Model: SM Model changed: False Gauge: Feynman Process: p,p->m,M,m,M Remove: h Composite: p=u,U,d,D,s,S,c,C,b,B,G Composite: mu=m,M pdf1: cteq6l (proton) pdf2: cteq6l (proton) p1: 6500 p2: 6500 Parameter: Mh=125 alpha Q : MZ Regularization momentum: 34 Regularization mass: MZ Regularization width: wZ Regularization power: 2 Regularization momentum: 36 Regularization mass: MZ Regularization width: wZ Regularization power: 2 Regularization momentum: 54 Regularization mass: MZ Regularization width: wZ Regularization power: 2 Regularization momentum: 56 Regularization mass: MZ Regularization width: wZ Regularization power: 2 Regularization momentum: 34 Regularization mass: 0 Regularization width: 0 Regularization power: 2 Regularization momentum: 36 Regularization mass: 0 Regularization width: 0 Regularization power: 2 Regularization momentum: 54 Regularization mass: 0 Regularization width: 0 Regularization power: 2 Regularization momentum: 56 Regularization mass: 0 Regularization width: 0 Regularization power: 2 Kinematics : 12 -> 3 , 456 Kinematics : 456 ->4 , 56 Kinematics : 56 -> 5 , 6 # transverse momentum of any muon in event is pT > 5 GeV Cut parameter: T(mu) Cut invert: False Cut min: 5.0 Cut max: # transverse momentum of leading muon in event is pT > 15 GeV Cut parameter: T^(mu) Cut invert: False Cut min: 15.0 Cut max: # pseudorapidity of any muon in event is -2.5 < eta < 2.5 Cut parameter: N(mu) Cut invert: False Cut min: -2.5 Cut max: 2.5 Dist parameter: M(m,M) Dist min: 0.0 Dist max: 200.0 Dist n bins: 100 Dist title: p,p->4mu Dist x-title: M(m,M) (GeV) Dist parameter: T(mu) Dist min: 0.0 Dist max: 50.0 Dist n bins: 100 Dist title: p,p->4mu Dist x-title: pT(mu) (GeV) Dist parameter: T^(mu) Dist min: 0.0 Dist max: 50.0 Dist n bins: 100 Dist title: p,p->4mu Dist x-title: pT_max(mu) (GeV) Number of events (per run step): 1000 Filename: pp_4mu_13TeV_calchep_1K Cleanup: False Max number of cpus: 8 nSess_1: 5 nCalls_1: 1000000 nSess_2: 5 nCalls_2: 1000000