Example #1
0
def addDistanceInTrain(sequence=DerivationFrameworkJob):
    # simple set up -- either the alg exists and contains the tool, in which case we exit
    if hasattr(sequence, "DistanceInTrainAugmentation"):
        dfjetlog.warning(
            "DistanceInTrainAugmentation: DistanceInTrainAugmentation already scheduled on sequence"
            + sequence.name)
        return
    else:
        isMC = False
        if globalflags.DataSource() == 'geant4':
            isMC = True

        distanceintrainaug = CfgMgr.DerivationFramework__CommonAugmentation(
            "DistanceInTrainAugmentation")
        sequence += distanceintrainaug

        distanceintrainaugtool = None
        from AthenaCommon.AppMgr import ToolSvc
        # create and add the tool to the alg if needed
        if hasattr(ToolSvc, "DistanceInTrainAugmentationTool"):
            distanceintrainaugtool = getattr(
                ToolSvc, "DistanceInTrainAugmentationTool")
        else:
            distanceintrainaugtool = CfgMgr.DerivationFramework__DistanceInTrainAugmentationTool(
                "DistanceInTrainAugmentationTool")
            from TrigBunchCrossingTool.BunchCrossingTool import BunchCrossingTool
            if isMC:
                ToolSvc += BunchCrossingTool("MC")
                distanceintrainaugtool.BCTool = "Trig::MCBunchCrossingTool/BunchCrossingTool"
            else:
                ToolSvc += BunchCrossingTool("LHC")
                distanceintrainaugtool.BCTool = "Trig::LHCBunchCrossingTool/BunchCrossingTool"
            ToolSvc += distanceintrainaugtool
        if not distanceintrainaugtool in distanceintrainaug.AugmentationTools:
            distanceintrainaug.AugmentationTools.append(distanceintrainaugtool)
Example #2
0
def TrigMuonMonitoringTool():
    from TrigMuonMonitoring.MuZTPChains import GetMuZTPChains
    from TrigMuonMonitoring.TrigMuonMonitoringConf import HLTMuonMonTool
    from TrigHLTMonitoring.HLTMonTriggerList import hltmonList  # access to central tool
    HLTMuonMon = HLTMuonMonTool(name='HLTMuonMon',
                                histoPathBase="/Trigger/HLT",
                                TriggerStreamOfFile=getTriggerStreamOfFile(),
                                ZTPPtCone30RelCut=0.5)
    HLTMuonMon.monitoring_muonNonIso = hltmonList.monitoring_muonNonIso
    HLTMuonMon.monitoring_muonIso = hltmonList.monitoring_muonIso
    HLTMuonMon.monitoring_MSonly = hltmonList.monitoring_MSonly
    HLTMuonMon.monitoring_muonEFFS = hltmonList.monitoring_muonEFFS
    HLTMuonMon.monitoring_muonLowpt = hltmonList.monitoring_muonLowpt
    HLTMuonMon.monitoring_muon_Support = hltmonList.monitoring_muon_Support
    setL2HypoTENames(HLTMuonMon, hltmonList)
    from RecExConfig.RecFlags import rec
    from AthenaCommon.BeamFlags import jobproperties
    if rec.doHeavyIon == True or rec.doHIP == True:
        HLTMuonMon.HI_pp_mode = False
    else:
        HLTMuonMon.HI_pp_mode = True
    from TrigBunchCrossingTool.BunchCrossingTool import BunchCrossingTool
    HLTMuonMon.BCTool = BunchCrossingTool()
    from AthenaCommon.AppMgr import ToolSvc
    #ToolSvc += HLTMuonMon;
    from AthenaCommon.GlobalFlags import globalflags
    inputDataType = str(globalflags.DataSource.StoredValue)
    if inputDataType == 'data':
        HLTMuonMon.truthmon_isData = 1
    else:
        HLTMuonMon.truthmon_isData = 0
    list = [HLTMuonMon]
    return list
Example #3
0
def TrigMuonMonitoringTool():
	from TrigMuonMonitoring.MuZTPChains import GetMuZTPChains
	from TrigMuonMonitoring.TrigMuonMonitoringConf import HLTMuonMonTool
	from TrigHLTMonitoring.HLTMonTriggerList import hltmonList  # access to central tool
	HLTMuonMon = HLTMuonMonTool(name                 = 'HLTMuonMon',
				    histoPathBase        = "/Trigger/HLT",
				    ZTPPtCone30RelCut    = 0.5)
	HLTMuonMon.monitoring_muonNonIso = hltmonList.monitoring_muonNonIso
	HLTMuonMon.monitoring_muonIso = hltmonList.monitoring_muonIso
	HLTMuonMon.monitoring_MSonly = hltmonList.monitoring_MSonly
	HLTMuonMon.monitoring_muonEFFS = hltmonList.monitoring_muonEFFS
	HLTMuonMon.monitoring_muonLowpt = hltmonList.monitoring_muonLowpt
	HLTMuonMon.monitoring_muon_Support = hltmonList.monitoring_muon_Support

