MadGraph5_aMC@NLO

Trying to generate WW+0,1,2jets at NLO: Poles do not cancel

Asked by Javier Fernandez

Dear experts,

I'm trying to generate WW+0,1,2jets process using FxFx merging. I attache run and proc cards. The launch goes OK until it reaches:
INFO: P0_bbx_wpwm
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
Error detected in "launch -n pilotrun"
write debug file /tmp/jfernan/CMSSW_5_3_22_patch1/src/genproductions/bin/MadGraph5_aMCatNLO/wwelmunu012j_5f_NLO_FXFX/wwelmunu012j_5f_NLO_FXFX_gridpack/work/processtmp/pilotrun_tag_1_debug.log
If you need help with this issue please contact us on https://answers.launchpad.net/madgraph5
aMCatNLOError : Poles do not cancel, run cannot continue
quit

That log says:

#************************************************************
#* MadGraph5_aMC@NLO *
#* *
#* * * *
#* * * * * *
#* * * * * 5 * * * * *
#* * * * * *
#* * * *
#* *
#* *
#* VERSION 5.2.2.1 *
#* *
#* The MadGraph5_aMC@NLO Development Team - Find us at *
#* https://server06.fynu.ucl.ac.be/projects/madgraph *
#* and *
#* http://amcatnlo.cern.ch *
#* *
#************************************************************
#* *
#* Command File for aMCatNLO *
#* *
#* run as ./bin/aMCatNLO.py filename *
#* *
#************************************************************
launch -n pilotrun
Traceback (most recent call last):
  File "/tmp/jfernan/CMSSW_5_3_22_patch1/src/genproductions/bin/MadGraph5_aMCatN
LO/wwelmunu012j_5f_NLO_FXFX/wwelmunu012j_5f_NLO_FXFX_gridpack/work/processtmp/bi
n/internal/extended_cmd.py", line 879, in onecmd
    return self.onecmd_orig(line, **opt)
  File "/tmp/jfernan/CMSSW_5_3_22_patch1/src/genproductions/bin/MadGraph5_aMCatN
LO/wwelmunu012j_5f_NLO_FXFX/wwelmunu012j_5f_NLO_FXFX_gridpack/work/processtmp/bi
n/internal/extended_cmd.py", line 872, in onecmd_orig
    return func(arg, **opt)
  File "/tmp/jfernan/CMSSW_5_3_22_patch1/src/genproductions/bin/MadGraph5_aMCatN
LO/wwelmunu012j_5f_NLO_FXFX/wwelmunu012j_5f_NLO_FXFX_gridpack/work/processtmp/bi
n/internal/amcatnlo_run_interface.py", line 1189, in do_launch
    self.compile(mode, options)
  File "/tmp/jfernan/CMSSW_5_3_22_patch1/src/genproductions/bin/MadGraph5_aMCatN
LO/wwelmunu012j_5f_NLO_FXFX/wwelmunu012j_5f_NLO_FXFX_gridpack/work/processtmp/bi
n/internal/amcatnlo_run_interface.py", line 3763, in compile
    self.check_tests(test, this_dir)
  File "/tmp/jfernan/CMSSW_5_3_22_patch1/src/genproductions/bin/MadGraph5_aMCatN
LO/wwelmunu012j_5f_NLO_FXFX/wwelmunu012j_5f_NLO_FXFX_gridpack/work/processtmp/bi
n/internal/amcatnlo_run_interface.py", line 3775, in check_tests
    return self.parse_check_poles_log(pjoin(dir, '%s.log' % test))
  File "/tmp/jfernan/CMSSW_5_3_22_patch1/src/genproductions/bin/MadGraph5_aMCatN
LO/wwelmunu012j_5f_NLO_FXFX/wwelmunu012j_5f_NLO_FXFX_gridpack/work/processtmp/bi
n/internal/amcatnlo_run_interface.py", line 3810, in parse_check_poles_log
    raise aMCatNLOError('Poles do not cancel, run cannot continue')
aMCatNLOError: Poles do not cancel, run cannot continue
Value of current Options:
              text_editor : None
              web_browser : None
        cluster_temp_path : None
                  timeout : 60
            cluster_queue : madgraph
         madanalysis_path : None
                   lhapdf : /cvmfs/cms.cern.ch/slc6_amd64_gcc472/ext
ernal/lhapdf6/6.1.4/bin/lhapdf-config
      output_dependencies : internal
                 mg5_path : /tmp/jfernan/CMSSW_5_3_22_patch1/src/gen
productions/bin/MadGraph5_aMCatNLO/wwelmunu012j_5f_NLO_FXFX/wwelmunu012j_5f_NLO_
FXFX_gridpack/work/MG5_aMC_v2_2_1
           cluster_memory : None
    cluster_status_update : (600, 30)
             cluster_time : None
               hepmc_path : None
             pythia8_path : None
                hwpp_path : None
   automatic_html_opening : False
       cluster_retry_wait : 300
             stdout_level : None
          pythia-pgs_path : None
                  td_path : None
             delphes_path : None
              thepeg_path : None
             cluster_type : condor
         cluster_nb_retry : 1
         fortran_compiler : None
                  nb_core : 32
              auto_update : 0
      exrootanalysis_path : None
               eps_viewer : None
             syscalc_path : /tmp/jfernan/CMSSW_5_3_22_patch1/src/gen
productions/bin/MadGraph5_aMCatNLO/wwelmunu012j_5f_NLO_FXFX/wwelmunu012j_5f_NLO_
FXFX_gridpack/work/MG5_aMC_v2_2_1/SysCalc
             cpp_compiler : None
                 run_mode : 2

PROC CARD
cards/wwelmunu012j_5f_NLO_FXFX_proc_card.dat
import model loop_sm-no_b_mass
#switch to non-diagonal ckm matrix if relevant
#import model loop_sm-ckm_no_b_mass

define p = p b b~
define j = j b b~

generate p p > w+ w- [QCD] @0
add process p p > w+ w- j [QCD] @1
add process p p > w+ w- j j [QCD] @2

output wwelmunu012j_5f_NLO_FXFX

RUN CARDS

#***********************************************************************
# MadGraph5_aMC@NLO *
# *
# run_card.dat aMC@NLO *
# *
# This file is used to set the parameters of the run. *
# *
# Some notation/conventions: *
# *
# Lines starting with a hash (#) are info or comments *
# *
# mind the format: value = variable ! comment *
#***********************************************************************
#
#*******************
# Running parameters
#*******************
#
#***********************************************************************
# Tag name for the run (one word) *
#***********************************************************************
  tag_1 = run_tag ! name of the run
#***********************************************************************
# Number of events (and their normalization) and the required *
# (relative) accuracy on the Xsec. *
# These values are ignored for fixed order runs *
#***********************************************************************
  1500 = nevents ! Number of unweighted events requested
 0.001 = req_acc ! Required accuracy (-1=auto determined from nevents)
    100 = nevt_job! Max number of events per job in event generation.
                 ! (-1= no split).
average = event_norm ! Normalize events to sum or average to the X sect.
#***********************************************************************
# Number of points per itegration channel (ignored for aMC@NLO runs) *
#***********************************************************************
 0.01 = req_acc_FO ! Required accuracy (-1=ignored, and use the
                           ! number of points and iter. below)
# These numbers are ignored except if req_acc_FO is equal to -1
 5000 = npoints_FO_grid ! number of points to setup grids
 4 = niters_FO_grid ! number of iter. to setup grids
 10000 = npoints_FO ! number of points to compute Xsec
 6 = niters_FO ! number of iter. to compute Xsec
#***********************************************************************
# Random number seed *
#***********************************************************************
     0 = iseed ! rnd seed (0=assigned automatically=default))
#***********************************************************************
# Collider type and energy *
#***********************************************************************
    1 = lpp1 ! beam 1 type (0 = no PDF)
    1 = lpp2 ! beam 2 type (0 = no PDF)
 4000 = ebeam1 ! beam 1 energy in GeV
 4000 = ebeam2 ! beam 2 energy in GeV
#***********************************************************************
# PDF choice: this automatically fixes also alpha_s(MZ) and its evol. *
#***********************************************************************
 lhapdf = pdlabel ! PDF set
 260000 = lhaid ! if pdlabel=lhapdf, this is the lhapdf number
#***********************************************************************
# Include the NLO Monte Carlo subtr. terms for the following parton *
# shower (HERWIG6 | HERWIGPP | PYTHIA6Q | PYTHIA6PT | PYTHIA8) *
# WARNING: PYTHIA6PT works only for processes without FSR!!!! *
#***********************************************************************
  PYTHIA8 = parton_shower
#***********************************************************************
# Renormalization and factorization scales *
# (Default functional form for the non-fixed scales is the sum of *
# the transverse masses of all final state particles and partons. This *
# can be changed in SubProcesses/set_scales.f) *
#***********************************************************************
 F = fixed_ren_scale ! if .true. use fixed ren scale
 F = fixed_fac_scale ! if .true. use fixed fac scale
 91.188 = muR_ref_fixed ! fixed ren reference scale
 91.188 = muF1_ref_fixed ! fixed fact reference scale for pdf1
 91.188 = muF2_ref_fixed ! fixed fact reference scale for pdf2
#***********************************************************************
# Renormalization and factorization scales (advanced and NLO options) *
#***********************************************************************
 F = fixed_QES_scale ! if .true. use fixed Ellis-Sexton scale
 91.188 = QES_ref_fixed ! fixed Ellis-Sexton reference scale
 1 = muR_over_ref ! ratio of current muR over reference muR
 1 = muF1_over_ref ! ratio of current muF1 over reference muF1
 1 = muF2_over_ref ! ratio of current muF2 over reference muF2
 1 = QES_over_ref ! ratio of current QES over reference QES
#***********************************************************************
# Reweight flags to get scale dependence and PDF uncertainty *
# For scale dependence: factor rw_scale_up/down around central scale *
# For PDF uncertainty: use LHAPDF with supported set *
#***********************************************************************
 .true. = reweight_scale ! reweight to get scale dependence
  0.5 = rw_Rscale_down ! lower bound for ren scale variations
  2.0 = rw_Rscale_up ! upper bound for ren scale variations
  0.5 = rw_Fscale_down ! lower bound for fact scale variations
  2.0 = rw_Fscale_up ! upper bound for fact scale variations
 .true. = reweight_PDF ! reweight to get PDF uncertainty
 260001 = PDF_set_min ! First of the error PDF sets
 260100 = PDF_set_max ! Last of the error PDF sets
#***********************************************************************
# Merging - WARNING! Applies merging only at the hard-event level. *
# After showering an MLM-type merging should be applied as well. *
# See http://amcatnlo.cern.ch/FxFx_merging.htm for more details. *
#***********************************************************************
 3 = ickkw ! 0 no merging, 3 FxFx merging
#***********************************************************************
#
#***********************************************************************
# BW cutoff (M+/-bwcutoff*Gamma) *
#***********************************************************************
 15 = bwcutoff
#***********************************************************************
# Cuts on the jets *
# Jet clustering is performed by FastJet.
# When matching to a parton shower, these generation cuts should be *
# considerably softer than the analysis cuts. *
# (more specific cuts can be specified in SubProcesses/cuts.f) *
#***********************************************************************
   1 = jetalgo ! FastJet jet algorithm (1=kT, 0=C/A, -1=anti-kT)
 1.0 = jetradius ! The radius parameter for the jet algorithm
  10 = ptj ! Min jet transverse momentum
  -1 = etaj ! Max jet abs(pseudo-rap) (a value .lt.0 means no cut)
#***********************************************************************
# Cuts on the charged leptons (e+, e-, mu+, mu-, tau+ and tau-) *
# (more specific gen cuts can be specified in SubProcesses/cuts.f) *
#***********************************************************************
   0 = ptl ! Min lepton transverse momentum
  -1 = etal ! Max lepton abs(pseudo-rap) (a value .lt.0 means no cut)
   0 = drll ! Min distance between opposite sign lepton pairs
   0 = drll_sf ! Min distance between opp. sign same-flavor lepton pairs
   0 = mll ! Min inv. mass of all opposite sign lepton pairs
  30 = mll_sf ! Min inv. mass of all opp. sign same-flavor lepton pairs
#***********************************************************************
# Photon-isolation cuts, according to hep-ph/9801442 *
# When ptgmin=0, all the other parameters are ignored *
#***********************************************************************
  20 = ptgmin ! Min photon transverse momentum
  -1 = etagamma ! Max photon abs(pseudo-rap)
 0.4 = R0gamma ! Radius of isolation code
 1.0 = xn ! n parameter of eq.(3.4) in hep-ph/9801442
 1.0 = epsgamma ! epsilon_gamma parameter of eq.(3.4) in hep-ph/9801442
 .true. = isoEM ! isolate photons from EM energy (photons and leptons)
#***********************************************************************
# Maximal PDG code for quark to be considered a jet when applying cuts.*
# At least all massless quarks of the model should be included here. *
#***********************************************************************
 5 = maxjetflavor
#***********************************************************************

Any hint about the problem?
Thanks in advance,
Javi

Question information

Language:
English Edit question
Status:
Answered
For:
MadGraph5_aMC@NLO Edit question
Assignee:
Rikkert Frederix Edit question
Last query:
Last reply:
Revision history for this message
Rikkert Frederix (frederix) said : 		#1

Dear Javi,

As written on the aMC@NLO website,
http://amcatnlo.web.cern.ch/amcatnlo/list_detailed2.htm#resonances , the opening of new resonances (top quarks!) in the real-emission diagrams makes the code fail. For WW production, you should therefore use a diagonal CKM matrix and a 4 Flavour scheme.

Best regards,
Rikkert

Revision history for this message
Javier Fernandez (javier-fernandez-h) said : 		#2

Dear experts,

after moving to 4F and diagonal CKM matrix, I'm still facing errors in one of the subprocesses:

INFO: Idle: 0, Running: 1, Completed: 1265 [ 79h 34m ]
INFO: Idle: 0, Running: 0, Completed: 1265 [ 79h 37m ]
INFO: Return code of the event collection: None
INFO: Output of the event collection:
N of directories: 1266
Determining the number of unweighted events per channel
1 jobs did not terminate correctly:
P2_dxd_wpwmgg/GF5
The results are probably not correct. Please check the relevant log files corresponding to the above jobs for more information.
Found 1265 correctly terminated jobs
1265 1266

Looking at the log of that SubProcess, I see nothing strange apart from a long time:
==== POWHEG (OR POSSIBLY HERWIG) WILL USE LHAPDFv6 ====
LHAPDF 6.1.4 loading /cvmfs/cms.cern.ch/slc6_amd64_gcc472/external/lhapdf6/6.1.4
/share/LHAPDF/NNPDF30_nlo_as_0118/NNPDF30_nlo_as_0118_0000.dat
NNPDF30_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 260000
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat

 ===============================================================
  > IRPoleCheckThreshold = 1.0000000000000001E-005
  > PrecisionVirtualAtRunTime = 1.0000000000000000E-003
  > NHelForMCoverHels = 4
  > VirtualFraction = 1.0000000000000000
  > MinVirtualFraction = 5.0000000000000001E-003
 ===============================================================
 Process in group number 0
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card: 0.11799999999999999
 New value of alpha_s from PDF lhapdf : 0.11800222660863767
 using LHAPDF
 *****************************************************
 * MadGraph/MadEvent *
 * -------------------------------- *
 * http://madgraph.hep.uiuc.edu *
 * http://madgraph.phys.ucl.ac.be *
 * http://madgraph.roma2.infn.it *
 * -------------------------------- *
 * *
 * PARAMETER AND COUPLING VALUES *
 * *
 *****************************************************

  External Params
  ---------------------------------

 MU_R = 91.188000000000002
 aEWM1 = 132.50700000000001
 mdl_Gf = 1.1663900000000000E-005
 aS = 0.11799999999999999
 mdl_ymb = 4.7000000000000002
 mdl_ymt = 172.50000000000000
 mdl_ymtau = 1.7769999999999999
 mdl_MT = 172.50000000000000
 mdl_MB = 4.7000000000000002
 mdl_MZ = 91.188000000000002
 mdl_MH = 125.00000000000000
 mdl_MTA = 1.7769999999999999
 mdl_WT = 1.4915000000000000
 mdl_WZ = 2.4414039999999999
 mdl_WW = 2.0476000000000001
 mdl_WH = 6.3823389999999999E-003
  Internal Params
  ---------------------------------

 mdl_conjg__CKM3x3 = 1.0000000000000000
 mdl_CKM22 = 1.0000000000000000
 mdl_lhv = 1.0000000000000000
 mdl_CKM3x3 = 1.0000000000000000
 mdl_conjg__CKM22 = 1.0000000000000000
 mdl_conjg__CKM33 = 1.0000000000000000
 mdl_Ncol = 3.0000000000000000
 mdl_CA = 3.0000000000000000
 mdl_TF = 0.50000000000000000
 mdl_CF = 1.3333333333333333
 mdl_complexi = ( 0.0000000000000000 , 1.0000000000000000 )
 mdl_MZ__exp__2 = 8315.2513440000002
 mdl_MZ__exp__4 = 69143404.913893804
 mdl_sqrt__2 = 1.4142135623730951
 mdl_MH__exp__2 = 15625.000000000000
 mdl_Ncol__exp__2_m_1 = 8.0000000000000000
 mdl_MB__exp__2 = 22.090000000000003
 mdl_MT__exp__2 = 29756.250000000000
 mdl_Ncol__exp__2_m_1_0 = 8.0000000000000000
 mdl_aEW = 7.5467711139788835E-003
 mdl_MW = 80.419002445756163
 mdl_sqrt__aEW = 8.6872153846781555E-002
 mdl_ee = 0.30795376724436879
 mdl_MW__exp__2 = 6467.2159543705357
 mdl_sw2 = 0.22224648578577766
 mdl_cw = 0.88190334743339216
 mdl_sqrt__sw2 = 0.47143025548407230
 mdl_sw = 0.47143025548407230
 mdl_g1 = 0.34919219678733299
 mdl_gw = 0.65323293034757990
 mdl_v = 246.21845810181637
 mdl_v__exp__2 = 60623.529110035903
 mdl_lam = 0.12886910601690263
 mdl_yb = 2.6995554250465490E-002
 mdl_yt = 0.99079427834155243
 mdl_ytau = 1.0206617000654717E-002
 mdl_muH = 88.388347648318430
 mdl_AxialZUp = -0.18517701861793787
 mdl_AxialZDown = 0.18517701861793787
 mdl_VectorZUp = 7.5430507588273299E-002
 mdl_VectorZDown = -0.13030376310310560
 mdl_VectorAUp = 0.20530251149624587
 mdl_VectorADown = -0.10265125574812294
 mdl_VectorWmDxU = 0.23095271737156670
 mdl_AxialWmDxU = -0.23095271737156670
 mdl_VectorWpUxD = 0.23095271737156670
 mdl_AxialWpUxD = -0.23095271737156670
 mdl_I1x33 = ( 2.6995554250465490E-002, 0.0000000000000000 )
 mdl_I2x33 = ( 0.99079427834155243 , 0.0000000000000000 )
 mdl_I3x33 = ( 0.99079427834155243 , 0.0000000000000000 )
 mdl_I4x33 = ( 2.6995554250465490E-002, 0.0000000000000000 )
 mdl_Vector_tbGp = (-0.96379872409108691 , 0.0000000000000000 )
 mdl_Axial_tbGp = ( -1.0177898325920178 , -0.0000000000000000 )
 mdl_Vector_tbGm = ( 0.96379872409108691 , 0.0000000000000000 )
 mdl_Axial_tbGm = ( -1.0177898325920178 , -0.0000000000000000 )
 mdl_gw__exp__2 = 0.42671326129048615
 mdl_cw__exp__2 = 0.77775351421422245
 mdl_ee__exp__2 = 9.4835522759998875E-002
 mdl_sw__exp__2 = 0.22224648578577769
 mdl_yb__exp__2 = 7.2875994928982540E-004
 mdl_yt__exp__2 = 0.98167330199435765
  Internal Params evaluated point by point
  ----------------------------------------

 mdl_MU_R__exp__2 = 8315.2513440000002
 mdl_sqrt__aS = 0.34351128074635334
 mdl_G__exp__2 = 1.4828317324943823
 mdl_G__exp__3 = 1.8056676068262196
 mdl_G__exp__4 = 2.1987899468922913
  Couplings of loop_sm
  ---------------------------------

       UV_3Gb = -0.22605E-01 -0.00000E+00
       UV_3Gt = 0.48595E-02 0.00000E+00
      UV_GQQb = 0.00000E+00 0.22605E-01
      UV_GQQt = 0.00000E+00 -0.48595E-02
   UVWfct_G_2 = 0.39906E-02 0.00000E+00
   UVWfct_G_1 = -0.18563E-01 0.00000E+00
       R2_DDA = 0.00000E+00 0.25704E-02
       R2_UUA = -0.00000E+00 -0.51409E-02
    R2_DDZ_V2 = 0.00000E+00 0.72127E-02
    R2_UUZ_V2 = -0.00000E+00 -0.72127E-02
    R2_UUZ_V5 = 0.00000E+00 0.68702E-03
      R2_sxcW = -0.00000E+00 -0.11566E-01
      R2_GGHb = 0.00000E+00 -0.33698E-02
      R2_GGHt = 0.00000E+00 -0.45393E+01
     R2_GGZup = -0.11592E-02 0.00000E+00
   R2_GGZdown = 0.11592E-02 0.00000E+00
    R2_GGWWcs = 0.00000E+00 0.13356E-02
 R2_GGGZvecUp = 0.00000E+00 0.28750E-03
 R2_GGGZvecDown -0.00000E+00 -0.49665E-03
 R2_GGGZaxialUp 0.00000E+00 0.63522E-02
 R2_GGGZaxialDow -0.00000E+00 -0.63522E-02
 R2_GGGAvecUp = 0.00000E+00 0.78251E-03
 R2_GGGAvecDown -0.00000E+00 -0.39126E-03
         GC_4 = -0.12177E+01 0.00000E+00
         GC_5 = 0.00000E+00 0.12177E+01
         GC_6 = 0.00000E+00 0.14828E+01
       R2_3Gq = 0.76230E-02 0.00000E+00
       R2_3Gg = 0.31445E-01 0.00000E+00
       R2_GQQ = -0.00000E+00 -0.30492E-01
       R2_GGq = 0.00000E+00 0.62601E-02
       R2_GGb = -0.00000E+00 -0.82971E+00
       R2_GGt = -0.00000E+00 -0.11177E+04
     R2_GGg_1 = 0.00000E+00 0.28170E-01
     R2_GGg_2 = -0.00000E+00 -0.18780E-01
       R2_QQq = 0.00000E+00 0.12520E-01
  UV_3Gg_1eps = 0.62890E-01 0.00000E+00
  UV_3Gb_1eps = -0.38115E-02 0.00000E+00
 UV_GQQg_1eps = 0.00000E+00 -0.62890E-01
 UV_GQQq_1eps = 0.00000E+00 0.38115E-02
 UVWfct_G_2_1eps -0.31300E-02 0.00000E+00
         GC_1 = -0.00000E+00 -0.10265E+00
         GC_2 = 0.00000E+00 0.20530E+00
         GC_7 = 0.00000E+00 0.57609E+00
        GC_21 = -0.00000E+00 -0.28804E+00
        GC_22 = 0.00000E+00 0.28804E+00
        GC_23 = -0.00000E+00 -0.27437E-01
        GC_25 = 0.00000E+00 0.30795E+00
        GC_31 = 0.00000E+00 0.52532E+02
        GC_33 = -0.00000E+00 -0.19089E-01
        GC_37 = -0.00000E+00 -0.70060E+00
        GC_47 = 0.00000E+00 0.46191E+00

