Welcome to Sherpa, Daniel Reichelt on ip3-ws3.phyip3.dur.ac.uk. Initialization of framework underway. The local time is Tue Nov 28 21:44:18 2023. Run_Parameter::Init(): Setting memory limit to 187.131 GB. Random::SetSeed(): Seed set to 8033 ----------------------------------------------------------------------------- ----------- Event generation run with SHERPA started ....... ----------- ----------------------------------------------------------------------------- ................................................ | + ................................................ || | + + ................................... .... | | / + ................. ................ _,_ | .... || +| + + ............................... __.' ,\| ... || / +| + .............................. ( \ \ ... | | | + + \ + ............................. ( \ -/ .... || + | + ........ ................... (~~~~~~~~~## + + + ............................. ~~(! '~~~~~~~ \ + + + + ............................... `~~~QQQQQDb // | + + + + ........................ .......... IDDDDP|| \ + + + + + + .................................... IDDDI|| \ + .................................... IHD HD|| \ + + + + + + + + ................................... IHD ##| :-) + +\ + ......... ............... ......... IHI ## / / + + + + +\ + ................................... IHI/ / / + + + + + ................................... ## | | / / + + + + / + ....................... /TT\ ..... ##/ /// / + + + + + + +/ + ......................./TTT/T\ ... /TT\/\\\ / + + + + + + +/ \ + ....................../TTT/TTTT\...|TT/T\\\/ + ++ + / ----------------------------------------------------------------------------- SHERPA version 3.0.0beta1 (Dhaulagiri) Authors: Enrico Bothmann, Stefan Hoeche, Frank Krauss, Silvan Kuttimalai, Marek Schoenherr, Holger Schulz, Steffen Schumann, Frank Siegert, Korinna Zapp Former Authors: Timo Fischer, Tanju Gleisberg, Hendrik Hoeth, Ralf Kuhn, Thomas Laubrich, Andreas Schaelicke, Jan Winter This program uses a lot of genuine and original research work by other people. Users are encouraged to refer to the various original publications. Users are kindly asked to refer to the documentation published under JHEP 02(2009)007 Please visit also our homepage http://sherpa.hepforge.org for news, bugreports, updates and new releases. ----------------------------------------------------------------------------- WARNING: You are using an unsupported development branch. Git branch unknownurl, revision unknownrevision. Hadron_Init::Init(): Initializing kf table for hadrons. Beam_Spectra_Handler: type = Collider Setup for P+ (on = 0, p = (6500,0,0,6500)) and P+ (on = 0, p = (6500,0,0,-6500)). ISR handling: PDFs for hard scattering: CT14nnlo + CT14nnlo PDFs for multiple parton interactions: PDF4LHC21_40_pdfas + PDF4LHC21_40_pdfas Remnant_Handlers: hard process: P+: Intact + P+: Intact Standard_Model::FixEWParameters() { Input scheme: alpha0 alpha(0) scheme, input: 1/\alphaQED(0), m_W, m_Z, m_h, widths Ren. scheme: alpha0 Parameters: sin^2(\theta_W) = 0.222928 - 0.00110708 i vev = 243.034 - 3.75493 i } Running_AlphaQED::PrintSummary() { Setting \alpha according to EW scheme 1/\alpha(0) = 137.036 1/\alpha(def) = 128.802 } One_Running_AlphaS::PrintSummary() { Setting \alpha_s according to PDF perturbative order 2 \alpha_s(M_Z) = 0.118 } One_Running_AlphaS::PrintSummary() { Setting \alpha_s according to PDF perturbative order 2 \alpha_s(M_Z) = 0.118 } List of Particle Data IDName kfc Mass Width Stable Massive Active Yukawa d 1 0.01 0 1 0 1 0 u 2 0.005 0 1 0 1 0 s 3 0.2 0 1 0 1 0 c 4 1.42 0 1 0 1 0 b 5 4.92 0 1 0 1 0 t 6 173.21 2 0 1 1 173.21 e- 11 0.000511 0 1 0 1 0 ve 12 0 0 1 0 1 0 mu- 13 0.105 0 1 0 1 0 vmu 14 0 0 1 0 1 0 tau- 15 1.777 2.26735e-12 0 1 1 1.777 vtau 16 0 0 1 0 1 0 G 21 0 0 1 0 1 0 P 22 0 0 1 0 1 0 Z 23 