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Analysis / ganga / Lb2Lcmunu / Lb2Lcmunu_S20_data_NEWJET_moreStates.py
@elena elena on 29 Jan 2016 15 KB debug
########################################################################
from os import environ
import math
from Gaudi.Configuration import *
#from GaudiPython import AppMgr
from Configurables import DecayTreeTuple, BTaggingTool, SubstitutePID, TrackScaleState
from Configurables import CombineParticles, FilterDesktop, TupleToolDecayTreeFitter, TupleToolDecay
from Configurables import TupleToolTrigger, BackgroundCategory, TupleToolTISTOS, TupleToolRecoStats, TupleToolTagging
from Configurables import DaVinci, HltSelReportsDecoder, HltVertexReportsDecoder, HltDecReportsDecoder, LoKi__Hybrid__TupleTool, TupleToolJets
from DecayTreeTuple.Configuration import *
from StrippingConf.Configuration import StrippingConf, StrippingStream
from StrippingSettings.Utils import strippingConfiguration
from StrippingArchive.Utils import buildStreams, cloneLinesFromStream
from Configurables import CombineParticles
from StrippingArchive import strippingArchive


trigger_list = [
    'L0HadronDecision',
    'L0ElectronDecision',
    'L0ElectronHiDecision',
    'L0MuonDecision',
    'L0DiMuonDecision',


    # 'Hlt1SingleMuonNoIPDecision',
    # 'Hlt1SingleMuonHighPTDecision',
    # 'Hlt1DiMuonHighMassDecision',
    # 'Hlt1DiMuonLowMassDecision',
    'Hlt1GlobalDecision',
    'Hlt1TrackAllL0Decision',
    'Hlt1SingleMuonNoIPDecision',
    'Hlt1SingleMuonHighPTDecision',
    'Hlt1TrackMuonDecision',
    'Hlt1MuTrackDecision',
    # 'Hlt1GlobalDecision',

    'Hlt2TopoOSTF2BodyDecision',
    'Hlt2TopoOSTF3BodyDecision',
    'Hlt2TopoOSTF4BodyDecision',
    'Hlt2Topo2BodySimpleDecision',
    'Hlt2Topo3BodySimpleDecision',
    'Hlt2Topo4BodySimpleDecision',
    'Hlt2Topo2BodyBBDTDecision',
    'Hlt2Topo3BodyBBDTDecision',
    'Hlt2Topo4BodyBBDTDecision',
    'Hlt2TopoMu2BodyBBDTDecision',
    'Hlt2TopoMu3BodyBBDTDecision',
    'Hlt2TopoMu4BodyBBDTDecision',
    'Hlt2TopoE2BodyBBDTDecision',
    'Hlt2TopoE3BodyBBDTDecision',
    'Hlt2TopoE4BodyBBDTDecision',
    # 'Hlt2MuonFromHLT1Decision',
    'Hlt2SingleMuonDecision',
    # 'Hlt2SingleMuonHighPTDecision',
    # 'Hlt2SingleMuonLowPTDecision',
    # 'Hlt2DisplVerticesLowMassSingleDecision',
    # 'Hlt2DisplVerticesHighMassSingleDecision',
    # 'Hlt2DisplVerticesDoubleDecision',
    # 'Hlt2DisplVerticesSinglePostScaledDecision',
    # 'Hlt2DisplVerticesHighFDSingleDecision',
    # 'Hlt2DisplVerticesSingleDownDecision',
    # 'Hlt2DiMuonDecision',
    # 'Hlt2DiMuonLowMassDecision',
    # 'Hlt2DiMuonBDecision',
    'Hlt2DiMuonDetachedDecision',
    'Hlt2MuTrackDecision',
    'Hlt2GlobalDecision'
]


###########################################################################
# First run the stripping

eventNodeKiller = EventNodeKiller('Stripkiller')
eventNodeKiller.Nodes = [ '/Event/AllStreams', '/Event/Strip' ]


stripping = 'stripping20'
#get the configuration dictionary from the database
config  = strippingConfiguration(stripping)
#get the line builders from the archive
archive = strippingArchive(stripping)
streams = buildStreams(stripping = config, archive = archive)
MyStream = StrippingStream("MyStream")
MyLines = [ 'Strippingb2LcMuXB2DMuNuXLine' ]

for stream in streams:
    for line in stream.lines:
        if line.name() in MyLines:
            print 'Strippingb2LcMuXB2DMuNuXLine'
            MyStream.appendLines( [ line ] )


from Configurables import ProcStatusCheck
filterBadEvents = ProcStatusCheck()

sc = StrippingConf( Streams = [ MyStream ],
                    MaxCandidates = 2000,
                    AcceptBadEvents = False,
                    BadEventSelection = filterBadEvents )