 Collider parameters:
 --------------------

 Running at P P machine @ 8000.0000000000000 GeV
 PDF set = lhapdf
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization scale set on event-by-event basis

 Diagram information for clustering has been set-up for nFKSprocess 1
 Diagram information for clustering has been set-up for nFKSprocess 2
 Diagram information for clustering has been set-up for nFKSprocess 3
 Diagram information for clustering has been set-up for nFKSprocess 4
 Diagram information for clustering has been set-up for nFKSprocess 5
 Diagram information for clustering has been set-up for nFKSprocess 6
 Diagram information for clustering has been set-up for nFKSprocess 7
 Diagram information for clustering has been set-up for nFKSprocess 8
 Diagram information for clustering has been set-up for nFKSprocess 9
 getting user params
Enter number of events and iterations:
 Number of events and iterations -1 12
Enter desired fractional accuracy:
 Desired fractional accuracy: 2.9999999999999999E-002
 Enter alpha, beta for G_soft
   Enter alpha<0 to set G_soft=1 (no ME soft)
 for G_soft: alpha= 1.0000000000000000 , beta= -0.10000000000000001
 Enter alpha, beta for G_azi
   Enter alpha>0 to set G_azi=0 (no azi corr)
 for G_azi: alpha= -1.0000000000000000 , beta= -0.10000000000000001
 Doing the S and H events together
Suppress amplitude (0 no, 1 yes)?
 Using suppressed amplitude.
Exact helicity sum (0 yes, n = number/event)?
 Summing over 1 helicities/event for virt
Enter Configuration Number:
Running Configuration Number: 5
Enter running mode for MINT:
0 to set-up grids, 1 to integrate, 2 to generate events
 MINT running mode: 0
Set the three folding parameters for MINT
xi_i, phi_i, y_ij
           1 1 1
 'all ', 'born', 'real', 'virt', 'novi' or 'grid'?
 Enter 'born0' or 'virt0' to perform
  a pure n-body integration (no S functions)
 doing the all of this channel
 Normal integration (Sfunction != 1)
 Not subdividing B.W.
 about to integrate 13 -1 12 5
 imode is 0
#--------------------------------------------------------------------------
# FastJet release 3.0.5 [fjcore]
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the terms of the GNU GPLv2.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration 1
 Update # PS points (even): 1040 --> 1040
Using random seed offsets: 5 , 78 , 0
  with seed 33
 Ranmar initialization seeds 11953 9485
 Total number of FKS directories is 9
 FKS process map (sum= 3 ) :
           1 --> 2 : 1 4
           2 --> 2 : 2 5
           3 --> 5 : 3 6 7 8
         9
 ================================
 process combination map (specified per FKS dir):
  1 map 1 2
  1 inv. map 1 2
  2 map 1 2
  2 inv. map 1 2
  3 map 1 2
  3 inv. map 1 2
  4 map 1 2
  4 inv. map 1 2
  5 map 1 2
  5 inv. map 1 2
  6 map 1 2
  6 inv. map 1 2
  7 map 1 2
  7 inv. map 1 2
  8 map 1 2
  8 inv. map 1 2
  9 map 1 2
  9 inv. map 1 2
 ================================
nFKSprocess: 1. Absolute lower bound for tau at the Born is 0.40420E-03 0.1608
4E+03 0.80000E+04
nFKSprocess: 1. Lower bound for tau is 0.51097E-03 0.18084E+03 0.80000E+04
nFKSprocess: 1. Lower bound for tau is (taking resonances into account) 0.51097
E-03 0.18084E+03 0.80000E+04
nFKSprocess: 2. Absolute lower bound for tau at the Born is 0.40420E-03 0.1608
4E+03 0.80000E+04
nFKSprocess: 2. Lower bound for tau is 0.51097E-03 0.18084E+03 0.80000E+04
nFKSprocess: 2. Lower bound for tau is (taking resonances into account) 0.51097
E-03 0.18084E+03 0.80000E+04
nFKSprocess: 3. Absolute lower bound for tau at the Born is 0.51097E-03 0.1808
4E+03 0.80000E+04
nFKSprocess: 3. Lower bound for tau is (taking resonances into account) 0.51097
E-03 0.18084E+03 0.80000E+04
nFKSprocess: 4. Absolute lower bound for tau at the Born is 0.40420E-03 0.1608
4E+03 0.80000E+04
nFKSprocess: 4. Lower bound for tau is 0.51097E-03 0.18084E+03 0.80000E+04
nFKSprocess: 4. Lower bound for tau is (taking resonances into account) 0.51097
E-03 0.18084E+03 0.80000E+04
nFKSprocess: 5. Absolute lower bound for tau at the Born is 0.40420E-03 0.1608
4E+03 0.80000E+04
nFKSprocess: 5. Lower bound for tau is 0.51097E-03 0.18084E+03 0.80000E+04
nFKSprocess: 5. Lower bound for tau is (taking resonances into account) 0.51097
E-03 0.18084E+03 0.80000E+04
nFKSprocess: 6. Absolute lower bound for tau at the Born is 0.51097E-03 0.1808
4E+03 0.80000E+04
nFKSprocess: 6. Lower bound for tau is (taking resonances into account) 0.51097
E-03 0.18084E+03 0.80000E+04
nFKSprocess: 7. Absolute lower bound for tau at the Born is 0.51097E-03 0.1808
4E+03 0.80000E+04
nFKSprocess: 7. Lower bound for tau is (taking resonances into account) 0.51097
E-03 0.18084E+03 0.80000E+04
nFKSprocess: 8. Absolute lower bound for tau at the Born is 0.51097E-03 0.1808
4E+03 0.80000E+04
nFKSprocess: 8. Lower bound for tau is (taking resonances into account) 0.51097
E-03 0.18084E+03 0.80000E+04
nFKSprocess: 9. Absolute lower bound for tau at the Born is 0.51097E-03 0.1808
4E+03 0.80000E+04
nFKSprocess: 9. Lower bound for tau is (taking resonances into account) 0.51097
E-03 0.18084E+03 0.80000E+04
 bpower is 2.0000000000000000
 Scale values (may change event by event):
 muR, muR_reference: 0.513519D+02 0.513519D+02 1.00
 muF1, muF1_reference: 0.366598D+02 0.366598D+02 1.00
 muF2, muF2_reference: 0.366598D+02 0.366598D+02 1.00
 QES, QES_reference: 0.149527D+03 0.149527D+03 1.00

 muR_reference [functional form]:
    FxFx merging scale
 muF1_reference [functional form]:
    FxFx merging scale
 muF2_reference [functional form]:
    FxFx merging scale
 QES_reference [functional form]:
    H_T/2 := sum_i mT(i)/2, i=final state

 alpha_s= 0.12921154845332725
 alpha_s value used for the virtuals is (for the first PS point): 0.1292115484
5332725
  ==============================================================================
============
 {
            }
 {
                }
 { ,,
                }
 { `7MMM. ,MMF' `7MM `7MMF'
                }
 { MMMb dPMM MM MM
                }
 { M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7
MMpdMAo. }
 { M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb
MM `Wb }
 { M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8
MM M8 }
 { M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9
MM ,AP }
 { .JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9'
MMbmmd' }
 {
MM }
 { .J
MML. }
 { v2.2.1 (2014-09-25), Ref: arXiv:1103.0621v2, arXiv:1405.0301
                       }
 {
                }
 {
            }
  ==============================================================================
============
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.da
t

 ===============================================================
  > MLReductionLib = 1|4|3|2
  > IREGIMODE = 2
  > IREGIRECY = T
  > CTModeRun = -1
  > MLStabThres = 1.0000000000000000E-003
  > NRotations_DP = 1
  > NRotations_QP = 0
  > CTStabThres = 1.0000000000000000E-002
  > CTLoopLibrary = 2
  > CTModeInit = 1
  > CheckCycle = 3
  > MaxAttempts = 10
  > UseLoopFilter = F
  > ImprovePSPoint = 2
  > DoubleCheckHelicityFilter = T
  > LoopInitStartOver = F
  > HelInitStartOver = F
  > ZeroThres = 1.0000000000000001E-009
  > OSThres = 1.0000000000000000E-008
  > WriteOutFilters = T
 ===============================================================

------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
  ----------------------------------------------------------------------

########################################################################
# #
# You are using OneLOop-3.4 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren <email address hidden> #
# date: 02-01-2014 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
 alpha_s value used for the virtuals is (for the first PS point): 0.1505876438
0714135
 ---- POLES CANCELLED ----
 ###############################################################################
######
 #
     #
 # IREGI-alpha-1.0.0
     #
 # package for one-loop tensor Integral REduction with General propagator Ind
ices #
 # Author: Hua-Sheng Shao (<email address hidden><email address hidden>)
     #
 # a) Physics School, Peking University, Beijing, China
     #
 # b) PH Department, TH Unit, CERN, Geneva, Switzerland
     #
 #
     #
 ###############################################################################
######
ABS integral = 0.7850E-01 +/- 0.1692E-01 ( 21.551 %)
Integral = 0.3222E-01 +/- 0.1508E-01 ( 46.801 %)
Virtual = 0.1528E-02 +/- 0.3097E-02 ( 202.667 %)
Virtual ratio = -.4092E+00 +/- 0.6462E+00 ( 157.912 %)
ABS virtual = 0.8564E-02 +/- 0.3092E-02 ( 36.101 %)
Born*ao2pi = 0.5454E-03 +/- 0.1391E-03 ( 25.514 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.7850E-01 +/- 0.1692E-01 ( 21.551 %)
accumulated results Integral = 0.3222E-01 +/- 0.1508E-01 ( 46.801 %)
accumulated results Virtual = 0.1528E-02 +/- 0.3097E-02 ( 202.667 %)
accumulated results Virtual ratio = -.4092E+00 +/- 0.6462E+00 ( 157.912 %)
accumulated results ABS virtual = 0.8564E-02 +/- 0.3092E-02 ( 36.101 %)
accumulated results Born*ao2pi = 0.5454E-03 +/- 0.1391E-03 ( 25.514 %)
accumulated result Chi^2 per DoF = 0.0000E+00
update virtual fraction to: 0.366 2.802
  1: 0 1
2 3
 ------- iteration 2
 Update # PS points (even): 2080 --> 2080
ABS integral = 0.9966E+00 +/- 0.8671E+00 ( 87.008 %)
Integral = -.8390E+00 +/- 0.8672E+00 ( 103.354 %)
Virtual = -.8706E+00 +/- 0.8671E+00 ( 99.597 %)
Virtual ratio = -.3137E+05 +/- 0.3135E+05 ( 99.942 %)
ABS virtual = 0.8882E+00 +/- 0.8671E+00 ( 97.624 %)
Born*ao2pi = 0.1180E-02 +/- 0.2653E-03 ( 22.489 %)
Chi^2= 0.1079E+01
accumulated results ABS integral = 0.9607E-01 +/- 0.1691E-01 ( 17.606 %)
accumulated results Integral = 0.1733E-01 +/- 0.1508E-01 ( 87.006 %)
accumulated results Virtual = -.1576E-02 +/- 0.3097E-02 ( 196.535 %)
accumulated results Virtual ratio = -.1056E+01 +/- 0.6462E+00 ( 61.207 %)
accumulated results ABS virtual = 0.1169E-01 +/- 0.3092E-02 ( 26.449 %)
accumulated results Born*ao2pi = 0.7636E-03 +/- 0.1232E-03 ( 16.137 %)
accumulated result Chi^2 per DoF = 0.1079E+01
update virtual fraction to: 0.732 *******
  1: 0 1 2
                          3
 ------- iteration 3
 Update # PS points (even): 4160 --> 4160
ABS integral = 0.1695E+00 +/- 0.1227E+00 ( 72.395 %)
Integral = 0.1213E+00 +/- 0.1227E+00 ( 101.129 %)
Virtual = 0.3946E+00 +/- 0.3267E+00 ( 82.780 %)
Virtual ratio = 0.8764E+03 +/- 0.5661E+03 ( 64.598 %)
ABS virtual = 0.3948E+00 +/- 0.3267E+00 ( 82.753 %)
Born*ao2pi = 0.2300E-03 +/- 0.1945E-03 ( 84.534 %)
Chi^2= 0.2766E+00
accumulated results ABS integral = 0.1050E+00 +/- 0.1676E-01 ( 15.963 %)
accumulated results Integral = 0.2871E-01 +/- 0.1497E-01 ( 52.123 %)
accumulated results Virtual = 0.2145E-02 +/- 0.3097E-02 ( 144.369 %)
accumulated results Virtual ratio = -.5536E-01 +/- 0.6462E+00 ( ******* %)
accumulated results ABS virtual = 0.1528E-01 +/- 0.3092E-02 ( 20.232 %)
accumulated results Born*ao2pi = 0.5566E-03 +/- 0.1041E-03 ( 18.699 %)
accumulated result Chi^2 per DoF = 0.6776E+00
update virtual fraction to: 1.000 *******
  1: 0 1
   2 3
 ------- iteration 4
 Update # PS points (even): 8320 --> 8320
ABS integral = 0.9831E-01 +/- 0.8183E-01 ( 83.231 %)
Integral = 0.9072E-01 +/- 0.8174E-01 ( 90.101 %)
Virtual = -.1373E+01 +/- 0.1336E+01 ( 97.372 %)
Virtual ratio = 0.4576E+01 +/- 0.4499E+00 ( 9.832 %)
ABS virtual = 0.1402E+01 +/- 0.1336E+01 ( 95.331 %)
Born*ao2pi = 0.2366E-02 +/- 0.2260E-02 ( 95.519 %)
 Large fluctuation ( >30 % ).Not including iteration in results.
 ------- iteration 5
 Update # PS points (even): 16640 --> 16384
ABS integral = 0.5652E-01 +/- 0.3317E-01 ( 58.686 %)
Integral = 0.4886E-01 +/- 0.3274E-01 ( 67.012 %)
Virtual = 0.7730E+00 +/- 0.7864E+00 ( 101.736 %)
Virtual ratio = 0.3440E+01 +/- 0.7141E+00 ( 20.756 %)
ABS virtual = 0.8400E+00 +/- 0.7864E+00 ( 93.622 %)
Born*ao2pi = 0.5530E-03 +/- 0.3223E-03 ( 58.278 %)
 Large fluctuation ( >30 % ).Not including iteration in results.
 2nd bad iteration in a row. Resetting grids and starting from scratch...
 ------- iteration 1
 Update # PS points (even): 4160 --> 4160
ABS integral = 0.1274E+00 +/- 0.3279E-01 ( 25.737 %)
Integral = 0.3744E-01 +/- 0.7144E-02 ( 19.079 %)
Virtual = 0.9101E-03 +/- 0.1129E-02 ( 124.027 %)
Virtual ratio = 0.3261E+02 +/- 0.3218E+02 ( 98.685 %)
ABS virtual = 0.6640E-02 +/- 0.1126E-02 ( 16.964 %)
Born*ao2pi = 0.6393E-03 +/- 0.9129E-04 ( 14.281 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.1274E+00 +/- 0.3279E-01 ( 25.737 %)
accumulated results Integral = 0.3744E-01 +/- 0.7144E-02 ( 19.079 %)
accumulated results Virtual = 0.9101E-03 +/- 0.1129E-02 ( 124.027 %)
accumulated results Virtual ratio = 0.3261E+02 +/- 0.3218E+02 ( 98.685 %)
accumulated results ABS virtual = 0.6640E-02 +/- 0.1126E-02 ( 16.964 %)
accumulated results Born*ao2pi = 0.6393E-03 +/- 0.9129E-04 ( 14.281 %)
accumulated result Chi^2 per DoF = 0.0000E+00
update virtual fraction to: 0.250 1.424
  1: 0 1 2
                          3
 ------- iteration 2
 Update # PS points (even): 8320 --> 8320
ABS integral = 0.2480E+00 +/- 0.3964E-01 ( 15.982 %)
Integral = 0.5671E-01 +/- 0.3180E-01 ( 56.085 %)
Virtual = -.4955E-02 +/- 0.3096E-02 ( 62.482 %)
Virtual ratio = 0.3466E+01 +/- 0.3234E+00 ( 9.331 %)
ABS virtual = 0.1371E-01 +/- 0.3094E-02 ( 22.567 %)
Born*ao2pi = 0.2215E-02 +/- 0.1250E-02 ( 56.410 %)
Chi^2= 0.2772E+01
accumulated results ABS integral = 0.1820E+00 +/- 0.2527E-01 ( 13.882 %)
accumulated results Integral = 0.4098E-01 +/- 0.6970E-02 ( 17.010 %)
accumulated results Virtual = -.6569E-03 +/- 0.1060E-02 ( 161.428 %)
accumulated results Virtual ratio = 0.3756E+01 +/- 0.3234E+00 ( 8.610 %)
accumulated results ABS virtual = 0.8527E-02 +/- 0.1058E-02 ( 12.413 %)
accumulated results Born*ao2pi = 0.7466E-03 +/- 0.9105E-04 ( 12.196 %)
accumulated result Chi^2 per DoF = 0.2772E+01
update virtual fraction to: 0.063 -2.094
  1: 0 1 2
                          3
 ------- iteration 3
 Update # PS points (even): 16640 --> 16384
ABS integral = 0.2143E+00 +/- 0.1613E-01 ( 7.527 %)
Integral = 0.6414E-01 +/- 0.1515E-01 ( 23.614 %)
Virtual = 0.1248E-01 +/- 0.1122E-01 ( 89.953 %)
Virtual ratio = 0.2288E+01 +/- 0.4813E+00 ( 21.038 %)
ABS virtual = 0.2275E-01 +/- 0.1122E-01 ( 49.333 %)
Born*ao2pi = 0.1466E-02 +/- 0.5318E-03 ( 36.270 %)
Chi^2= 0.6076E+00
accumulated results ABS integral = 0.2017E+00 +/- 0.1360E-01 ( 6.740 %)
accumulated results Integral = 0.4828E-01 +/- 0.6332E-02 ( 13.116 %)
accumulated results Virtual = 0.4769E-03 +/- 0.1056E-02 ( 221.372 %)
accumulated results Virtual ratio = 0.3166E+01 +/- 0.2684E+00 ( 8.478 %)
accumulated results ABS virtual = 0.9753E-02 +/- 0.1054E-02 ( 10.805 %)
accumulated results Born*ao2pi = 0.8518E-03 +/- 0.8975E-04 ( 10.536 %)
accumulated result Chi^2 per DoF = 0.1690E+01
update virtual fraction to: 0.087 4.390
  1: 0 1 2
                          3
 ------- iteration 4
 Update # PS points (even): 33280 --> 32768
ABS integral = 0.1911E+00 +/- 0.5378E-02 ( 2.814 %)
Integral = 0.5988E-01 +/- 0.3838E-02 ( 6.410 %)
Virtual = 0.3983E-03 +/- 0.1907E-02 ( 478.883 %)
Virtual ratio = 0.3652E+01 +/- 0.2969E+00 ( 8.129 %)
ABS virtual = 0.1492E-01 +/- 0.1906E-02 ( 12.774 %)
Born*ao2pi = 0.1162E-02 +/- 0.9720E-04 ( 8.365 %)
Chi^2= 0.3105E+00
accumulated results ABS integral = 0.1941E+00 +/- 0.5001E-02 ( 2.576 %)
accumulated results Integral = 0.5550E-01 +/- 0.3282E-02 ( 5.914 %)
accumulated results Virtual = 0.4489E-03 +/- 0.9237E-03 ( 205.769 %)
accumulated results Virtual ratio = 0.3397E+01 +/- 0.1991E+00 ( 5.862 %)
accumulated results ABS virtual = 0.1159E-01 +/- 0.9223E-03 ( 7.955 %)
accumulated results Born*ao2pi = 0.1001E-02 +/- 0.6594E-04 ( 6.589 %)
accumulated result Chi^2 per DoF = 0.1230E+01
update virtual fraction to: 0.062 5.259
accumulated results last 3 iterations ABS integral = 0.1998E+00 +/- 0.5060E-0
2 ( 2.532 %)
accumulated results last 3 iterations Integral = 0.6029E-01 +/- 0.3695E-0
2 ( 6.129 %)
accumulated result last 3 iterrations Chi^2 per DoF = 0.1494E+01
  1: 0 1 2
                          3
 ------- iteration 5
 Update # PS points (even): 66560 --> 65536
ABS integral = 0.2001E+00 +/- 0.3337E-02 ( 1.668 %)
Integral = 0.5244E-01 +/- 0.2173E-02 ( 4.143 %)
Virtual = -.1671E-02 +/- 0.9524E-03 ( 56.995 %)
Virtual ratio = 0.4900E+01 +/- 0.2330E+00 ( 4.754 %)
ABS virtual = 0.1217E-01 +/- 0.9518E-03 ( 7.821 %)
Born*ao2pi = 0.1031E-02 +/- 0.5380E-04 ( 5.216 %)
Chi^2= 0.5083E+00
accumulated results ABS integral = 0.1977E+00 +/- 0.2776E-02 ( 1.404 %)
accumulated results Integral = 0.5366E-01 +/- 0.1812E-02 ( 3.376 %)
accumulated results Virtual = -.5948E-03 +/- 0.6631E-03 ( 111.470 %)
accumulated results Virtual ratio = 0.4090E+01 +/- 0.1514E+00 ( 3.701 %)
accumulated results ABS virtual = 0.1188E-01 +/- 0.6623E-03 ( 5.576 %)
accumulated results Born*ao2pi = 0.1018E-02 +/- 0.4169E-04 ( 4.096 %)
accumulated result Chi^2 per DoF = 0.1050E+01
update virtual fraction to: 0.035 2.308
accumulated results last 3 iterations ABS integral = 0.1988E+00 +/- 0.2793E-0
2 ( 1.405 %)
accumulated results last 3 iterations Integral = 0.5550E-01 +/- 0.1876E-0
2 ( 3.380 %)
accumulated result last 3 iterrations Chi^2 per DoF = 0.6489E+00
  1: 0 1 2
                          3
 Found desired accuracy
 -------
 Final result [ABS]: 0.19769282732737298 +/- 2.7757432730991043E-003
 Final result: 5.3660797313358113E-002 +/- 1.8116260964670067E-003
 chi**2 per D.o.F.: 1.0495773623091382
 Maximum weight found: 386386.27159714163
 Found for: 0.16183571138642677 0.99968534088111383
 Satistics from MadLoop:
   Total points tried: 37247
   Stability unknown: 0
   Stable PS point: 36927
   Unstable PS point (and rescued): 320
   Exceptional PS point (unstable and not rescued): 0
   Double precision used: 36927
   Quadruple precision used: 320
   Initialization phase-space points: 1
   Unknown return code (100): 0
   Unknown return code (10): 0
   Unit return code distribution (1):
 #Unit 1 = 36824
 #Unit 3 = 103
 #Unit 9 = 320
 Time spent in clustering : 48.9820633
 Time spent in PDF_Engine : 238.571777
 Time spent in Reals_evaluation: 1989.10388
 Time spent in IS_evaluation : 2286.78711
 Time spent in OneLoop_Engine : 33381.7891
 Time spent in PS_Generation : 14.7252579
 Time spent in other_tasks : -520.943726
 Time spent in Total : 37439.0156
Time in seconds: 41334

I have tried playing with nevt_job reducing it but this job/SubProcess always crashes.

