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/afs/cern.ch/work/a/aaltunda/public/www/CMSSW_5_3_14/src/DQMOffline/Alignment/python/LaserAlignmentT0ProducerDQM_cfi.py

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00001 import FWCore.ParameterSet.Config as cms
00002 
00003 LaserAlignmentT0ProducerDQM = cms.EDAnalyzer( "LaserAlignmentT0ProducerDQM",
00004   # specify the input digi collections to run on
00005   DigiProducerList = cms.VPSet(
00006     cms.PSet(
00007       DigiLabel = cms.string( 'ZeroSuppressed' ),
00008       DigiType = cms.string( 'Processed' ),
00009       DigiProducer = cms.string( 'ALCARECOTkAlLASsiStripDigis' )
00010     ), 
00011     cms.PSet(
00012       DigiLabel = cms.string( 'VirginRaw' ),
00013       DigiType = cms.string( 'Raw' ),
00014       DigiProducer = cms.string( 'ALCARECOTkAlLASsiStripDigis' )
00015     ), 
00016     cms.PSet(
00017       DigiLabel = cms.string( 'ProcessedRaw' ),
00018       DigiType = cms.string( 'Raw' ),
00019       DigiProducer = cms.string( 'ALCARECOTkAlLASsiStripDigis' )
00020     ), 
00021     cms.PSet(
00022       DigiLabel = cms.string( 'ScopeMode' ),
00023       DigiType = cms.string( 'Raw' ),
00024       DigiProducer = cms.string( 'ALCARECOTkAlLASsiStripDigis' )
00025     )
00026   ),
00027 
00028   # the lower threshold for the strip amplitude;
00029   # profiles with digis above will be considered containing signal
00030   LowerAdcThreshold = cms.uint32( 15 ),
00031 
00032   # the upper threshold for the strip amplitude;
00033   # profiles with digis below will be considered containing a signal
00034   UpperAdcThreshold = cms.uint32( 220 ),
00035 
00036   # the dqm folder name to write to
00037   FolderName = cms.string( "TkAlLAS" ),
00038 
00039   # additionally dump in plain ROOT file?
00040   OutputInPlainROOT = cms.bool( False ),
00041 
00042   # if plain ROOT output, then write to this file
00043   PlainOutputFileName = cms.string( "TkAlLAS.dqm.root" )
00044                                               
00045 )