Top pair production with two jets

Asked by Orcun Kolay on 2019-07-02

Dear MadGraph Team,

I am using Madgraph5 version 2.6.5. and I am generating top quark pair by submitting to condor on cern lxplus system. My commands are (for two jets);

>>generate p p > t t~ j j [QCD]
>>output /afs/cern.ch/work/o/okolay/private/MC-Programs/Mg_Events/nlo_13Tev_2j/run_12
>>launch
>>shower=PYTHIA8
>>madspin=ON
>>set nevents 20000
>>set pdlabel lhapdf
>>set lhaid 11000
>>set fixed_QES_scale False
>>set ickkw 3
>>set jetradius 1
>>set ptj 20
>>set qcut 30
>>set njmax 2
>>set iseed 12

And, I got this error:

Error detected in "launch auto "
write debug file /afs/cern.ch/work/o/okolay/private/MC-Programs/Mg_Events/nlo_13Tev_2j/run_12/run_01_tag_1_debug.log
If you need help with this issue please contact us on https://answers.launchpad.net/mg5amcnlo
aMCatNLOError : An error occurred during the collection of results.
 Please check the .log files inside the directories which failed:
 /afs/cern.ch/work/o/okolay/private/MC-Programs/Mg_Events/nlo_13Tev_2j/run_12/SubProcesses/P0_gg_ttxgg/GF92/log.txt

I didn’t understand why I get this error. Can you help me this situation? In addition, log.txt file is;

==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.1.6 loading /afs/cern.ch/work/o/okolay/private/MC-Programs/MG5_aMC_v2_6_5/HEPTools/lhapdf6/share/LHAPDF/CT10nlo/CT10nlo_0000.dat
CT10nlo PDF set, member #0, version 4; LHAPDF ID = 11000
 ===============================================================
 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
 ===============================================================
 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 : 0.11800062239984055
 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 = 173.00000000000000
 mdl_ymtau = 1.7769999999999999
 mdl_MT = 173.00000000000000
 mdl_MB = 4.7000000000000002
 mdl_MZ = 91.188000000000002
 mdl_MH = 125.00000000000000
 mdl_MTA = 1.7769999999999999
 mdl_WT = 0.0000000000000000
 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 = 9.0000000000000000
 mdl_MB__exp__2 = 22.090000000000003
 mdl_MT__exp__2 = 29929.000000000000
 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 = 0.99366614581500623
 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 = ( 0.99366614581500623 , 0.0000000000000000 )
 mdl_I3x33 = ( 0.99366614581500623 , 0.0000000000000000 )
 mdl_I4x33 = ( 2.6995554250465490E-002, 0.0000000000000000 )
 mdl_Vector_tbGp = (-0.96667059156454072 , 0.0000000000000000 )
 mdl_Axial_tbGp = ( -1.0206617000654716 , -0.0000000000000000 )
 mdl_Vector_tbGm = ( 0.96667059156454072 , 0.0000000000000000 )
 mdl_Axial_tbGm = ( -1.0206617000654716 , -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 = 0.98737240933884918
  Internal Params evaluated point by point
  ----------------------------------------

 mdl_sqrt__aS = 0.34351128074635334
 mdl_G__exp__4 = 2.1987899468922913
 mdl_G__exp__2 = 1.4828317324943823
 mdl_G_UVg_1EPS_ = -5.1645779033320030E-002
 mdl_G_UVq_1EPS_ = 3.1300472141406080E-003
 mdl_G_UVb_1EPS_ = 3.1300472141406080E-003
 mdl_GWcft_UV_b_1EPS_ = -3.1300472141406080E-003
 mdl_GWcft_UV_t_1EPS_ = -3.1300472141406080E-003
 mdl_bWcft_UV_1EPS_ = -1.8780283284843650E-002
 mdl_tWcft_UV_1EPS_ = -1.8780283284843650E-002
 mdl_tMass_UV_1EPS_ = ( 0.0000000000000000 , 6.4979780165559031 )
 mdl_G__exp__3 = 1.8056676068262196
 mdl_MU_R__exp__2 = 8315.2513440000002
 mdl_G_UVb_FIN_ = 1.8563438626678915E-002
 mdl_G_UVt_FIN_ = -4.0087659331150384E-003
 mdl_GWcft_UV_b_FIN_ = -1.8563438626678915E-002
 mdl_GWcft_UV_t_FIN_ = 4.0087659331150384E-003
 mdl_bWcft_UV_FIN_ = -0.13642100947319838
 mdl_tWcft_UV_FIN_ = -9.8778211443463623E-004
 mdl_tMass_UV_FIN_ = ( 0.0000000000000000 , 0.34177261159438416 )
  Couplings of loop_sm
  ---------------------------------

       UV_3Gb = -0.22605E-01 0.00000E+00
       UV_3Gt = 0.48815E-02 0.00000E+00
       UV_4Gb = 0.00000E+00 0.55053E-01
      UV_4Ggt = 0.00000E+00 -0.11889E-01
      UV_GQQb = 0.00000E+00 0.22605E-01
      UV_GQQt = 0.00000E+00 -0.48815E-02
     UV_tMass = 0.00000E+00 0.34177E+00
   UVWfct_t_0 = -0.98778E-03 -0.00000E+00
   UVWfct_G_2 = 0.40088E-02 0.00000E+00
   UVWfct_G_1 = -0.18563E-01 0.00000E+00
         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
  R2GC_137_43 = 0.00000E+00 0.11603E-02
  R2GC_137_44 = -0.00000E+00 -0.34810E-02
  R2GC_139_47 = -0.00000E+00 -0.46413E-02
  R2GC_140_48 = 0.00000E+00 0.77356E-03
  R2GC_140_49 = -0.00000E+00 -0.69620E-02
  R2GC_142_52 = 0.00000E+00 0.13924E-01
  R2GC_142_53 = 0.00000E+00 0.48734E-01
  R2GC_143_54 = 0.00000E+00 0.12764E-01
  R2GC_143_55 = 0.00000E+00 0.52215E-01
  R2GC_144_56 = -0.00000E+00 -0.10443E-01
  R2GC_144_57 = -0.00000E+00 -0.59177E-01
  R2GC_145_58 = -0.11603E-02 0.00000E+00
  R2GC_145_59 = 0.34810E-02 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 -0.11242E+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
       R2_QQt = 0.00000E+00 0.43320E+01
  UV_3Gg_1eps = 0.62890E-01 0.00000E+00
  UV_3Gb_1eps = -0.38115E-02 0.00000E+00
  UV_4Gg_1eps = 0.00000E+00 -0.15316E+00
  UV_4Gb_1eps = 0.00000E+00 0.92827E-02
 UV_GQQg_1eps = 0.00000E+00 -0.62890E-01
 UV_GQQq_1eps = 0.00000E+00 0.38115E-02
 UV_tMass_1eps = 0.00000E+00 0.64980E+01
 UVWfct_b_0_1eps -0.18780E-01 0.00000E+00
 UVWfct_G_2_1eps -0.31300E-02 0.00000E+00

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

 Running at P P machine @ 13000.000000000000 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
 Diagram information for clustering has been set-up for nFKSprocess 10
 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)?
 Do MC over helicities for the virtuals
Enter Configuration Number:
Running Configuration Number: 77
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)
 about to integrate 13 -1 12 77
 imode is 0
channel 1 : 77 T 0 0 0.1000E+01 0.0000E+00 0.1000E+01
#--------------------------------------------------------------------------
# FastJet release 3.3.2
# 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.
#--------------------------------------------------------------------------