I'm using the following settings:
run.card
#***********************************************************************
# MadGraph5_aMC@NLO *
# *
# run_card.dat aMC@NLO *
# *
# This file is used to set the parameters of the run. *
# *
# Some notation/conventions: *
# *
# Lines starting with a hash (#) are info or comments *
# *
# mind the format: value = variable ! comment *
#***********************************************************************
#
#*******************
# Running parameters
#*******************
#
#***********************************************************************
# Tag name for the run (one word) *
#***********************************************************************
  tag_1 = run_tag ! name of the run
#***********************************************************************
# Number of LHE events (and their normalization) and the required *
# (relative) accuracy on the Xsec. *
# These values are ignored for fixed order runs *
#***********************************************************************
  100 = nevents ! Number of unweighted events requested
  0.001 = req_acc ! Required accuracy (-1=auto determined from nevents)
  12 = nevt_job ! Max number of events per job in event generation.
                 ! (-1= no split).
#***********************************************************************
# Normalize the weights of LHE events such that they sum or average to *
# the total cross section *
#***********************************************************************
  average = event_norm ! average or sum
#***********************************************************************
# Number of points per itegration channel (ignored for aMC@NLO runs) *
#***********************************************************************
  0.01 = req_acc_FO ! Required accuracy (-1=ignored, and use the
                           ! number of points and iter. below)
# These numbers are ignored except if req_acc_FO is equal to -1
  5000 = npoints_FO_grid ! number of points to setup grids
  4 = niters_FO_grid ! number of iter. to setup grids
  10000 = npoints_FO ! number of points to compute Xsec
  6 = niters_FO ! number of iter. to compute Xsec
#***********************************************************************
# Random number seed *
#***********************************************************************
  8 = iseed ! rnd seed (0=assigned automatically=default))
#***********************************************************************
# Collider type and energy *
#***********************************************************************
  1 = lpp1 ! beam 1 type (0 = no PDF)
  1 = lpp2 ! beam 2 type (0 = no PDF)
  4000 = ebeam1 ! beam 1 energy in GeV
  4000 = ebeam2 ! beam 2 energy in GeV
#***********************************************************************
# PDF choice: this automatically fixes also alpha_s(MZ) and its evol. *
#***********************************************************************
  lhapdf = pdlabel ! PDF set
  260000 = lhaid ! if pdlabel=lhapdf, this is the lhapdf number
#***********************************************************************
# Include the NLO Monte Carlo subtr. terms for the following parton *
# shower (HERWIG6 | HERWIGPP | PYTHIA6Q | PYTHIA6PT | PYTHIA8) *
# WARNING: PYTHIA6PT works only for processes without FSR!!!! *
#***********************************************************************
  PYTHIA8 = parton_shower
 #***********************************************************************
# Renormalization and factorization scales *
# (Default functional form for the non-fixed scales is the sum of *
# the transverse masses of all final state particles and partons. This *
# can be changed in SubProcesses/set_scales.f) *
#***********************************************************************
  F = fixed_ren_scale ! if .true. use fixed ren scale
  F = fixed_fac_scale ! if .true. use fixed fac scale
  91.188 = muR_ref_fixed ! fixed ren reference scale
  91.188 = muF1_ref_fixed ! fixed fact reference scale for pdf1
  91.188 = muF2_ref_fixed ! fixed fact reference scale for pdf2
#***********************************************************************
# Renormalization and factorization scales (advanced and NLO options) *
#***********************************************************************
  F = fixed_QES_scale ! if .true. use fixed Ellis-Sexton scale
  91.188 = QES_ref_fixed ! fixed Ellis-Sexton reference scale
  1 = muR_over_ref ! ratio of current muR over reference muR
  1 = muF1_over_ref ! ratio of current muF1 over reference muF1
  1 = muF2_over_ref ! ratio of current muF2 over reference muF2
  1 = QES_over_ref ! ratio of current QES over reference QES
#***********************************************************************
# Reweight flags to get scale dependence and PDF uncertainty *
# For scale dependence: factor rw_scale_up/down around central scale *
# For PDF uncertainty: use LHAPDF with supported set *
#***********************************************************************
  .true. = reweight_scale ! reweight to get scale dependence
  0.5 = rw_Rscale_down ! lower bound for ren scale variations
  2.0 = rw_Rscale_up ! upper bound for ren scale variations
  0.5 = rw_Fscale_down ! lower bound for fact scale variations
  2.0 = rw_Fscale_up ! upper bound for fact scale variations
  .true. = reweight_PDF ! reweight to get PDF uncertainty
  260001 = PDF_set_min ! First of the error PDF sets
  260100 = PDF_set_max ! Last of the error PDF sets
#***********************************************************************
# Merging - WARNING! Applies merging only at the hard-event level. *
# After showering an MLM-type merging should be applied as well. *
# See http://amcatnlo.cern.ch/FxFx_merging.htm for more details. *
#***********************************************************************
  3 = ickkw ! 0 no merging, 3 FxFx merging, 4 UNLOPS
#***********************************************************************
#
#***********************************************************************
# BW cutoff (M+/-bwcutoff*Gamma) *
#***********************************************************************
  15 = bwcutoff
 #***********************************************************************
# Cuts on the jets *
# Jet clustering is performed by FastJet.
# When matching to a parton shower, these generation cuts should be *
# considerably softer than the analysis cuts. *
# (more specific cuts can be specified in SubProcesses/cuts.f) *
#***********************************************************************
  1 = jetalgo ! FastJet jet algorithm (1=kT, 0=C/A, -1=anti-kT)
  1.0 = jetradius ! The radius parameter for the jet algorithm
  10 = ptj ! Min jet transverse momentum
  -1 = etaj ! Max jet abs(pseudo-rap) (a value .lt.0 means no cut)
#***********************************************************************
# Cuts on the charged leptons (e+, e-, mu+, mu-, tau+ and tau-) *
# (more specific gen cuts can be specified in SubProcesses/cuts.f) *
#***********************************************************************
  0 = ptl ! Min lepton transverse momentum
  -1 = etal ! Max lepton abs(pseudo-rap) (a value .lt.0 means no cut)
  0 = drll ! Min distance between opposite sign lepton pairs
  0 = drll_sf ! Min distance between opp. sign same-flavor lepton pairs
  0 = mll ! Min inv. mass of all opposite sign lepton pairs
  30 = mll_sf ! Min inv. mass of all opp. sign same-flavor lepton pairs
#***********************************************************************
# Photon-isolation cuts, according to hep-ph/9801442 *
# When ptgmin=0, all the other parameters are ignored *
#***********************************************************************
  20 = ptgmin ! Min photon transverse momentum
  -1 = etagamma ! Max photon abs(pseudo-rap)
  0.4 = R0gamma ! Radius of isolation code
  1.0 = xn ! n parameter of eq.(3.4) in hep-ph/9801442
  1.0 = epsgamma ! epsilon_gamma parameter of eq.(3.4) in hep-ph/9801442
  .true. = isoEM ! isolate photons from EM energy (photons and leptons
)
#***********************************************************************
# Maximal PDG code for quark to be considered a jet when applying cuts.*
# At least all massless quarks of the model should be included here. *
#***********************************************************************
  4 = maxjetflavor
 #***********************************************************************
# For aMCfast+APPLGRID use in PDF fitting (http://amcfast.hepforge.org)*
#***********************************************************************
 0 = iappl ! aMCfast switch (0=OFF, 1=prepare APPLgrids, 2=fill grids)
#***********************************************************************
  260000 = lhaid

proc_card_mg5
#************************************************************
#* MadGraph5_aMC@NLO *
#* *
#* * * *
#* * * * * *
#* * * * * 5 * * * * *
#* * * * * *
#* * * *
#* *
#* *
#* VERSION 2.2.1 2014-09-25 *
#* *
#* The MadGraph5_aMC@NLO Development Team - Find us at *
#* https://server06.fynu.ucl.ac.be/projects/madgraph *
#* *
#************************************************************
#* *
#* Command File for MadGraph5_aMC@NLO *
#* *
#* run as ./bin/mg5_aMC filename *
#* *
#************************************************************
set group_subprocesses Auto
set ignore_six_quark_processes False
set loop_optimized_output True
set complex_mass_scheme False
import model loop_sm
define p = g u c d s u~ c~ d~ s~
define j = g u c d s u~ c~ d~ s~
define l+ = e+ mu+
define l- = e- mu-
define vl = ve vm vt
define vl~ = ve~ vm~ vt~
define p = p
define j = j
generate p p > w+ w- [QCD] @0
add process p p > w+ w- j [QCD] @1
add process p p > w+ w- j j [QCD] @2
output wwelmunu012j_4f_NLO_FXFX

Thank you very much in advance.
Javi

Revision history for this message
Rikkert Frederix (frederix) said : 		#3

Dear Javi,

Indeed, there does not seem to be anything wrong in this log file.

At which stage of the computation did you get the error? Still at the 'Setting up grid' ? Or already at the 'Computing upper envelope' ?

Best,
Rikkert

Revision history for this message
Javier Fernandez (javier-fernandez-h) said : 		#4

Dear Rikkert,

it is at Setting up grid step. I attach here the full log.

Thanks in advance
Javi

Starting job on Fri Nov 28 10:55:00 CET 2014
Running on Linux gae012.ciencias.uniovi.es 2.6.32-504.el6.x86_64 #1 SMP Tue Oct 14 19:40:41 CEST 2014 x86_64 x86_64 x86_64 GNU/Linux
System release Scientific Linux CERN SLC release 6.6 (Carbon)
patching file MG5_aMC_v2_2_1/madgraph/various/cluster.py
patching file ./MG5_aMC_v2_2_1/Template/LO/bin/internal/Gridpack/run.sh
patching file MG5_aMC_v2_2_1/MadSpin/decay.py
patching file MG5_aMC_v2_2_1/MadSpin/decay.py
patching file MG5_aMC_v2_2_1/madgraph/interface/madevent_interface.py
patching file ./MG5_aMC_v2_2_1/madgraph/interface/amcatnlo_run_interface.py
patching file MG5_aMC_v2_2_1/models/loop_sm/restrict_ckm_no_b_mass.dat
patching file MG5_aMC_v2_2_1/models/sm/restrict_ckm_lepton_masses.dat
patching file MG5_aMC_v2_2_1/models/sm/restrict_ckm_lepton_masses_no_b_mass.dat
patching file MG5_aMC_v2_2_1/models/sm/restrict_lepton_masses_no_b_mass.dat
************************************************************
* *
* W E L C O M E to *
* M A D G R A P H 5 _ a M C @ N L O *
* *
* *
* * * *
* * * * * *
* * * * * 5 * * * * *
* * * * * *
* * * *
* *
* VERSION 2.2.1 2014-09-25 *
* *
* The MadGraph5_aMC@NLO Development Team - Find us at *
* https://server06.fynu.ucl.ac.be/projects/madgraph *
* and *
* http://amcatnlo.web.cern.ch/amcatnlo/ *
* *
* Type 'help' for in-line help. *
* Type 'tutorial' to learn how MG5 works *
* Type 'tutorial aMCatNLO' to learn how aMC@NLO works *
* Type 'tutorial MadLoop' to learn how MadLoop works *
* *
************************************************************
load MG5 configuration from input/mg5_configuration.txt
lhapdf-config does not seem to correspond to a valid lhapdf-config executable.
Please set the 'lhapdf' variable to the (absolute) /PATH/TO/lhapdf-config (including lhapdf-config).
Note that you can still compile and run aMC@NLO with the built-in PDFs
 MG5_aMC> set lhapdf /PATH/TO/lhapdf-config

fastjet-config does not seem to correspond to a valid fastjet-config executable (v3+). We will use fjcore instead.
 Please set the 'fastjet'variable to the full (absolute) /PATH/TO/fastjet-config (including fastjet-config).
 MG5_aMC> set fastjet /PATH/TO/fastjet-config

Using default eps viewer "evince". Set another one in ./input/mg5_configuration.txt
Using default web browser "firefox". Set another one in ./input/mg5_configuration.txt
import /tmp/jfernan/CMSSW_5_3_22_patch1/src/genproductions/bin/MadGraph5_aMCatNLO/wwelmunu012j_4f_NLO_FXFX/wwelmunu012j_4f_NLO_FXFX_gridpack/work/MG5_aMC_v2_2_1/mgconfigscript
The import format was not given, so we guess it as command
set auto_update 0
save options --auto
save configuration file to /tmp/jfernan/CMSSW_5_3_22_patch1/src/genproductions/bin/MadGraph5_aMCatNLO/wwelmunu012j_4f_NLO_FXFX/wwelmunu012j_4f_NLO_FXFX_gridpack/work/MG5_aMC_v2_2_1/input/mg5_config
uration.txt
set automatic_html_opening False
This option will be the default in any output that you are going to create in this session.
In order to keep this changes permanent please run 'save options'
set output_dependencies internal
save options --auto
save configuration file to /tmp/jfernan/CMSSW_5_3_22_patch1/src/genproductions/bin/MadGraph5_aMCatNLO/wwelmunu012j_4f_NLO_FXFX/wwelmunu012j_4f_NLO_FXFX_gridpack/work/MG5_aMC_v2_2_1/input/mg5_config
uration.txt
set lhapdf /cvmfs/cms.cern.ch/slc6_amd64_gcc472/external/lhapdf6/6.1.4/bin/lhapdf-config
set lhapdf to /cvmfs/cms.cern.ch/slc6_amd64_gcc472/external/lhapdf6/6.1.4/bin/lhapdf-config
save options --auto
save configuration file to /tmp/jfernan/CMSSW_5_3_22_patch1/src/genproductions/bin/MadGraph5_aMCatNLO/wwelmunu012j_4f_NLO_FXFX/wwelmunu012j_4f_NLO_FXFX_gridpack/work/MG5_aMC_v2_2_1/input/mg5_config
uration.txt
set run_mode 2
This option will be the default in any output that you are going to create in this session.
In order to keep this changes permanent please run 'save options'
set nb_core 32
This option will be the default in any output that you are going to create in this session.
In order to keep this changes permanent please run 'save options'
save options
save configuration file to /tmp/jfernan/CMSSW_5_3_22_patch1/src/genproductions/bin/MadGraph5_aMCatNLO/wwelmunu012j_4f_NLO_FXFX/wwelmunu012j_4f_NLO_FXFX_gridpack/work/MG5_aMC_v2_2_1/input/mg5_config
uration.txt
quit

cd src; make
make[1]: Entering directory `/tmp/jfernan/CMSSW_5_3_22_patch1/src/genproductions/bin/MadGraph5_aMCatNLO/wwelmunu012j_4f_NLO_FXFX/wwelmunu012j_4f_NLO_FXFX_gridpack/work/MG5_aMC_v2_2_1/SysCalc/src'
g++ -O -DDROP_CGAL -I../include -I/cvmfs/cms.cern.ch/slc6_amd64_gcc472/external/lhapdf6/6.1.4/include -I/cvmfs/cms.cern.ch/slc6_amd64_gcc472/external/boost/1.47.0-cms/include -c SysCalc.cc
g++ -O -DDROP_CGAL -I../include -I/cvmfs/cms.cern.ch/slc6_amd64_gcc472/external/lhapdf6/6.1.4/include -I/cvmfs/cms.cern.ch/slc6_amd64_gcc472/external/boost/1.47.0-cms/include -c tinyxml2.cpp
g++ -O -DDROP_CGAL -I../include -I/cvmfs/cms.cern.ch/slc6_amd64_gcc472/external/lhapdf6/6.1.4/include -I/cvmfs/cms.cern.ch/slc6_amd64_gcc472/external/boost/1.47.0-cms/include -c sys_calc.cc
g++ -o ../sys_calc SysCalc.o tinyxml2.o sys_calc.o /cvmfs/cms.cern.ch/slc6_amd64_gcc472/external/lhapdf6/6.1.4/lib/libLHAPDF.a
make[1]: Leaving directory `/tmp/jfernan/CMSSW_5_3_22_patch1/src/genproductions/bin/MadGraph5_aMCatNLO/wwelmunu012j_4f_NLO_FXFX/wwelmunu012j_4f_NLO_FXFX_gridpack/work/MG5_aMC_v2_2_1/SysCalc/src'
/tmp/jfernan/CMSSW_5_3_22_patch1/src/genproductions/bin/MadGraph5_aMCatNLO/wwelmunu012j_4f_NLO_FXFX/wwelmunu012j_4f_NLO_FXFX_gridpack/work
************************************************************
* *
* W E L C O M E to *
* M A D G R A P H 5 _ a M C @ N L O *
* *
* *
* * * *
* * * * * *
* * * * * 5 * * * * *
* * * * * *
* * * *
* *
* VERSION 2.2.1 2014-09-25 *
* *
* The MadGraph5_aMC@NLO Development Team - Find us at *
* https://server06.fynu.ucl.ac.be/projects/madgraph *
* and *
* http://amcatnlo.web.cern.ch/amcatnlo/ *
* *
* Type 'help' for in-line help. *
* Type 'tutorial' to learn how MG5 works *
* Type 'tutorial aMCatNLO' to learn how aMC@NLO works *
* Type 'tutorial MadLoop' to learn how MadLoop works *
* *
************************************************************
load MG5 configuration from MG5_aMC_v2_2_1/input/mg5_configuration.txt
set lhapdf to /cvmfs/cms.cern.ch/slc6_amd64_gcc472/external/lhapdf6/6.1.4/bin/lhapdf-config
fastjet-config does not seem to correspond to a valid fastjet-config executable (v3+). We will use fjcore instead.
 Please set the 'fastjet'variable to the full (absolute) /PATH/TO/fastjet-config (including fastjet-config).
 MG5_aMC> set fastjet /PATH/TO/fastjet-config