######################################################################################################

########## Tree for Lc* -> Lc pi pi ##################################################################
LcStarMassCut = "(M>2543) & (M<2675)"

Lc_star = CombineParticles("Lc_star")
Lc_star.Inputs = ["Phys/StdAllLoosePions/Particles", "Phys/Lc2PKPiforB2DMuNuX/Particles"]
Lc_star.DecayDescriptors = ["[Lambda_c(2595)+ -> Lambda_c+ pi+ pi-]cc"]
Lc_star.MotherCut = LcStarMassCut + " & (VFASPF(VCHI2/VDOF) < 7.0) "
Lc_star.DaughtersCuts = { "pi+": "PT>0", "pi-": "PT>0", "Lambda_c+": "ADMASS('Lambda_c+') < 50.0 *MeV" }

LbMassCut = "(M<6500)"

Lb_SL = CombineParticles("Lb_SL")
Lb_SL.Inputs = [ "Phys/MuforB2DMuNuX/Particles", "Phys/Lc_star/Particles"]
Lb_SL.DecayDescriptors = [ "[Lambda_b0 -> Lambda_c(2595)+ mu-]cc" ]
Lb_SL.MotherCut = LbMassCut + " & (VFASPF(VCHI2/VDOF) < 7.0) & (BPVDIRA>0.999)"

decay0 = "[Lambda_b0 -> ^(Lambda_c(2595)+ -> ^(Lambda_c+ -> ^K- ^p+ ^pi+ ) ^pi+ ^pi-) ^mu- ]CC"

Lb_SL_OfflineTree = DecayTreeTuple("Lb_SL_OfflineTree")
Lb_SL_OfflineTree.Inputs = ["Phys/Lb_SL/Particles"]
Lb_SL_OfflineTree.Decay = decay0
Lb_SL_OfflineTree.Branches = {
    "Lambda_b0": "[Lambda_b0 -> (Lambda_c(2595)+ -> (Lambda_c+ -> K- p+ pi+ ) pi+ pi-) mu- ]CC",
    "Lambda_c_STAR": "[Lambda_b0 -> ^(Lambda_c(2595)+ -> (Lambda_c+ -> K- p+ pi+ ) pi+ pi-) mu- ]CC",
    "mu": "[Lambda_b0 -> (Lambda_c(2595)+ -> (Lambda_c+ -> K- p+ pi+ ) pi+ pi-) ^mu- ]CC",
    "Lambda_c": "[Lambda_b0 -> (Lambda_c(2595)+ -> ^(Lambda_c+ -> K- p+ pi+ ) pi+ pi-) mu- ]CC",
    "pi_plus": "[Lambda_b0 -> (Lambda_c(2595)+ -> (Lambda_c+ -> K- p+ pi+ ) ^pi+ pi-) mu- ]CC",
    "pi_minus": "[Lambda_b0 -> (Lambda_c(2595)+ -> (Lambda_c+ -> K- p+ pi+ ) pi+ ^pi-) mu- ]CC",
    "p": "[Lambda_b0 -> (Lambda_c(2595)+ -> (Lambda_c+ -> K- ^p+ pi+ ) pi+ pi-) mu- ]CC",
    "pi_Lc": "[Lambda_b0 -> (Lambda_c(2595)+ -> (Lambda_c+ -> K- p+ ^pi+ ) pi+ pi-) mu- ]CC",
    "K_Lc": "[Lambda_b0 -> (Lambda_c(2595)+ -> (Lambda_c+ -> ^K- p+ pi+ ) pi+ pi-) mu- ]CC"
}

pi0containers = ['StdLooseMergedPi0', 'StdLoosePi024e', 'StdLoosePi02gee', 'StdLoosePi02gg']