	setL2HypoTENames( HLTMuonMon, hltmonList)

	from RecExConfig.RecFlags import rec
	from AthenaCommon.BeamFlags import jobproperties
	if rec.doHeavyIon == True or rec.doHIP == True:
	    HLTMuonMon.HI_pp_mode = False
	else:
	    HLTMuonMon.HI_pp_mode = True
	from TrigBunchCrossingTool.BunchCrossingTool import BunchCrossingTool	
	HLTMuonMon.BCTool = BunchCrossingTool()
	from AthenaCommon.AppMgr import ToolSvc
	ToolSvc += HLTMuonMon;
	list = [ "HLTMuonMonTool/HLTMuonMon" ];
	return list
Example #4
0
def GetFilledBunchFilterTool():
    from AthenaCommon.Logging import logging

    fbft_local_logger = logging.getLogger('FilledBunchFilterTool')
    fbft_local_logger.verbose('Configuring monFilledBunchFilterTool')

    from AthenaMonitoring.DQMonFlags import DQMonFlags
    from AthenaCommon.GlobalFlags import globalflags
    from RecExConfig.RecFlags import rec

    if (rec.triggerStream() == 'CosmicCalo'
            or globalflags.DataSource.get_Value() == 'geant4'
            or 'collisions' not in DQMonFlags.monManDataType.get_Value()
            or DQMonFlags.disableFilledBunchFilter.get_Value()):
        fbft_local_logger.verbose(
            'Filled bunch filter being configured to always return true')
        from AthenaMonitoring.AthenaMonitoringConf import DQDummyFilterTool
        return DQDummyFilterTool()

    from AthenaMonitoring.AthenaMonitoringConf import DQFilledBunchFilterTool
    from TrigBunchCrossingTool.BunchCrossingTool import BunchCrossingTool
    monFilledBunchFilterTool = DQFilledBunchFilterTool()
    monFilledBunchFilterTool.bunchCrossingTool = BunchCrossingTool()

    return monFilledBunchFilterTool
Example #5
0
def CaloLumiBCIDToolDefault(name='CaloLumiBCIDToolDefault'):
    mlog = logging.getLogger('CaloLumiBCIDToolDefault')

    from CaloTools.CaloToolsConf import CaloLumiBCIDTool
    from AthenaCommon.AthenaCommonFlags import athenaCommonFlags