Using default eps viewer "evince". Set another one in ./input/mg5_configuration.txt
Using default web browser "firefox". Set another one in ./input/mg5_configuration.txt
import /tmp/jfernan/CMSSW_5_3_22_patch1/src/genproductions/bin/MadGraph5_aMCatNLO/wwelmunu012j_4f_NLO_FXFX/wwelmunu012j_4f_NLO_FXFX_gridpack/work/wwelmunu012j_4f_NLO_FXFX_proc_card.dat
The import format was not given, so we guess it as command
import model loop_sm
INFO: load particles
INFO: load vertices
INFO: Restrict model loop_sm with file MG5_aMC_v2_2_1/models/loop_sm/restrict_default.dat .
INFO: Run "set stdout_level DEBUG" before import for more information.
INFO: Change particles name to pass to MG5 convention
Defined multiparticle p = g u c d s u~ c~ d~ s~
Defined multiparticle j = g u c d s u~ c~ d~ s~
Defined multiparticle l+ = e+ mu+
Defined multiparticle l- = e- mu-
Defined multiparticle vl = ve vm vt
Defined multiparticle vl~ = ve~ vm~ vt~
Defined multiparticle all = g gh gh~ d u s c d~ u~ s~ c~ a ve vm vt e- mu- ve~ vm~ vt~ e+ mu+ b t b~ t~ z w+ h w- ta- ta+
define p = p
Defined multiparticle p = g u c d s u~ c~ d~ s~
define j = j
Defined multiparticle j = g u c d s u~ c~ d~ s~
generate p p > w+ w- [QCD] @0
INFO: Generating FKS-subtracted matrix elements for born process: u u~ > w+ w- [ QCD ] (1 / 8)
INFO: Generating FKS-subtracted matrix elements for born process: c c~ > w+ w- [ QCD ] (2 / 8)
INFO: Generating FKS-subtracted matrix elements for born process: d d~ > w+ w- [ QCD ] (3 / 8)
INFO: Generating FKS-subtracted matrix elements for born process: s s~ > w+ w- [ QCD ] (4 / 8)
INFO: Generating FKS-subtracted matrix elements for born process: u~ u > w+ w- [ QCD ] (5 / 8)
INFO: Generating FKS-subtracted matrix elements for born process: c~ c > w+ w- [ QCD ] (6 / 8)
INFO: Generating FKS-subtracted matrix elements for born process: d~ d > w+ w- [ QCD ] (7 / 8)
INFO: Generating FKS-subtracted matrix elements for born process: s~ s > w+ w- [ QCD ] (8 / 8)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u u~ > w+ w- QED=2 [ QCD ] (1 / 8)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c c~ > w+ w- QED=2 [ QCD ] (2 / 8)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d d~ > w+ w- QED=2 [ QCD ] (3 / 8)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s s~ > w+ w- QED=2 [ QCD ] (4 / 8)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u~ u > w+ w- QED=2 [ QCD ] (5 / 8)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c~ c > w+ w- QED=2 [ QCD ] (6 / 8)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d~ d > w+ w- QED=2 [ QCD ] (7 / 8)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s~ s > w+ w- QED=2 [ QCD ] (8 / 8)
INFO: Generated 8 subprocesses with 168 real emission diagrams, 24 born diagrams and 48 virtual diagrams
add process p p > w+ w- j [QCD] @1
INFO: Generating FKS-subtracted matrix elements for born process: g u > w+ w- u [ QCD ] @1 (1 / 24)
INFO: Generating FKS-subtracted matrix elements for born process: g c > w+ w- c [ QCD ] @1 (2 / 24)
INFO: Generating FKS-subtracted matrix elements for born process: g d > w+ w- d [ QCD ] @1 (3 / 24)
INFO: Generating FKS-subtracted matrix elements for born process: g s > w+ w- s [ QCD ] @1 (4 / 24)
INFO: Generating FKS-subtracted matrix elements for born process: g u~ > w+ w- u~ [ QCD ] @1 (5 / 24)
INFO: Generating FKS-subtracted matrix elements for born process: g c~ > w+ w- c~ [ QCD ] @1 (6 / 24)
INFO: Generating FKS-subtracted matrix elements for born process: g d~ > w+ w- d~ [ QCD ] @1 (7 / 24)
INFO: Generating FKS-subtracted matrix elements for born process: g s~ > w+ w- s~ [ QCD ] @1 (8 / 24)
INFO: Generating FKS-subtracted matrix elements for born process: u g > w+ w- u [ QCD ] @1 (9 / 24)
INFO: Generating FKS-subtracted matrix elements for born process: u u~ > w+ w- g [ QCD ] @1 (10 / 24)
INFO: Generating FKS-subtracted matrix elements for born process: c g > w+ w- c [ QCD ] @1 (11 / 24)
INFO: Generating FKS-subtracted matrix elements for born process: c c~ > w+ w- g [ QCD ] @1 (12 / 24)
INFO: Generating FKS-subtracted matrix elements for born process: d g > w+ w- d [ QCD ] @1 (13 / 24)
INFO: Generating FKS-subtracted matrix elements for born process: d d~ > w+ w- g [ QCD ] @1 (14 / 24)
INFO: Generating FKS-subtracted matrix elements for born process: s g > w+ w- s [ QCD ] @1 (15 / 24)
INFO: Generating FKS-subtracted matrix elements for born process: s s~ > w+ w- g [ QCD ] @1 (16 / 24)
INFO: Generating FKS-subtracted matrix elements for born process: u~ g > w+ w- u~ [ QCD ] @1 (17 / 24)
INFO: Generating FKS-subtracted matrix elements for born process: u~ u > w+ w- g [ QCD ] @1 (18 / 24)
INFO: Generating FKS-subtracted matrix elements for born process: c~ g > w+ w- c~ [ QCD ] @1 (19 / 24)
INFO: Generating FKS-subtracted matrix elements for born process: c~ c > w+ w- g [ QCD ] @1 (20 / 24)
INFO: Generating FKS-subtracted matrix elements for born process: d~ g > w+ w- d~ [ QCD ] @1 (21 / 24)
INFO: Generating FKS-subtracted matrix elements for born process: d~ d > w+ w- g [ QCD ] @1 (22 / 24)
INFO: Generating FKS-subtracted matrix elements for born process: s~ g > w+ w- s~ [ QCD ] @1 (23 / 24)
INFO: Generating FKS-subtracted matrix elements for born process: s~ s > w+ w- g [ QCD ] @1 (24 / 24)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: g u > w+ w- u QED=2 QCD=1 [ QCD ] @1 (1 / 24)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: g c > w+ w- c QED=2 QCD=1 [ QCD ] @1 (2 / 24)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: g d > w+ w- d QED=2 QCD=1 [ QCD ] @1 (3 / 24)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: g s > w+ w- s QED=2 QCD=1 [ QCD ] @1 (4 / 24)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: g u~ > w+ w- u~ QED=2 QCD=1 [ QCD ] @1 (5 / 24)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: g c~ > w+ w- c~ QED=2 QCD=1 [ QCD ] @1 (6 / 24)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: g d~ > w+ w- d~ QED=2 QCD=1 [ QCD ] @1 (7 / 24)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: g s~ > w+ w- s~ QED=2 QCD=1 [ QCD ] @1 (8 / 24)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u g > w+ w- u QED=2 QCD=1 [ QCD ] @1 (9 / 24)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u u~ > w+ w- g QED=2 QCD=1 [ QCD ] @1 (10 / 24)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c g > w+ w- c QED=2 QCD=1 [ QCD ] @1 (11 / 24)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c c~ > w+ w- g QED=2 QCD=1 [ QCD ] @1 (12 / 24)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d g > w+ w- d QED=2 QCD=1 [ QCD ] @1 (13 / 24)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d d~ > w+ w- g QED=2 QCD=1 [ QCD ] @1 (14 / 24)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s g > w+ w- s QED=2 QCD=1 [ QCD ] @1 (15 / 24)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s s~ > w+ w- g QED=2 QCD=1 [ QCD ] @1 (16 / 24)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u~ g > w+ w- u~ QED=2 QCD=1 [ QCD ] @1 (17 / 24)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u~ u > w+ w- g QED=2 QCD=1 [ QCD ] @1 (18 / 24)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c~ g > w+ w- c~ QED=2 QCD=1 [ QCD ] @1 (19 / 24)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c~ c > w+ w- g QED=2 QCD=1 [ QCD ] @1 (20 / 24)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d~ g > w+ w- d~ QED=2 QCD=1 [ QCD ] @1 (21 / 24)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d~ d > w+ w- g QED=2 QCD=1 [ QCD ] @1 (22 / 24)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s~ g > w+ w- s~ QED=2 QCD=1 [ QCD ] @1 (23 / 24)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s~ s > w+ w- g QED=2 QCD=1 [ QCD ] @1 (24 / 24)
INFO: Generated 24 subprocesses with 2788 real emission diagrams, 168 born diagrams and 2352 virtual diagrams
add process p p > w+ w- j j [QCD] @2
INFO: Generating FKS-subtracted matrix elements for born process: g g > w+ w- u u~ [ QCD ] @2 (1 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: g g > w+ w- c c~ [ QCD ] @2 (2 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: g g > w+ w- d d~ [ QCD ] @2 (3 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: g g > w+ w- s s~ [ QCD ] @2 (4 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: g u > w+ w- g u [ QCD ] @2 (5 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: g c > w+ w- g c [ QCD ] @2 (6 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: g d > w+ w- g d [ QCD ] @2 (7 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: g s > w+ w- g s [ QCD ] @2 (8 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: g u~ > w+ w- g u~ [ QCD ] @2 (9 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: g c~ > w+ w- g c~ [ QCD ] @2 (10 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: g d~ > w+ w- g d~ [ QCD ] @2 (11 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: g s~ > w+ w- g s~ [ QCD ] @2 (12 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: u g > w+ w- g u [ QCD ] @2 (13 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: u u > w+ w- u u [ QCD ] @2 (14 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: u c > w+ w- u c [ QCD ] @2 (15 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: u d > w+ w- u d [ QCD ] @2 (16 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: u s > w+ w- u s [ QCD ] @2 (17 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: u s > w+ w- c d [ QCD ] @2 (18 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: u u~ > w+ w- g g [ QCD ] @2 (19 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: u u~ > w+ w- u u~ [ QCD ] @2 (20 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: u u~ > w+ w- c c~ [ QCD ] @2 (21 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: u u~ > w+ w- d d~ [ QCD ] @2 (22 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: u u~ > w+ w- s s~ [ QCD ] @2 (23 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: u c~ > w+ w- u c~ [ QCD ] @2 (24 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: u c~ > w+ w- d s~ [ QCD ] @2 (25 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: u d~ > w+ w- u d~ [ QCD ] @2 (26 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: u d~ > w+ w- c s~ [ QCD ] @2 (27 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: u s~ > w+ w- u s~ [ QCD ] @2 (28 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: c g > w+ w- g c [ QCD ] @2 (29 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: c u > w+ w- u c [ QCD ] @2 (30 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: c c > w+ w- c c [ QCD ] @2 (31 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: c d > w+ w- u s [ QCD ] @2 (32 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: c d > w+ w- c d [ QCD ] @2 (33 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: c s > w+ w- c s [ QCD ] @2 (34 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: c u~ > w+ w- c u~ [ QCD ] @2 (35 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: c u~ > w+ w- s d~ [ QCD ] @2 (36 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: c c~ > w+ w- g g [ QCD ] @2 (37 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: c c~ > w+ w- u u~ [ QCD ] @2 (38 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: c c~ > w+ w- c c~ [ QCD ] @2 (39 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: c c~ > w+ w- d d~ [ QCD ] @2 (40 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: c c~ > w+ w- s s~ [ QCD ] @2 (41 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: c d~ > w+ w- c d~ [ QCD ] @2 (42 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: c s~ > w+ w- u d~ [ QCD ] @2 (43 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: c s~ > w+ w- c s~ [ QCD ] @2 (44 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: d g > w+ w- g d [ QCD ] @2 (45 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: d u > w+ w- u d [ QCD ] @2 (46 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: d c > w+ w- u s [ QCD ] @2 (47 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: d c > w+ w- c d [ QCD ] @2 (48 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: d d > w+ w- d d [ QCD ] @2 (49 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: d s > w+ w- d s [ QCD ] @2 (50 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: d u~ > w+ w- d u~ [ QCD ] @2 (51 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: d u~ > w+ w- s c~ [ QCD ] @2 (52 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: d c~ > w+ w- d c~ [ QCD ] @2 (53 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: d d~ > w+ w- g g [ QCD ] @2 (54 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: d d~ > w+ w- u u~ [ QCD ] @2 (55 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: d d~ > w+ w- c c~ [ QCD ] @2 (56 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: d d~ > w+ w- d d~ [ QCD ] @2 (57 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: d d~ > w+ w- s s~ [ QCD ] @2 (58 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: d s~ > w+ w- u c~ [ QCD ] @2 (59 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: d s~ > w+ w- d s~ [ QCD ] @2 (60 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: s g > w+ w- g s [ QCD ] @2 (61 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: s u > w+ w- u s [ QCD ] @2 (62 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: s u > w+ w- c d [ QCD ] @2 (63 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: s c > w+ w- c s [ QCD ] @2 (64 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: s d > w+ w- d s [ QCD ] @2 (65 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: s s > w+ w- s s [ QCD ] @2 (66 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: s u~ > w+ w- s u~ [ QCD ] @2 (67 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: s c~ > w+ w- d u~ [ QCD ] @2 (68 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: s c~ > w+ w- s c~ [ QCD ] @2 (69 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: s d~ > w+ w- c u~ [ QCD ] @2 (70 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: s d~ > w+ w- s d~ [ QCD ] @2 (71 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: s s~ > w+ w- g g [ QCD ] @2 (72 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: s s~ > w+ w- u u~ [ QCD ] @2 (73 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: s s~ > w+ w- c c~ [ QCD ] @2 (74 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: s s~ > w+ w- d d~ [ QCD ] @2 (75 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: s s~ > w+ w- s s~ [ QCD ] @2 (76 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: u~ g > w+ w- g u~ [ QCD ] @2 (77 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: u~ u > w+ w- g g [ QCD ] @2 (78 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: u~ u > w+ w- u u~ [ QCD ] @2 (79 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: u~ u > w+ w- c c~ [ QCD ] @2 (80 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: u~ u > w+ w- d d~ [ QCD ] @2 (81 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: u~ u > w+ w- s s~ [ QCD ] @2 (82 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: u~ c > w+ w- c u~ [ QCD ] @2 (83 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: u~ c > w+ w- s d~ [ QCD ] @2 (84 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: u~ d > w+ w- d u~ [ QCD ] @2 (85 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: u~ d > w+ w- s c~ [ QCD ] @2 (86 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: u~ s > w+ w- s u~ [ QCD ] @2 (87 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: u~ u~ > w+ w- u~ u~ [ QCD ] @2 (88 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: u~ c~ > w+ w- u~ c~ [ QCD ] @2 (89 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: u~ d~ > w+ w- u~ d~ [ QCD ] @2 (90 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: u~ s~ > w+ w- u~ s~ [ QCD ] @2 (91 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: u~ s~ > w+ w- c~ d~ [ QCD ] @2 (92 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: c~ g > w+ w- g c~ [ QCD ] @2 (93 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: c~ u > w+ w- u c~ [ QCD ] @2 (94 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: c~ u > w+ w- d s~ [ QCD ] @2 (95 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: c~ c > w+ w- g g [ QCD ] @2 (96 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: c~ c > w+ w- u u~ [ QCD ] @2 (97 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: c~ c > w+ w- c c~ [ QCD ] @2 (98 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: c~ c > w+ w- d d~ [ QCD ] @2 (99 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: c~ c > w+ w- s s~ [ QCD ] @2 (100 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: c~ d > w+ w- d c~ [ QCD ] @2 (101 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: c~ s > w+ w- d u~ [ QCD ] @2 (102 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: c~ s > w+ w- s c~ [ QCD ] @2 (103 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: c~ u~ > w+ w- u~ c~ [ QCD ] @2 (104 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: c~ c~ > w+ w- c~ c~ [ QCD ] @2 (105 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: c~ d~ > w+ w- u~ s~ [ QCD ] @2 (106 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: c~ d~ > w+ w- c~ d~ [ QCD ] @2 (107 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: c~ s~ > w+ w- c~ s~ [ QCD ] @2 (108 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: d~ g > w+ w- g d~ [ QCD ] @2 (109 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: d~ u > w+ w- u d~ [ QCD ] @2 (110 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: d~ u > w+ w- c s~ [ QCD ] @2 (111 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: d~ c > w+ w- c d~ [ QCD ] @2 (112 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: d~ d > w+ w- g g [ QCD ] @2 (113 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: d~ d > w+ w- u u~ [ QCD ] @2 (114 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: d~ d > w+ w- c c~ [ QCD ] @2 (115 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: d~ d > w+ w- d d~ [ QCD ] @2 (116 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: d~ d > w+ w- s s~ [ QCD ] @2 (117 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: d~ s > w+ w- c u~ [ QCD ] @2 (118 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: d~ s > w+ w- s d~ [ QCD ] @2 (119 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: d~ u~ > w+ w- u~ d~ [ QCD ] @2 (120 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: d~ c~ > w+ w- u~ s~ [ QCD ] @2 (121 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: d~ c~ > w+ w- c~ d~ [ QCD ] @2 (122 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: d~ d~ > w+ w- d~ d~ [ QCD ] @2 (123 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: d~ s~ > w+ w- d~ s~ [ QCD ] @2 (124 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: s~ g > w+ w- g s~ [ QCD ] @2 (125 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: s~ u > w+ w- u s~ [ QCD ] @2 (126 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: s~ c > w+ w- u d~ [ QCD ] @2 (127 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: s~ c > w+ w- c s~ [ QCD ] @2 (128 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: s~ d > w+ w- u c~ [ QCD ] @2 (129 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: s~ d > w+ w- d s~ [ QCD ] @2 (130 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: s~ s > w+ w- g g [ QCD ] @2 (131 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: s~ s > w+ w- u u~ [ QCD ] @2 (132 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: s~ s > w+ w- c c~ [ QCD ] @2 (133 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: s~ s > w+ w- d d~ [ QCD ] @2 (134 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: s~ s > w+ w- s s~ [ QCD ] @2 (135 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: s~ u~ > w+ w- u~ s~ [ QCD ] @2 (136 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: s~ u~ > w+ w- c~ d~ [ QCD ] @2 (137 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: s~ c~ > w+ w- c~ s~ [ QCD ] @2 (138 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: s~ d~ > w+ w- d~ s~ [ QCD ] @2 (139 / 140)
INFO: Generating FKS-subtracted matrix elements for born process: s~ s~ > w+ w- s~ s~ [ QCD ] @2 (140 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: g g > w+ w- u u~ QED=2 QCD=2 [ QCD ] @2 (1 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: g g > w+ w- c c~ QED=2 QCD=2 [ QCD ] @2 (2 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: g g > w+ w- d d~ QED=2 QCD=2 [ QCD ] @2 (3 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: g g > w+ w- s s~ QED=2 QCD=2 [ QCD ] @2 (4 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: g u > w+ w- u g QED=2 QCD=2 [ QCD ] @2 (5 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: g c > w+ w- c g QED=2 QCD=2 [ QCD ] @2 (6 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: g d > w+ w- d g QED=2 QCD=2 [ QCD ] @2 (7 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: g s > w+ w- s g QED=2 QCD=2 [ QCD ] @2 (8 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: g u~ > w+ w- u~ g QED=2 QCD=2 [ QCD ] @2 (9 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: g c~ > w+ w- c~ g QED=2 QCD=2 [ QCD ] @2 (10 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: g d~ > w+ w- d~ g QED=2 QCD=2 [ QCD ] @2 (11 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: g s~ > w+ w- s~ g QED=2 QCD=2 [ QCD ] @2 (12 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u g > w+ w- u g QED=2 QCD=2 [ QCD ] @2 (13 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u u > w+ w- u u QED=2 QCD=2 [ QCD ] @2 (14 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u c > w+ w- u c QED=2 QCD=2 [ QCD ] @2 (15 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u d > w+ w- u d QED=2 QCD=2 [ QCD ] @2 (16 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u s > w+ w- u s QED=2 QCD=2 [ QCD ] @2 (17 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u s > w+ w- c d QED=2 QCD=2 [ QCD ] @2 (18 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u u~ > w+ w- g g QED=2 QCD=2 [ QCD ] @2 (19 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u u~ > w+ w- u u~ QED=2 QCD=2 [ QCD ] @2 (20 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u u~ > w+ w- c c~ QED=2 QCD=2 [ QCD ] @2 (21 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u u~ > w+ w- d d~ QED=2 QCD=2 [ QCD ] @2 (22 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u u~ > w+ w- s s~ QED=2 QCD=2 [ QCD ] @2 (23 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u c~ > w+ w- u c~ QED=2 QCD=2 [ QCD ] @2 (24 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u c~ > w+ w- d s~ QED=2 QCD=2 [ QCD ] @2 (25 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u d~ > w+ w- u d~ QED=2 QCD=2 [ QCD ] @2 (26 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u d~ > w+ w- c s~ QED=2 QCD=2 [ QCD ] @2 (27 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u s~ > w+ w- u s~ QED=2 QCD=2 [ QCD ] @2 (28 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c g > w+ w- c g QED=2 QCD=2 [ QCD ] @2 (29 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c u > w+ w- c u QED=2 QCD=2 [ QCD ] @2 (30 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c c > w+ w- c c QED=2 QCD=2 [ QCD ] @2 (31 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c d > w+ w- s u QED=2 QCD=2 [ QCD ] @2 (32 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c d > w+ w- c d QED=2 QCD=2 [ QCD ] @2 (33 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c s > w+ w- c s QED=2 QCD=2 [ QCD ] @2 (34 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c u~ > w+ w- c u~ QED=2 QCD=2 [ QCD ] @2 (35 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c u~ > w+ w- s d~ QED=2 QCD=2 [ QCD ] @2 (36 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c c~ > w+ w- g g QED=2 QCD=2 [ QCD ] @2 (37 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c c~ > w+ w- u u~ QED=2 QCD=2 [ QCD ] @2 (38 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c c~ > w+ w- c c~ QED=2 QCD=2 [ QCD ] @2 (39 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c c~ > w+ w- d d~ QED=2 QCD=2 [ QCD ] @2 (40 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c c~ > w+ w- s s~ QED=2 QCD=2 [ QCD ] @2 (41 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c d~ > w+ w- c d~ QED=2 QCD=2 [ QCD ] @2 (42 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c s~ > w+ w- u d~ QED=2 QCD=2 [ QCD ] @2 (43 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c s~ > w+ w- c s~ QED=2 QCD=2 [ QCD ] @2 (44 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d g > w+ w- d g QED=2 QCD=2 [ QCD ] @2 (45 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d u > w+ w- d u QED=2 QCD=2 [ QCD ] @2 (46 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d c > w+ w- s u QED=2 QCD=2 [ QCD ] @2 (47 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d c > w+ w- d c QED=2 QCD=2 [ QCD ] @2 (48 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d d > w+ w- d d QED=2 QCD=2 [ QCD ] @2 (49 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d s > w+ w- d s QED=2 QCD=2 [ QCD ] @2 (50 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d u~ > w+ w- d u~ QED=2 QCD=2 [ QCD ] @2 (51 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d u~ > w+ w- s c~ QED=2 QCD=2 [ QCD ] @2 (52 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d c~ > w+ w- d c~ QED=2 QCD=2 [ QCD ] @2 (53 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d d~ > w+ w- g g QED=2 QCD=2 [ QCD ] @2 (54 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d d~ > w+ w- u u~ QED=2 QCD=2 [ QCD ] @2 (55 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d d~ > w+ w- c c~ QED=2 QCD=2 [ QCD ] @2 (56 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d d~ > w+ w- d d~ QED=2 QCD=2 [ QCD ] @2 (57 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d d~ > w+ w- s s~ QED=2 QCD=2 [ QCD ] @2 (58 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d s~ > w+ w- u c~ QED=2 QCD=2 [ QCD ] @2 (59 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d s~ > w+ w- d s~ QED=2 QCD=2 [ QCD ] @2 (60 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s g > w+ w- s g QED=2 QCD=2 [ QCD ] @2 (61 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s u > w+ w- s u QED=2 QCD=2 [ QCD ] @2 (62 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s u > w+ w- c d QED=2 QCD=2 [ QCD ] @2 (63 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s c > w+ w- s c QED=2 QCD=2 [ QCD ] @2 (64 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s d > w+ w- s d QED=2 QCD=2 [ QCD ] @2 (65 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s s > w+ w- s s QED=2 QCD=2 [ QCD ] @2 (66 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s u~ > w+ w- s u~ QED=2 QCD=2 [ QCD ] @2 (67 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s c~ > w+ w- d u~ QED=2 QCD=2 [ QCD ] @2 (68 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s c~ > w+ w- s c~ QED=2 QCD=2 [ QCD ] @2 (69 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s d~ > w+ w- c u~ QED=2 QCD=2 [ QCD ] @2 (70 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s d~ > w+ w- s d~ QED=2 QCD=2 [ QCD ] @2 (71 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s s~ > w+ w- g g QED=2 QCD=2 [ QCD ] @2 (72 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s s~ > w+ w- u u~ QED=2 QCD=2 [ QCD ] @2 (73 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s s~ > w+ w- c c~ QED=2 QCD=2 [ QCD ] @2 (74 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s s~ > w+ w- d d~ QED=2 QCD=2 [ QCD ] @2 (75 