  +----------------------------------------------------------------+
  | |
  | Ninja - version 1.2.0 |
  | |
  | Author: Tiziano Peraro |
  | |
  | Based on: |
  | |
  | P. Mastrolia, E. Mirabella and T. Peraro, |
  | "Integrand reduction of one-loop scattering amplitudes |
  | through Laurent series expansion," |
  | JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
  | |
  | T. Peraro, |
  | "Ninja: Automated Integrand Reduction via Laurent |
  | Expansion for One-Loop Amplitudes," |
  | Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  | |
  +----------------------------------------------------------------+

 ------- iteration 1
 Update # PS points (even): 1040 --> 1040
Using random seed offsets: 77 , 1 , 0
  with seed 12
 Ranmar initialization seeds 16507 9386
 Total number of FKS directories is 10
 FKS process map (sum= 3 ) :
           1 --> 3 : 1 6 7
           2 --> 3 : 2 8 9
           3 --> 1 : 3
           4 --> 1 : 4
           5 --> 2 : 5 10
 ================================
 process combination map (specified per FKS dir):
  1 map 1
  1 inv. map 1
  2 map 1
  2 inv. map 1
  3 map 1
  3 inv. map 1
  4 map 1
  4 inv. map 1
  5 map 1
  5 inv. map 1
  6 map 1 1 1 1
  6 inv. map 4
  7 map 1 1 1 1
  7 inv. map 4
  8 map 1 1 1 1
  8 inv. map 4
  9 map 1 1 1 1
  9 inv. map 4
 10 map 1 1 1 1
 10 inv. map 4
 ================================
tau_min 1 1 : 0.34600E+03 -- 0.38600E+03
tau_min 2 1 : 0.34600E+03 -- 0.38600E+03
tau_min 3 1 : 0.38600E+03 0.38600E+03 0.38600E+03
tau_min 4 1 : 0.38600E+03 0.38600E+03 0.38600E+03
tau_min 5 1 : 0.38600E+03 0.38600E+03 0.38600E+03
tau_min 6 1 : 0.34600E+03 -- 0.38600E+03
tau_min 7 1 : 0.34600E+03 -- 0.38600E+03
tau_min 8 1 : 0.34600E+03 -- 0.38600E+03
tau_min 9 1 : 0.34600E+03 -- 0.38600E+03
tau_min 10 1 : 0.38600E+03 0.38600E+03 0.38600E+03
 bpower is 4.0000000000000000
 Scale values (may change event by event):
 muR, muR_reference: 0.940479D+02 0.940479D+02 1.00
 muF1, muF1_reference: 0.108670D+03 0.108670D+03 1.00
 muF2, muF2_reference: 0.108670D+03 0.108670D+03 1.00
 QES, QES_reference: 0.228716D+03 0.228716D+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= 0.11745563429653416
 alpha_s value used for the virtuals is (for the first PS point): 0.11745563429653416
  ==========================================================================================
 { }
 { ^[[32m ^[[0m }
 { ^[[32m ,, ^[[0m }
 { ^[[32m`7MMM. ,MMF' `7MM `7MMF' ^[[0m }
 { ^[[32m MMMb dPMM MM MM ^[[0m }
 { ^[[32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. ^[[0m }
 { ^[[32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb ^[[0m }
 { ^[[32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 ^[[0m }
 { ^[[32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP ^[[0m }
 { ^[[32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' ^[[0m }
 { ^[[32m MM ^[[0m }
 { ^[[32m .JMML. ^[[0m }
 { ^[[32m^[[0mv2.6.5 (2018-02-03), Ref: arXiv:1103.0621v2, arXiv:1405.0301^[[32m ^[[0m }
 { ^[[32m ^[[0m }
 { }
  ==========================================================================================
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat $
 ===============================================================
  > MLReductionLib = 6|7|1
  > CTModeRun = -1
  > MLStabThres = 1.0000000000000000E-003
  > NRotations_DP = 0
  > NRotations_QP = 0
  > CTStabThres = 1.0000000000000000E-002
  > CTLoopLibrary = 2
  > CTModeInit = 1
  > CheckCycle = 3
  > MaxAttempts = 10
  > UseLoopFilter = F
  > HelicityFilterLevel = 2
  > ImprovePSPoint = 2
  > DoubleCheckHelicityFilter = T
  > LoopInitStartOver = F
  > HelInitStartOver = F
  > ZeroThres = 1.0000000000000001E-009
  > OSThres = 1.0000000000000000E-008
  > WriteOutFilters = T
  > UseQPIntegrandForNinja = T
  > UseQPIntegrandForCutTools = T
  > IREGIMODE = 2
  > IREGIRECY = T
  > COLLIERMode = 1
  > COLLIERRequiredAccuracy = 1.0000000000000000E-008
  > COLLIERCanOutput = F
  > COLLIERComputeUVpoles = T
  > COLLIERComputeIRpoles = T
  > COLLIERGlobalCache = -1
  > COLLIERUseCacheForPoles = F
  > COLLIERUseInternalStabilityTest = 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-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren <email address hidden> #
# date: 18-02-2015 #
# #
# 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. #
# #
########################################################################
########################################################################
# #
Thanks for using LHAPDF 6.1.6. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren <email address hidden> #
# date: 18-02-2015 #
# #
# 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. #
# #
########################################################################
 ---- POLES CANCELLED ----
ABS integral = 0.1769E+00 +/- 0.7284E-01 ( 41.171 %)
Integral = 0.2954E-01 +/- 0.1404E-01 ( 47.532 %)
Virtual = 0.8509E-02 +/- 0.2705E-02 ( 31.796 %)
Virtual ratio = 0.1793E+02 +/- 0.7465E+00 ( 4.164 %)
ABS virtual = 0.9523E-02 +/- 0.2704E-02 ( 28.393 %)
Born*ao2pi = 0.3911E-03 +/- 0.9067E-04 ( 23.185 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.1769E+00 +/- 0.7284E-01 ( 41.171 %)
accumulated results Integral = 0.2954E-01 +/- 0.1404E-01 ( 47.532 %)
accumulated results Virtual = 0.8509E-02 +/- 0.2705E-02 ( 31.796 %)
accumulated results Virtual ratio = 0.1793E+02 +/- 0.7465E+00 ( 4.164 %)
accumulated results ABS virtual = 0.9523E-02 +/- 0.2704E-02 ( 28.393 %)
accumulated results Born*ao2pi = 0.3911E-03 +/- 0.9067E-04 ( 23.185 %)
accumulated result Chi^2 per DoF = 0.0000E+00
 Cannot open "grid.MC_integer" file
Time in seconds: 1149

Question information

Language:
English Edit question
Status:
Answered
For:
MadGraph5_aMC@NLO Edit question
Assignee:
Rikkert Frederix Edit question
Last query:
2019-07-14
Last reply:
2019-07-14

The log files seems to indicate that you can not write or read a file. Would you have some quota issue?