91.1876 2.4952 0 1 1 91.1876 W+ 24 80.385 2.085 0 1 1 80.385 h0 25 125 0.00407 0 1 1 125 string 95 0 0 1 0 1 0 cluster 96 0 0 1 0 1 0 Instanton 999 0 0 0 0 1 0 List of Particle Containers IDName kfc Constituents l 90 {e-,e+,mu-,mu+} v 91 {ve,veb,vmu,vmub,vtau,vtaub} f 92 {d,db,u,ub,s,sb,c,cb,b,bb,e-,e+,mu-,mu+,ve,veb,vmu,vmub,vtau,vtaub} j 93 {d,db,u,ub,s,sb,c,cb,b,bb,G} Q 94 {d,db,u,ub,s,sb,c,cb,b,bb} ewj 98 {d,db,u,ub,s,sb,c,cb,b,bb,G,P} Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF ####### Permutations for 2 partons ############## found 2 entries: 1th permutation = { 0 1 } 2th permutation = { 1 0 } FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. IF: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, d -> (d,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, db -> (db,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, u -> (u,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, s -> (s,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, c -> (c,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, b -> (b,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, t -> (t,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. II: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, d -> (d,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. II: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, db -> (db,G): increase cutoff to 1, now t0 = 1^2. II: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, u -> (u,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. II: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. II: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, s -> (s,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. II: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. II: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, c -> (c,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. II: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. II: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, b -> (b,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. II: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. II: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, t -> (t,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. II: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. II: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. II: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF ####### Permutations for 2 partons ############## found 2 entries: 1th permutation = { 0 1 } 2th permutation = { 1 0 } FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. IF: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, d -> (d,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, db -> (db,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, u -> (u,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, s -> (s,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, c -> (c,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, b -> (b,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, t -> (t,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. II: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, d -> (d,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. II: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, db -> (db,G): increase cutoff to 1, now t0 = 1^2. II: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, u -> (u,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. II: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. II: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, s -> (s,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. II: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. II: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, c -> (c,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. II: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. II: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, b -> (b,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. II: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. II: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, t -> (t,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. II: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. II: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. II: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. Shower_Handler initialised. +-----------------------------------------+ | X X X XXXX XXX XXX XXX | | X X XX XX X X X X X X | | X X X X X XXX X XXX X X XXX XXX | | XXXXX X X X X X X X X X | | X X X X XXXX XXX XXX XXX | +-----------------------------------------+ | please cite: JHEP 0202:044,2002 | +-----------------------------------------+ Matrix_Element_Handler::Matrix_Element_Handler(): Set pilot run mode to 1. ME_Generator_Base::SetPSMasses(): Massive PS flavours for Comix: (none) +----------------------------------+ | | | CCC OOO M M I X X | | C O O MM MM I X X | | C O O M M M I X | | C O O M M I X X | | CCC OOO M M I X X | | | +==================================+ | Color dressed Matrix Elements | | http://comix.freacafe.de | | please cite JHEP12(2008)039 | +----------------------------------+ ME_Generator_Base::SetPSMasses(): Massive PS flavours for Amegic: (none) ME_Generator_Base::SetPSMasses(): Massive PS flavours for Internal: (none) Matrix_Element_Handler::BuildProcesses(): 3 ME generators, 1 process blocks. Matrix_Element_Handler::BuildProcesses(): Setting up processes .. done ( 52 MB, 0s / 0s ). Matrix_Element_Handler::InitializeProcesses(): Performing tests .. done ( 52 MB, 0s / 0s ). Matrix_Element_Handler::InitializeProcesses(): Initializing scales done ( 52 MB, 0s / 0s ). Initialized the Matrix_Element_Handler for the hard processes. Initialized the Beam_Remnant_Handler. MI_Handler::MI_Handler(id = 2, name = None, type = 0) Underlying event/multiple interactions handler: MI[2]: on = 0 (type = 0, None) Soft-collision handlers: Initialized the Fragmentation_Handler. Initialized the Soft_Photon_Handler. Initialized the Reweighting. Read in channels from directory: Results/Comix/MC_2_2__j__j__l__l Process_Group::CalculateTotalXSec(): Calculate xs for '2_2__j__j__l__l' (Comix) 2_2__j__j__l__l : 3847.35 pb +- ( 6.79368 pb = 0.176581 % )  exp. eff: 11.8814 % reduce max for 2_2__j__j__l__l to 1 ( eps = 0.001 -> exp. eff 0.118814 ) ---------------------------------------------------------- -- SHERPA generates events with the following structure -- ---------------------------------------------------------- Event generation : Partially unweighted Perturbative : Signal_Processes Perturbative : Minimum_Bias: None Perturbative : Hard_Decays Perturbative : Jet_Evolution:CFP Perturbative : Lepton_FS_QED_Corrections:None Perturbative : Multiple_Interactions: None Hadronization : Beam_Remnants:None Hadronization : Hadronization:None Hadronization : Hadron_Decays Userhook : Analysis : Rivet --------------------------------------------------------- Event 1 ( 1s elapsed / 4h 39m 58s left ) -> ETA: Wed Nov 29 02:24 XS = 32381.4 pb +- ( 32381.4 pb = 100 % ) Event 2 ( 1s elapsed / 2h 19m 58s left ) -> ETA: Wed Nov 29 00:04 XS = 4047.68 pb +- ( 2765.09 pb = 68 % ) Event 3 ( 1s elapsed / 1h 33m 51s left ) -> ETA: Tue Nov 28 23:18 XS = 4047.68 pb +- ( 2233.01 pb = 55 % ) Event 4 ( 1s elapsed / 1h 10m 48s left ) -> ETA: Tue Nov 28 22:55 XS = 5181.03 pb +- ( 2423.2 pb = 46 % ) Event 5 ( 1s elapsed / 56m 38s left ) -> ETA: Tue Nov 28 22:40 XS = 4497.42 pb +- ( 1892.89 pb = 42 % ) Event 6 ( 1s elapsed / 47m 28s left ) -> ETA: Tue Nov 28 22:31 XS = 5112.86 pb +- ( 1941.16 pb = 37 % ) Event 7 ( 1s elapsed / 40m 41s left ) -> ETA: Tue Nov 28 22:25 XS = 4444.51 pb +- ( 1575.86 