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s s~ > w+ w- s s~ QED=2 QCD=2 [ QCD ] @2 (76 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u~ g > w+ w- u~ g QED=2 QCD=2 [ QCD ] @2 (77 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u~ u > w+ w- g g QED=2 QCD=2 [ QCD ] @2 (78 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u~ u > w+ w- u u~ QED=2 QCD=2 [ QCD ] @2 (79 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u~ u > w+ w- c c~ QED=2 QCD=2 [ QCD ] @2 (80 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u~ u > w+ w- d d~ QED=2 QCD=2 [ QCD ] @2 (81 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u~ u > w+ w- s s~ QED=2 QCD=2 [ QCD ] @2 (82 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u~ c > w+ w- u~ c QED=2 QCD=2 [ QCD ] @2 (83 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u~ c > w+ w- s d~ QED=2 QCD=2 [ QCD ] @2 (84 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u~ d > w+ w- u~ d QED=2 QCD=2 [ QCD ] @2 (85 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u~ d > w+ w- s c~ QED=2 QCD=2 [ QCD ] @2 (86 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u~ s > w+ w- u~ s QED=2 QCD=2 [ QCD ] @2 (87 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u~ u~ > w+ w- u~ u~ QED=2 QCD=2 [ QCD ] @2 (88 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u~ c~ > w+ w- u~ c~ QED=2 QCD=2 [ QCD ] @2 (89 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u~ d~ > w+ w- u~ d~ QED=2 QCD=2 [ QCD ] @2 (90 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u~ s~ > w+ w- u~ s~ QED=2 QCD=2 [ QCD ] @2 (91 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: u~ s~ > w+ w- d~ c~ QED=2 QCD=2 [ QCD ] @2 (92 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c~ g > w+ w- c~ g QED=2 QCD=2 [ QCD ] @2 (93 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c~ u > w+ w- c~ u QED=2 QCD=2 [ QCD ] @2 (94 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c~ u > w+ w- d s~ QED=2 QCD=2 [ QCD ] @2 (95 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c~ c > w+ w- g g QED=2 QCD=2 [ QCD ] @2 (96 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c~ c > w+ w- u u~ QED=2 QCD=2 [ QCD ] @2 (97 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c~ c > w+ w- c c~ QED=2 QCD=2 [ QCD ] @2 (98 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c~ c > w+ w- d d~ QED=2 QCD=2 [ QCD ] @2 (99 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c~ c > w+ w- s s~ QED=2 QCD=2 [ QCD ] @2 (100 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c~ d > w+ w- c~ d QED=2 QCD=2 [ QCD ] @2 (101 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c~ s > w+ w- d u~ QED=2 QCD=2 [ QCD ] @2 (102 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c~ s > w+ w- c~ s QED=2 QCD=2 [ QCD ] @2 (103 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c~ u~ > w+ w- c~ u~ QED=2 QCD=2 [ QCD ] @2 (104 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c~ c~ > w+ w- c~ c~ QED=2 QCD=2 [ QCD ] @2 (105 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c~ d~ > w+ w- u~ s~ QED=2 QCD=2 [ QCD ] @2 (106 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c~ d~ > w+ w- c~ d~ QED=2 QCD=2 [ QCD ] @2 (107 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: c~ s~ > w+ w- c~ s~ QED=2 QCD=2 [ QCD ] @2 (108 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d~ g > w+ w- d~ g QED=2 QCD=2 [ QCD ] @2 (109 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d~ u > w+ w- d~ u QED=2 QCD=2 [ QCD ] @2 (110 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d~ u > w+ w- c s~ QED=2 QCD=2 [ QCD ] @2 (111 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d~ c > w+ w- d~ c QED=2 QCD=2 [ QCD ] @2 (112 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d~ d > w+ w- g g QED=2 QCD=2 [ QCD ] @2 (113 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d~ d > w+ w- u u~ QED=2 QCD=2 [ QCD ] @2 (114 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d~ d > w+ w- c c~ QED=2 QCD=2 [ QCD ] @2 (115 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d~ d > w+ w- d d~ QED=2 QCD=2 [ QCD ] @2 (116 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d~ d > w+ w- s s~ QED=2 QCD=2 [ QCD ] @2 (117 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d~ s > w+ w- c u~ QED=2 QCD=2 [ QCD ] @2 (118 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d~ s > w+ w- d~ s QED=2 QCD=2 [ QCD ] @2 (119 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d~ u~ > w+ w- d~ u~ QED=2 QCD=2 [ QCD ] @2 (120 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d~ c~ > w+ w- u~ s~ QED=2 QCD=2 [ QCD ] @2 (121 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d~ c~ > w+ w- d~ c~ QED=2 QCD=2 [ QCD ] @2 (122 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d~ d~ > w+ w- d~ d~ QED=2 QCD=2 [ QCD ] @2 (123 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: d~ s~ > w+ w- d~ s~ QED=2 QCD=2 [ QCD ] @2 (124 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s~ g > w+ w- s~ g QED=2 QCD=2 [ QCD ] @2 (125 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s~ u > w+ w- s~ u QED=2 QCD=2 [ QCD ] @2 (126 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s~ c > w+ w- u d~ QED=2 QCD=2 [ QCD ] @2 (127 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s~ c > w+ w- s~ c QED=2 QCD=2 [ QCD ] @2 (128 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s~ d > w+ w- u c~ QED=2 QCD=2 [ QCD ] @2 (129 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s~ d > w+ w- s~ d QED=2 QCD=2 [ QCD ] @2 (130 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s~ s > w+ w- g g QED=2 QCD=2 [ QCD ] @2 (131 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s~ s > w+ w- u u~ QED=2 QCD=2 [ QCD ] @2 (132 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s~ s > w+ w- c c~ QED=2 QCD=2 [ QCD ] @2 (133 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s~ s > w+ w- d d~ QED=2 QCD=2 [ QCD ] @2 (134 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s~ s > w+ w- s s~ QED=2 QCD=2 [ QCD ] @2 (135 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s~ u~ > w+ w- s~ u~ QED=2 QCD=2 [ QCD ] @2 (136 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s~ u~ > w+ w- d~ c~ QED=2 QCD=2 [ QCD ] @2 (137 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s~ c~ > w+ w- s~ c~ QED=2 QCD=2 [ QCD ] @2 (138 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s~ d~ > w+ w- s~ d~ QED=2 QCD=2 [ QCD ] @2 (139 / 140)
INFO: Generating virtual matrix elements using MadLoop:
INFO: Generating virtual matrix element with MadLoop for process: s~ s~ > w+ w- s~ s~ QED=2 QCD=2 [ QCD ] @2 (140 / 140)
INFO: Generated 140 subprocesses with 38432 real emission diagrams, 2516 born diagrams and 70688 virtual diagrams
output wwelmunu012j_4f_NLO_FXFX
INFO: Writing out the aMC@NLO code, using optimized Loops
INFO: initialize a new directory: wwelmunu012j_4f_NLO_FXFX
INFO: remove old information in wwelmunu012j_4f_NLO_FXFX
INFO: Generating real emission matrix-elements...
INFO: Generating Helas calls for FKS process: u u~ > w+ w- [ QCD ] (1 / 172)
INFO: Processing color information for process: u u~ > w+ w- [ QCD ]
INFO: Generating Helas calls for FKS process: c c~ > w+ w- [ QCD ] (2 / 172)
INFO: Generating Helas calls for FKS process: d d~ > w+ w- [ QCD ] (3 / 172)
INFO: Reusing existing color information for process: d d~ > w+ w- [ QCD ]
INFO: Generating Helas calls for FKS process: s s~ > w+ w- [ QCD ] (4 / 172)
INFO: Generating Helas calls for FKS process: u~ u > w+ w- [ QCD ] (5 / 172)
INFO: Processing color information for process: u~ u > w+ w- [ QCD ]
INFO: Generating Helas calls for FKS process: c~ c > w+ w- [ QCD ] (6 / 172)
INFO: Generating Helas calls for FKS process: d~ d > w+ w- [ QCD ] (7 / 172)
INFO: Reusing existing color information for process: d~ d > w+ w- [ QCD ]
INFO: Generating Helas calls for FKS process: s~ s > w+ w- [ QCD ] (8 / 172)
INFO: Generating Helas calls for FKS process: g u > w+ w- u [ QCD ] @1 (9 / 172)
INFO: Processing color information for process: g u > w+ w- u [ QCD ] @1
INFO: Generating Helas calls for FKS process: g c > w+ w- c [ QCD ] @1 (10 / 172)
INFO: Generating Helas calls for FKS process: g d > w+ w- d [ QCD ] @1 (11 / 172)
INFO: Reusing existing color information for process: g d > w+ w- d [ QCD ] @1
INFO: Generating Helas calls for FKS process: g s > w+ w- s [ QCD ] @1 (12 / 172)
INFO: Generating Helas calls for FKS process: g u~ > w+ w- u~ [ QCD ] @1 (13 / 172)
INFO: Processing color information for process: g u~ > w+ w- u~ [ QCD ] @1
INFO: Generating Helas calls for FKS process: g c~ > w+ w- c~ [ QCD ] @1 (14 / 172)
INFO: Generating Helas calls for FKS process: g d~ > w+ w- d~ [ QCD ] @1 (15 / 172)
INFO: Reusing existing color information for process: g d~ > w+ w- d~ [ QCD ] @1
INFO: Generating Helas calls for FKS process: g s~ > w+ w- s~ [ QCD ] @1 (16 / 172)
INFO: Generating Helas calls for FKS process: u g > w+ w- u [ QCD ] @1 (17 / 172)
INFO: Processing color information for process: u g > w+ w- u [ QCD ] @1
INFO: Generating Helas calls for FKS process: u u~ > w+ w- g [ QCD ] @1 (18 / 172)
INFO: Processing color information for process: u u~ > w+ w- g [ QCD ] @1
INFO: Generating Helas calls for FKS process: c g > w+ w- c [ QCD ] @1 (19 / 172)
INFO: Generating Helas calls for FKS process: c c~ > w+ w- g [ QCD ] @1 (20 / 172)
INFO: Generating Helas calls for FKS process: d g > w+ w- d [ QCD ] @1 (21 / 172)
INFO: Reusing existing color information for process: d g > w+ w- d [ QCD ] @1
INFO: Generating Helas calls for FKS process: d d~ > w+ w- g [ QCD ] @1 (22 / 172)
INFO: Reusing existing color information for process: d d~ > w+ w- g [ QCD ] @1
INFO: Generating Helas calls for FKS process: s g > w+ w- s [ QCD ] @1 (23 / 172)
INFO: Generating Helas calls for FKS process: s s~ > w+ w- g [ QCD ] @1 (24 / 172)
INFO: Generating Helas calls for FKS process: u~ g > w+ w- u~ [ QCD ] @1 (25 / 172)
INFO: Processing color information for process: u~ g > w+ w- u~ [ QCD ] @1
INFO: Generating Helas calls for FKS process: u~ u > w+ w- g [ QCD ] @1 (26 / 172)
INFO: Processing color information for process: u~ u > w+ w- g [ QCD ] @1
INFO: Generating Helas calls for FKS process: c~ g > w+ w- c~ [ QCD ] @1 (27 / 172)
INFO: Generating Helas calls for FKS process: c~ c > w+ w- g [ QCD ] @1 (28 / 172)
INFO: Generating Helas calls for FKS process: d~ g > w+ w- d~ [ QCD ] @1 (29 / 172)
INFO: Reusing existing color information for process: d~ g > w+ w- d~ [ QCD ] @1
INFO: Generating Helas calls for FKS process: d~ d > w+ w- g [ QCD ] @1 (30 / 172)
INFO: Reusing existing color information for process: d~ d > w+ w- g [ QCD ] @1
INFO: Generating Helas calls for FKS process: s~ g > w+ w- s~ [ QCD ] @1 (31 / 172)
INFO: Generating Helas calls for FKS process: s~ s > w+ w- g [ QCD ] @1 (32 / 172)
INFO: Generating Helas calls for FKS process: g g > w+ w- u u~ [ QCD ] @2 (33 / 172)
INFO: Processing color information for process: g g > w+ w- u u~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: g g > w+ w- c c~ [ QCD ] @2 (34 / 172)
INFO: Generating Helas calls for FKS process: g g > w+ w- d d~ [ QCD ] @2 (35 / 172)
INFO: Processing color information for process: g g > w+ w- d d~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: g g > w+ w- s s~ [ QCD ] @2 (36 / 172)
INFO: Generating Helas calls for FKS process: g u > w+ w- u g [ QCD ] @2 (37 / 172)
INFO: Processing color information for process: g u > w+ w- u g [ QCD ] @2
INFO: Generating Helas calls for FKS process: g c > w+ w- c g [ QCD ] @2 (38 / 172)
INFO: Generating Helas calls for FKS process: g d > w+ w- d g [ QCD ] @2 (39 / 172)
INFO: Reusing existing color information for process: g d > w+ w- d g [ QCD ] @2
INFO: Generating Helas calls for FKS process: g s > w+ w- s g [ QCD ] @2 (40 / 172)
INFO: Generating Helas calls for FKS process: g u~ > w+ w- u~ g [ QCD ] @2 (41 / 172)
INFO: Processing color information for process: g u~ > w+ w- u~ g [ QCD ] @2
INFO: Generating Helas calls for FKS process: g c~ > w+ w- c~ g [ QCD ] @2 (42 / 172)
INFO: Generating Helas calls for FKS process: g d~ > w+ w- d~ g [ QCD ] @2 (43 / 172)
INFO: Reusing existing color information for process: g d~ > w+ w- d~ g [ QCD ] @2
INFO: Generating Helas calls for FKS process: g s~ > w+ w- s~ g [ QCD ] @2 (44 / 172)
INFO: Generating Helas calls for FKS process: u g > w+ w- u g [ QCD ] @2 (45 / 172)
INFO: Processing color information for process: u g > w+ w- u g [ QCD ] @2
INFO: Generating Helas calls for FKS process: u u > w+ w- u u [ QCD ] @2 (46 / 172)
INFO: Processing color information for process: u u > w+ w- u u [ QCD ] @2
INFO: Generating Helas calls for FKS process: u c > w+ w- u c [ QCD ] @2 (47 / 172)
INFO: Processing color information for process: u c > w+ w- u c [ QCD ] @2
INFO: Generating Helas calls for FKS process: u d > w+ w- u d [ QCD ] @2 (48 / 172)
INFO: Processing color information for process: u d > w+ w- u d [ QCD ] @2
INFO: Generating Helas calls for FKS process: u s > w+ w- u s [ QCD ] @2 (49 / 172)
INFO: Reusing existing color information for process: u s > w+ w- u s [ QCD ] @2
INFO: Generating Helas calls for FKS process: u s > w+ w- c d [ QCD ] @2 (50 / 172)
INFO: Processing color information for process: u s > w+ w- c d [ QCD ] @2
INFO: Generating Helas calls for FKS process: u u~ > w+ w- g g [ QCD ] @2 (51 / 172)
INFO: Processing color information for process: u u~ > w+ w- g g [ QCD ] @2
INFO: Generating Helas calls for FKS process: u u~ > w+ w- u u~ [ QCD ] @2 (52 / 172)
INFO: Processing color information for process: u u~ > w+ w- u u~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: u u~ > w+ w- c c~ [ QCD ] @2 (53 / 172)
INFO: Processing color information for process: u u~ > w+ w- c c~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: u u~ > w+ w- d d~ [ QCD ] @2 (54 / 172)
INFO: Processing color information for process: u u~ > w+ w- d d~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: u u~ > w+ w- s s~ [ QCD ] @2 (55 / 172)
INFO: Processing color information for process: u u~ > w+ w- s s~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: u c~ > w+ w- u c~ [ QCD ] @2 (56 / 172)
INFO: Processing color information for process: u c~ > w+ w- u c~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: u c~ > w+ w- d s~ [ QCD ] @2 (57 / 172)
INFO: Processing color information for process: u c~ > w+ w- d s~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: u d~ > w+ w- u d~ [ QCD ] @2 (58 / 172)
INFO: Processing color information for process: u d~ > w+ w- u d~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: u d~ > w+ w- c s~ [ QCD ] @2 (59 / 172)
INFO: Processing color information for process: u d~ > w+ w- c s~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: u s~ > w+ w- u s~ [ QCD ] @2 (60 / 172)
INFO: Reusing existing color information for process: u s~ > w+ w- u s~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: c g > w+ w- c g [ QCD ] @2 (61 / 172)
INFO: Generating Helas calls for FKS process: c u > w+ w- c u [ QCD ] @2 (62 / 172)
INFO: Generating Helas calls for FKS process: c c > w+ w- c c [ QCD ] @2 (63 / 172)
INFO: Generating Helas calls for FKS process: c d > w+ w- s u [ QCD ] @2 (64 / 172)
INFO: Processing color information for process: c d > w+ w- s u [ QCD ] @2
INFO: Generating Helas calls for FKS process: c d > w+ w- c d [ QCD ] @2 (65 / 172)
INFO: Generating Helas calls for FKS process: c s > w+ w- c s [ QCD ] @2 (66 / 172)
INFO: Generating Helas calls for FKS process: c u~ > w+ w- c u~ [ QCD ] @2 (67 / 172)
INFO: Generating Helas calls for FKS process: c u~ > w+ w- s d~ [ QCD ] @2 (68 / 172)
INFO: Generating Helas calls for FKS process: c c~ > w+ w- g g [ QCD ] @2 (69 / 172)
INFO: Generating Helas calls for FKS process: c c~ > w+ w- u u~ [ QCD ] @2 (70 / 172)
INFO: Generating Helas calls for FKS process: c c~ > w+ w- c c~ [ QCD ] @2 (71 / 172)
INFO: Generating Helas calls for FKS process: c c~ > w+ w- d d~ [ QCD ] @2 (72 / 172)
INFO: Generating Helas calls for FKS process: c c~ > w+ w- s s~ [ QCD ] @2 (73 / 172)
INFO: Generating Helas calls for FKS process: c d~ > w+ w- c d~ [ QCD ] @2 (74 / 172)
INFO: Generating Helas calls for FKS process: c s~ > w+ w- u d~ [ QCD ] @2 (75 / 172)
INFO: Generating Helas calls for FKS process: c s~ > w+ w- c s~ [ QCD ] @2 (76 / 172)
INFO: Generating Helas calls for FKS process: d g > w+ w- d g [ QCD ] @2 (77 / 172)
INFO: Reusing existing color information for process: d g > w+ w- d g [ QCD ] @2
INFO: Generating Helas calls for FKS process: d u > w+ w- d u [ QCD ] @2 (78 / 172)
INFO: Reusing existing color information for process: d u > w+ w- d u [ QCD ] @2
INFO: Generating Helas calls for FKS process: d c > w+ w- s u [ QCD ] @2 (79 / 172)
INFO: Reusing existing color information for process: d c > w+ w- s u [ QCD ] @2
INFO: Generating Helas calls for FKS process: d c > w+ w- d c [ QCD ] @2 (80 / 172)
INFO: Reusing existing color information for process: d c > w+ w- d c [ QCD ] @2
INFO: Generating Helas calls for FKS process: d d > w+ w- d d [ QCD ] @2 (81 / 172)
INFO: Reusing existing color information for process: d d > w+ w- d d [ QCD ] @2
INFO: Generating Helas calls for FKS process: d s > w+ w- d s [ QCD ] @2 (82 / 172)
INFO: Reusing existing color information for process: d s > w+ w- d s [ QCD ] @2
INFO: Generating Helas calls for FKS process: d u~ > w+ w- d u~ [ QCD ] @2 (83 / 172)
INFO: Reusing existing color information for process: d u~ > w+ w- d u~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: d u~ > w+ w- s c~ [ QCD ] @2 (84 / 172)
INFO: Reusing existing color information for process: d u~ > w+ w- s c~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: d c~ > w+ w- d c~ [ QCD ] @2 (85 / 172)
INFO: Reusing existing color information for process: d c~ > w+ w- d c~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: d d~ > w+ w- g g [ QCD ] @2 (86 / 172)
INFO: Reusing existing color information for process: d d~ > w+ w- g g [ QCD ] @2
INFO: Generating Helas calls for FKS process: d d~ > w+ w- u u~ [ QCD ] @2 (87 / 172)
INFO: Processing color information for process: d d~ > w+ w- u u~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: d d~ > w+ w- c c~ [ QCD ] @2 (88 / 172)
INFO: Reusing existing color information for process: d d~ > w+ w- c c~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: d d~ > w+ w- d d~ [ QCD ] @2 (89 / 172)
INFO: Processing color information for process: d d~ > w+ w- d d~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: d d~ > w+ w- s s~ [ QCD ] @2 (90 / 172)
INFO: Reusing existing color information for process: d d~ > w+ w- s s~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: d s~ > w+ w- u c~ [ QCD ] @2 (91 / 172)
INFO: Reusing existing color information for process: d s~ > w+ w- u c~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: d s~ > w+ w- d s~ [ QCD ] @2 (92 / 172)
INFO: Reusing existing color information for process: d s~ > w+ w- d s~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: s g > w+ w- s g [ QCD ] @2 (93 / 172)
INFO: Generating Helas calls for FKS process: s u > w+ w- s u [ QCD ] @2 (94 / 172)
INFO: Generating Helas calls for FKS process: s u > w+ w- c d [ QCD ] @2 (95 / 172)
INFO: Reusing existing color information for process: s u > w+ w- c d [ QCD ] @2
INFO: Generating Helas calls for FKS process: s c > w+ w- s c [ QCD ] @2 (96 / 172)
INFO: Generating Helas calls for FKS process: s d > w+ w- s d [ QCD ] @2 (97 / 172)
INFO: Generating Helas calls for FKS process: s s > w+ w- s s [ QCD ] @2 (98 / 172)
INFO: Generating Helas calls for FKS process: s u~ > w+ w- s u~ [ QCD ] @2 (99 / 172)
INFO: Generating Helas calls for FKS process: s c~ > w+ w- d u~ [ QCD ] @2 (100 / 172)
INFO: Generating Helas calls for FKS process: s c~ > w+ w- s c~ [ QCD ] @2 (101 / 172)
INFO: Generating Helas calls for FKS process: s d~ > w+ w- c u~ [ QCD ] @2 (102 / 172)
INFO: Generating Helas calls for FKS process: s d~ > w+ w- s d~ [ QCD ] @2 (103 / 172)
INFO: Generating Helas calls for FKS process: s s~ > w+ w- g g [ QCD ] @2 (104 / 172)
INFO: Generating Helas calls for FKS process: s s~ > w+ w- u u~ [ QCD ] @2 (105 / 172)
INFO: Generating Helas calls for FKS process: s s~ > w+ w- c c~ [ QCD ] @2 (106 / 172)
INFO: Generating Helas calls for FKS process: s s~ > w+ w- d d~ [ QCD ] @2 (107 / 172)
INFO: Generating Helas calls for FKS process: s s~ > w+ w- s s~ [ QCD ] @2 (108 / 172)
INFO: Generating Helas calls for FKS process: u~ g > w+ w- u~ g [ QCD ] @2 (109 / 172)
INFO: Processing color information for process: u~ g > w+ w- u~ g [ QCD ] @2
INFO: Generating Helas calls for FKS process: u~ u > w+ w- g g [ QCD ] @2 (110 / 172)
INFO: Processing color information for process: u~ u > w+ w- g g [ QCD ] @2
INFO: Generating Helas calls for FKS process: u~ u > w+ w- u u~ [ QCD ] @2 (111 / 172)
INFO: Processing color information for process: u~ u > w+ w- u u~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: u~ u > w+ w- c c~ [ QCD ] @2 (112 / 172)
INFO: Processing color information for process: u~ u > w+ w- c c~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: u~ u > w+ w- d d~ [ QCD ] @2 (113 / 172)
INFO: Processing color information for process: u~ u > w+ w- d d~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: u~ u > w+ w- s s~ [ QCD ] @2 (114 / 172)
INFO: Processing color information for process: u~ u > w+ w- s s~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: u~ c > w+ w- u~ c [ QCD ] @2 (115 / 172)
INFO: Processing color information for process: u~ c > w+ w- u~ c [ QCD ] @2
INFO: Generating Helas calls for FKS process: u~ c > w+ w- s d~ [ QCD ] @2 (116 / 172)
INFO: Processing color information for process: u~ c > w+ w- s d~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: u~ d > w+ w- u~ d [ QCD ] @2 (117 / 172)
INFO: Processing color information for process: u~ d > w+ w- u~ d [ QCD ] @2
INFO: Generating Helas calls for FKS process: u~ d > w+ w- s c~ [ QCD ] @2 (118 / 172)
INFO: Processing color information for process: u~ d > w+ w- s c~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: u~ s > w+ w- u~ s [ QCD ] @2 (119 / 172)
INFO: Reusing existing color information for process: u~ s > w+ w- u~ s [ QCD ] @2
INFO: Generating Helas calls for FKS process: u~ u~ > w+ w- u~ u~ [ QCD ] @2 (120 / 172)
INFO: Processing color information for process: u~ u~ > w+ w- u~ u~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: u~ c~ > w+ w- u~ c~ [ QCD ] @2 (121 / 172)
INFO: Processing color information for process: u~ c~ > w+ w- u~ c~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: u~ d~ > w+ w- u~ d~ [ QCD ] @2 (122 / 172)
INFO: Processing color information for process: u~ d~ > w+ w- u~ d~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: u~ s~ > w+ w- u~ s~ [ QCD ] @2 (123 / 172)
INFO: Reusing existing color information for process: u~ s~ > w+ w- u~ s~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: u~ s~ > w+ w- d~ c~ [ QCD ] @2 (124 / 172)
INFO: Processing color information for process: u~ s~ > w+ w- d~ c~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: c~ g > w+ w- c~ g [ QCD ] @2 (125 / 172)
INFO: Generating Helas calls for FKS process: c~ u > w+ w- c~ u [ QCD ] @2 (126 / 172)
INFO: Generating Helas calls for FKS process: c~ u > w+ w- d s~ [ QCD ] @2 (127 / 172)
INFO: Generating Helas calls for FKS process: c~ c > w+ w- g g [ QCD ] @2 (128 / 172)
INFO: Generating Helas calls for FKS process: c~ c > w+ w- u u~ [ QCD ] @2 (129 / 172)
INFO: Generating Helas calls for FKS process: c~ c > w+ w- c c~ [ QCD ] @2 (130 / 172)
INFO: Generating Helas calls for FKS process: c~ c > w+ w- d d~ [ QCD ] @2 (131 / 172)
INFO: Generating Helas calls for FKS process: c~ c > w+ w- s s~ [ QCD ] @2 (132 / 172)
INFO: Generating Helas calls for FKS process: c~ d > w+ w- c~ d [ QCD ] @2 (133 / 172)
INFO: Generating Helas calls for FKS process: c~ s > w+ w- d u~ [ QCD ] @2 (134 / 172)
INFO: Generating Helas calls for FKS process: c~ s > w+ w- c~ s [ QCD ] @2 (135 / 172)
INFO: Generating Helas calls for FKS process: c~ u~ > w+ w- c~ u~ [ QCD ] @2 (136 / 172)
INFO: Generating Helas calls for FKS process: c~ c~ > w+ w- c~ c~ [ QCD ] @2 (137 / 172)
INFO: Generating Helas calls for FKS process: c~ d~ > w+ w- u~ s~ [ QCD ] @2 (138 / 172)
INFO: Processing color information for process: c~ d~ > w+ w- u~ s~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: c~ d~ > w+ w- c~ d~ [ QCD ] @2 (139 / 172)
INFO: Generating Helas calls for FKS process: c~ s~ > w+ w- c~ s~ [ QCD ] @2 (140 / 172)
INFO: Generating Helas calls for FKS process: d~ g > w+ w- d~ g [ QCD ] @2 (141 / 172)
INFO: Reusing existing color information for process: d~ g > w+ w- d~ g [ QCD ] @2
INFO: Generating Helas calls for FKS process: d~ u > w+ w- d~ u [ QCD ] @2 (142 / 172)
INFO: Reusing existing color information for process: d~ u > w+ w- d~ u [ QCD ] @2
INFO: Generating Helas calls for FKS process: d~ u > w+ w- c s~ [ QCD ] @2 (143 / 172)
INFO: Reusing existing color information for process: d~ u > w+ w- c s~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: d~ c > w+ w- d~ c [ QCD ] @2 (144 / 172)
INFO: Reusing existing color information for process: d~ c > w+ w- d~ c [ QCD ] @2
INFO: Generating Helas calls for FKS process: d~ d > w+ w- g g [ QCD ] @2 (145 / 172)
INFO: Reusing existing color information for process: d~ d > w+ w- g g [ QCD ] @2
INFO: Generating Helas calls for FKS process: d~ d > w+ w- u u~ [ QCD ] @2 (146 / 172)
INFO: Processing color information for process: d~ d > w+ w- u u~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: d~ d > w+ w- c c~ [ QCD ] @2 (147 / 172)
INFO: Reusing existing color information for process: d~ d > w+ w- c c~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: d~ d > w+ w- d d~ [ QCD ] @2 (148 / 172)
INFO: Processing color information for process: d~ d > w+ w- d d~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: d~ d > w+ w- s s~ [ QCD ] @2 (149 / 172)
INFO: Reusing existing color information for process: d~ d > w+ w- s s~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: d~ s > w+ w- c u~ [ QCD ] @2 (150 / 172)
INFO: Reusing existing color information for process: d~ s > w+ w- c u~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: d~ s > w+ w- d~ s [ QCD ] @2 (151 / 172)
INFO: Reusing existing color information for process: d~ s > w+ w- d~ s [ QCD ] @2
INFO: Generating Helas calls for FKS process: d~ u~ > w+ w- d~ u~ [ QCD ] @2 (152 / 172)
INFO: Reusing existing color information for process: d~ u~ > w+ w- d~ u~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: d~ c~ > w+ w- u~ s~ [ QCD ] @2 (153 / 172)
INFO: Reusing existing color information for process: d~ c~ > w+ w- u~ s~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: d~ c~ > w+ w- d~ c~ [ QCD ] @2 (154 / 172)
INFO: Reusing existing color information for process: d~ c~ > w+ w- d~ c~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: d~ d~ > w+ w- d~ d~ [ QCD ] @2 (155 / 172)
INFO: Reusing existing color information for process: d~ d~ > w+ w- d~ d~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: d~ s~ > w+ w- d~ s~ [ QCD ] @2 (156 / 172)
INFO: Reusing existing color information for process: d~ s~ > w+ w- d~ s~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: s~ g > w+ w- s~ g [ QCD ] @2 (157 / 172)
INFO: Generating Helas calls for FKS process: s~ u > w+ w- s~ u [ QCD ] @2 (158 / 172)
INFO: Generating Helas calls for FKS process: s~ c > w+ w- u d~ [ QCD ] @2 (159 / 172)
INFO: Generating Helas calls for FKS process: s~ c > w+ w- s~ c [ QCD ] @2 (160 / 172)
