09/7TeV/QCD/pt1400-pythia/patTuple_23.root', ##'/store/user/eschliec/Summer09/7TeV/QCD/pt1400-pythia/patTuple_21.root' #), #skipEvents = cms.untracked.uint32(0) #) ## define maximal number of events to loop over process.maxEvents = cms.untracked.PSet(input=cms.untracked.int32(10000)) ## configure process options process.options = cms.untracked.PSet(wantSummary=cms.untracked.bool(True)) ## configure geometry & conditions process.load("Configuration.Geometry.GeometryRecoDB_cff") process.load( "Configuration.StandardSequences.FrontierConditions_GlobalTag_cff") from Configuration.AlCa.GlobalTag import GlobalTag process.GlobalTag = GlobalTag(process.GlobalTag, 'auto:run2_mc') process.load("Configuration.StandardSequences.MagneticField_cff") process.task = cms.Task() ## std sequence for PAT process.load("PhysicsTools.PatAlgos.producersLayer1.patCandidates_cff") process.task.add(process.patCandidatesTask) #Temporary customize to the unit tests that fail due to old input samples process.patTaus.skipMissingTauID = True process.load("PhysicsTools.PatAlgos.selectionLayer1.selectedPatCandidates_cff") process.task.add(process.selectedPatCandidatesTask) process.load( "TopQuarkAnalysis.TopEventSelection.TtFullHadSignalSelMVAComputer_cff") process.task.add(process.findTtFullHadSignalSelMVA)
if len(magfieldstrsplit) > 1: MagFieldString += magfieldstrsplit[1] template_base = 'SiPixelTemplateDBObject_' + MagFieldString + 'T_' + options.Year + '_v' + version print "Testing sqlite file: " + template_base + ".db" print " tag: " + template_base from Configuration.StandardSequences.Eras import eras process = cms.Process("SiPixelTemplateDBReaderTest", eras.Run2_25ns) process.load("CondCore.CondDB.CondDB_cfi") process.load("FWCore.MessageService.MessageLogger_cfi") process.load( "Configuration.StandardSequences.FrontierConditions_GlobalTag_cff") from Configuration.AlCa.GlobalTag import GlobalTag process.GlobalTag = GlobalTag(process.GlobalTag, options.GlobalTag, '') #Load the correct Magnetic Field process.load("Configuration.StandardSequences.MagneticField_" + MagFieldString + "T_cff") #Change to True if you would like a more detailed error output wantDetailedOutput = False #Change to True if you would like to output the full template database object wantFullOutput = False process.source = cms.Source("EmptySource") process.maxEvents = cms.untracked.PSet(input=cms.untracked.int32(1)) if not testGlobalTag:
dataset=cms.untracked.PSet( dataTier=cms.untracked.string('GEN-SIM-DIGI-RAW'), filterName=cms.untracked.string('')), eventAutoFlushCompressedSize=cms.untracked.int32(5242880), fileName=cms.untracked.string('step2_DIGI_DIGI2RAW.root'), outputCommands=process.FEVTDEBUGEventContent.outputCommands + ['keep *_ctppsPixelRawData_*_*'], splitLevel=cms.untracked.int32(0)) # Additional output definition process.load('SimGeneral.MixingModule.MYmixNoPU_cfi') process.load("SimCTPPS.CTPPSPixelDigiProducer.RPixDetConf_cfi") # Other statements from Configuration.AlCa.GlobalTag import GlobalTag process.GlobalTag = GlobalTag(process.GlobalTag, 'auto:run2_hlt_relval', '') # Path and EndPath definitions process.mixedigi_step = cms.Path(process.mix * process.RPixDetDigitizer) process.digi2raw_step = cms.Path(process.DigiToRaw) process.endjob_step = cms.EndPath(process.endOfProcess) process.FEVTDEBUGoutput_step = cms.EndPath(process.FEVTDEBUGoutput) # Schedule definition process.schedule = cms.Schedule(process.mixedigi_step, process.digi2raw_step, process.endjob_step, process.FEVTDEBUGoutput_step) from PhysicsTools.PatAlgos.tools.helpers import associatePatAlgosToolsTask associatePatAlgosToolsTask(process) # Customisation from command line