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________________________________
From: <email address hidden> <email address hidden> on behalf of Orcun Kolay <email address hidden>
Sent: Tuesday, July 2, 2019 6:38:09 PM
To: Olivier Mattelaer
Subject: [Question #681762]: Top pair production with two jets

New question #681762 on MadGraph5_aMC@NLO:
https://answers.launchpad.net/mg5amcnlo/+question/681762

Dear MadGraph Team,

I am using Madgraph5 version 2.6.5. and I am generating top quark pair by submitting to condor on cern lxplus system. My commands are (for two jets);

>>generate p p > t t~ j j [QCD]
>>output /afs/cern.ch/work/o/okolay/private/MC-Programs/Mg_Events/nlo_13Tev_2j/run_12
>>launch
>>shower=PYTHIA8
>>madspin=ON
>>set nevents 20000
>>set pdlabel lhapdf
>>set lhaid 11000
>>set fixed_QES_scale False
>>set ickkw 3
>>set jetradius 1
>>set ptj 20
>>set qcut 30
>>set njmax 2
>>set iseed 12

And, I got this error:

Error detected in "launch auto "
write debug file /afs/cern.ch/work/o/okolay/private/MC-Programs/Mg_Events/nlo_13Tev_2j/run_12/run_01_tag_1_debug.log
If you need help with this issue please contact us on https://answers.launchpad.net/mg5amcnlo
aMCatNLOError : An error occurred during the collection of results.
        Please check the .log files inside the directories which failed:
        /afs/cern.ch/work/o/okolay/private/MC-Programs/Mg_Events/nlo_13Tev_2j/run_12/SubProcesses/P0_gg_ttxgg/GF92/log.txt

I didn’t understand why I get this error. Can you help me this situation? In addition, log.txt file is;

==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.1.6 loading /afs/cern.ch/work/o/okolay/private/MC-Programs/MG5_aMC_v2_6_5/HEPTools/lhapdf6/share/LHAPDF/CT10nlo/CT10nlo_0000.dat
CT10nlo PDF set, member #0, version 4; LHAPDF ID = 11000
 ===============================================================
 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
 ===============================================================
 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 : 0.11800062239984055
 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 = 173.00000000000000
 mdl_ymtau = 1.7769999999999999
 mdl_MT = 173.00000000000000
 mdl_MB = 4.7000000000000002
 mdl_MZ = 91.188000000000002
 mdl_MH = 125.00000000000000
 mdl_MTA = 1.7769999999999999
 mdl_WT = 0.0000000000000000
 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 = 9.0000000000000000
 mdl_MB__exp__2 = 22.090000000000003
 mdl_MT__exp__2 = 29929.000000000000
 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 = 0.99366614581500623
 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 = ( 0.99366614581500623 , 0.0000000000000000 )
 mdl_I3x33 = ( 0.99366614581500623 , 0.0000000000000000 )
 mdl_I4x33 = ( 2.6995554250465490E-002, 0.0000000000000000 )
 mdl_Vector_tbGp = (-0.96667059156454072 , 0.0000000000000000 )
 mdl_Axial_tbGp = ( -1.0206617000654716 , -0.0000000000000000 )
 mdl_Vector_tbGm = ( 0.96667059156454072 , 0.0000000000000000 )
 mdl_Axial_tbGm = ( -1.0206617000654716 , -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 = 0.98737240933884918
  Internal Params evaluated point by point
  ----------------------------------------

 mdl_sqrt__aS = 0.34351128074635334
 mdl_G__exp__4 = 2.1987899468922913
 mdl_G__exp__2 = 1.4828317324943823
 mdl_G_UVg_1EPS_ = -5.1645779033320030E-002
 mdl_G_UVq_1EPS_ = 3.1300472141406080E-003
 mdl_G_UVb_1EPS_ = 3.1300472141406080E-003
 mdl_GWcft_UV_b_1EPS_ = -3.1300472141406080E-003
 mdl_GWcft_UV_t_1EPS_ = -3.1300472141406080E-003
 mdl_bWcft_UV_1EPS_ = -1.8780283284843650E-002
 mdl_tWcft_UV_1EPS_ = -1.8780283284843650E-002
 mdl_tMass_UV_1EPS_ = ( 0.0000000000000000 , 6.4979780165559031 )
 mdl_G__exp__3 = 1.8056676068262196
 mdl_MU_R__exp__2 = 8315.2513440000002
 mdl_G_UVb_FIN_ = 1.8563438626678915E-002
 mdl_G_UVt_FIN_ = -4.0087659331150384E-003
 mdl_GWcft_UV_b_FIN_ = -1.8563438626678915E-002
 mdl_GWcft_UV_t_FIN_ = 4.0087659331150384E-003
 mdl_bWcft_UV_FIN_ = -0.13642100947319838
 mdl_tWcft_UV_FIN_ = -9.8778211443463623E-004
 mdl_tMass_UV_FIN_ = ( 0.0000000000000000 , 0.34177261159438416 )
  Couplings of loop_sm
  ---------------------------------

       UV_3Gb = -0.22605E-01 0.00000E+00
       UV_3Gt = 0.48815E-02 0.00000E+00
       UV_4Gb = 0.00000E+00 0.55053E-01
      UV_4Ggt = 0.00000E+00 -0.11889E-01
      UV_GQQb = 0.00000E+00 0.22605E-01
      UV_GQQt = 0.00000E+00 -0.48815E-02
     UV_tMass = 0.00000E+00 0.34177E+00
   UVWfct_t_0 = -0.98778E-03 -0.00000E+00
   UVWfct_G_2 = 0.40088E-02 0.00000E+00
   UVWfct_G_1 = -0.18563E-01 0.00000E+00
         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
  R2GC_137_43 = 0.00000E+00 0.11603E-02
  R2GC_137_44 = -0.00000E+00 -0.34810E-02
  R2GC_139_47 = -0.00000E+00 -0.46413E-02
  R2GC_140_48 = 0.00000E+00 0.77356E-03
  R2GC_140_49 = -0.00000E+00 -0.69620E-02
  R2GC_142_52 = 0.00000E+00 0.13924E-01
  R2GC_142_53 = 0.00000E+00 0.48734E-01
  R2GC_143_54 = 0.00000E+00 0.12764E-01
  R2GC_143_55 = 0.00000E+00 0.52215E-01
  R2GC_144_56 = -0.00000E+00 -0.10443E-01
  R2GC_144_57 = -0.00000E+00 -0.59177E-01
  R2GC_145_58 = -0.11603E-02 0.00000E+00
  R2GC_145_59 = 0.34810E-02 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 -0.11242E+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
       R2_QQt = 0.00000E+00 0.43320E+01
  UV_3Gg_1eps = 0.62890E-01 0.00000E+00
  UV_3Gb_1eps = -0.38115E-02 0.00000E+00
  UV_4Gg_1eps = 0.00000E+00 -0.15316E+00
  UV_4Gb_1eps = 0.00000E+00 0.92827E-02
 UV_GQQg_1eps = 0.00000E+00 -0.62890E-01
 UV_GQQq_1eps = 0.00000E+00 0.38115E-02
 UV_tMass_1eps = 0.00000E+00 0.64980E+01
 UVWfct_b_0_1eps -0.18780E-01 0.00000E+00
 UVWfct_G_2_1eps -0.31300E-02 0.00000E+00

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

 Running at P P machine @ 13000.000000000000 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
 Diagram information for clustering has been set-up for nFKSprocess 10
 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)?
 Do MC over helicities for the virtuals
Enter Configuration Number:
Running Configuration Number: 77
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)
 about to integrate 13 -1 12 77
 imode is 0
channel 1 : 77 T 0 0 0.1000E+01 0.0000E+00 0.1000E+01
#--------------------------------------------------------------------------
# FastJet release 3.3.2
# 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.
#--------------------------------------------------------------------------