########## Tree for Lb0 -> (X+ -> Lc*+ pi0) mu- ###################################################
X_pi0 = CombineParticles('X_pi0')
X_pi0.Inputs = ['Phys/Lc_star/Particles']
for pc in pi0containers:
    X_pi0.Inputs.append('Phys/%s/Particles' % pc)
X_pi0.DecayDescriptors = ['[Sigma_c+ -> Lambda_c(2595)+ pi0]cc']
X_pi0.MotherCut = LbMassCut + " & (VFASPF(VCHI2/VDOF) < 7.0) "
X_pi0.DaughtersCuts = { "pi0": "(PT>0)", 'Lambda_c(2595)+': '(PT>0)' }
X_pi0.CombinationCut = "ACUTDOCA(1.0*mm,'')"

Lb_X_pi0 = CombineParticles("Lb_X_pi0")
Lb_X_pi0.Inputs = [ "Phys/MuforB2DMuNuX/Particles", "Phys/X_pi0/Particles"]
Lb_X_pi0.DecayDescriptors = [ "[Lambda_b0 -> Sigma_c+ mu-]cc" ]
Lb_X_pi0.MotherCut = LbMassCut + " & (VFASPF(VCHI2/VDOF) < 7.0) & (BPVDIRA>0.999)"

decay_pi0 = "[Lambda_b0 -> ^(Sigma_c+ -> ^(Lambda_c(2595)+ -> ^(Lambda_c+ -> ^K- ^p+ ^pi+ ) ^pi+ ^pi-) ^pi0) ^mu- ]CC"

Lb_X_pi0_OfflineTree = DecayTreeTuple("Lb_X_pi0_OfflineTree")
Lb_X_pi0_OfflineTree.Inputs = ["Phys/Lb_X_pi0/Particles"]
Lb_X_pi0_OfflineTree.Decay = decay_pi0
Lb_X_pi0_OfflineTree.Branches = {
    "Lambda_b0": "[Lambda_b0 -> (Sigma_c+ -> (Lambda_c(2595)+ -> (Lambda_c+ -> K- p+ pi+ ) pi+ pi-) pi0) mu- ]CC",
    "X": "[Lambda_b0 -> ^(Sigma_c+ -> (Lambda_c(2595)+ -> (Lambda_c+ -> K- p+ pi+ ) pi+ pi-) pi0) mu- ]CC",
    "Lambda_c_STAR": "[Lambda_b0 -> (Sigma_c+ -> ^(Lambda_c(2595)+ -> (Lambda_c+ -> K- p+ pi+ ) pi+ pi-) pi0) mu- ]CC",
    "pi0": "[Lambda_b0 -> (Sigma_c+ -> (Lambda_c(2595)+ -> (Lambda_c+ -> K- p+ pi+ ) pi+ pi-) ^pi0) mu- ]CC",
    "pi_plus": "[Lambda_b0 -> (Sigma_c+ -> (Lambda_c(2595)+ -> (Lambda_c+ -> K- p+ pi+ ) ^pi+ pi-) pi0) mu- ]CC",
    "pi_minus": "[Lambda_b0 -> (Sigma_c+ -> (Lambda_c(2595)+ -> (Lambda_c+ -> K- p+ pi+ ) pi+ ^pi-) pi0) mu- ]CC",
    "pi_plus_Lc": "[Lambda_b0 -> (Sigma_c+ -> (Lambda_c(2595)+ -> (Lambda_c+ -> K- p+ ^pi+ ) pi+ pi-) pi0) mu- ]CC",
    "p": "[Lambda_b0 -> (Sigma_c+ -> (Lambda_c(2595)+ -> (Lambda_c+ -> K- ^p+ pi+ ) pi+ pi-) pi0) mu- ]CC",
    "K": "[Lambda_b0 -> (Sigma_c+ -> (Lambda_c(2595)+ -> (Lambda_c+ -> ^K- p+ pi+ ) pi+ pi-) pi0) mu- ]CC",
    "mu": "[Lambda_b0 -> (Sigma_c+ -> (Lambda_c(2595)+ -> (Lambda_c+ -> K- p+ pi+ ) pi+ pi-) pi0) ^mu- ]CC",
}

