|=============================================================================| | | | WW WW WW WW WW WWWWWW WW WWWWW WWWW | | WW WW WW WW WW WW WW WWWW WW WW WW WW | | WW WW WW WW WWWWWWW WW WW WW WW WWWWW WW WW | | WWWW WWWW WW WW WW WW WWWWWWWW WW WW WW WW | | WW WW WW WW WW WWWWWW WW WW WW WW WWWW | | | | | | W | | sW | | WW | | sWW | | WWW | | wWWW | | wWWWW | | WW WW | | WW WW | | wWW WW | | wWW WW | | WW WW | | WW WW | | WW WW | | WW WW | | WW WW | | WW WW | | wwwwww WW WW | | WWWWWww WW WW | | WWWWWwwwww WW WW | | wWWWwwwwwWW WW | | wWWWWWWWWWWwWWW WW | | wWWWWW wW WWWWWWW | | WWWW wW WW wWWWWWWWwww | | WWWW wWWWWWWWwwww | | WWWW WWWW WWw | | WWWWww WWWW | | WWWwwww WWWW | | wWWWWwww wWWWWW | | WwwwwwwwwWWW | | | | | | | | by: Wolfgang Kilian, Thorsten Ohl, Juergen Reuter | | with contributions from Christian Speckner | | Contact: | | | | if you use WHIZARD please cite: | | W. Kilian, T. Ohl, J. Reuter, Eur.Phys.J.C71 (2011) 1742 | | [arXiv: 0708.4233 [hep-ph]] | | M. Moretti, T. Ohl, J. Reuter, arXiv: hep-ph/0102195 | | | |=============================================================================| | WHIZARD 2.8.2 |=============================================================================| | Reading model file '/sw/ilc/gcc730/whizard/2.8.2-mpi/share/whizard/models/SM.mdl' | Preloaded model: SM | Process library 'default_lib': initialized | Preloaded library: default_lib | Reading model file '/sw/ilc/gcc730/whizard/2.8.2-mpi/share/whizard/models/SM_hadrons.mdl' | Reading commands from file 'E250.P6f_llxyyx.eR.pL.sin' | Reading model file '/sw/ilc/gcc730/whizard/2.8.2-mpi/share/whizard/models/SM_CKM.mdl' | Switching to model 'SM_CKM' [user variable] x = PDG(2, 4) [user variable] y = PDG(1, 3, 5) [user variable] X = PDG(-2, -4) [user variable] Y = PDG(-1, -3, -5) [user variable] uq = PDG(2, -2) [user variable] dq = PDG(1, -1) [user variable] cq = PDG(4, -4) [user variable] sq = PDG(3, -3) [user variable] bq = PDG(5, -5) [user variable] up_type_q = PDG(2, 4, -2, -4) [user variable] down_type_q = PDG(1, 3, 5, -1, -3, -5) [user variable] q = PDG(2, 1, 3, 4, 5) [user variable] Q = PDG(-2, -1, -3, -4, -5) [user variable] pelectron = PDG(11, -11) [user variable] pmu = PDG(13, -13) [user variable] ptau = PDG(15, -15) [user variable] pnu_e = PDG(12, -12) [user variable] pnu_mu = PDG(14, -14) [user variable] pnu_tau = PDG(16, -16) [user variable] quark = PDG(2, 1, 3, 4, 5, -2, -1, -3, -4, -5) [user variable] lepton = PDG(11, 13, 15, -11, -13, -15, 12, 14, 16, -12, -14, -16) [user variable] clepton = PDG(11, 13, 15, -11, -13, -15) [user variable] not_electron = PDG(13, 15, -13, -15) [user variable] neutrino = PDG(12, 14, 16, -12, -14, -16) [user variable] not_nu_e = PDG(14, 16, -14, -16) [user variable] n = PDG(12, 14, 16) [user variable] N = PDG(-12, -14, -16) [user variable] f = PDG(2, 1, 3, 4, 5, 11, 13, 15, 12, 14, 16) [user variable] F = PDG(-2, -1, -3, -4, -5, -11, -13, -15, -12, -14, -16) SM_CKM.ms => 0.000000000000E+00 SM_CKM.mc => 0.000000000000E+00 SM_CKM.mb => 0.000000000000E+00 SM_CKM.alphas => 1.000000000000E-06 | Particle e- declared as polarized | Particle e+ declared as polarized | Particle mu- declared as polarized | Particle mu+ declared as polarized | Particle tau- declared as polarized | Particle tau+ declared as polarized | Particle nue declared as polarized | Particle nuebar declared as polarized | Particle numu declared as polarized | Particle numubar declared as polarized | Particle nutau declared as polarized | Particle nutaubar declared as polarized | Particle u declared as polarized | Particle ubar declared as polarized | Particle d declared as polarized | Particle dbar declared as polarized | Particle s declared as polarized | Particle sbar declared as polarized | Particle c declared as polarized | Particle cbar declared as polarized | Particle b declared as polarized | Particle bbar declared as polarized | Particle t declared as polarized | Particle tbar declared as polarized | Particle W+ declared as polarized | Particle W- declared