  +----------------------------------------------------------------+
  | |
  | Ninja - version 1.2.0 |
  | |
  | Author: Tiziano Peraro |
  | |
  | Based on: |
  | |
  | P. Mastrolia, E. Mirabella and T. Peraro, |
  | "Integrand reduction of one-loop scattering amplitudes |
  | through Laurent series expansion," |
  | JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
  | |
  | T. Peraro, |
  | "Ninja: Automated Integrand Reduction via Laurent |
  | Expansion for One-Loop Amplitudes," |
  | Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  | |
  +----------------------------------------------------------------+

 ------- iteration 1
 Update # PS points (even): 1040 --> 1040
Using random seed offsets: 77 , 1 , 0
  with seed 12
 Ranmar initialization seeds 16507 9386
 Total number of FKS directories is 10
 FKS process map (sum= 3 ) :
           1 --> 3 : 1 6 7
           2 --> 3 : 2 8 9
           3 --> 1 : 3
           4 --> 1 : 4
           5 --> 2 : 5 10
 ================================
 process combination map (specified per FKS dir):
  1 map 1
  1 inv. map 1
  2 map 1
  2 inv. map 1
  3 map 1
  3 inv. map 1
  4 map 1
  4 inv. map 1
  5 map 1
  5 inv. map 1
  6 map 1 1 1 1
  6 inv. map 4
  7 map 1 1 1 1
  7 inv. map 4
  8 map 1 1 1 1
  8 inv. map 4
  9 map 1 1 1 1
  9 inv. map 4
 10 map 1 1 1 1
 10 inv. map 4
 ================================
tau_min 1 1 : 0.34600E+03 -- 0.38600E+03
tau_min 2 1 : 0.34600E+03 -- 0.38600E+03
tau_min 3 1 : 0.38600E+03 0.38600E+03 0.38600E+03
tau_min 4 1 : 0.38600E+03 0.38600E+03 0.38600E+03
tau_min 5 1 : 0.38600E+03 0.38600E+03 0.38600E+03
tau_min 6 1 : 0.34600E+03 -- 0.38600E+03
tau_min 7 1 : 0.34600E+03 -- 0.38600E+03
tau_min 8 1 : 0.34600E+03 -- 0.38600E+03
tau_min 9 1 : 0.34600E+03 -- 0.38600E+03
tau_min 10 1 : 0.38600E+03 0.38600E+03 0.38600E+03
 bpower is 4.0000000000000000
 Scale values (may change event by event):
 muR, muR_reference: 0.940479D+02 0.940479D+02 1.00
 muF1, muF1_reference: 0.108670D+03 0.108670D+03 1.00
 muF2, muF2_reference: 0.108670D+03 0.108670D+03 1.00
 QES, QES_reference: 0.228716D+03 0.228716D+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= 0.11745563429653416
 alpha_s value used for the virtuals is (for the first PS point): 0.11745563429653416
  ==========================================================================================
 { }
 { ^[[32m ^[[0m }
 { ^[[32m ,, ^[[0m }
 { ^[[32m`7MMM. ,MMF' `7MM `7MMF' ^[[0m }
 { ^[[32m MMMb dPMM MM MM ^[[0m }
 { ^[[32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. ^[[0m }
 { ^[[32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb ^[[0m }
 { ^[[32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 ^[[0m }
 { ^[[32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP ^[[0m }
 { ^[[32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' ^[[0m }
 { ^[[32m MM ^[[0m }
 { ^[[32m .JMML. ^[[0m }
 { ^[[32m^[[0mv2.6.5 (2018-02-03), Ref: arXiv:1103.0621v2, arXiv:1405.0301^[[32m ^[[0m }
 { ^[[32m ^[[0m }
 { }
  ==========================================================================================
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat $
 ===============================================================
  > MLReductionLib = 6|7|1
  > CTModeRun = -1
  > MLStabThres = 1.0000000000000000E-003
  > NRotations_DP = 0
  > NRotations_QP = 0
  > CTStabThres = 1.0000000000000000E-002
  > CTLoopLibrary = 2
  > CTModeInit = 1
  > CheckCycle = 3
  > MaxAttempts = 10
  > UseLoopFilter = F
  > HelicityFilterLevel = 2
  > ImprovePSPoint = 2
  > DoubleCheckHelicityFilter = T
  > LoopInitStartOver = F
  > HelInitStartOver = F
  > ZeroThres = 1.0000000000000001E-009
  > OSThres = 1.0000000000000000E-008
  > WriteOutFilters = T
  > UseQPIntegrandForNinja = T
  > UseQPIntegrandForCutTools = T
  > IREGIMODE = 2
  > IREGIRECY = T
  > COLLIERMode = 1
  > COLLIERRequiredAccuracy = 1.0000000000000000E-008
  > COLLIERCanOutput = F
  > COLLIERComputeUVpoles = T
  > COLLIERComputeIRpoles = T
  > COLLIERGlobalCache = -1
  > COLLIERUseCacheForPoles = F
  > COLLIERUseInternalStabilityTest = 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-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren <email address hidden> #
# date: 18-02-2015 #
# #
# 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. #
# #
########################################################################
########################################################################
# #
Thanks for using LHAPDF 6.1.6. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren <email address hidden> #
# date: 18-02-2015 #
# #
# 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. #
# #
########################################################################
 ---- POLES CANCELLED ----
ABS integral = 0.1769E+00 +/- 0.7284E-01 ( 41.171 %)
Integral = 0.2954E-01 +/- 0.1404E-01 ( 47.532 %)
Virtual = 0.8509E-02 +/- 0.2705E-02 ( 31.796 %)
Virtual ratio = 0.1793E+02 +/- 0.7465E+00 ( 4.164 %)
ABS virtual = 0.9523E-02 +/- 0.2704E-02 ( 28.393 %)
Born*ao2pi = 0.3911E-03 +/- 0.9067E-04 ( 23.185 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.1769E+00 +/- 0.7284E-01 ( 41.171 %)
accumulated results Integral = 0.2954E-01 +/- 0.1404E-01 ( 47.532 %)
accumulated results Virtual = 0.8509E-02 +/- 0.2705E-02 ( 31.796 %)
accumulated results Virtual ratio = 0.1793E+02 +/- 0.7465E+00 ( 4.164 %)
accumulated results ABS virtual = 0.9523E-02 +/- 0.2704E-02 ( 28.393 %)
accumulated results Born*ao2pi = 0.3911E-03 +/- 0.9067E-04 ( 23.185 %)
accumulated result Chi^2 per DoF = 0.0000E+00
 Cannot open "grid.MC_integer" file
Time in seconds: 1149

--
You received this question notification because you are an answer
contact for MadGraph5_aMC@NLO.

Orcun Kolay (orcun-kolay) said : #2

I have no quota problem.

Rikkert Frederix (frederix) said : #3

Dear Orcun,

That message only appears when the code tries to create a file called 'grid.MC_integer' and it cannot. The most common reason for this is a quota issue, or a completely filled disk. Another reason might be that the file system has already too many files opened. All these reasons are not directly linked to MG5_aMC and this is therefore something that cannot be debugged from our side.

Best regards,
Rikkert

Orcun Kolay (orcun-kolay) said : #4

Thank you for your answers. I submitted 10 jobs like this, so that is the reason of the problem, maybe. Because I don't know how to use results (Matrix Elements solutions), I simulated ten jobs at the same time. How can I use results for more simulations in MadGraph5?