pb = 35 % ) Event 8 ( 1s elapsed / 35m 48s left ) -> ETA: Tue Nov 28 22:20 XS = 4466.41 pb +- ( 1478.97 pb = 33 % ) Event 9 ( 1s elapsed / 32m left ) -> ETA: Tue Nov 28 22:16 XS = 3388.76 pb +- ( 1075.11 pb = 31 % ) Event 10 ( 1s elapsed / 28m 48s left ) -> ETA: Tue Nov 28 22:13 XS = 3722 pb +- ( 1113.71 pb = 29 % ) Event 20 ( 1s elapsed / 15m 13s left ) -> ETA: Tue Nov 28 21:59 XS = 3700.74 pb +- ( 781.024 pb = 21 % ) Event 30 ( 1s elapsed / 10m 24s left ) -> ETA: Tue Nov 28 21:54 XS = 3870.29 pb +- ( 664.369 pb = 17 % ) Event 40 ( 1s elapsed / 8m 8s left ) -> ETA: Tue Nov 28 21:52 XS = 3936.95 pb +- ( 584.309 pb = 14 % ) Event 50 ( 2s elapsed / 6m 39s left ) -> ETA: Tue Nov 28 21:50 XS = 4078.27 pb +- ( 539.893 pb = 13 % ) Event 60 ( 2s elapsed / 5m 42s left ) -> ETA: Tue Nov 28 21:50 XS = 4187.25 pb +- ( 504.956 pb = 12 % ) Event 70 ( 2s elapsed / 5m 2s left ) -> ETA: Tue Nov 28 21:49 XS = 4026.11 pb +- ( 450.705 pb = 11 % ) Event 80 ( 2s elapsed / 4m 31s left ) -> ETA: Tue Nov 28 21:48 XS = 4028.79 pb +- ( 421.81 pb = 10 % ) Event 90 ( 2s elapsed / 4m 7s left ) -> ETA: Tue Nov 28 21:48 XS = 3736.32 pb +- ( 370.662 pb = 9 % ) Event 100 ( 2s elapsed / 3m 48s left ) -> ETA: Tue Nov 28 21:48 XS = 3700.74 pb +- ( 348.484 pb = 9 % ) Event 200 ( 3s elapsed / 2m 28s left ) -> ETA: Tue Nov 28 21:46 XS = 3922.65 pb +- ( 260.109 pb = 6 % ) Event 300 ( 3s elapsed / 2m left ) -> ETA: Tue Nov 28 21:46 XS = 3952.17 pb +- ( 213.844 pb = 5 % ) Event 400 ( 4s elapsed / 1m 50s left ) -> ETA: Tue Nov 28 21:46 XS = 4012.57 pb +- ( 187.816 pb = 4 % ) Event 500 ( 5s elapsed / 1m 42s left ) -> ETA: Tue Nov 28 21:46 XS = 3975.13 pb +- ( 166.525 pb = 4 % ) Event 600 ( 6s elapsed / 1m 35s left ) -> ETA: Tue Nov 28 21:45 XS = 3978.88 pb +- ( 152.146 pb = 3 % ) Event 700 ( 6s elapsed / 1m 31s left ) -> ETA: Tue Nov 28 21:45 XS = 3926.38 pb +- ( 139.127 pb = 3 % ) Event 800 ( 7s elapsed / 1m 27s left ) -> ETA: Tue Nov 28 21:45 XS = 3958.61 pb +- ( 131.134 pb = 3 % ) Event 900 ( 8s elapsed / 1m 25s left ) -> ETA: Tue Nov 28 21:45 XS = 3952.17 pb +- ( 123.446 pb = 3 % ) Event 1000 ( 9s elapsed / 1m 22s left ) -> ETA: Tue Nov 28 21:45 XS = 3912.22 pb +- ( 116.008 pb = 2 % ) Event 2000 ( 16s elapsed / 1m 5s left ) -> ETA: Tue Nov 28 21:45 XS = 3864.36 pb +- ( 81.0924 pb = 2 % ) Event 3000 ( 23s elapsed / 54s left ) -> ETA: Tue Nov 28 21:45 XS = 3900.59 pb +- ( 66.7894 pb = 1 % ) Event 4000 ( 30s elapsed / 46s left ) -> ETA: Tue Nov 28 21:45 XS = 3812.95 pb +- ( 56.6282 pb = 1 % ) Event 5000 ( 37s elapsed / 37s left ) -> ETA: Tue Nov 28 21:45 XS = 3834.12 pb +- ( 50.912 pb = 1 % ) Event 6000 ( 44s elapsed / 29s left ) -> ETA: Tue Nov 28 21:45 XS = 3818.57 pb +- ( 46.3001 pb = 1 % ) Event 7000 ( 51s elapsed / 22s left ) -> ETA: Tue Nov 28 21:45 XS = 3808.68 pb +- ( 42.762 pb = 1 % ) Event 8000 ( 58s elapsed / 14s left ) -> ETA: Tue Nov 28 21:45 XS = 3824.37 pb +- ( 40.1538 pb = 1 % ) Event 9000 ( 1m 6s elapsed / 7s left ) -> ETA: Tue Nov 28 21:45 XS = 3811.03 pb +- ( 37.7341 pb = 0 % ) Event 10000 ( 73 s total ) = 1.18796e+07 evts/day In Event_Handler::Finish : Summarizing the run may take some time. Rivet_Interface::Finish(Analysis_Zrecoil/8033){ } -------------------------------------------------------------------------- Nominal or variation name XS [pb] RelDev AbsErr [pb] RelErr -------------------------------------------------------------------------- Nominal  3821.68 0 % 35.891 0.93 % -------------------------------------------------------------------------- Return_Value::PrintStatistics(): Statistics { Generated events: 10000 } Blob_List: Momentum Fail Statistics { } Decay_Channel: Kinematics max fail statistics { } WARNING: You are using an unsupported development branch. WARNING: Some settings that have been defined in the input files and/or the command line have not been