########## Tree for Lb0 -> (X+ -> Lc*+ gamma) mu- ###################################################
X_gamma = CombineParticles('X_gamma')
X_gamma.Inputs = ['Phys/Lc_star/Particles']
for g in ['StdAllLooseGammaDD', 'StdAllLooseGammaLL', 'StdAllTightGammaDD', 'StdAllTightGammaLL',
          'StdAllTightSymGammaDD', 'StdAllTightSymGammaLL', 'StdDiElectronGamma']:
    X_pi0.Inputs.append('Phys/%s/Particles' % g)
X_gamma.DecayDescriptors = ['[Sigma_c+ -> Lambda_c(2595)+ gamma]cc']
X_gamma.MotherCut = LbMassCut + " & (VFASPF(VCHI2/VDOF) < 7.0) "
X_gamma.DaughtersCuts = { "gamma": "(PT>0)", 'Lambda_c(2595)+': '(PT>0)' }
X_gamma.CombinationCut = "ACUTDOCA(1.0*mm,'')"

Lb_X_gamma = CombineParticles("Lb_X_gamma")
Lb_X_gamma.Inputs = [ "Phys/MuforB2DMuNuX/Particles", "Phys/X_pi0/Particles"]
Lb_X_gamma.DecayDescriptors = [ "[Lambda_b0 -> Sigma_c+ mu-]cc" ]
Lb_X_gamma.MotherCut = LbMassCut + " & (VFASPF(VCHI2/VDOF) < 7.0) & (BPVDIRA>0.999)"

decay_gamma = "[Lambda_b0 -> ^(Sigma_c+ -> ^(Lambda_c(2595)+ -> ^(Lambda_c+ -> ^K- ^p+ ^pi+ ) ^pi+ ^pi-) ^gamma) ^mu- ]CC"

Lb_X_gamma_OfflineTree = DecayTreeTuple("Lb_X_gamma_OfflineTree")
Lb_X_gamma_OfflineTree.Inputs = ["Phys/Lb_X_gamma/Particles"]
Lb_X_gamma_OfflineTree.Decay = decay_gamma
Lb_X_gamma_OfflineTree.Branches = {
    "Lambda_b0": "[Lambda_b0 -> (Sigma_c+ -> (Lambda_c(2595)+ -> (Lambda_c+ -> K- p+ pi+ ) pi+ pi-) gamma) mu- ]CC",
    "X": "[Lambda_b0 -> ^(Sigma_c+ -> (Lambda_c(2595)+ -> (Lambda_c+ -> K- p+ pi+ ) pi+ pi-) gamma) mu- ]CC",
    "Lambda_c_STAR": "[Lambda_b0 -> (Sigma_c+ -> ^(Lambda_c(2595)+ -> (Lambda_c+ -> K- p+ pi+ ) pi+ pi-) gamma) mu- ]CC",
    "gamma": "[Lambda_b0 -> (Sigma_c+ -> (Lambda_c(2595)+ -> (Lambda_c+ -> K- p+ pi+ ) pi+ pi-) ^gamma) mu- ]CC",
    "pi_plus": "[Lambda_b0 -> (Sigma_c+ -> (Lambda_c(2595)+ -> (Lambda_c+ -> K- p+ pi+ ) ^pi+ pi-) gamma) mu- ]CC",
    "pi_minus": "[Lambda_b0 -> (Sigma_c+ -> (Lambda_c(2595)+ -> (Lambda_c+ -> K- p+ pi+ ) pi+ ^pi-) gamma) mu- ]CC",
    "pi_plus_Lc": "[Lambda_b0 -> (Sigma_c+ -> (Lambda_c(2595)+ -> (Lambda_c+ -> K- p+ ^pi+ ) pi+ pi-) gamma) mu- ]CC",
    "p": "[Lambda_b0 -> (Sigma_c+ -> (Lambda_c(2595)+ -> (Lambda_c+ -> K- ^p+ pi+ ) pi+ pi-) gamma) mu- ]CC",
    "K": "[Lambda_b0 -> (Sigma_c+ -> (Lambda_c(2595)+ -> (Lambda_c+ -> ^K- p+ pi+ ) pi+ pi-) gamma) mu- ]CC",
    "mu": "[Lambda_b0 -> (Sigma_c+ -> (Lambda_c(2595)+ -> (Lambda_c+ -> K- p+ pi+ ) pi+ pi-) gamma) ^mu- ]CC",
}

