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###############################################################################
# Way to use this:
# cmsRun runHGCalTestDDD_cfg.py type=V17
#
# Options for type V16, V17, V17n, V17ng, V18, V18n, V18ng
#
###############################################################################
import FWCore.ParameterSet.Config as cms
import os, sys, imp, re
import FWCore.ParameterSet.VarParsing as VarParsing
####################################################################
### SETUP OPTIONS
options = VarParsing.VarParsing('standard')
options.register('type',
"V17",
VarParsing.VarParsing.multiplicity.singleton,
VarParsing.VarParsing.varType.string,
"type of operations: V16, V17, V17n, V17ng, V18, V18n, V18ng")
### get and parse the command line arguments
options.parseArguments()
print(options)
if (options.type == "V18"):
from Configuration.Eras.Era_Phase2C22I13M9_cff import Phase2C22I13M9
process = cms.Process("HGCalTest",Phase2C22I13M9)
elif (options.type == "V18n"):
from Configuration.Eras.Era_Phase2C22I13M9_cff import Phase2C22I13M9
process = cms.Process("HGCalTest",Phase2C22I13M9)
elif (options.type == "V18ng"):
from Configuration.Eras.Era_Phase2C22I13M9_cff import Phase2C22I13M9
process = cms.Process("HGCalTest",Phase2C22I13M9)
else:
from Configuration.Eras.Era_Phase2C17I13M9_cff import Phase2C17I13M9
process = cms.Process("HGCalTest",Phase2C17I13M9)
geomFile = "Geometry.HGCalCommonData.testHGCal" + options.type + "XML_cfi"
outFile = "file:step1" + options.type + "DDD.root"
print("Geometry file: ", geomFile)
print("Output file: ", outFile)
# import of standard configurations
process.load(geomFile)
process.load('Configuration.StandardSequences.Services_cff')
process.load('SimGeneral.HepPDTESSource.pythiapdt_cfi')
process.load('FWCore.MessageService.MessageLogger_cfi')
process.load('Configuration.EventContent.EventContent_cff')
process.load('SimGeneral.MixingModule.mixNoPU_cfi')
process.load('Geometry.EcalCommonData.ecalSimulationParameters_cff')
process.load('Geometry.HcalCommonData.hcalDDDSimConstants_cff')
process.load('Geometry.HGCalCommonData.hgcalParametersInitialization_cfi')
process.load('Geometry.HGCalCommonData.hgcalNumberingInitialization_cfi')
process.load('Geometry.TrackerNumberingBuilder.trackerNumberingGeometry_cff')
process.load('SLHCUpgradeSimulations.Geometry.fakePhase2OuterTrackerConditions_cff')
process.load('Geometry.MuonNumbering.muonGeometryConstants_cff')
process.load('Geometry.MuonNumbering.muonOffsetESProducer_cff')
process.load('Geometry.MTDNumberingBuilder.mtdNumberingGeometry_cff')
process.load('Configuration.StandardSequences.MagneticField_cff')
process.load('Configuration.StandardSequences.Generator_cff')
process.load('IOMC.EventVertexGenerators.VtxSmearedHLLHC14TeV_cfi')
process.load('GeneratorInterface.Core.genFilterSummary_cff')
process.load('Configuration.StandardSequences.SimIdeal_cff')
process.load('Configuration.StandardSequences.EndOfProcess_cff')
process.load('Configuration.StandardSequences.FrontierConditions_GlobalTag_cff')
if 'MessageLogger' in process.__dict__:
process.MessageLogger.HGCalGeom=dict()
process.MessageLogger.HGCSim=dict()
# process.MessageLogger.CaloSim=dict()
process.maxEvents = cms.untracked.PSet(
input = cms.untracked.int32(100),
output = cms.optional.untracked.allowed(cms.int32,cms.PSet)
)
process.Timing = cms.Service("Timing")
# Input source
process.source = cms.Source("EmptySource")
process.options = cms.untracked.PSet(
IgnoreCompletely = cms.untracked.vstring(),