dataTier = cms.untracked.string('GEN-SIM'), filterName = cms.untracked.string('') ), eventAutoFlushCompressedSize = cms.untracked.int32(20971520), fileName = cms.untracked.string('file:AMSB_gluinoToChargino_M-2000GeV_M-700GeV_CTau-10000cm_step1.root'), outputCommands = process.RAWSIMEventContent.outputCommands, splitLevel = cms.untracked.int32(0) ) # Additional output definition # Other statements process.XMLFromDBSource.label = cms.string("Extended") process.genstepfilter.triggerConditions=cms.vstring("generation_step") from Configuration.AlCa.GlobalTag import GlobalTag process.GlobalTag = GlobalTag(process.GlobalTag, '93X_mc2017_realistic_v3', '') process.generator = cms.EDFilter("Pythia8GeneratorFilter", PythiaParameters = cms.PSet( parameterSets = cms.vstring('pythia8CommonSettings', 'pythia8CP5Settings', 'processParameters'), processParameters = cms.vstring('SUSY:all = off', 'SUSY:gg2gluinogluino = on', 'SUSY:qqbar2gluinogluino = on', '1000024:isResonance = false', '1000024:oneChannel = 1 1.0 100 1000022 211', '1000024:tau0 = 100000.0', 'ParticleDecays:tau0Max = 1000000.0'), pythia8CP5Settings = cms.vstring('Tune:pp 14', 'Tune:ee 7',
process.AODSIMoutput = cms.OutputModule( "PoolOutputModule", compressionAlgorithm=cms.untracked.string('LZMA'), compressionLevel=cms.untracked.int32(4), dataset=cms.untracked.PSet(dataTier=cms.untracked.string('RECO'), filterName=cms.untracked.string('')), eventAutoFlushCompressedSize=cms.untracked.int32(15728640), fileName=cms.untracked.string('file:fullsim3.root'), outputCommands=process.AODSIMEventContent.outputCommands) # Additional output definition # Other statements from Configuration.AlCa.GlobalTag import GlobalTag process.GlobalTag = GlobalTag(process.GlobalTag, 'auto:phase1_2017_realistic', '') # Path and EndPath definitions process.raw2digi_step = cms.Path(process.RawToDigi) process.L1Reco_step = cms.Path(process.L1Reco) process.reconstruction_step = cms.Path(process.reconstruction) process.endjob_step = cms.EndPath(process.endOfProcess) process.AODSIMoutput_step = cms.EndPath(process.AODSIMoutput) # Schedule definition process.schedule = cms.Schedule(process.raw2digi_step, process.L1Reco_step, process.reconstruction_step, process.endjob_step, process.AODSIMoutput_step) from PhysicsTools.PatAlgos.tools.helpers import associatePatAlgosToolsTask associatePatAlgosToolsTask(process)
process.AODSIMoutput = cms.OutputModule( "PoolOutputModule", compressionAlgorithm=cms.untracked.string('LZMA'), compressionLevel=cms.untracked.int32(4), dataset=cms.untracked.PSet(dataTier=cms.untracked.string('AODSIM'), filterName=cms.untracked.string('')), eventAutoFlushCompressedSize=cms.untracked.int32(15728640), fileName=cms.untracked.string( 'file:WR_M-2400_ToLNu_M-800_AODSIM_13TeV-2016.root'), outputCommands=process.AODSIMEventContent.outputCommands) # Additional output definition # Other statements from Configuration.AlCa.GlobalTag import GlobalTag process.GlobalTag = GlobalTag(process.GlobalTag, '80X_mcRun2_asymptotic_2016_miniAODv2_v1', '') # Path and EndPath definitions process.raw2digi_step = cms.Path(process.RawToDigi) process.L1Reco_step = cms.Path(process.L1Reco) process.reconstruction_step = cms.Path(process.reconstruction) process.endjob_step = cms.EndPath(process.endOfProcess) process.AODSIMoutput_step = cms.EndPath(process.AODSIMoutput) # Schedule definition process.schedule = cms.Schedule(process.raw2digi_step, process.L1Reco_step, process.reconstruction_step, process.endjob_step, process.AODSIMoutput_step) #do not add changes to your config after this point (unless you know what you are doing) from FWCore.ParameterSet.Utilities import convertToUnscheduled
import FWCore.ParameterSet.Config as cms import FWCore.Utilities.FileUtils as FileUtils process = cms.Process("FLASHggMicroAOD") process.load("FWCore.MessageService.MessageLogger_cfi") process.load("Configuration.StandardSequences.GeometryDB_cff") process.load("Configuration.StandardSequences.MagneticField_cff") process.load("Configuration.StandardSequences.FrontierConditions_GlobalTag_condDBv2_cff") ## process.GlobalTag.globaltag = 'POSTLS170_V5::All' from Configuration.AlCa.GlobalTag import GlobalTag ## process.GlobalTag = GlobalTag(process.GlobalTag, 'auto:run2_mc') import os if os.environ["CMSSW_VERSION"].count("CMSSW_7_6"): process.GlobalTag = GlobalTag(process.GlobalTag, '76X_mcRun2_asymptotic_v13') elif os.environ["CMSSW_VERSION"].count("CMSSW_8_0"): process.GlobalTag = GlobalTag(process.GlobalTag,'80X_mcRun2_asymptotic_v11') else: raise Exception,"The default setup for microAODstd.py does not support releases other than 76X and 80X" process.RandomNumberGeneratorService = cms.Service("RandomNumberGeneratorService") process.RandomNumberGeneratorService.flashggRandomizedPhotons = cms.PSet( initialSeed = cms.untracked.uint32(16253245) ) process.options=cms.untracked.PSet( makeTriggerResults = cms.untracked.bool(True), wantSummary = cms.untracked.bool(True) )
SelectEvents=cms.untracked.PSet( SelectEvents=cms.vstring('generation_step')), dataset=cms.untracked.PSet(dataTier=cms.untracked.string('GEN-SIM-RAW'), filterName=cms.untracked.string('')), eventAutoFlushCompressedSize=cms.untracked.int32(5242880), fileName=cms.untracked.string('step1.root'), outputCommands=process.RAWSIMEventContent.outputCommands, splitLevel=cms.untracked.int32(0)) # Additional output definition # Other statements process.mix.input.fileNames = cms.untracked.vstring(['pileup.root']) process.genstepfilter.triggerConditions = cms.vstring("generation_step") from Configuration.AlCa.GlobalTag import GlobalTag process.GlobalTag = GlobalTag(process.GlobalTag, '80X_mcRun2_asymptotic_2016_v3', '') process.generator = cms.EDFilter( "Pythia8GeneratorFilter", PythiaParameters=cms.PSet( parameterSets=cms.vstring('pythia8CommonSettings', 'pythia8CUEP8M1Settings', 'processParameters'), processParameters=cms.vstring( 'LeftRightSymmmetry:ffbar2ZR = on', '9900024:m0 = 5000', '9900023:m0 = 3000', '9900014:m0 = 400', '9900024:onMode = off', '9900023:onMode = off', '9900023:onIfAny = 9900014, 9900014', '9900024:onIfAny = 13,9900014'), pythia8CUEP8M1Settings=cms.vstring( 'Tune:pp 14', 'Tune:ee 7', 'MultipartonInteractions:pT0Ref=2.4024', 'MultipartonInteractions:ecmPow=0.25208',