Rikkert Frederix (frederix) said : #5

Dear Ocrun,

Could you please elaborate? I've got no idea what you mean by what you wrote.

Best,
Rikkert

Orcun Kolay (orcun-kolay) said : #6

I want to generate ttbar+2 jets production. And, I used the codes as below:

>>generate p p > t t~ j j [QCD]
>>output /afs/cern.ch/work/o/okolay/private/MC-Programs/Mg_Events/nlo_13Tev_2j/run_14
>>launch
>>shower=PYTHIA8
>>madspin=ON
>>set nevents 20000
>>set pdlabel lhapdf
>>set lhaid 11000
>>set fixed_QES_scale False
>>set ickkw 3
>>set jetradius 1
>>set ptj 20
>>set qcut 30
>>set njmax 2
>>set iseed 14

I submitted ten jobs with this codes on lxplus. And, I took the error that I mentioned above. You said that this problem is a disk problem. Okey. After, I cleaned my disk. I submitted one job. And, I took this error:

#************************************************************
#* MadGraph5_aMC@NLO *
#* *
#* * * *
#* * * * * *
#* * * * * 5 * * * * *
#* * * * * *
#* * * *
#* *
#* *
#* VERSION 2.6.5 2018-02-03 *
#* *
#* 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 auto
Traceback (most recent call last):
  File "/afs/cern.ch/work/o/okolay/private/MC-Programs/MG5_aMC_v2_6_5/madgraph/interface/extended_cmd.py", line 1514, in onecmd
    return self.onecmd_orig(line, **opt)
  File "/afs/cern.ch/work/o/okolay/private/MC-Programs/MG5_aMC_v2_6_5/madgraph/interface/extended_cmd.py", line 1463, in onecmd_orig
    return func(arg, **opt)
  File "/afs/cern.ch/work/o/okolay/private/MC-Programs/MG5_aMC_v2_6_5/madgraph/interface/amcatnlo_run_interface.py", line 1693, in do_launch
    self.exec_cmd('decay_events -from_cards', postcmd=False)
  File "/afs/cern.ch/work/o/okolay/private/MC-Programs/MG5_aMC_v2_6_5/madgraph/interface/extended_cmd.py", line 1543, in exec_cmd
    stop = Cmd.onecmd_orig(current_interface, line, **opt)
  File "/afs/cern.ch/work/o/okolay/private/MC-Programs/MG5_aMC_v2_6_5/madgraph/interface/extended_cmd.py", line 1463, in onecmd_orig
    return func(arg, **opt)
  File "/afs/cern.ch/work/o/okolay/private/MC-Programs/MG5_aMC_v2_6_5/madgraph/interface/common_run_interface.py", line 3687, in do_decay_events
    madspin_cmd.import_command_file(path)
  File "/afs/cern.ch/work/o/okolay/private/MC-Programs/MG5_aMC_v2_6_5/madgraph/interface/extended_cmd.py", line 1660, in import_command_file
    self.exec_cmd(line, precmd=True)
  File "/afs/cern.ch/work/o/okolay/private/MC-Programs/MG5_aMC_v2_6_5/madgraph/interface/extended_cmd.py", line 1543, in exec_cmd
    stop = Cmd.onecmd_orig(current_interface, line, **opt)
  File "/afs/cern.ch/work/o/okolay/private/MC-Programs/MG5_aMC_v2_6_5/madgraph/interface/extended_cmd.py", line 1463, in onecmd_orig
    return func(arg, **opt)
  File "/afs/cern.ch/work/o/okolay/private/MC-Programs/MG5_aMC_v2_6_5/madgraph/various/misc.py", line 100, in f_with_no_logger
    out = f(self, *args, **opt)
  File "/afs/cern.ch/work/o/okolay/private/MC-Programs/MG5_aMC_v2_6_5/MadSpin/interface_madspin.py", line 617, in do_launch
    self.options)
  File "/afs/cern.ch/work/o/okolay/private/MC-Programs/MG5_aMC_v2_6_5/MadSpin/decay.py", line 2062, in __init__
    self.compile()
  File "/afs/cern.ch/work/o/okolay/private/MC-Programs/MG5_aMC_v2_6_5/MadSpin/decay.py", line 2924, in compile
    self.compile_fortran(self.path_me, mode="full_me")
  File "/afs/cern.ch/work/o/okolay/private/MC-Programs/MG5_aMC_v2_6_5/MadSpin/decay.py", line 3020, in compile_fortran
    misc.compile(cwd=new_path, mode='fortran')
  File "/afs/cern.ch/work/o/okolay/private/MC-Programs/MG5_aMC_v2_6_5/madgraph/various/misc.py", line 527, in compile
    raise MadGraph5Error, error_text
MadGraph5Error: A compilation Error occurs when trying to compile /afs/cern.ch/work/o/okolay/private/MC-Programs/Mg_Events/nlo_13Tev_2j/run_14/full_m$
The compilation fails with the following output message:
    gfortran -O -w -fbounds-check -fPIC -ffixed-line-length-132 -c -o driver.o driver.f
    gfortran -O -w -fbounds-check -fPIC -ffixed-line-length-132 -c -o matrix.o matrix.f
    gfortran -O -w -fbounds-check -fPIC -ffixed-line-length-132 -c -o matrix_prod.o matrix_prod.f
    Assembler messages:
    Fatal error: can't create matrix_prod.o: Connection timed out
    make: *** [matrix_prod.o] Error 1

Please try to fix this compilations issue and retry.
Help might be found at https://answers.launchpad.net/mg5amcnlo.
If you think that this is a bug, you can report this at https://bugs.launchpad.net/mg5amcnlo
Value of current Options:
              text_editor : None
      notification_center : True
                    pjfry : None
       cluster_local_path : None
  default_unset_couplings : 99
       group_subprocesses : Auto
ignore_six_quark_processes : False
    loop_optimized_output : True
    cluster_status_update : (600, 30)
         fortran_compiler : None
               hepmc_path : /afs/cern.ch/work/o/okolay/private/MC-Programs/MG5_aMC_v2_6_5/HEPTools/hepmc
                  collier : ./HEPTools/lib
              auto_update : 7
             pythia8_path : /afs/cern.ch/work/o/okolay/private/MC-Programs/MG5_aMC_v2_6_5/HEPTools/pythia8
                hwpp_path : None
low_mem_multicore_nlo_generation : False
                    golem : None
          pythia-pgs_path : None
                  td_path : None
             delphes_path : /afs/cern.ch/work/o/okolay/private/MC-Programs/MG5_aMC_v2_6_5/Delphes
              thepeg_path : None
             cluster_type : condor
        madanalysis5_path : None
      exrootanalysis_path : None
                      OLP : MadLoop
                 applgrid : applgrid-config
               eps_viewer : None
                  fastjet : /afs/cern.ch/work/o/okolay/private/Frameworks/fastjet3.3.2/bin/fastjet-config
                 run_mode : 2
              web_browser : None
   automatic_html_opening : False
        cluster_temp_path : None
             cluster_size : 100
            cluster_queue : None
             syscalc_path : None
         madanalysis_path : None
                   lhapdf : /afs/cern.ch/work/o/okolay/private/MC-Programs/MG5_aMC_v2_6_5/HEPTools/lhapdf6/bin/lhapdf-config
             stdout_level : 20
                  nb_core : 16
            f2py_compiler : None
                    ninja : /afs/cern.ch/work/o/okolay/private/MC-Programs/MG5_aMC_v2_6_5/HEPTools/lib
                  amcfast : amcfast-config
       cluster_retry_wait : 300
      output_dependencies : external
              mg5_g5_path : /afs/cern.ch/work/o/okolay/private/MC-Programs/MG5_aMC_v2_6_5
           crash_on_error : False
mg5amc_py8_interface_path : /afs/cern.ch/work/o/okolay/private/MC-Programs/MG5_aMC_v2_6_5/HEPTools/MG5aMC_PY8_interface
         loop_color_flows : False
                  samurai : None
         cluster_nb_retry : 1
                 mg5_path : /afs/cern.ch/work/o/okolay/private/MC-Programs/MG5_aMC_v2_6_5
                  timeout : 60
                    gauge : unitary
      complex_mass_scheme : False
             cpp_compiler : None
   max_npoint_for_channel : 0
#************************************************************
#* MadGraph5_aMC@NLO *
#* *
#* * * *
#* * * * * *
#* * * * * 5 * * * * *
#* * * * * *
#* * * *
#* *
#* *
#* VERSION 2.6.5 2018-02-03 *
#* *
#* 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 default_unset_couplings 99
set group_subprocesses Auto
set ignore_six_quark_processes False
set loop_optimized_output True
set low_mem_multicore_nlo_generation False
set loop_color_flows False
set gauge unitary
set complex_mass_scheme False
set max_npoint_for_channel 0
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~
import model loop_sm
generate p p > t t~ j j [QCD]
output /afs/cern.ch/work/o/okolay/private/MC-Programs/Mg_Events/nlo_13\
Tev_2j/run_14
######################################################################
## PARAM_CARD AUTOMATICALY GENERATED BY MG5 FOLLOWING UFO MODEL ####
######################################################################
## ##
## Width set on Auto will be computed following the information ##
## present in the decay.py files of the model. ##
## See arXiv:1402.1178 for more details. ##
## ##
######################################################################