Rethrow = cms.untracked.vstring(),
TryToContinue = cms.untracked.vstring(),
allowUnscheduled = cms.obsolete.untracked.bool,
canDeleteEarly = cms.untracked.vstring(),
deleteNonConsumedUnscheduledModules = cms.untracked.bool(True),
emptyRunLumiMode = cms.obsolete.untracked.string,
eventSetup = cms.untracked.PSet(
forceNumberOfConcurrentIOVs = cms.untracked.PSet(
allowAnyLabel_=cms.required.untracked.uint32
),
numberOfConcurrentIOVs = cms.untracked.uint32(1)
),
fileMode = cms.untracked.string('FULLMERGE'),
forceEventSetupCacheClearOnNewRun = cms.untracked.bool(False),
makeTriggerResults = cms.obsolete.untracked.bool,
numberOfConcurrentLuminosityBlocks = cms.untracked.uint32(1),
numberOfConcurrentRuns = cms.untracked.uint32(1),
numberOfStreams = cms.untracked.uint32(0),
numberOfThreads = cms.untracked.uint32(1),
printDependencies = cms.untracked.bool(False),
sizeOfStackForThreadsInKB = cms.optional.untracked.uint32,
throwIfIllegalParameter = cms.untracked.bool(True),
wantSummary = cms.untracked.bool(False)
)
# Production Info
process.configurationMetadata = cms.untracked.PSet(
annotation = cms.untracked.string('single pi E 1000'),
name = cms.untracked.string('Applications'),
version = cms.untracked.string('$Revision: 1.19 $')
)
# Output definition
process.FEVTDEBUGoutput = cms.OutputModule("PoolOutputModule",
SelectEvents = cms.untracked.PSet(
SelectEvents = cms.vstring('generation_step')
),
dataset = cms.untracked.PSet(
dataTier = cms.untracked.string('GEN-SIM'),
filterName = cms.untracked.string('')
),
fileName = cms.untracked.string(outFile),
outputCommands = process.FEVTDEBUGEventContent.outputCommands,
splitLevel = cms.untracked.int32(0)
)
# Additional output definition
# Other statements
process.genstepfilter.triggerConditions=cms.vstring("generation_step")
from Configuration.AlCa.GlobalTag import GlobalTag
process.GlobalTag = GlobalTag(process.GlobalTag, 'auto:phase2_realistic_T21', '')
process.generator = cms.EDProducer("FlatRandomEGunProducer",
PGunParameters = cms.PSet(
PartID = cms.vint32(211),
MinEta = cms.double(1.48),
MaxEta = cms.double(3.01),
MinPhi = cms.double(-3.14159265359),
MaxPhi = cms.double(3.14159265359),
MinE = cms.double(999.99),
MaxE = cms.double(1000.01)
),
Verbosity = cms.untracked.int32(0), ## set to 1 (or greater) for printouts
psethack = cms.string('single pi E 1000'),
AddAntiParticle = cms.bool(True),
firstRun = cms.untracked.uint32(1)
)
process.ProductionFilterSequence = cms.Sequence(process.generator)
# Path and EndPath definitions
process.generation_step = cms.Path(process.pgen)
process.simulation_step = cms.Path(process.psim)
process.genfiltersummary_step = cms.EndPath(process.genFilterSummary)
process.endjob_step = cms.EndPath(process.endOfProcess)
process.FEVTDEBUGoutput_step = cms.EndPath(process.FEVTDEBUGoutput)
# Schedule definition
process.schedule = cms.Schedule(process.generation_step,process.genfiltersummary_step,process.simulation_step,process.endjob_step,process.FEVTDEBUGoutput_step)
from PhysicsTools.PatAlgos.tools.helpers import associatePatAlgosToolsTask
associatePatAlgosToolsTask(process)
# filter all path with the production filter sequence
for path in process.paths:
getattr(process,path).insert(0, process.ProductionFilterSequence)
# Customisation from command line
# Add early deletion of temporary data products to reduce peak memory need
from Configuration.StandardSequences.earlyDeleteSettings_cff import customiseEarlyDelete
process = customiseEarlyDelete(process)
# End adding early deletion
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