########## Tree for Lb0 -> (X+ -> Lc*+ pi+ pi-) mu- ###############################################
X_2pi = CombineParticles('X_2pi')
X_2pi.Inputs = ['Phys/Lc_star/Particles', 'Phys/StdAllLoosePions/Particles']
X_2pi.DecayDescriptors = ['[Sigma_c+ -> Lambda_c(2595)+ pi+ pi-]cc']
X_2pi.MotherCut = LbMassCut + " & (VFASPF(VCHI2/VDOF) < 7.0) "
X_2pi.DaughtersCuts = { "pi+": "(PT>0) & (PROBNNghost<0.4)", 'pi-': "(PT>0) & (PROBNNghost<0.4)", 'Lambda_c(2595)+': '(PT>0)' }
X_2pi.CombinationCut = "ACUTDOCA(1.0*mm,'')"

Lb_X_2pi = CombineParticles("Lb_X_2pi")
Lb_X_2pi.Inputs = [ "Phys/MuforB2DMuNuX/Particles", "Phys/X_2pi/Particles"]
Lb_X_2pi.DecayDescriptors = [ "[Lambda_b0 -> Sigma_c+ mu-]cc" ]
Lb_X_2pi.MotherCut = LbMassCut + " & (VFASPF(VCHI2/VDOF) < 7.0) & (BPVDIRA>0.999)"

decay_2pi = "[Lambda_b0 -> ^(Sigma_c+ -> ^(Lambda_c(2595)+ -> ^(Lambda_c+ -> ^K- ^p+ ^pi+ ) ^pi+ ^pi-) ^pi+ ^pi-) ^mu- ]CC"

Lb_X_2pi_OfflineTree = DecayTreeTuple("Lb_X_2pi_OfflineTree")
Lb_X_2pi_OfflineTree.Inputs = ["Phys/Lb_X_2pi/Particles"]
Lb_X_2pi_OfflineTree.Decay = decay_2pi
Lb_X_2pi_OfflineTree.Branches = {
    "Lambda_b0": "[Lambda_b0 -> (Sigma_c+ -> (Lambda_c(2595)+ -> (Lambda_c+ -> K- p+ pi+ ) pi+ pi-) pi+ pi-) mu- ]CC",
    "X": "[Lambda_b0 -> ^(Sigma_c+ -> (Lambda_c(2595)+ -> (Lambda_c+ -> K- p+ pi+ ) pi+ pi-) pi+ pi-) mu- ]CC",
    "Lambda_c_STAR": "[Lambda_b0 -> (Sigma_c+ -> ^(Lambda_c(2595)+ -> (Lambda_c+ -> K- p+ pi+ ) pi+ pi-) pi+ pi-) mu- ]CC",
    "pi_plus_X": "[Lambda_b0 -> (Sigma_c+ -> (Lambda_c(2595)+ -> (Lambda_c+ -> K- p+ pi+ ) pi+ pi-) ^pi+ pi-) mu- ]CC",
    "pi_minus_X": "[Lambda_b0 -> (Sigma_c+ -> (Lambda_c(2595)+ -> (Lambda_c+ -> K- p+ pi+ ) pi+ pi-) pi+ ^pi-) mu- ]CC",
    "pi_plus": "[Lambda_b0 -> (Sigma_c+ -> (Lambda_c(2595)+ -> (Lambda_c+ -> K- p+ pi+ ) ^pi+ pi-) pi+ pi-) mu- ]CC",
    "pi_minus": "[Lambda_b0 -> (Sigma_c+ -> (Lambda_c(2595)+ -> (Lambda_c+ -> K- p+ pi+ ) pi+ ^pi-) pi+ pi-) mu- ]CC",
    "pi_plus_Lc": "[Lambda_b0 -> (Sigma_c+ -> (Lambda_c(2595)+ -> (Lambda_c+ -> K- p+ ^pi+ ) pi+ pi-) pi+ pi-) mu- ]CC",
    "p": "[Lambda_b0 -> (Sigma_c+ -> (Lambda_c(2595)+ -> (Lambda_c+ -> K- ^p+ pi+ ) pi+ pi-) pi+ pi-) mu- ]CC",
    "K": "[Lambda_b0 -> (Sigma_c+ -> (Lambda_c(2595)+ -> (Lambda_c+ -> ^K- p+ pi+ ) pi+ pi-) pi+ pi-) mu- ]CC",
    "mu": "[Lambda_b0 -> (Sigma_c+ -> (Lambda_c(2595)+ -> (Lambda_c+ -> K- p+ pi+ ) pi+ pi-) pi+ pi-) ^mu- ]CC",
}