used. For more details, see the Settings Report. Time: 1m 13s on Tue Nov 28 21:45:32 2023 (User: 1m 13s, System: 0s, Children User: 0s, Children System: 0s) Welcome to Sherpa, Daniel Reichelt on ip3-ws3.phyip3.dur.ac.uk. Initialization of framework underway. The local time is Tue Nov 28 21:46:18 2023. Run_Parameter::Init(): Setting memory limit to 187.131 GB. Random::SetSeed(): Seed set to 8033 ----------------------------------------------------------------------------- ----------- Event generation run with SHERPA started ....... ----------- ----------------------------------------------------------------------------- ................................................ | + ................................................ || | + + ................................... .... | | / + ................. ................ _,_ | .... || +| + + ............................... __.' ,\| ... || / +| + .............................. ( \ \ ... | | | + + \ + ............................. ( \ -/ .... || + | + ........ ................... (~~~~~~~~~## + + + ............................. ~~(! '~~~~~~~ \ + + + + ............................... `~~~QQQQQDb // | + + + + ........................ .......... IDDDDP|| \ + + + + + + .................................... IDDDI|| \ + .................................... IHD HD|| \ + + + + + + + + ................................... IHD ##| :-) + +\ + ......... ............... ......... IHI ## / / + + + + +\ + ................................... IHI/ / / + + + + + ................................... ## | | / / + + + + / + ....................... /TT\ ..... ##/ /// / + + + + + + +/ + ......................./TTT/T\ ... /TT\/\\\ / + + + + + + +/ \ + ....................../TTT/TTTT\...|TT/T\\\/ + ++ + / ----------------------------------------------------------------------------- SHERPA version 3.0.0beta1 (Dhaulagiri) Authors: Enrico Bothmann, Stefan Hoeche, Frank Krauss, Silvan Kuttimalai, Marek Schoenherr, Holger Schulz, Steffen Schumann, Frank Siegert, Korinna Zapp Former Authors: Timo Fischer, Tanju Gleisberg, Hendrik Hoeth, Ralf Kuhn, Thomas Laubrich, Andreas Schaelicke, Jan Winter This program uses a lot of genuine and original research work by other people. Users are encouraged to refer to the various original publications. Users are kindly asked to refer to the documentation published under JHEP 02(2009)007 Please visit also our homepage http://sherpa.hepforge.org for news, bugreports, updates and new releases. ----------------------------------------------------------------------------- WARNING: You are using an unsupported development branch. Git branch unknownurl, revision unknownrevision. Hadron_Init::Init(): Initializing kf table for hadrons. Beam_Spectra_Handler: type = Collider Setup for P+ (on = 0, p = (6500,0,0,6500)) and P+ (on = 0, p = (6500,0,0,-6500)). ISR handling: PDFs for hard scattering: CT14nnlo + CT14nnlo PDFs for multiple parton interactions: PDF4LHC21_40_pdfas + PDF4LHC21_40_pdfas Remnant_Handlers: hard process: P+: Intact + P+: Intact Standard_Model::FixEWParameters() { Input scheme: alpha0 alpha(0) scheme, input: 1/\alphaQED(0), m_W, m_Z, m_h, widths Ren. scheme: alpha0 Parameters: sin^2(\theta_W) = 0.222928 - 0.00110708 i vev = 243.034 - 3.75493 i } Running_AlphaQED::PrintSummary() { Setting \alpha according to EW scheme 1/\alpha(0) = 137.036 1/\alpha(def) = 128.802 } One_Running_AlphaS::PrintSummary() { Setting \alpha_s according to PDF perturbative order 2 \alpha_s(M_Z) = 0.118 } One_Running_AlphaS::PrintSummary() { Setting \alpha_s according to PDF perturbative order 2 \alpha_s(M_Z) = 0.118 } List of Particle Data IDName kfc Mass Width Stable Massive Active Yukawa d 1 0.01 0 1 0 1 0 u 2 0.005 0 1 0 1 0 s 3 0.2 0 1 0 1 0 c 4 1.42 0 1 0 1 0 b 5 4.92 0 1 0 1 0 t 6 173.21 2 0 1 1 173.21 e- 11 0.000511 0 1 0 1 0 