###################################
## INFORMATION FOR LOOP
###################################
Block loop
    1 9.118800e+01 # MU_R

###################################
## INFORMATION FOR MASS
###################################
Block mass
    5 4.700000e+00 # MB
    6 1.730000e+02 # MT
   15 1.777000e+00 # MTA
   23 9.118800e+01 # MZ
   25 1.250000e+02 # MH
## Dependent parameters, given by model restrictions.
## Those values should be edited following the
## analytical expression. MG5 ignores those values
## but they are important for interfacing the output of MG5
## to external program such as Pythia.
  1 0.000000 # d : 0.0
  2 0.000000 # u : 0.0
  3 0.000000 # s : 0.0
  4 0.000000 # c : 0.0
  11 0.000000 # e- : 0.0
  12 0.000000 # ve : 0.0
  13 0.000000 # mu- : 0.0
  14 0.000000 # vm : 0.0
  16 0.000000 # vt : 0.0
  21 0.000000 # g : 0.0
  22 0.000000 # a : 0.0
  24 80.419002 # 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 1.730000e+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
## Dependent parameters, given by model restrictions.
## Those values should be edited following the
## analytical expression. MG5 ignores those values
## but they are important for interfacing the output of MG5
## to external program such as Pythia.
DECAY 1 0.000000 # d : 0.0
DECAY 2 0.000000 # u : 0.0
DECAY 3 0.000000 # s : 0.0
DECAY 4 0.000000 # c : 0.0
DECAY 5 0.000000 # b : 0.0
DECAY 11 0.000000 # e- : 0.0
DECAY 12 0.000000 # ve : 0.0
DECAY 13 0.000000 # mu- : 0.0
DECAY 14 0.000000 # vm : 0.0
DECAY 15 0.000000 # ta- : 0.0
DECAY 16 0.000000 # vt : 0.0
DECAY 21 0.000000 # g : 0.0
DECAY 22 0.000000 # a : 0.0
#===========================================================
# QUANTUM NUMBERS OF NEW STATE(S) (NON SM PDG CODE)
#===========================================================

Block QNUMBERS 82 # gh
        1 0 # 3 times electric charge
        2 1 # number of spin states (2S+1)
        3 8 # colour rep (1: singlet, 3: triplet, 8: octet)
        4 1 # Particle/Antiparticle distinction (0=own anti)
#***********************************************************************
# 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 *
# *
# Some of the values of variables can be list. These can either be *
# comma or space separated. *
# *
# To display additional parameter, you can use the command: *
# update to_full *
#***********************************************************************
#
#*******************
# 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 *
#***********************************************************************
  20000 = nevents ! Number of unweighted events requested
  -1.0 = req_acc ! Required accuracy (-1=auto determined from nevents)
  -1 = 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 ! valid settings: average, sum, bias
#***********************************************************************
# 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 *
#***********************************************************************
  14 = 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)
  6500.0 = ebeam1 ! beam 1 energy in GeV
  6500.0 = ebeam2 ! beam 2 energy in GeV
#***********************************************************************
# PDF choice: this automatically fixes also alpha_s(MZ) and its evol. *
#***********************************************************************
  lhapdf = pdlabel ! PDF set
  11000 = lhaid ! If pdlabel=lhapdf, this is the lhapdf number. Only
              ! numbers for central PDF sets are allowed. Can be a list;
              ! PDF sets beyond the first are included via reweighting.
#***********************************************************************
# 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
  1.0 = shower_scale_factor ! multiply default shower starting
                                  ! scale by this factor
#***********************************************************************
# Renormalization and factorization scales *
# (Default functional form for the non-fixed scales is the sum of *
# the transverse masses divided by two of all final state particles *
# and partons. This can be changed in SubProcesses/set_scales.f or via *
# dynamical_scale_choice option) *
#***********************************************************************
  False = fixed_ren_scale ! if .true. use fixed ren scale
  False = fixed_fac_scale ! if .true. use fixed fac scale
  91.118 = mur_ref_fixed ! fixed ren reference scale
  91.118 = muf_ref_fixed ! fixed fact reference scale
  -1 = dynamical_scale_choice ! Choose one (or more) of the predefined
           ! dynamical choices. Can be a list; scale choices beyond the
           ! first are included via reweighting
  1.0 = mur_over_ref ! ratio of current muR over reference muR
  1.0 = muf_over_ref ! ratio of current muF over reference muF
#***********************************************************************
# Reweight variables for scale dependence and PDF uncertainty *
#***********************************************************************
  1.0, 2.0, 0.5 = rw_rscale ! muR factors to be included by reweighting
  1.0, 2.0, 0.5 = rw_fscale ! muF factors to be included by reweighting
  True = reweight_scale ! Reweight to get scale variation using the
            ! rw_rscale and rw_fscale factors. Should be a list of
            ! booleans of equal length to dynamical_scale_choice to
            ! specify for which choice to include scale dependence.
  False = reweight_pdf ! Reweight to get PDF uncertainty. Should be a
            ! list booleans of equal length to lhaid to specify for
            ! which PDF set to include the uncertainties.
#***********************************************************************
# Store reweight information in the LHE file for off-line model- *
# parameter reweighting at NLO+PS accuracy *
#***********************************************************************
  False = store_rwgt_info ! Store info for reweighting in LHE file
#***********************************************************************
# ickkw parameter: *
# 0: No merging *
# 3: FxFx 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 details. *
# 4: UNLOPS merging (with pythia8 only). No interface from within *
# MG5_aMC available, but available in Pythia8. *
# -1: NNLL+NLO jet-veto computation. See arxiv:1412.8408 [hep-ph]. *
#***********************************************************************
  3 = ickkw
#***********************************************************************
#
#***********************************************************************
# BW cutoff (M+/-bwcutoff*Gamma). Determines which resonances are *
# written in the LHE event file *
#***********************************************************************
  15.0 = 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 *
#***********************************************************************
  1.0 = jetalgo ! FastJet jet algorithm (1=kT, 0=C/A, -1=anti-kT)
  1.0 = jetradius ! The radius parameter for the jet algorithm
  20.0 = ptj ! Min jet transverse momentum
  -1.0 = 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 cuts can be specified in SubProcesses/cuts.f *
#***********************************************************************
  0.0 = ptl ! Min lepton transverse momentum
  -1.0 = etal ! Max lepton abs(pseudo-rap) (a value .lt.0 means no cut)
  0.0 = drll ! Min distance between opposite sign lepton pairs
  0.0 = drll_sf ! Min distance between opp. sign same-flavor lepton pairs
  0.0 = mll ! Min inv. mass of all opposite sign lepton pairs
  30.0 = 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. *
# More specific cuts can be specified in SubProcesses/cuts.f *
#***********************************************************************
  20.0 = ptgmin ! Min photon transverse momentum
  -1.0 = 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)
#***********************************************************************
# Cuts associated to MASSIVE particles identified by their PDG codes. *
# All cuts are applied to both particles and anti-particles, so use *
# POSITIVE PDG CODES only. Example of the syntax is {6 : 100} or *
# {6:100, 25:200} for multiple particles *
#***********************************************************************
  {} = pt_min_pdg ! Min pT for a massive particle
  {} = pt_max_pdg ! Max pT for a massive particle
  {} = mxx_min_pdg ! inv. mass for any pair of (anti)particles
#***********************************************************************
# For aMCfast+APPLGRID use in PDF fitting (http://amcfast.hepforge.org)*
#***********************************************************************
  0 = iappl ! aMCfast switch (0=OFF, 1=prepare grids, 2=fill grids)
#***********************************************************************
#*********************************************************************
# Additional hidden parameters
#*********************************************************************
  False = fixed_qes_scale # hidden_parameter