############################## Configuring all DecayTreeTuples #######################################
from Configurables import TupleToolNeutrinoReco
from Configurables import TupleToolKinematic
from Configurables import TupleToolGeometry
from Configurables import TupleToolTrackIsolation

combine_list = [Lc_star, X_pi0, X_2pi, X_gamma]
combine_list += [Lb_X_pi0, Lb_X_2pi, Lb_X_gamma, Lb_SL]

DTTlist = [Lb_X_pi0_OfflineTree,
           Lb_X_2pi_OfflineTree,
           Lb_X_gamma_OfflineTree,
           Lb_SL_OfflineTree]

for DTT in DTTlist:

    DTT.ToolList = [
        "TupleToolKinematic",
        "TupleToolPid",
        "TupleToolGeometry",
        "TupleToolPrimaries",
        "TupleToolTrackInfo",
        "TupleToolEventInfo",
        "TupleToolRecoStats",
        "TupleToolAngles",
        "TupleToolNeutrinoReco",
        "TupleToolMCBackgroundInfo",
        "TupleToolMCTruth",
        "TupleToolJets",
        'TupleToolTrigger',
        'TupleToolTISTOS',
        'TupleToolRICHPid',
        'TupleToolDira',
        'TupleToolEventInfo',
        'TupleToolPropertime',
        'TupleToolRecoStats',
        'TupleToolTrackPosition'
    ]
    DTT.addTool( TupleToolTrigger, name='TupleToolTrigger' )
    DTT.TupleToolTrigger.Verbose = True
    DTT.TupleToolTrigger.TriggerList = trigger_list
    DTT.addTool( TupleToolTISTOS, name='TupleToolTISTOS' )
    DTT.TupleToolTISTOS.Verbose = True
    DTT.TupleToolTISTOS.TriggerList = trigger_list
    DTT.ToolList += [ "TupleToolTISTOS" ]
    DTT.addTool( TupleToolNeutrinoReco, name = "TupleToolNeutrinoReco" )
    DTT.TupleToolNeutrinoReco.Verbose = True
    DTT.TupleToolNeutrinoReco.MotherMass = 5619.5  # MeV
    DTT.TupleToolNeutrinoReco.ExtraName = 'mLb'
    DTT.addTool( TupleToolKinematic, name = "TupleToolKinematic" )
    DTT.TupleToolKinematic.Verbose = True
    DTT.addTool( TupleToolGeometry, name = "TupleToolGeometry" )
    DTT.TupleToolGeometry.Verbose = True
    DTT.addTool(TupleToolRecoStats, name="TupleToolRecoStats")
    DTT.TupleToolRecoStats.Verbose = True
    DTT.UseLabXSyntax = True
    DTT.RevertToPositiveID = False
    DTT.addTupleTool('TupleToolTrackIsolation/TrackIsolation')
    DTT.TrackIsolation.MinConeAngle = 0.5
    DTT.TrackIsolation.MaxConeAngle = 1.5
    DTT.TrackIsolation.StepSize = 0.1
    DTT.TrackIsolation.Verbose = True

##################################################
from Configurables import DaVinci
#DaVinci().EventPreFilters = fltrs.filters('Filters')
DaVinci().EvtMax = -1                          # Number of events
DaVinci().SkipEvents = 0                       # Events to skip
DaVinci().PrintFreq = 10000
DaVinci().Simulation = False
DaVinci().Lumi = True
DaVinci().appendToMainSequence( [ eventNodeKiller ] )
DaVinci().appendToMainSequence( [ sc.sequence() ] )
DaVinci().UserAlgorithms = [    HltSelReportsDecoder(),
                                HltVertexReportsDecoder(),
                                HltDecReportsDecoder()]
# Add particles
for part in combine_list:
    DaVinci().UserAlgorithms.append(part)
for DTT in DTTlist:
    DaVinci().UserAlgorithms.append(DTT)
DaVinci().TupleFile = "Lb_Lcstarmunu.root"

#DaVinci().CondDBtag = "Sim08-20130503-1-vc-md100"
#DaVinci().DDDBtag   = "Sim08-20130503-1"
#appMgr = AppMgr()
#appMgr.initialize()
#appMgr.run( DaVinci().EvtMax )