Пример #1
0
def setup_Target_GaussJob(physList,
                          targetThick,
                          targetMat,
                          projEng,
                          projID,
                          nEvts=10000):

    from Configurables import LHCbApp
    from Configurables import DDDBConf
    from Configurables import CondDB
    from Configurables import Gauss

    target = 'Target_' + str(targetThick) + 'mm' + targetMat

    Gauss()

    DDDBConf().DbRoot = "conddb:/TargetsDet.xml"
    if 'v45' not in os.environ["GAUSSROOT"]:
        CondDB().LoadCALIBDB = "HLT1"
    CondDB().Upgrade = True
    LHCbApp().DDDBtag = "dddb-20140120"
    LHCbApp().CondDBtag = "sim-20131108-vc-md100"
    LHCbApp().Simulation = True

    # For testing only
    #DDDBConf(DbRoot = "/afs/cern.ch/user/s/seaso/public/Simulation/
    #upgrade/Gauss_Target/DB/myDDDB-Upgrade-TargetGeom-January2014/TargetsDet.xml")

    Gauss.DetectorGeo = {"Detectors": []}
    Gauss.DetectorSim = {"Detectors": []}
    Gauss.DetectorMoni = {"Detectors": []}

    Gauss.DataType = "Upgrade"
    Gauss.PhysicsList = {
        "Em": 'NoCuts',
        "Hadron": physList,
        "GeneralPhys": True,
        "LHCbPhys": True
    }

    # --- activate special targets geometry
    appendPostConfigAction(targetGeo)

    # --- Switch off delta rays
    Gauss.DeltaRays = False

    # --- activate GaussTargetMultiplicity tool
    appendPostConfigAction(addMyTool)

    # --- Configure the tool
    from Configurables import GiGa, GiGaTrackActionSequence, GaussTargetMultiplicity
    giga = GiGa()
    giga.addTool(GiGaTrackActionSequence("TrackSeq"), name="TrackSeq")
    giga.TrackSeq.addTool(GaussTargetMultiplicity)
    giga.TrackSeq.GaussTargetMultiplicity.InteractionVolumeName = [
        "/dd/Structure/TargetDet/" + target + "#pv" +
        target.replace('Target', 'Targ')
    ]
    giga.TrackSeq.GaussTargetMultiplicity.InteractionVolumeString = [target]
    giga.TrackSeq.GaussTargetMultiplicity.TargetMaterial = [targetMat]
    giga.TrackSeq.GaussTargetMultiplicity.TargetThickness = [targetThick]
    giga.TrackSeq.GaussTargetMultiplicity.PhysicsList = [physList]
    giga.TrackSeq.GaussTargetMultiplicity.ProjectileEnergy = [projEng]
    giga.TrackSeq.GaussTargetMultiplicity.ProjectilePdgID = [particles[projID]]

    #giga.TrackSeq.GaussTargetMultiplicity.OutputLevel = DEBUG

    from Configurables import CondDB, LHCbApp, DDDBConf, CondDBAccessSvc
    from Configurables import Gauss

    Gauss().Production = 'PGUN'

    #--Generator phase, set random numbers
    GaussGen = GenInit("GaussGen")
    GaussGen.FirstEventNumber = 1
    GaussGen.RunNumber = 1082

    #--Number of events
    LHCbApp().EvtMax = nEvts

    Gauss().Production = 'PGUN'

    Gauss().OutputType = 'NONE'
    Gauss().Histograms = 'NONE'

    #--- Save ntuple with hadronic cross section information
    ApplicationMgr().ExtSvc += ["NTupleSvc"]
    NTupleSvc().Output = [
        "FILE1 DATAFILE='Multi_{particle}_in{material}.root' TYP='ROOT' OPT='NEW'"
        .format(particle=projID, material=targetMat)
    ]
Пример #2
0
def addMyTool():
    from Configurables import GiGa, GiGaTrackActionSequence
    giga = GiGa()
    giga.addTool(GiGaTrackActionSequence("TrackSeq"), name="TrackSeq")
    giga.TrackSeq.Members.append("GaussTargetMultiplicity")
Пример #3
0
# --- Configure the tool
from Configurables import GiGa, GiGaStepActionSequence, MonitorTiming