Where am I wrong? I can generate ttbar+1 jet with this code, but I cannot 2 jets.

Rikkert Frederix (frederix) said : #7

Dear Orcun,

This is your error message:

   Assembler messages:
   Fatal error: can't create matrix_prod.o: Connection timed out
   make: *** [matrix_prod.o] Error 1

That typically happens if you run on a remote machine and you lose connection. Is that what could have happened in your case?

Best,
Rikkert

Orcun Kolay (orcun-kolay) said : #8

I submitted the job with this code:

executable = madgraph_job_13Tev_14.sh
arguments = $(ClusterID) $(ProcId)
output = output/ct10nlo_13Tev_2j.$(ClusterId).$(ProcId).out
error = error/madgraph.$(ClusterId).$(ProcId).err
log = log/madgraph.$(ClusterId).log
RequestCpus = 8
+JobFlavour = "nextweek"
queue

And, my log file is:

000 (1682566.000.000) 07/06 18:54:51 Job submitted from host: <137.138.156.150:9618?addrs=137.138.156.150-9618&noUDP&sock=4041_5e4c_57>
...
001 (1682566.000.000) 07/06 18:56:22 Job executing on host: <188.184.192.30:9618?addrs=188.184.192.30-9618+[2001-1458-301-83--100-2d]-9618&noUDP&sock=28922_aa33_3>
...
006 (1682566.000.000) 07/06 18:56:31 Image size of job updated: 44784
        44 - MemoryUsage of job (MB)
        44720 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/06 19:01:32 Image size of job updated: 173848
        170 - MemoryUsage of job (MB)
        173784 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/06 19:06:32 Image size of job updated: 518216
        507 - MemoryUsage of job (MB)
        518152 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/06 19:11:33 Image size of job updated: 788164
        770 - MemoryUsage of job (MB)
        788100 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/06 19:16:34 Image size of job updated: 1146988
        1121 - MemoryUsage of job (MB)
        1146924 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/06 19:21:34 Image size of job updated: 1512040
        1477 - MemoryUsage of job (MB)
        1511976 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/06 19:26:34 Image size of job updated: 1917200
        1873 - MemoryUsage of job (MB)
        1917136 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/06 19:31:35 Image size of job updated: 2742888
        2679 - MemoryUsage of job (MB)
        2742824 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/06 19:36:36 Image size of job updated: 3753296
        3666 - MemoryUsage of job (MB)
        3753232 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/06 19:41:36 Image size of job updated: 4381896
        4280 - MemoryUsage of job (MB)
        4381832 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/06 19:46:36 Image size of job updated: 5117520
        4998 - MemoryUsage of job (MB)
        5117456 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/06 19:51:37 Image size of job updated: 5374448
        5249 - MemoryUsage of job (MB)
        5374384 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/06 19:56:39 Image size of job updated: 5425304
        5299 - MemoryUsage of job (MB)
        5425240 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/06 20:01:39 Image size of job updated: 5818084
        5682 - MemoryUsage of job (MB)
        5818020 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/06 20:06:39 Image size of job updated: 5954948
        5816 - MemoryUsage of job (MB)
        5954884 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/06 20:11:40 Image size of job updated: 5963196
        5820 - MemoryUsage of job (MB)
        5959588 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/06 20:16:41 Image size of job updated: 6248796
        6097 - MemoryUsage of job (MB)
        6242360 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/06 20:21:41 Image size of job updated: 10988012
        10439 - MemoryUsage of job (MB)
        10689460 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/06 20:26:41 Image size of job updated: 13052180
        12328 - MemoryUsage of job (MB)
        12623844 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/06 20:31:42 Image size of job updated: 13054888
        12328 - MemoryUsage of job (MB)
        12623844 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/06 20:36:42 Image size of job updated: 13056416
        12328 - MemoryUsage of job (MB)
        12623844 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/06 20:41:42 Image size of job updated: 13057856
        12328 - MemoryUsage of job (MB)
        12623844 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/06 20:46:43 Image size of job updated: 13058072
        12328 - MemoryUsage of job (MB)
        12623844 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/06 20:56:44 Image size of job updated: 13058708
        12328 - MemoryUsage of job (MB)
        12623844 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/06 22:16:51 Image size of job updated: 13058956
        12328 - MemoryUsage of job (MB)
        12623844 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/06 22:21:52 Image size of job updated: 13059000
        12328 - MemoryUsage of job (MB)
        12623844 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/06 22:36:54 Image size of job updated: 13060196
        12328 - MemoryUsage of job (MB)
        12623844 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/06 22:41:55 Image size of job updated: 13060600
        12328 - MemoryUsage of job (MB)
        12623844 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/06 22:51:56 Image size of job updated: 13061112
        12328 - MemoryUsage of job (MB)
        12623844 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/07 04:42:33 Image size of job updated: 13061148
        12328 - MemoryUsage of job (MB)
        12623844 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/07 04:52:34 Image size of job updated: 13061688
        12328 - MemoryUsage of job (MB)
        12623844 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/07 04:57:34 Image size of job updated: 13062104
        12328 - MemoryUsage of job (MB)
        12623844 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/07 05:12:35 Image size of job updated: 13062284
        12328 - MemoryUsage of job (MB)
        12623844 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/07 05:17:37 Image size of job updated: 13062472
        12328 - MemoryUsage of job (MB)
        12623844 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/07 05:22:37 Image size of job updated: 13062492
        12328 - MemoryUsage of job (MB)
        12623844 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/07 05:27:37 Image size of job updated: 13063152
        12328 - MemoryUsage of job (MB)
        12623844 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/07 05:42:39 Image size of job updated: 13063296
        12328 - MemoryUsage of job (MB)
        12623844 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/07 05:47:40 Image size of job updated: 13063836
        12328 - MemoryUsage of job (MB)
        12623844 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/07 05:52:41 Image size of job updated: 13064344
        12328 - MemoryUsage of job (MB)
        12623844 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/07 05:57:41 Image size of job updated: 13064368
        12328 - MemoryUsage of job (MB)
        12623844 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/07 06:57:47 Image size of job updated: 13065596
        12328 - MemoryUsage of job (MB)
        12623844 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/07 07:02:47 Image size of job updated: 13065988
        12328 - MemoryUsage of job (MB)
        12623844 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/07 07:07:48 Image size of job updated: 13065992