    from AthenaCommon.GlobalFlags import globalflags
    if globalflags.DataSource() == 'data':
        from LumiBlockComps.LuminosityToolDefault import LuminosityToolDefault
        theLumiTool = LuminosityToolDefault()
        from AthenaCommon.AppMgr import ToolSvc
        ToolSvc += theLumiTool
        from IOVDbSvc.CondDB import conddb
        #conddb.addFolder("","/LAR/ElecCalibOfl/LArPileupShape<db>sqlite://;schema=/afs/cern.ch/user/g/gunal/public/DB/bcid/shape.db;dbname=COMP200</db><key>LArShape32</key><tag>LARElecCalibOflLArPileupShape-mc</tag>")
        #conddb.addFolder("","/LAR/ElecCalibOfl/LArPileupAverage<db>sqlite://;schema=/afs/cern.ch/user/g/gunal/public/DB/bcid/LArPileupAverage-data.db;dbname=COMP200</db><tag>LARElecCalibOflLArPileupAverage-data11-00</tag>")
        if athenaCommonFlags.isOnline:
            conddb.addFolder(
                "LAR_ONL",
                "/LAR/LArPileup/LArPileupShape<key>LArShape32</key>")
            conddb.addFolder("LAR_ONL", "/LAR/LArPileup/LArPileupAverage")
        else:
            conddb.addFolder(
                "LAR_OFL",
                "/LAR/ElecCalibOfl/LArPileupShape<key>LArShape32</key>")
            conddb.addFolder("LAR_OFL", "/LAR/ElecCalibOfl/LArPileupAverage")
        theTool = CaloLumiBCIDTool(name,
                                   isMC=False,
                                   LumiTool=theLumiTool,
                                   keyShape="LArShape32")
    else:
        from LArRecUtils.LArOFCToolDefault import LArOFCToolDefault
        theOFCTool = LArOFCToolDefault()
        from AthenaCommon.AppMgr import ToolSvc
        ToolSvc += theOFCTool
        from TrigBunchCrossingTool.BunchCrossingTool import BunchCrossingTool
        theBunchCrossingTool = BunchCrossingTool()
        from IOVDbSvc.CondDB import conddb
        conddb.addFolder("LAR_OFL", "/LAR/ElecCalibMC/Shape")
        #conddb.addFolder("","/LAR/ElecCalibMC/LArPileupAverage<db>sqlite://;schema=/afs/cern.ch/user/g/gunal/public/DB/bcid/LArPileupAverage-mc.db;dbname=OFLP200</db><tag>LARElecCalibMCLArPileupAverage-mc11b-00</tag>")
        conddb.addFolder("LAR_OFL", "/LAR/ElecCalibMC/LArPileupAverage")
        theTool = CaloLumiBCIDTool(name,
                                   isMC=True,
                                   LArOFCTool=theOFCTool,
                                   BunchCrossingTool=theBunchCrossingTool)
    return theTool
Example #6
0
# TDT
#from AthenaCommon.AppMgr import ToolSvc
#from TrigDecisionTool.TrigDecisionToolConf import Trig__TrigDecisionTool
#tdt = Trig__TrigDecisionTool("TrigDecisionTool")
#ToolSvc += tdt

#from TrigDecisionMaker.TrigDecisionMakerConfig import WriteTrigDecision
#trigDecWriter = WriteTrigDecision()

from CaloTools.CaloNoiseToolDefault import CaloNoiseToolDefault
theCaloNoiseTool = CaloNoiseToolDefault()
ToolSvc += theCaloNoiseTool

# --- BunchCrossing Tool configuration ---
from TrigBunchCrossingTool.BunchCrossingTool import BunchCrossingTool
theBCTool = BunchCrossingTool()
ToolSvc += theBCTool

svcMgr.EventSelector.InputCollections = athenaCommonFlags.FilesInput()

include("LArCellRec//LArCollisionTime_jobOptions.py")

from LArCafJobs.LArCafJobsConf import LArNoiseBursts
topSequence += LArNoiseBursts("LArNoiseBursts")
topSequence.LArNoiseBursts.ICaloNoiseTool = theCaloNoiseTool
topSequence.LArNoiseBursts.BCTool = theBCTool
topSequence.LArNoiseBursts.SigmaCut = 3.0
topSequence.LArNoiseBursts.NumberOfBunchesInFront = 30

conddb.addFolder("TDAQ", "/TDAQ/RunCtrl/DataTakingMode")
Example #7
0
# Set up the filled bunch filter tool
include.block('AthenaMonitoring/FilledBunchFilterTool_jobOptions.py')
from AthenaCommon.Logging import logging

fbft_local_logger = logging.getLogger('FilledBunchFilterTool_jobOptions')

if not 'DQMonFlags' in dir():
    fbft_local_logger.info(
        "FilledBunchFilterTool_jobOptions.py: DQMonFlags not yet imported - I import them now"
    )
    from AthenaMonitoring.DQMonFlags import DQMonFlags

if not 'monFilledBunchFilterTool' in dir():
    fbft_local_logger.info('Configuring monFilledBunchFilterTool')
    from AthenaMonitoring.AthenaMonitoringConf import DQFilledBunchFilterTool
    from TrigBunchCrossingTool.BunchCrossingTool import BunchCrossingTool
    monFilledBunchFilterTool = DQFilledBunchFilterTool()
    monFilledBunchFilterTool.bunchCrossingTool = BunchCrossingTool()
    if (rec.triggerStream() == 'CosmicCalo'
            or globalflags.DataSource.get_Value() == 'geant4'
            or 'collisions' not in DQMonFlags.monManDataType.get_Value()
            or DQMonFlags.disableFilledBunchFilter.get_Value()):
        fbft_local_logger.info(
            'Filled bunch filter being configured to always return true')
        monFilledBunchFilterTool.alwaysReturnTrue = True
    ToolSvc += monFilledBunchFilterTool