# Output definition process.NANOAODoutput = cms.OutputModule( "NanoAODOutputModule", compressionAlgorithm=cms.untracked.string('LZMA'), compressionLevel=cms.untracked.int32(9), dataset=cms.untracked.PSet(dataTier=cms.untracked.string('NANOAOD'), filterName=cms.untracked.string('')), fileName=cms.untracked.string('file:jetToolbox_nano_datatest57.root'), outputCommands=process.NANOAODEventContent.outputCommands) # Additional output definition # Other statements from Configuration.AlCa.GlobalTag import GlobalTag process.GlobalTag = GlobalTag(process.GlobalTag, '102X_dataRun2_Sep2018Rereco_v1', '') # Path and EndPath definitions process.nanoAOD_step = cms.Path(process.nanoSequence) process.endjob_step = cms.EndPath(process.endOfProcess) process.NANOAODoutput_step = cms.EndPath(process.NANOAODoutput) # Schedule definition process.schedule = cms.Schedule(process.nanoAOD_step, process.endjob_step, process.NANOAODoutput_step) from PhysicsTools.PatAlgos.tools.helpers import associatePatAlgosToolsTask associatePatAlgosToolsTask(process) # customisation of the process. # Automatic addition of the customisation function from PhysicsTools.NanoAOD.nano_cff
# # import FWCore.ParameterSet.Config as cms process = cms.Process("cluTest") #process.load("Configuration.Geometry.GeometryRecoDB_cff") process.load('Configuration.Geometry.GeometryExtended2017Reco_cff') process.load('Configuration.Geometry.GeometryExtended2017_cff') #process.load("Configuration.StandardSequences.MagneticField_38T_cff") process.load( "Configuration.StandardSequences.FrontierConditions_GlobalTag_cff") from Configuration.AlCa.GlobalTag import GlobalTag process.GlobalTag = GlobalTag(process.GlobalTag, 'auto:upgrade2017', '') import HLTrigger.HLTfilters.hltHighLevel_cfi as hlt # accept if 'path_1' succeeds process.hltfilter = hlt.hltHighLevel.clone( # Min-Bias # HLTPaths = ['HLT_Physics_v*'], # HLTPaths = ['HLT_Random_v*'], # HLTPaths = ['HLT_ZeroBias_*'], # HLTPaths = ['HLT_L1SingleMuOpen_v*'], # HLTPaths = ['HLT_PAZeroBias*'], # HLTPaths = ['HLT_PARandom*'], # HLTPaths = ['HLT_PAMinBias*'], # Commissioning: HLT_L1_BptxXOR_BscMinBiasOR # HLTPaths = ['HLT_L1_BptxXOR_BscMinBiasOR'], # Zero-Bias : HLT_L1_BPTX, HLT_L1_BPTX_PlusOnly, HLT_L1_BPTX_MinusOnly, HLT_ZeroBias
compressionAlgorithm=cms.untracked.string('LZMA'), compressionLevel=cms.untracked.int32(1), dataset=cms.untracked.PSet(dataTier=cms.untracked.string('GEN-SIM'), filterName=cms.untracked.string('')), eventAutoFlushCompressedSize=cms.untracked.int32(20971520), fileName=cms.untracked.string('file:output.root'), outputCommands=process.RAWSIMEventContent.outputCommands, splitLevel=cms.untracked.int32(0)) # Additional output definition # Other statements process.XMLFromDBSource.label = cms.string("Extended") process.genstepfilter.triggerConditions = cms.vstring("generation_step") from Configuration.AlCa.GlobalTag import GlobalTag process.GlobalTag = GlobalTag(process.GlobalTag, '102X_upgrade2018_realistic_v11', '') process.gencount = cms.EDFilter("CandViewCountFilter", minNumber=cms.uint32(1), src=cms.InputTag("genfilter")) process.generator = cms.EDFilter( "Pythia8HadronizerFilter", PythiaParameters=cms.PSet( parameterSets=cms.vstring('pythia8CommonSettings', 'pythia8CP5Settings', 'pythia8PSweightsSettings', 'pythia8PowhegEmissionVetoSettings', 'processParameters'), processParameters=cms.vstring( 'POWHEG:nFinal = 1', 'ParticleDecays:limitTau0= off', '25:m0 =125',
