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/afs/cern.ch/work/a/aaltunda/public/www/CMSSW_5_3_14/src/MagneticField/Engine/python/volumeBasedMagneticField_1103l_cfi.py

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00001 import FWCore.ParameterSet.Config as cms
00002 
00003 # This cfi contains everything needed to use the VolumeBased magnetic
00004 # field engine version 071212
00005 
00006 magfield = cms.ESSource("XMLIdealGeometryESSource",
00007     geomXMLFiles = cms.vstring('Geometry/CMSCommonData/data/normal/cmsextent.xml', 
00008         'Geometry/CMSCommonData/data/cms.xml', 
00009         'Geometry/CMSCommonData/data/cmsMagneticField.xml', 
00010         'MagneticField/GeomBuilder/data/MagneticFieldVolumes_1103l.xml',
00011         'MagneticField/GeomBuilder/data/MagneticFieldParameters_07.xml'),
00012     rootNodeName = cms.string('cmsMagneticField:MAGF')
00013 )
00014 
00015 # avoid interference with EmptyESSource in uniformMagneticField.cfi
00016 es_prefer_magfield = cms.ESPrefer("XMLIdealGeometryESSource","magfield")
00017 
00018 
00019 ParametrizedMagneticFieldProducer = cms.ESProducer("ParametrizedMagneticFieldProducer",
00020     version = cms.string('OAE_1103l_071212'),
00021     parameters = cms.PSet(
00022         BValue = cms.string('3_8T')
00023     ),
00024     label = cms.untracked.string('parametrizedField')
00025 )
00026 
00027 
00028 VolumeBasedMagneticFieldESProducer = cms.ESProducer("VolumeBasedMagneticFieldESProducer",
00029     useParametrizedTrackerField = cms.bool(True),
00030     label = cms.untracked.string(''),
00031     paramLabel = cms.string('parametrizedField'),
00032     version = cms.string('grid_1103l_071212_3t'),
00033     geometryVersion = cms.int32(71212),
00034     debugBuilder = cms.untracked.bool(False),
00035     cacheLastVolume = cms.untracked.bool(True),
00036     overrideMasterSector = cms.bool(True),
00037     scalingVolumes = cms.vint32(),
00038     scalingFactors = cms.vdouble()
00039 )
00040 
00041