        12328 - MemoryUsage of job (MB)
        12623844 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/07 08:42:59 Image size of job updated: 13066048
        12328 - MemoryUsage of job (MB)
        12623844 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/07 08:47:59 Image size of job updated: 13066672
        12328 - MemoryUsage of job (MB)
        12623844 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/07 09:28:02 Image size of job updated: 13066800
        12328 - MemoryUsage of job (MB)
        12623844 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/07 09:38:02 Image size of job updated: 13068452
        12328 - MemoryUsage of job (MB)
        12623844 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/07 10:08:04 Image size of job updated: 13068484
        12328 - MemoryUsage of job (MB)
        12623844 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/07 10:48:09 Image size of job updated: 13068720
        12328 - MemoryUsage of job (MB)
        12623844 - ResidentSetSize of job (KB)
...
007 (1682566.000.000) 07/07 12:18:32 Shadow exception!
        Assertion ERROR on (result)
        0 - Run Bytes Sent By Job
        182 - Run Bytes Received By Job
...
001 (1682566.000.000) 07/07 12:36:21 Job executing on host: <128.142.97.36:9618?addrs=128.142.97.36-9618+[2001-1458-301-87--100-115]-9618&noUDP&sock=17083_1877_3>
...
006 (1682566.000.000) 07/07 14:09:19 Image size of job updated: 16893124
        16271 - MemoryUsage of job (MB)
        16661132 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/07 14:14:20 Image size of job updated: 17309112
        16677 - MemoryUsage of job (MB)
        17077116 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/07 16:19:29 Image size of job updated: 17314608
        16677 - MemoryUsage of job (MB)
        17077116 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/07 16:24:29 Image size of job updated: 17314656
        16677 - MemoryUsage of job (MB)
        17077116 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/07 16:29:30 Image size of job updated: 17315564
        16677 - MemoryUsage of job (MB)
        17077116 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/07 16:49:31 Image size of job updated: 17315644
        16677 - MemoryUsage of job (MB)
        17077116 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/07 19:34:49 Image size of job updated: 17316620
        16677 - MemoryUsage of job (MB)
        17077116 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/07 19:44:50 Image size of job updated: 17316768
        16677 - MemoryUsage of job (MB)
        17077116 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/07 19:59:52 Image size of job updated: 17316944
        16677 - MemoryUsage of job (MB)
        17077116 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/07 20:09:53 Image size of job updated: 17317148
        16677 - MemoryUsage of job (MB)
        17077116 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/07 20:14:54 Image size of job updated: 17317372
        16677 - MemoryUsage of job (MB)
        17077116 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/07 20:24:55 Image size of job updated: 17317968
        16677 - MemoryUsage of job (MB)
        17077116 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/07 22:05:08 Image size of job updated: 17318356
        16677 - MemoryUsage of job (MB)
        17077116 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/07 22:10:09 Image size of job updated: 17318852
        16677 - MemoryUsage of job (MB)
        17077116 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/07 22:20:10 Image size of job updated: 17318900
        16677 - MemoryUsage of job (MB)
        17077116 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/07 22:25:11 Image size of job updated: 17319308
        16677 - MemoryUsage of job (MB)
        17077116 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/07 22:30:11 Image size of job updated: 17319416
        16677 - MemoryUsage of job (MB)
        17077116 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/08 01:35:27 Image size of job updated: 17319492
        16677 - MemoryUsage of job (MB)
        17077116 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/08 01:40:28 Image size of job updated: 17319764
        16677 - MemoryUsage of job (MB)
        17077116 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/08 01:45:28 Image size of job updated: 17319908
        16677 - MemoryUsage of job (MB)
        17077116 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/08 01:50:29 Image size of job updated: 17320052
        16677 - MemoryUsage of job (MB)
        17077116 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/08 01:55:30 Image size of job updated: 17320320
        16677 - MemoryUsage of job (MB)
        17077116 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/08 02:15:31 Image size of job updated: 17322792
        16677 - MemoryUsage of job (MB)
        17077116 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/08 02:25:32 Image size of job updated: 17322852
        16677 - MemoryUsage of job (MB)
        17077116 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/08 03:35:36 Image size of job updated: 17323184
        16677 - MemoryUsage of job (MB)
        17077116 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/08 03:40:37 Image size of job updated: 17323296
        16677 - MemoryUsage of job (MB)
        17077116 - ResidentSetSize of job (KB)
...
006 (1682566.000.000) 07/08 04:00:38 Image size of job updated: 17323464
        16677 - MemoryUsage of job (MB)
        17077116 - ResidentSetSize of job (KB)
...
005 (1682566.000.000) 07/09 23:19:44 Job terminated.
        (1) Normal termination (return value 0)
                Usr 21 19:14:53, Sys 1 21:24:12 - Run Remote Usage
                Usr 0 00:00:00, Sys 0 00:00:00 - Run Local Usage
                Usr 21 19:14:53, Sys 1 21:24:12 - Total Remote Usage
                Usr 0 00:00:00, Sys 0 00:00:00 - Total Local Usage
        164428 - Run Bytes Sent By Job
        182 - Run Bytes Received By Job
        164428 - Total Bytes Sent By Job
        364 - Total Bytes Received By Job
        Partitionable Resources : Usage Request Allocated
           Cpus : 8
           Disk (KB) : 297 100 4334232
           Memory (MB) : 16677 16000 16000
...

I have wanted one week for the job, and it was terminated in four days without finishing job. I wonder if I am having the problem about condor?

Hi,

My guess here is that you face a timeout of the filesystem. (indeed filesystem are typically a remote disk associated to a server).
So this should be an infrastructure issue on which we have no control at all.

Now the problem here seems to be the compilation of MadSpin, meaning that you have succesfully generated your production events. So you can use those events and decay them directly within MadSpin.

Cheers,

Olivier

PS: I do not know what are the policy for jobs on lxplus, but this is not the recommend way to use clusters. Now of course if it is the method that was recommend to you by your sysadmin/collaboration then continue to use it.

PPS: I hope that you force MG5aMC to only use 8 cores (the amount that you ask within cluster submission) since otherwise MG5aMC will try to use all the cores of the machines on which you run. (If lxplus is using cgroup, then you are only penalizing yourself, in the other case, you will impact the other job running on the same machine and therefore you are subject to have your jobs kill due to abuse of cluster).

Can you help with this problem?

Provide an answer of your own, or ask Orcun Kolay for more information if necessary.

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