process.NANOAODSIMoutput = cms.OutputModule( "NanoAODOutputModule", compressionAlgorithm=cms.untracked.string('LZMA'), compressionLevel=cms.untracked.int32(9), fakeNameForCrab=cms.untracked.bool(True), dataset=cms.untracked.PSet(dataTier=cms.untracked.string('NANOAODSIM'), filterName=cms.untracked.string('')), fileName=cms.untracked.string('nanoAOD.root'), outputCommands=process.NANOAODSIMEventContent.outputCommands) # Additional output definition # Other statements from Configuration.AlCa.GlobalTag import GlobalTag process.GlobalTag = GlobalTag(process.GlobalTag, '94X_mc2017_realistic_v17', '') # Path and EndPath definitions process.nanoAOD_step = cms.Path(process.nanoSequenceMC) process.endjob_step = cms.EndPath(process.endOfProcess) process.NANOAODSIMoutput_step = cms.EndPath(process.NANOAODSIMoutput) # Schedule definition process.schedule = cms.Schedule(process.nanoAOD_step, process.endjob_step, process.NANOAODSIMoutput_step) from PhysicsTools.PatAlgos.tools.helpers import associatePatAlgosToolsTask associatePatAlgosToolsTask(process) # customisation of the process. process.add_( cms.Service('InitRootHandlers', EnableIMT=cms.untracked.bool(False)))
####### Define conditions ########## #process.load("Configuration.StandardSequences.FrontierConditions_GlobalTag_cff") process.load( 'Configuration.StandardSequences.FrontierConditions_GlobalTag_condDBv2_cff' ) from Configuration.AlCa.GlobalTag import GlobalTag GT = '' if config["RUNONMC"]: GT = '80X_mcRun2_asymptotic_2016_miniAODv2' elif not (config["RUNONMC"]): GT = '80X_dataRun2_Prompt_v8' print "*************************************** GLOBAL TAG *************************************************" print GT print "****************************************************************************************************" process.GlobalTag = GlobalTag(process.GlobalTag, GT) ######### read JSON file for data ########## if not (config["RUNONMC"]) and config["USEJSON"]: import FWCore.PythonUtilities.LumiList as LumiList import FWCore.ParameterSet.Types as CfgTypes process.source.lumisToProcess = CfgTypes.untracked( CfgTypes.VLuminosityBlockRange()) myLumis = LumiList.LumiList( filename=config["JSONFILE"]).getCMSSWString().split(',') process.source.lumisToProcess.extend(myLumis) ####### Redo Jet clustering sequence ########## betapar = cms.double(0.0) fatjet_ptmin = 100.0
dataTier = cms.untracked.string('GEN-SIM-DIGI') ), SelectEvents = cms.untracked.PSet( SelectEvents = cms.vstring('generation_step') ) ) # Additional output definition process.TFileService = cms.Service("TFileService", fileName = cms.string('TBGenSimDigi.root') ) # Other statements process.genstepfilter.triggerConditions=cms.vstring("generation_step") from Configuration.AlCa.GlobalTag import GlobalTag process.GlobalTag = GlobalTag(process.GlobalTag, 'auto:phase1_2017_design', '') process.generator = cms.EDProducer("FlatRandomEThetaGunProducer", AddAntiParticle = cms.bool(True), PGunParameters = cms.PSet( MinE = cms.double(99.99), MaxE = cms.double(100.01), MinTheta = cms.double(0.0), MaxTheta = cms.double(0.0), MinPhi = cms.double(-3.14159265359), MaxPhi = cms.double(3.14159265359), PartID = cms.vint32(13) ), Verbosity = cms.untracked.int32(0), firstRun = cms.untracked.uint32(1), psethack = cms.string('single muon E 100')