giga = GiGa()
giga.addTool(GiGaStepActionSequence("StepSeq"), name="StepSeq")
giga.StepSeq.addTool(MonitorTiming)
giga.StepSeq.MonitorTiming.OutputLevel = 0
#giga.StepSeq.MonitorTiming.OutputFileName='monitorOut.log' #obsolete: remove!
giga.StepSeq.MonitorTiming.TimerFileName = 'Timing.log'
giga.StepSeq.MonitorTiming.Volumes = [
    'Velo', 'TT', 'IT', 'OT', 'Spd', 'Prs', 'Ecal', 'Hcal', 'Rich1', 'Rich2',
    'Muon', 'Universe', 'Pipe', 'Magnet', 'Converter'
]
#giga.StepSeq.MonitorTiming.Volumes=['Velo','TT', 'IT', 'OT', 'Spd', 'Prs', 'Ecal', 'Hcal', 'Rich1', 'Rich2', 'Muon', 'Universe']

#Need to run as post-config option: Add other memebers to StepSeq
giga.StepSeq.Members += ['MonitorTiming']

giga.StepSeq.Members += ['RichG4StepAnalysis6/RichStepHpdRefl']
giga.StepSeq.Members += ['RichG4StepAnalysis4/RichStepAgelExit']
giga.StepSeq.Members += ['RichG4StepAnalysis5/RichStepMirrorRefl']
giga.StepSeq.Members += ['GaussStepAction/GaussStep']
giga.StepSeq.Members += ['RichG4StepAnalysis4/RichStepAgelExit']
giga.StepSeq.Members += ['RichG4StepAnalysis5/RichStepMirrorRefl']
giga.StepSeq.Members += ['RichG4StepAnalysis3/RichStep']
Пример #4
0
##  File with options to set up specific run action to write
##  geometry in GDML ( Geant4 geometry description language)
##
##  @author G.Corti
##  @date 2012-07-12 

from Configurables import GiGa
giga = GiGa()
giga.addTool( GiGaRunActionSequence("RunSeq") , name="RunSeq" )
giga.RunSeq.Members.append( "GDMLRunAction" )

# The following lines have the default settings
#giga.RunSeq.addTool( GDMLRunAction("GDMLRunAction") , name = "GDMLRunAction" )
#giga.RunSeq.GDMLRunAction.Schema = "$G4GDMLROOT/schema/gdml.xsd";
#giga.RunSeq.GDMLRunAction.Output = "LHCb.gdml";
Пример #5
0
# Define the production tool
Generation().Special.addTool(ReadLHEfileProduction,
                             name="ReadLHEfileProduction")
Generation().Special.ProductionTool = "ReadLHEfileProduction"

## Define the input file in LHE xml format.
Generation().Special.ReadLHEfileProduction.InputFile = "LHE_FILE_BASENAME"

##############################################################################
# Monopole physics
##############################################################################

# Set add monopole physics constructor from GaussMonopoles to the GiGa
# physics list.
giga = GiGa()
giga.addTool(GiGaPhysListModular("ModularPL"), name="ModularPL")
giga.ModularPL.addTool(GiGaPhysConstructorMonopole,
                       name="GiGaPhysConstructorMonopole")

############################################################################
## Add the Ntuple writer to the Simulation Monitor

## Kind of a hack, but works
monopoleTupleAlg = MonopoleTupleAlg()
GaudiSequencer("SimMonitor").Members += [monopoleTupleAlg]
genTupleAlg = GenTupleAlg()
GaudiSequencer("GenMonitor").Members += [genTupleAlg]

############################################################################
## Switch off RICH physics (leave geometry)
giga.ModularPL.addTool(GiGaPhysConstructorOp, name="GiGaPhysConstructorOp")
Пример #6
0
def trackNeutrinos():
    from Configurables import GiGa, GiGaRunActionSequence, TrCutsRunAction
    giga = GiGa()
    giga.addTool( GiGaRunActionSequence("RunSeq") , name="RunSeq" )
    giga.RunSeq.addTool( TrCutsRunAction("TrCuts") , name = "TrCuts" )
    giga.RunSeq.TrCuts.DoNotTrackParticles = []