del fbft_local_logger
Example #8
0
if not hasattr(ToolSvc, 'L1TriggerTowerTool'):
    ToolSvc += CfgMgr.LVL1__L1TriggerTowerTool('L1TriggerTowerTool')

job.Run2TriggerTowerMaker.ZeroSuppress = True

# autoconfigure pedestal correction based on the input file
if _doPC and _bunchSpacing not in (25, 50):
    log.warning(
        'Only 25ns intra train bunch spacing currently supported. Dynamic pedestal correction is disabled!'
    )
    _doPC = False

ToolSvc.L1TriggerTowerTool.BaselineCorrection = _doPC

from TrigBunchCrossingTool.BunchCrossingTool import BunchCrossingTool
bct = BunchCrossingTool()
if not hasattr(ToolSvc, bct.getName()):
    ToolSvc += bct
else:
    bct = getattr(ToolSvc, bct.getName())

if _doPC and not hasattr(ToolSvc, 'L1DynamicPedestalProviderTxt'):
    ToolSvc += CfgMgr.LVL1__L1DynamicPedestalProviderTxt(
        'L1DynamicPedestalProviderTxt',
        BunchCrossingTool=bct,
        InputFileEM_ShortGap='DynamicPedestalCorrection_SG_EM_%dns.txt' %
        _bunchSpacing,
        InputFileHAD_ShortGap='DynamicPedestalCorrection_SG_HAD_%dns.txt' %
        _bunchSpacing,
        InputFileEM_LongGap='DynamicPedestalCorrection_LG_EM_%dns.txt' %
        _bunchSpacing,
Example #9
0
include("RecExCommon/RecExCommon_topOptions.py")

#######################################################################
#                                                                     #
#                   Now set up the actual job...                      #
#                                                                     #
#######################################################################

# Get ourselves a logger, mainly for fun:
from AthenaCommon.Logging import logging
logger = logging.getLogger("BunchCrossingExample")
logger.info("Setting up the bunch crossing example job")

# Access the algorithm sequence:
from AthenaCommon.AlgSequence import AlgSequence
theJob = AlgSequence()

# Add the example algorithm, configuring the appropriate Trig::IBunchCrossingTool
# in the process:
from TrigAnalysisExamples.TrigAnalysisExamplesConf import Trig__BunchCrossingExample
from TrigBunchCrossingTool.BunchCrossingTool import BunchCrossingTool
theJob += Trig__BunchCrossingExample("BunchCrossingExample")
theJob.BunchCrossingExample.BCTool = BunchCrossingTool()
theJob.BunchCrossingExample.OutputLevel = DEBUG

# Do some additional tweaking:
from AthenaCommon.AppMgr import theApp
theApp.EvtMax = athenaCommonFlags.EvtMax()
ServiceMgr.MessageSvc.OutputLevel = INFO
ServiceMgr.MessageSvc.defaultLimit = 10000000
Example #10
0
if not (DQMonFlags.monManEnvironment == 'online' or globalflags.DataSource.get_Value() == 'geant4' or globalflags.DataSource.get_Value() == 'geant3'):
  tmp_CaloBaselineMon["useBadLBTool"]=TRUE
  tmp_CaloBaselineMon["useReadyFilterTool"]=TRUE
  tmp_CaloBaselineMon["useLArNoisyAlg"] = TRUE

if rec.triggerStream()=='CosmicCalo':
  tmp_CaloBaselineMon["useLArCollisionFilter"] = TRUE
  tmp_CaloBaselineMon["pedestalMon_BCIDmin"] = 40

if rec.triggerStream()=='ZeroBias':
  tmp_CaloBaselineMon["bcidtoolMon_BCIDmax"] = 144