as polarized | Particle Z declared as polarized process_num_id = 401010 | Process library 'default_lib': recorded process 'P6f_llxyyx' (401010) | Process library 'default_lib': compiling ... | Process library 'default_lib': keeping makefile | Process library 'default_lib': keeping driver | Process library 'default_lib': active | Process library 'default_lib': ... success. [user variable] ?is_higgs_process = false | Including Sindarin from '/home/ilc/tianjp/generator/PostDBD/whizard2/sindarin/pythia6-parameters.sin' SM_CKM.mH => 2.000000000000E+03 SM_CKM.wH => 1.000000000000E+01 ?ps_fsr_active = true ?hadronization_active = true $shower_method = "PYTHIA6" $ps_PYTHIA_PYGIVE = "MSTJ(28)=2;PMAS(25,1)=2000.0;PMAS(25,2)=10.0;MSTJ(41)=2; MSTU(22)=20; PARJ(21)=0.40000; PARJ(41)=0.11000; PARJ(42)=0.52000; PARJ(81)=0.25000;PARJ(82)=1.90000; MSTJ(11)=3; PARJ(54)=-0.03100; PARJ(55)=-0.00200;PARJ(1)=0.08500; PARJ(3)=0.45000; PARJ(4)=0.02500; PARJ(2)=0.31000;PARJ(11)=0.60000; PARJ(12)=0.40000; PARJ(13)=0.72000; PARJ(14)=0.43000;PARJ(15)=0.08000; PARJ(16)=0.08000; PARJ(17)=0.17000; MSTP(3)=1; MSTP(125)=2; MWID(25)=2" | End of included '/home/ilc/tianjp/generator/PostDBD/whizard2/sindarin/pythia6-parameters.sin' sqrts = 2.500000000000E+02 $circe2_file = "/home/ilc/tianjp/generator/PostDBD/whizard2/250_SetA_ee024.circe" ?circe2_polarized = false ?isr_recoil = true isr_alpha = 7.299300000000E-03 isr_mass = 5.110000000000E-04 [user variable] default_Mqq_cut = 1.000000000000E+01 [user variable] default_Mll_cut = 4.000000000000E+00 [user variable] default_Mla_cut = 4.000000000000E+00 relative_error_goal = 1.000000000000E-02 $integration_method = "vamp2" $rng_method = "rng_stream" ?polarized_events = true | MPI: wait for master to finish process initialization ... | RNG: Initializing RNG Stream random-number generator | RNG: Setting seed for random-number generator to 7416 | Initializing integration for process P6f_llxyyx: | Process component 'P6f_llxyyx_i2': matrix element vanishes | Process component 'P6f_llxyyx_i3': matrix element vanishes | Beam structure: e-, e+ => circe2 => isr, isr | polarization (beam 1): | @(+1: +1: ( 1.000000000000E+00, 0.000000000000E+00)) | polarization (beam 2): | @(-1: -1: ( 1.000000000000E+00, 0.000000000000E+00)) | polarization degree = 1.0000000, 1.0000000 | Beam data (collision): | e- (mass = 5.1099700E-04 GeV) polarized | e+ (mass = 5.1099700E-04 GeV) polarized | sqrts = 2.500000000000E+02 GeV | CIRCE2: activating generator mode | RNG: Initializing RNG Stream random-number generator | RNG: Setting seed for random-number generator to 7417 | MPI: Workers do not build phase space configuration. | Phase space: keeping configuration file 'P6f_llxyyx.i1.phs' | MPI: Workers do not build phase space configuration. | Phase space: keeping configuration file 'P6f_llxyyx.i4.phs' | ------------------------------------------------------------------------ | Process [scattering]: 'P6f_llxyyx' | ID (num) = 401010 | Library name = 'default_lib' | Process index = 1 | Process components: | 1: 'P6f_llxyyx_i1': e-, e+ => mu-, mu+, u:c, dbar:sbar:bbar, d:s:b, ubar:cbar [omega] | 4: 'P6f_llxyyx_i4': e-, e+ => tau-, tau+, u:c, dbar:sbar:bbar, d:s:b, ubar:cbar [omega] | ------------------------------------------------------------------------ | Phase space: 1280 channels, 14 dimensions | Phase space: found 1280 channels, collected in 81 groves. | Phase space: Using 1926 equivalences between channels. | Phase space: wood | Phase space: 1284 channels, 14 dimensions | Phase space: found 1284 channels, collected in 81 groves. | Phase space: Using 1930 equivalences between channels. | Phase space: wood | Beam structure: circe2 => isr, none => none, isr | Beam structure: 2 channels, 6 dimensions | Applying user-defined cuts. | MPI: Using 16 processes. | MPI: slave worker #7 Warning: CIRCE2: User-defined beam polarization set for unpolarized CIRCE2 data file | Starting integration for process 'P6f_llxyyx' part 1 | Integrate: iterations = 1:500000:"gw", 10:500000:"gw", 1:1500000 | Integrator: 81 chains, 1280 channels, 20 dimensions | Integrator: Using VAMP2 channel equivalences | | Starting integration for process 'P6f_llxyyx' part 1 | Integrate: iterations = 1:500000:"gw", 10:500000:"gw", 1:1500000 | Integrator: 81 chains, 1280 channels, 20 dimensions | Integrator: Using VAMP2 channel equivalences | Integrator: 500000 initial calls, 20 max. bins, stratified = T | Integrator: VAMP2 |======================================================== 1 499981 6.2016278E-02 3.42E-03 5.51 38.99* 0.52 |-----------------------------------------------------------------------------| 1 499981 6.2016278E-02 3.42E-03 5.51 38.99 0.52 |-----------------------------------------------------------------------------| 2 499963 6.1170670E-02 1.27E-03 2.07 14.64* 0.53 3 499992 6.1792665E-02 8.55E-04 1.38 9.78* 0.79 4 500039 6.1155292E-02 6.54E-04 1.07 7.56* 1.03 5 500036 6.1827498E-02 5.33E-04 0.86 6.10* 1.36 | [MCI VAMP2] relative error goal reached; skipping iterations |-----------------------------------------------------------------------------| 5 2000030 6.1568924E-02 3.57E-04 0.58 8.20 1.36 0.27 4 |----| [MCI VAMP2] relative error goal reached; skipping iterations |----------- 6 1499976 6.1628601E-02 2.39E-04 0.39 4.75* 1.08 ||-----------------------------------------------------------------------------| 6 1499976 6.1628601E-02 2.39E-04 0.39 4.75 1.08 |=============================================================================||-----------------------------------------------------------------------------| 6 1499976 6.1628601E-02 2.39E-04 0.39 4.75 1.08 |=============================================================================| | Time estimate for generating 10000 events: 0d:00h:13m:39s | Starting integration for process 'P6f_llxyyx' part 2 | Integrate: iterations = 1:500000:"gw", 10:500000:"gw", 1:1500000 | Integrator: 81 chains, 1284 channels, 20 dimensions | Integrator: Using VAMP2 channel equivalences | Integrator: 500000 initial calls, 20 max. bins, stratified = T | Integrator: VAMP2 |======================================================== 1 499922 6.1198710E-02 4.34E-03 7.09 50.16* 0.54 |-----------------------------------------------------------------------------| 1 499922 6.1198710E-02 4.34E-03 7.09 50.16 0.54 |-----------------------------------------------------------------------------| 2 499915 6.0386777E-02 1.29E-03 2.14 15.10* 0.64 3 500019 5.9130114E-02 5.55E-04 0.94 6.64* 1.14|| [MCI VAMP2] relative error goal reached; skipping iterations|-----------------------------------------------------------------------------| 3 999934 5.9326779E-02 5.10E-04 0.86 8.60 1.14 0.80 2 |----| [MCI VAMP2] relative error goal reached; skipping iterations |----------- 4 1500093 5.9504211E-02 2.52E-04 0.42 5.18* 1.00||-----------------------------------------------------------------------------| 4 1500093 5.9504211E-02 2.52E-04 0.42 5.18 1.00 |=============================================================================||-----------------------------------------------------------------------------| 4 1500093 5.9504211E-02 2.52E-04 0.42 5.18 1.00 |=============================================================================| | Time estimate for generating 10000 events: 0d:00h:15m:16s | Integrate: sum of all components |=============================================================================| | It Calls Integral[fb] Error[fb] Err[%] Acc Eff[%] Chi2 N[It] | |=============================================================================| 1 0 1.2113281E-01 3.47E-04 0.29 0.00* 1.04 |=============================================================================| P6f_llxyyx (401010): 1.2113281E-01 +-| There were no errors and 1 warning(s). | WHIZARD run finished. |=============================================================================| mple = "E250-SetA.P6f_llxyyx.Gwhizard-2_8_2.eR.pL.I401010" n_events = 20000 | There were no errors and 1 warning(s). | WHIZARD run finished. |=============================================================================|