3 source = cms.Source(
"EmptySource")
5 generator = cms.EDFilter(
"Pythia6GeneratorFilter",
6 comEnergy = cms.double(14000.),
7 pythiaHepMCVerbosity = cms.untracked.bool(
False),
8 maxEventsToPrint = cms.untracked.int32(0),
9 pythiaPylistVerbosity = cms.untracked.int32(0),
10 PythiaParameters = cms.PSet(
11 pythiaUESettings = cms.vstring(
'MSTJ(11)=3 ! Choice of the fragmentation function',
12 'MSTJ(22)=2 ! Decay those unstable particles',
13 'PARJ(71)=10 . ! for which ctau 10 mm',
14 'MSTP(2)=1 ! which order running alphaS',
15 'MSTP(33)=0 ! no K factors in hard cross sections',
16 'MSTP(51)=7 ! structure function chosen',
17 'MSTP(81)=1 ! multiple parton interactions 1 is Pythia default',
18 'MSTP(82)=4 ! Defines the multi-parton model',
19 'MSTU(21)=1 ! Check on possible errors during program execution',
20 'PARP(82)=1.9409 ! pt cutoff for multiparton interactions',
21 'PARP(89)=1960. ! sqrts for which PARP82 is set',
22 'PARP(83)=0.5 ! Multiple interactions: matter distrbn parameter',
23 'PARP(84)=0.4 ! Multiple interactions: matter distribution parameter',
24 'PARP(90)=0.16 ! Multiple interactions: rescaling power',
25 'PARP(67)=2.5 ! amount of initial-state radiation',
26 'PARP(85)=1.0 ! gluon prod. mechanism in MI',
27 'PARP(86)=1.0 ! gluon prod. mechanism in MI',
31 'PARP(91)=2.1 ! kt distribution',
34 parameterSets = cms.vstring(
'pythiaUESettings',
36 processParameters = cms.vstring(
'MSEL=0 ! User defined processes',
37 'MSUB(81) = 1 ! qqbar to QQbar',
38 'MSUB(82) = 1 ! gg to QQbar',
39 'MSTP(7) = 6 ! flavour = top',
40 'PMAS(6,1) = 175. ! top quark mass')
44 ProductionFilterSequence = cms.Sequence(generator)
1.8.5