INFO: Generating Helas calls for FKS process: s~ d > w+ w- u c~ [ QCD ] @2 (161 / 172)
INFO: Generating Helas calls for FKS process: s~ d > w+ w- s~ d [ QCD ] @2 (162 / 172)
INFO: Generating Helas calls for FKS process: s~ s > w+ w- g g [ QCD ] @2 (163 / 172)
INFO: Generating Helas calls for FKS process: s~ s > w+ w- u u~ [ QCD ] @2 (164 / 172)
INFO: Generating Helas calls for FKS process: s~ s > w+ w- c c~ [ QCD ] @2 (165 / 172)
INFO: Generating Helas calls for FKS process: s~ s > w+ w- d d~ [ QCD ] @2 (166 / 172)
INFO: Generating Helas calls for FKS process: s~ s > w+ w- s s~ [ QCD ] @2 (167 / 172)
INFO: Generating Helas calls for FKS process: s~ u~ > w+ w- s~ u~ [ QCD ] @2 (168 / 172)
INFO: Generating Helas calls for FKS process: s~ u~ > w+ w- d~ c~ [ QCD ] @2 (169 / 172)
INFO: Reusing existing color information for process: s~ u~ > w+ w- d~ c~ [ QCD ] @2
INFO: Generating Helas calls for FKS process: s~ c~ > w+ w- s~ c~ [ QCD ] @2 (170 / 172)
INFO: Generating Helas calls for FKS process: s~ d~ > w+ w- s~ d~ [ QCD ] @2 (171 / 172)
INFO: Generating Helas calls for FKS process: s~ s~ > w+ w- s~ s~ [ QCD ] @2 (172 / 172)
INFO: Writing files in P0_uux_wpwm (1 / 90)
INFO: Creating files in directory V0_uux_wpwm
ALOHA: aloha creates FFV1 set of routines with options: L2,P0
ALOHA: aloha creates FFV1 set of routines with options: L3
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u u~ > w+ w- QED=2 [ QCD ]
INFO: Generating born Feynman diagrams for Process: u u~ > w+ w- QED=2 [ QCD ]
INFO: Writing files in P0_ddx_wpwm (2 / 90)
INFO: Creating files in directory V0_ddx_wpwm
ALOHA: aloha creates FFV3 set of routines with options: L2
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d d~ > w+ w- QED=2 [ QCD ]
INFO: Generating born Feynman diagrams for Process: d d~ > w+ w- QED=2 [ QCD ]
INFO: Writing files in P0_uxu_wpwm (3 / 90)
INFO: Creating files in directory V0_uxu_wpwm
ALOHA: aloha creates FFV1 set of routines with options: L1
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u~ u > w+ w- QED=2 [ QCD ]
INFO: Generating born Feynman diagrams for Process: u~ u > w+ w- QED=2 [ QCD ]
INFO: Writing files in P0_dxd_wpwm (4 / 90)
INFO: Creating files in directory V0_dxd_wpwm
ALOHA: aloha creates FFV3 set of routines with options: L1
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d~ d > w+ w- QED=2 [ QCD ]
INFO: Generating born Feynman diagrams for Process: d~ d > w+ w- QED=2 [ QCD ]
INFO: Writing files in P1_gu_wpwmu (5 / 90)
INFO: Creating files in directory V1_gu_wpwmu
ALOHA: aloha creates VVV1 set of routines with options: L2,P0
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: g u > w+ w- u QED=2 QCD=1 [ QCD ] @1
INFO: Generating born Feynman diagrams for Process: g u > w+ w- u QED=2 QCD=1 [ QCD ] @1
INFO: Writing files in P1_gd_wpwmd (6 / 90)
INFO: Creating files in directory V1_gd_wpwmd
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: g d > w+ w- d QED=2 QCD=1 [ QCD ] @1
INFO: Generating born Feynman diagrams for Process: g d > w+ w- d QED=2 QCD=1 [ QCD ] @1
INFO: Writing files in P1_gux_wpwmux (7 / 90)
INFO: Creating files in directory V1_gux_wpwmux
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: g u~ > w+ w- u~ QED=2 QCD=1 [ QCD ] @1
INFO: Generating born Feynman diagrams for Process: g u~ > w+ w- u~ QED=2 QCD=1 [ QCD ] @1
INFO: Writing files in P1_gdx_wpwmdx (8 / 90)
INFO: Creating files in directory V1_gdx_wpwmdx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: g d~ > w+ w- d~ QED=2 QCD=1 [ QCD ] @1
INFO: Generating born Feynman diagrams for Process: g d~ > w+ w- d~ QED=2 QCD=1 [ QCD ] @1
INFO: Writing files in P1_ug_wpwmu (9 / 90)
INFO: Creating files in directory V1_ug_wpwmu
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u g > w+ w- u QED=2 QCD=1 [ QCD ] @1
INFO: Generating born Feynman diagrams for Process: u g > w+ w- u QED=2 QCD=1 [ QCD ] @1
INFO: Writing files in P1_uux_wpwmg (10 / 90)
INFO: Creating files in directory V1_uux_wpwmg
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u u~ > w+ w- g QED=2 QCD=1 [ QCD ] @1
INFO: Generating born Feynman diagrams for Process: u u~ > w+ w- g QED=2 QCD=1 [ QCD ] @1
INFO: Writing files in P1_dg_wpwmd (11 / 90)
INFO: Creating files in directory V1_dg_wpwmd
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d g > w+ w- d QED=2 QCD=1 [ QCD ] @1
INFO: Generating born Feynman diagrams for Process: d g > w+ w- d QED=2 QCD=1 [ QCD ] @1
INFO: Writing files in P1_ddx_wpwmg (12 / 90)
INFO: Creating files in directory V1_ddx_wpwmg
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d d~ > w+ w- g QED=2 QCD=1 [ QCD ] @1
INFO: Generating born Feynman diagrams for Process: d d~ > w+ w- g QED=2 QCD=1 [ QCD ] @1
INFO: Writing files in P1_uxg_wpwmux (13 / 90)
INFO: Creating files in directory V1_uxg_wpwmux
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u~ g > w+ w- u~ QED=2 QCD=1 [ QCD ] @1
INFO: Generating born Feynman diagrams for Process: u~ g > w+ w- u~ QED=2 QCD=1 [ QCD ] @1
INFO: Writing files in P1_uxu_wpwmg (14 / 90)
INFO: Creating files in directory V1_uxu_wpwmg
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u~ u > w+ w- g QED=2 QCD=1 [ QCD ] @1
INFO: Generating born Feynman diagrams for Process: u~ u > w+ w- g QED=2 QCD=1 [ QCD ] @1
INFO: Writing files in P1_dxg_wpwmdx (15 / 90)
INFO: Creating files in directory V1_dxg_wpwmdx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d~ g > w+ w- d~ QED=2 QCD=1 [ QCD ] @1
INFO: Generating born Feynman diagrams for Process: d~ g > w+ w- d~ QED=2 QCD=1 [ QCD ] @1
INFO: Writing files in P1_dxd_wpwmg (16 / 90)
INFO: Creating files in directory V1_dxd_wpwmg
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d~ d > w+ w- g QED=2 QCD=1 [ QCD ] @1
INFO: Generating born Feynman diagrams for Process: d~ d > w+ w- g QED=2 QCD=1 [ QCD ] @1
INFO: Writing files in P2_gg_wpwmuux (17 / 90)
INFO: Creating files in directory V2_gg_wpwmuux
ALOHA: aloha creates VVVV1 set of routines with options: L2,P0
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: g g > w+ w- u u~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: g g > w+ w- u u~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_gg_wpwmddx (18 / 90)
INFO: Creating files in directory V2_gg_wpwmddx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: g g > w+ w- d d~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: g g > w+ w- d d~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_gu_wpwmug (19 / 90)
INFO: Creating files in directory V2_gu_wpwmug
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: g u > w+ w- u g QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: g u > w+ w- u g QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_gd_wpwmdg (20 / 90)
INFO: Creating files in directory V2_gd_wpwmdg
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: g d > w+ w- d g QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: g d > w+ w- d g QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_gux_wpwmuxg (21 / 90)
INFO: Creating files in directory V2_gux_wpwmuxg
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: g u~ > w+ w- u~ g QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: g u~ > w+ w- u~ g QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_gdx_wpwmdxg (22 / 90)
INFO: Creating files in directory V2_gdx_wpwmdxg
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: g d~ > w+ w- d~ g QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: g d~ > w+ w- d~ g QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_ug_wpwmug (23 / 90)
INFO: Creating files in directory V2_ug_wpwmug
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u g > w+ w- u g QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: u g > w+ w- u g QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_uu_wpwmuu (24 / 90)
INFO: Creating files in directory V2_uu_wpwmuu
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u u > w+ w- u u QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: u u > w+ w- u u QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_uc_wpwmuc (25 / 90)
INFO: Creating files in directory V2_uc_wpwmuc
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u c > w+ w- u c QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: u c > w+ w- u c QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_ud_wpwmud (26 / 90)
INFO: Creating files in directory V2_ud_wpwmud
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u d > w+ w- u d QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: u d > w+ w- u d QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_us_wpwmus (27 / 90)
INFO: Creating files in directory V2_us_wpwmus
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u s > w+ w- u s QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: u s > w+ w- u s QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_us_wpwmcd (28 / 90)
INFO: Creating files in directory V2_us_wpwmcd
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u s > w+ w- c d QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: u s > w+ w- c d QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_uux_wpwmgg (29 / 90)
INFO: Creating files in directory V2_uux_wpwmgg
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u u~ > w+ w- g g QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: u u~ > w+ w- g g QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_uux_wpwmuux (30 / 90)
INFO: Creating files in directory V2_uux_wpwmuux
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u u~ > w+ w- u u~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: u u~ > w+ w- u u~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_uux_wpwmccx (31 / 90)
INFO: Creating files in directory V2_uux_wpwmccx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u u~ > w+ w- c c~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: u u~ > w+ w- c c~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_uux_wpwmddx (32 / 90)
INFO: Creating files in directory V2_uux_wpwmddx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u u~ > w+ w- d d~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: u u~ > w+ w- d d~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_uux_wpwmssx (33 / 90)
INFO: Creating files in directory V2_uux_wpwmssx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u u~ > w+ w- s s~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: u u~ > w+ w- s s~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_ucx_wpwmucx (34 / 90)
INFO: Creating files in directory V2_ucx_wpwmucx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u c~ > w+ w- u c~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: u c~ > w+ w- u c~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_ucx_wpwmdsx (35 / 90)
INFO: Creating files in directory V2_ucx_wpwmdsx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u c~ > w+ w- d s~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: u c~ > w+ w- d s~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_udx_wpwmudx (36 / 90)
INFO: Creating files in directory V2_udx_wpwmudx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u d~ > w+ w- u d~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: u d~ > w+ w- u d~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_udx_wpwmcsx (37 / 90)
INFO: Creating files in directory V2_udx_wpwmcsx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u d~ > w+ w- c s~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: u d~ > w+ w- c s~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_usx_wpwmusx (38 / 90)
INFO: Creating files in directory V2_usx_wpwmusx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u s~ > w+ w- u s~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: u s~ > w+ w- u s~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_cd_wpwmsu (39 / 90)
INFO: Creating files in directory V2_cd_wpwmsu
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: c d > w+ w- s u QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: c d > w+ w- s u QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_dg_wpwmdg (40 / 90)
INFO: Creating files in directory V2_dg_wpwmdg
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d g > w+ w- d g QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: d g > w+ w- d g QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_du_wpwmdu (41 / 90)
INFO: Creating files in directory V2_du_wpwmdu
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d u > w+ w- d u QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: d u > w+ w- d u QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_dc_wpwmsu (42 / 90)
INFO: Creating files in directory V2_dc_wpwmsu
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d c > w+ w- s u QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: d c > w+ w- s u QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_dc_wpwmdc (43 / 90)
INFO: Creating files in directory V2_dc_wpwmdc
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d c > w+ w- d c QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: d c > w+ w- d c QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_dd_wpwmdd (44 / 90)
INFO: Creating files in directory V2_dd_wpwmdd
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d d > w+ w- d d QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: d d > w+ w- d d QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_ds_wpwmds (45 / 90)
INFO: Creating files in directory V2_ds_wpwmds
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d s > w+ w- d s QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: d s > w+ w- d s QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_dux_wpwmdux (46 / 90)
INFO: Creating files in directory V2_dux_wpwmdux
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d u~ > w+ w- d u~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: d u~ > w+ w- d u~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_dux_wpwmscx (47 / 90)
INFO: Creating files in directory V2_dux_wpwmscx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d u~ > w+ w- s c~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: d u~ > w+ w- s c~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_dcx_wpwmdcx (48 / 90)
INFO: Creating files in directory V2_dcx_wpwmdcx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d c~ > w+ w- d c~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: d c~ > w+ w- d c~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_ddx_wpwmgg (49 / 90)
INFO: Creating files in directory V2_ddx_wpwmgg
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d d~ > w+ w- g g QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: d d~ > w+ w- g g QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_ddx_wpwmuux (50 / 90)
INFO: Creating files in directory V2_ddx_wpwmuux
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d d~ > w+ w- u u~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: d d~ > w+ w- u u~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_ddx_wpwmccx (51 / 90)
INFO: Creating files in directory V2_ddx_wpwmccx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d d~ > w+ w- c c~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: d d~ > w+ w- c c~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_ddx_wpwmddx (52 / 90)
INFO: Creating files in directory V2_ddx_wpwmddx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d d~ > w+ w- d d~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: d d~ > w+ w- d d~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_ddx_wpwmssx (53 / 90)
INFO: Creating files in directory V2_ddx_wpwmssx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d d~ > w+ w- s s~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: d d~ > w+ w- s s~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_dsx_wpwmucx (54 / 90)
INFO: Creating files in directory V2_dsx_wpwmucx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d s~ > w+ w- u c~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: d s~ > w+ w- u c~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_dsx_wpwmdsx (55 / 90)
INFO: Creating files in directory V2_dsx_wpwmdsx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d s~ > w+ w- d s~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: d s~ > w+ w- d s~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_su_wpwmcd (56 / 90)
INFO: Creating files in directory V2_su_wpwmcd
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: s u > w+ w- c d QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: s u > w+ w- c d QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_uxg_wpwmuxg (57 / 90)
INFO: Creating files in directory V2_uxg_wpwmuxg
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u~ g > w+ w- u~ g QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: u~ g > w+ w- u~ g QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_uxu_wpwmgg (58 / 90)
INFO: Creating files in directory V2_uxu_wpwmgg
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u~ u > w+ w- g g QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: u~ u > w+ w- g g QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_uxu_wpwmuux (59 / 90)
INFO: Creating files in directory V2_uxu_wpwmuux
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u~ u > w+ w- u u~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: u~ u > w+ w- u u~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_uxu_wpwmccx (60 / 90)
INFO: Creating files in directory V2_uxu_wpwmccx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u~ u > w+ w- c c~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: u~ u > w+ w- c c~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_uxu_wpwmddx (61 / 90)
INFO: Creating files in directory V2_uxu_wpwmddx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u~ u > w+ w- d d~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: u~ u > w+ w- d d~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_uxu_wpwmssx (62 / 90)
INFO: Creating files in directory V2_uxu_wpwmssx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u~ u > w+ w- s s~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: u~ u > w+ w- s s~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_uxc_wpwmuxc (63 / 90)
INFO: Creating files in directory V2_uxc_wpwmuxc
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u~ c > w+ w- u~ c QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: u~ c > w+ w- u~ c QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_uxc_wpwmsdx (64 / 90)
INFO: Creating files in directory V2_uxc_wpwmsdx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u~ c > w+ w- s d~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: u~ c > w+ w- s d~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_uxd_wpwmuxd (65 / 90)
INFO: Creating files in directory V2_uxd_wpwmuxd
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u~ d > w+ w- u~ d QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: u~ d > w+ w- u~ d QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_uxd_wpwmscx (66 / 90)
INFO: Creating files in directory V2_uxd_wpwmscx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u~ d > w+ w- s c~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: u~ d > w+ w- s c~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_uxs_wpwmuxs (67 / 90)
INFO: Creating files in directory V2_uxs_wpwmuxs
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u~ s > w+ w- u~ s QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: u~ s > w+ w- u~ s QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_uxux_wpwmuxux (68 / 90)
INFO: Creating files in directory V2_uxux_wpwmuxux
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u~ u~ > w+ w- u~ u~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: u~ u~ > w+ w- u~ u~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_uxcx_wpwmuxcx (69 / 90)
INFO: Creating files in directory V2_uxcx_wpwmuxcx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u~ c~ > w+ w- u~ c~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: u~ c~ > w+ w- u~ c~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_uxdx_wpwmuxdx (70 / 90)
INFO: Creating files in directory V2_uxdx_wpwmuxdx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u~ d~ > w+ w- u~ d~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: u~ d~ > w+ w- u~ d~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_uxsx_wpwmuxsx (71 / 90)
INFO: Creating files in directory V2_uxsx_wpwmuxsx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u~ s~ > w+ w- u~ s~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: u~ s~ > w+ w- u~ s~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_uxsx_wpwmdxcx (72 / 90)
INFO: Creating files in directory V2_uxsx_wpwmdxcx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: u~ s~ > w+ w- d~ c~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: u~ s~ > w+ w- d~ c~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_cxdx_wpwmuxsx (73 / 90)
INFO: Creating files in directory V2_cxdx_wpwmuxsx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: c~ d~ > w+ w- u~ s~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: c~ d~ > w+ w- u~ s~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_dxg_wpwmdxg (74 / 90)
INFO: Creating files in directory V2_dxg_wpwmdxg
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d~ g > w+ w- d~ g QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: d~ g > w+ w- d~ g QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_dxu_wpwmdxu (75 / 90)
INFO: Creating files in directory V2_dxu_wpwmdxu
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d~ u > w+ w- d~ u QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: d~ u > w+ w- d~ u QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_dxu_wpwmcsx (76 / 90)
INFO: Creating files in directory V2_dxu_wpwmcsx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d~ u > w+ w- c s~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: d~ u > w+ w- c s~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_dxc_wpwmdxc (77 / 90)
INFO: Creating files in directory V2_dxc_wpwmdxc
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d~ c > w+ w- d~ c QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: d~ c > w+ w- d~ c QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_dxd_wpwmgg (78 / 90)
INFO: Creating files in directory V2_dxd_wpwmgg
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d~ d > w+ w- g g QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: d~ d > w+ w- g g QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_dxd_wpwmuux (79 / 90)
INFO: Creating files in directory V2_dxd_wpwmuux
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d~ d > w+ w- u u~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: d~ d > w+ w- u u~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_dxd_wpwmccx (80 / 90)
INFO: Creating files in directory V2_dxd_wpwmccx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d~ d > w+ w- c c~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: d~ d > w+ w- c c~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_dxd_wpwmddx (81 / 90)
INFO: Creating files in directory V2_dxd_wpwmddx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d~ d > w+ w- d d~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: d~ d > w+ w- d d~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_dxd_wpwmssx (82 / 90)
INFO: Creating files in directory V2_dxd_wpwmssx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d~ d > w+ w- s s~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: d~ d > w+ w- s s~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_dxs_wpwmcux (83 / 90)
INFO: Creating files in directory V2_dxs_wpwmcux
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d~ s > w+ w- c u~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: d~ s > w+ w- c u~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_dxs_wpwmdxs (84 / 90)
INFO: Creating files in directory V2_dxs_wpwmdxs
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d~ s > w+ w- d~ s QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: d~ s > w+ w- d~ s QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_dxux_wpwmdxux (85 / 90)
INFO: Creating files in directory V2_dxux_wpwmdxux
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d~ u~ > w+ w- d~ u~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: d~ u~ > w+ w- d~ u~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_dxcx_wpwmuxsx (86 / 90)
INFO: Creating files in directory V2_dxcx_wpwmuxsx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d~ c~ > w+ w- u~ s~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: d~ c~ > w+ w- u~ s~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_dxcx_wpwmdxcx (87 / 90)
INFO: Creating files in directory V2_dxcx_wpwmdxcx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d~ c~ > w+ w- d~ c~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: d~ c~ > w+ w- d~ c~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_dxdx_wpwmdxdx (88 / 90)
INFO: Creating files in directory V2_dxdx_wpwmdxdx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d~ d~ > w+ w- d~ d~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: d~ d~ > w+ w- d~ d~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_dxsx_wpwmdxsx (89 / 90)
INFO: Creating files in directory V2_dxsx_wpwmdxsx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: d~ s~ > w+ w- d~ s~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: d~ s~ > w+ w- d~ s~ QED=2 QCD=2 [ QCD ] @2
INFO: Writing files in P2_sxux_wpwmdxcx (90 / 90)
INFO: Creating files in directory V2_sxux_wpwmdxcx
INFO: Computing diagram color coefficients
INFO: Drawing loop Feynman diagrams for Process: s~ u~ > w+ w- d~ c~ QED=2 QCD=2 [ QCD ] @2
INFO: Generating born Feynman diagrams for Process: s~ u~ > w+ w- d~ c~ QED=2 QCD=2 [ QCD ] @2
History written to /tmp/jfernan/CMSSW_5_3_22_patch1/src/genproductions/bin/MadGraph5_aMCatNLO/wwelmunu012j_4f_NLO_FXFX/wwelmunu012j_4f_NLO_FXFX_gridpack/work/wwelmunu012j_4f_NLO_FXFX/Cards/proc_car
d_mg5.dat
Export UFO model to MG4 format
ALOHA: aloha creates FFV1 routines
ALOHA: aloha creates FFV2 routines
ALOHA: aloha creates FFV3 routines
ALOHA: aloha creates GHGHG set of routines with options: L2
ALOHA: aloha creates VVV1 routines
ALOHA: aloha creates R2_GG_3 routines
ALOHA: aloha creates R2_GG_2 routines
ALOHA: aloha creates R2_GG_1 routines
ALOHA: aloha creates FFV5 routines
ALOHA: aloha creates R2_GGZ routines
ALOHA: aloha creates R2_GGVV routines
ALOHA: aloha creates VVS1 routines
ALOHA: aloha creates R2_QQ_1 routines
ALOHA: aloha creates R2_GGGVa routines
ALOHA: aloha creates FFV2_5 routines
ALOHA: aloha creates R2_GG_1_R2_GG_2 routines
ALOHA: aloha creates R2_GG_1_R2_GG_3 routines
ALOHA: aloha creates FFV2_3 routines
INFO: Use Fortran compiler gfortran
INFO: Use c++ compiler g++
INFO: Generate jpeg diagrams
INFO: Generate web pages
The option group_subprocesses is modified [Auto] but will not be written in the configuration files.
If you want to make this value the default for future session, you can run 'save options --all'
save configuration file to /tmp/jfernan/CMSSW_5_3_22_patch1/src/genproductions/bin/MadGraph5_aMCatNLO/wwelmunu012j_4f_NLO_FXFX/wwelmunu012j_4f_NLO_FXFX_gridpack/work/wwelmunu012j_4f_NLO_FXFX/Cards/
amcatnlo_configuration.txt
Type "launch" to generate events from this process, or see
/tmp/jfernan/CMSSW_5_3_22_patch1/src/genproductions/bin/MadGraph5_aMCatNLO/wwelmunu012j_4f_NLO_FXFX/wwelmunu012j_4f_NLO_FXFX_gridpack/work/wwelmunu012j_4f_NLO_FXFX/README
Run "open index.html" to see more information about this process.
quit