CaloBaseline = CaloBaselineMon(
   name           = "CaloBaseline",
   
   useBadLBTool=tmp_CaloBaselineMon["useBadLBTool"],
   BadLBTool = GetLArBadLBFilterTool(),
   BunchCrossingTool=BunchCrossingTool(),
   useReadyFilterTool = tmp_CaloBaselineMon["useReadyFilterTool"],
   ReadyFilterTool = GetAtlasReadyFilterTool(),
   useLArCollisionFilterTool = tmp_CaloBaselineMon["useLArCollisionFilter"],
   useLArNoisyAlg = tmp_CaloBaselineMon["useLArNoisyAlg"],
   useBeamBackgroundRemoval = tmp_CaloBaselineMon["useBeamBackgroundRemoval"],
   pedestalMon_BCIDmin = tmp_CaloBaselineMon["pedestalMon_BCIDmin"],
   bcidtoolMon_BCIDmax = tmp_CaloBaselineMon["bcidtoolMon_BCIDmax"],
)

#ToolSvc += CaloBaseline 
CaloMon.AthenaMonTools += [ CaloBaseline ]
Example #11
0
## The reference is the Oracle DB
include("LArConditionsCommon/LArConditionsCommon_comm_jobOptions.py")
selection = ""
conddb.addFolder(
    "LAR_ONL", "/LAR/ElecCalibOnl/Pedestal<key>PedestalElec</key>" + selection)
conddb.addFolder(
    "LAR_OFL",
    "/LAR/ElecCalibOfl/AutoCorrs/AutoCorr<key>LArAutoCorrElec</key><tag>LARElecCalibOflAutoCorrsAutoCorr-UPD3-00</tag>"
    + selection)

from TriggerJobOpts.TriggerConfigGetter import TriggerConfigGetter
cfg = TriggerConfigGetter()

from TrigBunchCrossingTool.BunchCrossingTool import BunchCrossingTool

bct = BunchCrossingTool()

from LArCalibUtils.LArCalibUtilsConf import LArAutoCorrMaker
LArAutoCorrMaker = LArAutoCorrMaker("LArAutoCorrMaker")
LArAutoCorrMaker.KeyList = ["FREE"]
LArAutoCorrMaker.events_ref = EventsRef
LArAutoCorrMaker.nsigma = NSigma
LArAutoCorrMaker.KeyOutput = KeyOutputAC
LArAutoCorrMaker.GroupingType = GroupingType
LArAutoCorrMaker.physics = 1
LArAutoCorrMaker.MinBCFromFront = 10
#LArAutoCorrMaker.OutputLevel = DEBUG
LArAutoCorrMaker.BunchCrossingTool = bct
topSequence += LArAutoCorrMaker

# extrapolation to other gains
Example #12
0
    ToolSvc += CfgMgr.InDetGlobalBeamSpotMonTool(
        name="InDetGlobalBeamSpotMonTool",
        trackContainerName=jobConfig['TrackContainer'],
        vxContainerName=jobConfig['VertexContainer'],
        vxContainerWithBeamConstraint=jobConfig[
            'VertexContainerWithBeamConstraint'],
        minTracksPerVtx=jobConfig['MinTracksPerVtx'],
        minTrackPt=jobConfig['MinTrackPt'],
        useBeamspot=jobConfig['useBeamSpot'])
    if jobConfig['UseFilledBCIDsOnly']:
        print "This is AKMAKMAKM"
        # Selection on non-empty BCIDs
        #include("AthenaMonitoring/FilledBunchFilterTool_jobOptions.py")

        from TrigBunchCrossingTool.BunchCrossingTool import BunchCrossingTool
        bunchCrossingTool = BunchCrossingTool("LHC")
        # This tool is throwing tons of warnings for no good reason, make it quieter.
        bunchCrossingTool.OutputLevel = ERROR
        from AthenaMonitoring.AthenaMonitoringConf import DQFilledBunchFilterTool
        monFilledBunchFilterTool = DQFilledBunchFilterTool()
        monFilledBunchFilterTool.bunchCrossingTool = bunchCrossingTool
        ToolSvc += monFilledBunchFilterTool
        ToolSvc.InDetGlobalBeamSpotMonTool.FilterTools.append(
            monFilledBunchFilterTool)

    print ToolSvc.InDetGlobalBeamSpotMonTool

    # Monitoring manager and output file
    #from AthenaMonitoring.AthenaMonitoringConf import AthenaMonManager
    topSequence += CfgMgr.AthenaMonManager(
        name="BeamSpotMonManager",
Example #13
0

#here are the helpers
helper_collTime = AthMonitorCfgHelperOld(DQMonFlags, collTimeGroupName)