No module named madgraph
No module named madgraph.interface.extended_cmd
No module named madgraph
INFO: ************************************************************
* *
* W E L C O M E to M A D G R A P H 5 *
* a M C @ N L O *
* *
* * * *
* * * * * *
* * * * * 5 * * * * *
* * * * * *
* * * *
* *
* VERSION 5.2.2.1 *
* *
* The MadGraph5_aMC@NLO Development Team - Find us at *
* http://amcatnlo.cern.ch *
* *
* Type 'help' for in-line help. *
* *
************************************************************
INFO: load configuration from /tmp/jfernan/CMSSW_5_3_22_patch1/src/genproductions/bin/MadGraph5_aMCatNLO/wwelmunu012j_4f_NLO_FXFX/wwelmunu012j_4f_NLO_FXFX_gridpack/work/processtmp/Cards/amcatnlo_co
nfiguration.txt
INFO: load configuration from /tmp/jfernan/CMSSW_5_3_22_patch1/src/genproductions/bin/MadGraph5_aMCatNLO/wwelmunu012j_4f_NLO_FXFX/wwelmunu012j_4f_NLO_FXFX_gridpack/work/MG5_aMC_v2_2_1/input/mg5_con
figuration.txt
INFO: load configuration from /tmp/jfernan/CMSSW_5_3_22_patch1/src/genproductions/bin/MadGraph5_aMCatNLO/wwelmunu012j_4f_NLO_FXFX/wwelmunu012j_4f_NLO_FXFX_gridpack/work/processtmp/Cards/amcatnlo_co
nfiguration.txt
Using default eps viewer "evince". Set another one in ./input/mg5_configuration.txt
Using default web browser "firefox". Set another one in ./input/mg5_configuration.txt
launch -n pilotrun
The following switches determine which operations are executed:
 1 Perturbative order of the calculation: order=NLO
 2 Fixed order (no event generation and no MC@[N]LO matching): fixed_order=OFF
 3 Shower the generated events: shower=ON
 4 Decay particles with the MadSpin module: madspin=ON
  Either type the switch number (1 to 4) to change its default setting,
  or set any switch explicitly (e.g. type 'order=LO' at the prompt)
  Type '0', 'auto', 'done' or just press enter when you are done.
 [0, 1, 2, 3, 4, auto, done, order=LO, order=NLO, ... ][60s to answer]
>The following switches determine which operations are executed:
  1 Perturbative order of the calculation: order=NLO
 2 Fixed order (no event generation and no MC@[N]LO matching): fixed_order=OFF
 3 Shower the generated events: shower=OFF
 4 Decay particles with the MadSpin module: madspin=ON
  Either type the switch number (1 to 4) to change its default setting,
  or set any switch explicitly (e.g. type 'order=LO' at the prompt)
  Type '0', 'auto', 'done' or just press enter when you are done.
 [0, 1, 2, 3, 4, auto, done, order=LO, order=NLO, ... ][60s to answer]
>INFO: will run in mode: noshower
 WARNING: You have chosen not to run a parton shower. NLO events without showering are NOT physical.
Please, shower the Les Houches events before using them for physics analyses.
Do you want to edit a card (press enter to bypass editing)?
  1 / param : param_card.dat
  2 / run : run_card.dat
  3 / madspin : madspin_card.dat
 you can also
   - enter the path to a valid card or banner.
   - use the 'set' command to modify a parameter directly.
     The set option works only for param_card and run_card.
     Type 'help set' for more information on this command.
   - call an external program (ASperGE/MadWidth/...).
     Type 'help' for the list of available command
 [0, done, 1, param, 2, run, 3, madspin, enter path][60s to answer]
>not valid argument. Valid argument are file path or value in (0,done,1,param,2,run,3,madspin).
 please retry
>INFO: modify param_card information BLOCK mass with id (6,) set to 172.5
 Do you want to edit a card (press enter to bypass editing)?
  1 / param : param_card.dat
  2 / run : run_card.dat
  3 / madspin : madspin_card.dat
 you can also
   - enter the path to a valid card or banner.
   - use the 'set' command to modify a parameter directly.
     The set option works only for param_card and run_card.
     Type 'help set' for more information on this command.
   - call an external program (ASperGE/MadWidth/...).
     Type 'help' for the list of available command
 [0, done, 1, param, 2, run, 3, madspin, enter path]
>INFO: modify param_card information BLOCK mass with id (25,) set to 125.0
 Do you want to edit a card (press enter to bypass editing)?
  1 / param : param_card.dat
  2 / run : run_card.dat
  3 / madspin : madspin_card.dat
 you can also
   - enter the path to a valid card or banner.
   - use the 'set' command to modify a parameter directly.
     The set option works only for param_card and run_card.
     Type 'help set' for more information on this command.
   - call an external program (ASperGE/MadWidth/...).
     Type 'help' for the list of available command
 [0, done, 1, param, 2, run, 3, madspin, enter path]
>INFO: modify param_card information BLOCK yukawa with id (6,) set to 172.5
 Do you want to edit a card (press enter to bypass editing)?
  1 / param : param_card.dat
  2 / run : run_card.dat
  3 / madspin : madspin_card.dat
 you can also
   - enter the path to a valid card or banner.
   - use the 'set' command to modify a parameter directly.
     The set option works only for param_card and run_card.
     Type 'help set' for more information on this command.
   - call an external program (ASperGE/MadWidth/...).
     Type 'help' for the list of available command
 [0, done, 1, param, 2, run, 3, madspin, enter path]
>WARNING: You are running with FxFx merging enabled. To be able to merge
     samples of various multiplicities without double counting, you
    have to remove some events after showering 'by hand'. Please
    read http://amcatnlo.cern.ch/FxFx_merging.htm for more details.
INFO: Starting run
INFO: Compiling the code
INFO: Using LHAPDF v6.1.4 interface for PDFs
INFO: Compiling source...
INFO: ...done, continuing with P* directories
INFO: Compiling StdHEP (can take a couple of minutes) ...
INFO: ...done.
INFO: Compiling CutTools (can take a couple of minutes) ...
INFO: ...done.
INFO: Compiling IREGI (can take a couple of minutes) ...
INFO: ...done.
INFO: Compiling directories...
INFO: Compiling on 32 cores
INFO: Compiling P0_uux_wpwm...
INFO: Compiling P0_ddx_wpwm...
INFO: Compiling P0_dxd_wpwm...
INFO: Compiling P0_uxu_wpwm...
INFO: Compiling P1_gu_wpwmu...
INFO: Compiling P1_gd_wpwmd...
INFO: Compiling P1_gdx_wpwmdx...
INFO: Compiling P1_uux_wpwmg...
INFO: Compiling P1_ug_wpwmu...
INFO: Compiling P1_dg_wpwmd...
INFO: Compiling P1_ddx_wpwmg...
INFO: Compiling P1_gux_wpwmux...
INFO: Compiling P1_uxg_wpwmux...
INFO: Compiling P1_uxu_wpwmg...
INFO: Compiling P1_dxg_wpwmdx...
INFO: Compiling P1_dxd_wpwmg...
INFO: Compiling P2_gg_wpwmuux...
INFO: Compiling P2_gg_wpwmddx...
INFO: Compiling P2_gu_wpwmug...
INFO: Compiling P2_gd_wpwmdg...
INFO: Compiling P2_gux_wpwmuxg...
INFO: Compiling P2_gdx_wpwmdxg...
INFO: Compiling P2_ug_wpwmug...
INFO: Compiling P2_uu_wpwmuu...
INFO: Compiling P2_uc_wpwmuc...
INFO: Compiling P2_ud_wpwmud...
INFO: Compiling P2_us_wpwmus...
INFO: Compiling P2_uux_wpwmuux...
INFO: Compiling P2_us_wpwmcd...
INFO: Compiling P2_uux_wpwmddx...
INFO: Compiling P2_uux_wpwmgg...
INFO: Compiling P2_uux_wpwmccx...
INFO: P0_uxu_wpwm done.
INFO: Compiling P2_uux_wpwmssx...
INFO: P0_uux_wpwm done.
INFO: Compiling P2_ucx_wpwmucx...
INFO: P0_dxd_wpwm done.
INFO: P0_ddx_wpwm done.
INFO: Compiling P2_ucx_wpwmdsx...
INFO: Compiling P2_udx_wpwmudx...
INFO: P2_us_wpwmcd done.
INFO: Compiling P2_udx_wpwmcsx...
INFO: P1_uxu_wpwmg done.
INFO: Compiling P2_usx_wpwmusx...
INFO: P1_dg_wpwmd done.
INFO: Compiling P2_cd_wpwmsu...
INFO: P1_ddx_wpwmg done.
INFO: Compiling P2_dg_wpwmdg...
INFO: P1_uxg_wpwmux done.
INFO: Compiling P2_du_wpwmdu...
INFO: P1_gu_wpwmu done.
INFO: Compiling P2_dc_wpwmsu...
INFO: P1_dxd_wpwmg done.
INFO: Compiling P2_dc_wpwmdc...
INFO: P1_gd_wpwmd done.
INFO: Compiling P2_dd_wpwmdd...
INFO: P2_ucx_wpwmdsx done.
INFO: Compiling P2_ds_wpwmds...
INFO: P1_ug_wpwmu done.
INFO: Compiling P2_dux_wpwmdux...
INFO: P1_gdx_wpwmdx done.
INFO: Compiling P2_dux_wpwmscx...
INFO: P1_dxg_wpwmdx done.
INFO: Compiling P2_dcx_wpwmdcx...
INFO: P2_udx_wpwmcsx done.
INFO: Compiling P2_ddx_wpwmgg...
INFO: P2_uc_wpwmuc done.
INFO: Compiling P2_ddx_wpwmuux...
INFO: P1_uux_wpwmg done.
INFO: Compiling P2_ddx_wpwmccx...
INFO: P2_uux_wpwmddx done.
INFO: Compiling P2_ddx_wpwmddx...
INFO: P2_cd_wpwmsu done.
INFO: Compiling P2_ddx_wpwmssx...
INFO: P2_ud_wpwmud done.
INFO: Compiling P2_dsx_wpwmucx...
INFO: P2_dc_wpwmsu done.
INFO: Compiling P2_dsx_wpwmdsx...
INFO: P1_gux_wpwmux done.
INFO: Compiling P2_su_wpwmcd...
INFO: P2_ucx_wpwmucx done.
INFO: Compiling P2_uxg_wpwmuxg...
INFO: P2_uux_wpwmssx done.
INFO: Compiling P2_uxu_wpwmgg...
INFO: P2_dux_wpwmscx done.
INFO: Compiling P2_uxu_wpwmuux...
INFO: P2_udx_wpwmudx done.
INFO: Compiling P2_uxu_wpwmccx...
INFO: P2_usx_wpwmusx done.
INFO: Compiling P2_uxu_wpwmddx...
INFO: P2_uu_wpwmuu done.
INFO: Compiling P2_uxu_wpwmssx...
INFO: P2_dsx_wpwmucx done.
INFO: Compiling P2_uxc_wpwmuxc...
INFO: P2_su_wpwmcd done.
INFO: Compiling P2_uxc_wpwmsdx...
INFO: P2_uux_wpwmuux done.
INFO: Compiling P2_uxd_wpwmuxd...
INFO: P2_dc_wpwmdc done.
INFO: Compiling P2_uxd_wpwmscx...
INFO: P2_uux_wpwmccx done.
INFO: Compiling P2_uxs_wpwmuxs...
INFO: P2_du_wpwmdu done.
INFO: Compiling P2_uxux_wpwmuxux...
INFO: P2_dcx_wpwmdcx done.
INFO: Compiling P2_uxcx_wpwmuxcx...
INFO: P2_ddx_wpwmccx done.
INFO: Compiling P2_uxdx_wpwmuxdx...
INFO: P2_dux_wpwmdux done.
INFO: Compiling P2_uxsx_wpwmuxsx...
INFO: P2_ddx_wpwmuux done.
INFO: Compiling P2_uxsx_wpwmdxcx...
INFO: P2_ddx_wpwmssx done.
INFO: Compiling P2_cxdx_wpwmuxsx...
INFO: P2_ds_wpwmds done.
INFO: Compiling P2_dxg_wpwmdxg...
INFO: P2_dsx_wpwmdsx done.
INFO: Compiling P2_dxu_wpwmdxu...
INFO: P2_uxc_wpwmsdx done.
INFO: Compiling P2_dxu_wpwmcsx...
INFO: P2_uxd_wpwmscx done.
INFO: Compiling P2_dxc_wpwmdxc...
INFO: P2_uxu_wpwmccx done.
INFO: Compiling P2_dxd_wpwmgg...
INFO: P2_cxdx_wpwmuxsx done.
INFO: Compiling P2_dxd_wpwmuux...
INFO: P2_dd_wpwmdd done.
INFO: Compiling P2_dxd_wpwmccx...
INFO: P2_uxsx_wpwmdxcx done.
INFO: Compiling P2_dxd_wpwmddx...
INFO: P2_uxu_wpwmssx done.
INFO: Compiling P2_dxd_wpwmssx...
INFO: P2_uxc_wpwmuxc done.
INFO: Compiling P2_dxs_wpwmcux...
INFO: P2_dxu_wpwmcsx done.
INFO: Compiling P2_dxs_wpwmdxs...
INFO: P2_uxu_wpwmddx done.
INFO: Compiling P2_dxux_wpwmdxux...
INFO: P2_uxs_wpwmuxs done.
INFO: Compiling P2_dxcx_wpwmuxsx...
INFO: P2_uxcx_wpwmuxcx done.
INFO: Compiling P2_dxcx_wpwmdxcx...
INFO: P2_uxd_wpwmuxd done.
INFO: Compiling P2_dxdx_wpwmdxdx...
INFO: P2_uxsx_wpwmuxsx done.
INFO: Compiling P2_dxsx_wpwmdxsx...
INFO: P2_uxdx_wpwmuxdx done.
INFO: Compiling P2_sxux_wpwmdxcx...
INFO: P2_dxs_wpwmcux done.
INFO: P2_dxcx_wpwmuxsx done.
INFO: P2_uxu_wpwmuux done.
INFO: P2_dxu_wpwmdxu done.
INFO: P2_sxux_wpwmdxcx done.
INFO: P2_dxd_wpwmccx done.
INFO: P2_us_wpwmus done.
INFO: P2_dxd_wpwmssx done.
INFO: P2_dxs_wpwmdxs done.
INFO: P2_ddx_wpwmddx done.
INFO: P2_dxsx_wpwmdxsx done.
INFO: P2_dxux_wpwmdxux done.
INFO: P2_dxd_wpwmuux done.
INFO: P2_dxcx_wpwmdxcx done.
INFO: P2_dxc_wpwmdxc done.
INFO: P2_uxux_wpwmuxux done.
INFO: P2_dxd_wpwmddx done.
INFO: P2_dxdx_wpwmdxdx done.
INFO: P2_ug_wpwmug done.
INFO: P2_gux_wpwmuxg done.
INFO: P2_gdx_wpwmdxg done.
INFO: P2_gg_wpwmuux done.
INFO: P2_dxg_wpwmdxg done.
INFO: P2_dg_wpwmdg done.
INFO: P2_gd_wpwmdg done.
INFO: P2_uxg_wpwmuxg done.
INFO: P2_uux_wpwmgg done.
INFO: P2_gg_wpwmddx done.
INFO: P2_dxd_wpwmgg done.
INFO: P2_ddx_wpwmgg done.
INFO: P2_gu_wpwmug done.
INFO: P2_uxu_wpwmgg done.
INFO: Checking test output:
INFO: P0_uux_wpwm
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P0_ddx_wpwm
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P0_uxu_wpwm
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P0_dxd_wpwm
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P1_gu_wpwmu
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P1_gd_wpwmd
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P1_gux_wpwmux
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P1_gdx_wpwmdx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P1_ug_wpwmu
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P1_uux_wpwmg
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P1_dg_wpwmd
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 19 points over 20 (tolerance=1.0e-05)
INFO: P1_ddx_wpwmg
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P1_uxg_wpwmux
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P1_uxu_wpwmg
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P1_dxg_wpwmdx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P1_dxd_wpwmg
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_gg_wpwmuux
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_gg_wpwmddx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_gu_wpwmug
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_gd_wpwmdg
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_gux_wpwmuxg
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_gdx_wpwmdxg
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_ug_wpwmug
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_uu_wpwmuu
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_uc_wpwmuc
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_ud_wpwmud
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_us_wpwmus
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_us_wpwmcd
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_uux_wpwmgg
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_uux_wpwmuux
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_uux_wpwmccx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_uux_wpwmddx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_uux_wpwmssx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_ucx_wpwmucx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_ucx_wpwmdsx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_udx_wpwmudx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_udx_wpwmcsx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_usx_wpwmusx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_cd_wpwmsu
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_dg_wpwmdg
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_du_wpwmdu
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_dc_wpwmsu
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_dc_wpwmdc
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_dd_wpwmdd
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_ds_wpwmds
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_dux_wpwmdux
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_dux_wpwmscx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_dcx_wpwmdcx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_ddx_wpwmgg
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_ddx_wpwmuux
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_ddx_wpwmccx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_ddx_wpwmddx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_ddx_wpwmssx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_dsx_wpwmucx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_dsx_wpwmdsx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_su_wpwmcd
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_uxg_wpwmuxg
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_uxu_wpwmgg
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_uxu_wpwmuux
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_uxu_wpwmccx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_uxu_wpwmddx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_uxu_wpwmssx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_uxc_wpwmuxc
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_uxc_wpwmsdx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_uxd_wpwmuxd
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_uxd_wpwmscx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_uxs_wpwmuxs
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_uxux_wpwmuxux
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_uxcx_wpwmuxcx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_uxdx_wpwmuxdx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_uxsx_wpwmuxsx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_uxsx_wpwmdxcx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_cxdx_wpwmuxsx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_dxg_wpwmdxg
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_dxu_wpwmdxu
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_dxu_wpwmcsx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_dxc_wpwmdxc
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_dxd_wpwmgg
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_dxd_wpwmuux
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_dxd_wpwmccx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_dxd_wpwmddx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_dxd_wpwmssx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_dxs_wpwmcux
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_dxs_wpwmdxs
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_dxux_wpwmdxux
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_dxcx_wpwmuxsx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_dxcx_wpwmdxcx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_dxdx_wpwmdxdx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_dxsx_wpwmdxsx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: P2_sxux_wpwmdxcx
INFO: Result for test_ME:
INFO: Passed.
INFO: Result for test_MC:
INFO: Passed.
INFO: Result for check_poles:
INFO: Poles successfully cancel for 20 points over 20 (tolerance=1.0e-05)
INFO: Starting run
INFO: Using 32 cores
INFO: Cleaning previous results
INFO: Generating events without running the shower.
INFO: Setting up grid
INFO: Idle: 1234, Running: 32, Completed: 0 [ current time: 16h27 ]
INFO: Idle: 1233, Running: 32, Completed: 1 [ 2m 53s ]
....
INFO: Idle: 0, Running: 1, Completed: 1265 [ 79h 7m ]
INFO: Idle: 0, Running: 1, Completed: 1265 [ 79h 10m ]
INFO: Idle: 0, Running: 1, Completed: 1265 [ 79h 13m ]
INFO: Idle: 0, Running: 1, Completed: 1265 [ 79h 16m ]
INFO: Idle: 0, Running: 1, Completed: 1265 [ 79h 19m ]
INFO: Idle: 0, Running: 1, Completed: 1265 [ 79h 22m ]
INFO: Idle: 0, Running: 1, Completed: 1265 [ 79h 25m ]
INFO: Idle: 0, Running: 1, Completed: 1265 [ 79h 28m ]
INFO: Idle: 0, Running: 1, Completed: 1265 [ 79h 31m ]
INFO: Idle: 0, Running: 1, Completed: 1265 [ 79h 34m ]
INFO: Idle: 0, Running: 0, Completed: 1265 [ 79h 37m ]
INFO: Return code of the event collection: None
INFO: Output of the event collection:
N of directories: 1266
Determining the number of unweighted events per channel
1 jobs did not terminate correctly:
P2_dxd_wpwmgg/GF5
The results are probably not correct. Please check the relevant log files corresponding to the above jobs for more information.
Found 1265 correctly terminated jobs
1265 1266
Integrated abs(cross-section)
P2_uxux_wpwmuxux/GF9/res_0: Final result [ABS]: 8.8472342870392026E-004 +/- 1.0518367939986765E-005
Integrated cross-section
P2_uxux_wpwmuxux/GF9/res_0: Final result: 1.3469927030737268E-004 +/- 9.3850610202599923E-006