#then the algorithms
#from AthenaMonitoring.AthenaMonitoringConf import ExampleMonitorAlgorithm
from LArMonitoring.LArMonitoringConf import LArCollisionTimeMonAlg
larCollTimeMonAlg = helper_collTime.addAlgorithm(LArCollisionTimeMonAlg, "larCollTimeMonAlg")
larCollTimeMonAlg.CollTimeGroupName=collTimeGroupName
larCollTimeMonAlg.IsOnline = isOnline 


#add a tool
from TrigBunchCrossingTool.BunchCrossingTool import BunchCrossingTool
larCollTimeMonAlg.BunchCrossingTool = BunchCrossingTool()

#now the groups
collTimeGroup = helper_collTime.addGroup( 
   larCollTimeMonAlg,
   collTimeGroupName,
   "/LAr/"
   )

#define the histograms
from LArMonitoring import GlobalVariables #to define the ranges
larColTime_hist_path='CollisionTime/'

collTimeGroup.defineHistogram('ecTimeDiff;LArCollTime', 
                              title='LArCollisionTime - difference of avg time from ECC and ECA;<t_{C}> - <t_{A}> (ns);Number of events (weighted by energy/GeV) per ns',
                              path=larColTime_hist_path,
Example #14
0
#====================================================================
# FIND THE RUN NUMBER (NEEDED TO LOCATE XMLs)
#====================================================================
import PyUtils.AthFile as athFile
from AthenaCommon.AthenaCommonFlags import athenaCommonFlags
af = athFile.fopen(svcMgr.EventSelector.InputCollections[0])
run_number = af.run_number[0]
#====================================================================
# SETUP BUNCH CROSSING TOOL - WE WILL ALWAYS RUN OVER EB DATA
#====================================================================
from AthenaCommon.GlobalFlags import globalflags
isMC = 'IS_SIMULATION' in af.fileinfos['evt_type']
#globalflags.DataSource = 'data'
globalflags.DatabaseInstance = 'CONDBR2'
from TrigBunchCrossingTool.BunchCrossingTool import BunchCrossingTool
if isMC: ToolSvc += BunchCrossingTool("MC")
else: ToolSvc += BunchCrossingTool("LHC")
#====================================================================
# SKIMMING TOOLS
#====================================================================
# Set up your skimming tools (you can have as many as you need).
# The tools must use the DerivationFrameworkInterfaces as in this example.
# Currently no skimming - keep all events
#====================================================================
# AUGMENTATION TOOLS
# Used to decorate enhanced bias weighting quantites for rate estimations
#====================================================================
#
# TODO this doesn't work - component not yet exposed
from EnhancedBiasWeighter.EnhancedBiasWeighterConf import EnhancedBiasWeighter
TRIG1AugmentationTool = EnhancedBiasWeighter(name="TRIG1AugmentationTool")
Example #15
0
svcMgr += THistSvc()

if hasattr(runArgs, "outputNTUP_SAMPLESMONFile"):
    from CaloTools.CaloNoiseCondAlg import CaloNoiseCondAlg
    CaloNoiseCondAlg(noisetype="totalNoise")
    from LArCafJobs.LArCafJobsConfig import DefaultShapeDumper
    DefaultShapeDumper('LArShapeDumper',
                       'FREE',
                       noiseSignifCut=5,
                       doShape=True,
                       doTrigger=True,
                       caloType='EMHECFCAL')
    topSequence.LArShapeDumper.TrigDecisionTool = tdt
    topSequence.LArShapeDumper.FileName = runArgs.outputNTUP_SAMPLESMONFile
    topSequence.LArShapeDumper.OutputLevel = DEBUG
    topSequence.LArShapeDumper.BunchCrossingTool = BunchCrossingTool()

    if ("Empty" in rec.triggerStream()):
        printfunc("LArCellsEmpty: Process only empty bunch crossings")
        topSequence.LArShapeDumper.onlyEmptyBC = True

    svcMgr.THistSvc.Output += [
        "AANT DATAFILE='" + runArgs.outputNTUP_SAMPLESMONFile +
        "' OPT='RECREATE'"
    ]

if hasattr(runArgs, "outputNTUP_HECNOISEFile"):
    from LArCafJobs.LArCafJobsConf import LArHECNoise
    topSequence += LArHECNoise('LArHECNoise')
    #topSequence.LArHECNoise.OutputLevel=DEBUG
    svcMgr.THistSvc.Output += [