quit
INFO:

Revision history for this message
Rikkert Frederix (frederix) said : 		#5

Dear Javi,

What is the exact contents (including file sizes) of the files in the

SubProcesses/P2_dxd_wpwmgg/GF5

folder?

Rikkert

Revision history for this message
Javier Fernandez (javier-fernandez-h) said : 		#6

Dear Rikkert,

I see:

ls /lrt SubProcesses/P2_dxd_wpwmgg/GF5/
total 124K
-rw-r--r-- 1 jfernan aeuser 33K Dec 2 10:01 log_MINT0.txt
-rw-r--r-- 1 jfernan aeuser 33K Dec 2 10:01 log.txt
-rw-r--r-- 1 jfernan aeuser 1.4K Dec 2 10:01 grid.MC_integer
-rw-r--r-- 1 jfernan aeuser 2.1K Dec 2 10:01 param_card.dat
-rw-r--r-- 1 jfernan aeuser 403 Dec 2 10:01 symfact.dat
-rw-r--r-- 1 jfernan aeuser 150 Dec 2 10:01 res_0
-rw-r--r-- 1 jfernan aeuser 3.2K Dec 2 10:01 FKS_params.dat
-rw-r--r-- 1 jfernan aeuser 14K Dec 2 10:01 mint_grids
-rw-r--r-- 1 jfernan aeuser 442 Dec 2 10:01 input_app.txt
-rw-r--r-- 1 jfernan aeuser 1.2K Dec 2 10:01 initial_states_map.dat
-rw-r--r-- 1 jfernan aeuser 4 Dec 2 10:01 randinit
-rw-r--r-- 1 jfernan aeuser 205 Dec 2 10:01 results.dat

results.dat
  0.19769282732737298 1.8116260964670067E-003 0.0000000000000000
         0 0 0 0 0.0000000000000000 0.000
0000000000000 5.3660797313358113E-002

initial_states_map.dat
1 2 2 -2 4 -4
2 2 21 -4 21 -2
3 2 2 21 4 21
4 2 1 -1 3 -3
5 2 21 -3 21 -1
6 2 1 21 3 21
7 2 -4 4 -2 2
8 2 21 2 21 4
9 2 -4 21 -2 21
10 2 -3 3 -1 1
11 2 21 1 21 3
12 2 -3 21 -1 21
13 2 -3 4 -1 2
14 2 1 2 3 4
15 2 2 2 4 4
16 2 -3 2 -1 4
17 2 1 4 3 2
18 2 -4 2 -2 4
19 2 2 4 4 2
20 1 21 21
21 2 1 1 3 3
22 2 -4 3 -2 1
23 2 2 1 4 3
24 2 -3 1 -1 3
25 2 1 3 3 1
26 2 -4 1 -2 3
27 2 2 3 4 1
28 2 -3 -4 -1 -2
29 2 1 -2 3 -4
30 2 -4 -4 -2 -2
31 2 -3 -2 -1 -4
32 2 1 -4 3 -2
33 2 -4 -2 -2 -4
34 2 2 -4 4 -2
35 2 -3 -3 -1 -1
36 2 -4 -3 -2 -1
37 2 2 -1 4 -3
38 2 -3 -1 -1 -3
39 2 1 -3 3 -1
40 2 -4 -1 -2 -3
41 2 2 -3 4 -1
42 1 2 3
43 1 21 3
44 1 2 21
45 1 4 1
46 1 21 1
47 1 4 21
48 1 1 4
49 1 21 4
50 1 1 21
51 1 3 2
52 1 21 2
53 1 3 21
54 1 -2 -3
55 1 21 -3
56 1 -2 21
57 1 -4 -1
58 1 21 -1
59 1 -4 21
60 1 -1 -4
61 1 21 -4
62 1 -1 21
63 1 -3 -2
64 1 21 -2
65 1 -3 21

randinit
r=33

input_app.txt
-1 12 ! points, iterations
0.03 ! desired fractional accuracy
1 -0.1 ! alpha, beta for Gsoft
-1 -0.1 ! alpha, beta for Gazi
1 ! Suppress amplitude (0 no, 1 yes)?
1 ! Exact helicity sum (0 yes, n = number/event)?
5
0 ! MINT imode: 0 to set-up grids, 1 to perform integral, 2 generate ev
ents
1 1 1 ! if imode is 1: Folding parameters for xi_i, phi_i and y_ij
all ! all, born, real, virt

mint_grids
   0.0000000000000000 0.0000000000000000 0.0000000000000000
 0.0000000000000000 0.0000000000000000 0.0000000000000000 0
.0000000000000000 0.0000000000000000 0.0000000000000000 0.0
000000000000000 0.0000000000000000 0.0000000000000000 0.000
0000000000000
  0.16275061996998982 7.9533290911970131E-002 7.2839886162222103E-002
 3.2091511523983415E-002 5.6374994147206349E-002 2.7500075059278949E-002 1
.0257818582410301E-002 2.8730959077719227E-002 0.42079243699690183 0.13
437661841008183 0.14918241687724076 1.8787931241731792E-002 3.111
4635981860931E-002
  0.34299353164820662 0.16819170325318178 0.14440546442335353
 6.5742194761439970E-002 9.0805465391406825E-002 5.4221733509486177E-002 2
.0100438289141393E-002 5.7035340916968984E-002 0.51191081682000705 0.17
807629321214072 0.20062150311901600 3.7968865633499500E-002 6.178
4062419884905E-002
  0.46368772081042170 0.25876587004345142 0.20720898361155032
 9.7477847745256252E-002 0.11822687903883135 8.5062421944398323E-002 2
.9107826865026425E-002 8.5354552835519390E-002 0.57457905168109913 0.20
407765656036900 0.23987333162177685 5.5117274798253200E-002 9.055
6106416311982E-002
  0.57801131165341701 0.34807153117159129 0.26825647546710418
0.12984155764923169 0.14332771949519985 0.11250315548933341 3
.8199937667394102E-002 0.11251014307822768 0.63038356193518197 0.22
602238645941924 0.26441030258406228 7.0360892794451818E-002 0.1213
4468537527457
  0.66493675171380240 0.42549005471491480 0.33097234730411973
0.16059469713382041 0.16696755476115085 0.14222215437155145 4
.6813103161235624E-002 0.13921498176681862 0.67089533404416601 0.24
065254891505827 0.28808106558858737 8.7946153546058586E-002 0.1470
5992096729087
  0.72636672465013796 0.50314283921602665 0.38897500382013667
0.19048430345913517 0.19200957509339073 0.17266864342350624 5
.5789118392471720E-002 0.16583569597356876 0.68653192273382713 0.25
929872990241121 0.31342410874037130 0.10594004791166274 0.1746
1573223386781
  0.78617883851733461 0.56509821811927385 0.44415250193441025
0.22112199425560755 0.21747005928409630 0.20392539659941178 6
.5818522240921121E-002 0.19585174529585847 0.71261077540399109 0.27
586192092271111 0.33862760043325313 0.12591776135306953 0.2039
7454743864371
  0.81421464244538921 0.62072953191271396 0.49493511552619013
0.25093377471312289 0.24379477147455028 0.23811323536024029 7
.6811579415960687E-002 0.22505260807128766 0.73596157955105668 0.29
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FKS_params.dat
! ==========================================================================
! This file sets the different technical parameters intrinsic to the
! FKS program and which controls the behaviour of the code at run
! time. The common user should not edit this file and only experts
! should venture editing these parameters.
! ==========================================================================
!
! ==========================================================================
! Arbitrary numerical parameters used in the FKS formalism
! ==========================================================================
!
! To be implemented by the FKS authors
!
! ==========================================================================
! Parameters controlling the tests based on the IR poles comparison
! ==========================================================================
!
! This threshold sets the limiting value for the comparison of the
! relative difference of the IR pole from the OLP and the one computed
! internaly by MadFKS. The value below is used for the first PS
! points to assess the sanity of the computation. A value ten times
! smaller will be used for the systematic check of IR poles at
! runtime.
! Notice that the systematic comparison of IR poles at run time is
! only performed when the Monte-Carlo over helicity configurations
! method is not used. Set this value to '-1.0d0' if you want the
! check to always pass.
#IRPoleCheckThreshold
1.0d-5
! Default :: 1.0d-5
!
! ==========================================================================
! OLP (virtuals) behavior at run time
! ==========================================================================
!
!
! Set the precision required from the OLP code. The IR poles check
! will be performed at run time with a threshold ten times loser than
! the value below. When equal to '-1d0' the default value of the OLP
! is used, and the poles check is disabled at run time
!
#PrecisionVirtualAtRunTime
1.0d-3
! Default :: 1.0d-3
!
! ==========================================================================
! Parameters defining the techniques used for the MC integration
! ==========================================================================
!
! This integer sets what is the minimum number of contributing
! helicities (in a given subrpocess) which is necessary for MadFKS to
! switch to the Monte-Carlo over helicity configurations method. Set
! this to '-1' if you want to forbid the use of this method
! altogether.
#NHelForMCoverHels
4
! Default :: 4
!
! This parameter sets for which fraction of the events the virtual
! matrix elements should be included. When using MINT, during the
! grid-setup phase, this number will be updated automatically after
! each iteration depending on the relative MC uncertainties.
#VirtualFraction
1.0d0
! Default :: 1.0d0
!
! This parameter sets the minimal fraction of the events for which the
! virtual matrix elements should be included.
#MinVirtualFraction
0.005d0
! Default :: 0.005d0
!
! ==========================================================================
! End of FKS_params.dat file
! ==========================================================================

res_0
 Final result [ABS]: 0.19769282732737298 +/- 2.7757432730991043E-003
 Final result: 5.3660797313358113E-002 +/- 1.8116260964670067E-003

symfact.dat
     1 2
     2 -1
     3 1
     4 2
     5 2
     6 -4
     7 -5
     8 1
     9 2
    10 2
    11 2
    12 2
    13 2
    14 2
    15 2
    16 -9
    17 -10
    18 -11
    19 -12
    20 -13
    21 -14
    22 -15
    23 1
    24 2
    25 2
    26 -24
    27 -25
    28 1
    29 1
    30 1
    31 1

param_card.dat
######################################################################
## PARAM_CARD AUTOMATICALY GENERATED BY MG5 ####
######################################################################
###################################
## INFORMATION FOR LOOP
###################################
BLOCK LOOP #
      1 9.118800e+01 # mu_r
###################################
## INFORMATION FOR MASS
###################################
BLOCK MASS #
      5 4.700000e+00 # mb
      6 1.725000e+02 # mt
      15 1.777000e+00 # mta
      23 9.118800e+01 # mz
      25 1.250000e+02 # mh
      1 0.000000e+00 # d : 0.0
      2 0.000000e+00 # u : 0.0
      3 0.000000e+00 # s : 0.0
      4 0.000000e+00 # c : 0.0
      11 0.000000e+00 # e- : 0.0
      12 0.000000e+00 # ve : 0.0
      13 0.000000e+00 # mu- : 0.0
      14 0.000000e+00 # vm : 0.0
      16 0.000000e+00 # vt : 0.0
      21 0.000000e+00 # g : 0.0
      22 0.000000e+00 # a : 0.0
      24 8.041900e+01 # w+ : cmath.sqrt(mz__exp__2/2. + cmath.sqrt(mz__exp__4/4
. - (aew*cmath.pi*mz__exp__2)/(gf*sqrt__2)))
###################################
## INFORMATION FOR SMINPUTS
###################################
BLOCK SMINPUTS #
      1 1.325070e+02 # aewm1
      2 1.166390e-05 # gf
      3 1.180000e-01 # as
###################################
## INFORMATION FOR YUKAWA
###################################
BLOCK YUKAWA #
      5 4.700000e+00 # ymb
      6 1.725000e+02 # ymt
      15 1.777000e+00 # ymtau
###################################
## INFORMATION FOR DECAY
###################################
DECAY 6 1.491500e+00 # wt
DECAY 23 2.441404e+00 # wz
DECAY 24 2.047600e+00 # ww
DECAY 25 6.382339e-03 # wh
DECAY 1 0.000000e+00 # d : 0.0
DECAY 2 0.000000e+00 # u : 0.0
DECAY 3 0.000000e+00 # s : 0.0
DECAY 4 0.000000e+00 # c : 0.0
DECAY 5 0.000000e+00 # b : 0.0
DECAY 11 0.000000e+00 # e- : 0.0
DECAY 12 0.000000e+00 # ve : 0.0
DECAY 13 0.000000e+00 # mu- : 0.0
DECAY 14 0.000000e+00 # vm : 0.0
DECAY 15 0.000000e+00 # ta- : 0.0
DECAY 16 0.000000e+00 # vt : 0.0
DECAY 21 0.000000e+00 # g : 0.0
DECAY 22 0.000000e+00 # a : 0.0

grid.MC_integer
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Revision history for this message
Rikkert Frederix (frederix) said : 		#7

Dear Javi,

I really see no reason whatsoever that might have given this problem. The only thing I can imagine is that somehow files were still being copied but the code was already checking if the results were correct. There was a fix related to this in version 2.2.2 of the code. Which version are you using?

Best,
Rikkert

Revision history for this message
Javier Fernandez (javier-fernandez-h) said : 		#8

Dear Rikkert,

I'm using 2.2.1, I will try 2.2.2 then

Thanks,
Javi

Can you help with this problem?

Provide an answer of your own, or ask Javier Fernandez for more information if necessary.

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