ve 12 0 0 1 0 1 0 mu- 13 0.105 0 1 0 1 0 vmu 14 0 0 1 0 1 0 tau- 15 1.777 2.26735e-12 0 1 1 1.777 vtau 16 0 0 1 0 1 0 G 21 0 0 1 0 1 0 P 22 0 0 1 0 1 0 Z 23 91.1876 2.4952 0 1 1 91.1876 W+ 24 80.385 2.085 0 1 1 80.385 h0 25 125 0.00407 0 1 1 125 string 95 0 0 1 0 1 0 cluster 96 0 0 1 0 1 0 Instanton 999 0 0 0 0 1 0 List of Particle Containers IDName kfc Constituents l 90 {e-,e+,mu-,mu+} v 91 {ve,veb,vmu,vmub,vtau,vtaub} f 92 {d,db,u,ub,s,sb,c,cb,b,bb,e-,e+,mu-,mu+,ve,veb,vmu,vmub,vtau,vtaub} j 93 {d,db,u,ub,s,sb,c,cb,b,bb,G} Q 94 {d,db,u,ub,s,sb,c,cb,b,bb} ewj 98 {d,db,u,ub,s,sb,c,cb,b,bb,G,P} Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF ####### Permutations for 2 partons ############## found 2 entries: 1th permutation = { 0 1 } 2th permutation = { 1 0 } FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. IF: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, d -> (d,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, db -> (db,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, u -> (u,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, s -> (s,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, c -> (c,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, b -> (b,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, t -> (t,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. II: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, d -> (d,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. II: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, db -> (db,G): increase cutoff to 1, now t0 = 1^2. II: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, u -> (u,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. II: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. II: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, s -> (s,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. II: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. II: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, c -> (c,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. II: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. II: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, b -> (b,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. II: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. II: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, t -> (t,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. II: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. II: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. II: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF ####### Permutations for 2 partons ############## found 2 entries: 1th permutation = { 0 1 } 2th permutation = { 1 0 } FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. IF: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, d -> (d,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, db -> (db,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, u -> (u,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, s -> (s,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, c -> (c,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, b -> (b,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, t -> (t,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. II: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, d -> (d,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. II: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, db -> (db,G): increase cutoff to 1, now t0 = 1^2. II: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, u -> (u,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. II: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. II: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, s -> (s,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. II: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. II: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, c -> (c,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. II: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. II: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, b -> (b,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. II: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. II: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, t -> (t,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. II: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. II: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. II: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. Shower_Handler initialised. +-----------------------------------------+ | X X X XXXX XXX XXX XXX | | X X XX XX X X X X X X | | X X X X X XXX X XXX X X XXX XXX | | XXXXX X X X X X X X X X | | X X X X XXXX XXX XXX XXX | +-----------------------------------------+ | please cite: JHEP 0202:044,2002 | +-----------------------------------------+ Matrix_Element_Handler::Matrix_Element_Handler(): Set pilot run mode to 1. ME_Generator_Base::SetPSMasses(): Massive PS flavours for Comix: (none) +----------------------------------+ | | | CCC OOO M M I X X | | C O O MM MM I X X | | C O O M M M I X | | C O O M M I X X | | CCC OOO M M I X X | | | +==================================+ | Color dressed Matrix Elements | | http://comix.freacafe.de | | please cite JHEP12(2008)039 | +----------------------------------+ ME_Generator_Base::SetPSMasses(): Massive PS flavours for Amegic: (none) ME_Generator_Base::SetPSMasses(): Massive PS flavours for Internal: (none) Matrix_Element_Handler::BuildProcesses(): 3 ME generators, 1 process blocks. Matrix_Element_Handler::BuildProcesses(): Setting up processes .. done ( 52 MB, 0s / 0s ). Matrix_Element_Handler::InitializeProcesses(): Performing tests .. done ( 52 MB, 0s / 0s ). Matrix_Element_Handler::InitializeProcesses(): Initializing scales done ( 52 MB, 0s / 0s ). Initialized the Matrix_Element_Handler for the hard processes. Initialized the Beam_Remnant_Handler. MI_Handler::MI_Handler(id = 2, name = None, type = 0) Underlying event/multiple interactions handler: MI[2]: on = 0 (type = 0, None) Soft-collision handlers: Initialized the Fragmentation_Handler. Initialized the Soft_Photon_Handler. Initialized the Reweighting. Read in channels from directory: Results/Comix/MC_2_2__j__j__l__l Process_Group::CalculateTotalXSec(): Calculate xs for '2_2__j__j__l__l' (Comix) 2_2__j__j__l__l : 3847.35 pb +- ( 6.79368 pb = 0.176581 % )  exp. eff: 11.8814 % reduce max for 2_2__j__j__l__l to 1 ( eps = 0.001 -> exp. eff 0.118814 ) ---------------------------------------------------------- -- SHERPA generates events with the following structure -- ---------------------------------------------------------- Event generation : Partially unweighted Perturbative : Signal_Processes Perturbative : Minimum_Bias: None Perturbative : Hard_Decays Perturbative : Jet_Evolution:CFP Perturbative : Lepton_FS_QED_Corrections:None Perturbative : Multiple_Interactions: None Hadronization : Beam_Remnants:None Hadronization : Hadronization:None Hadronization : Hadron_Decays Userhook : Analysis : Rivet --------------------------------------------------------- Event 1 ( 1s elapsed / 4h 24m 58s left ) -> ETA: Wed Nov 29 02:11 XS = 32381.4 pb +- ( 32381.4 pb = 100 % ) Event 2 ( 1s elapsed / 2h 12m 28s left ) -> ETA: Tue Nov 28 23:58 XS = 3408.57 pb +- ( 2342.32 pb = 68 % ) Event 3 ( 1s elapsed / 1h 28m 51s left ) -> ETA: Tue Nov 28 23:15 XS = 2943.77 pb +- ( 1645.62 pb = 55 % ) Event 4 ( 1s elapsed / 1h 6m 38s left ) -> ETA: Tue Nov 28 22:52 XS = 3700.74 pb +- ( 1766.85 pb = 47 % ) Event 5 ( 1s elapsed / 53m 38s left ) -> ETA: Tue Nov 28 22:39 XS = 3765.28 pb +- ( 1601.7 pb = 42 % ) Event 6 ( 1s elapsed / 44m 58s left ) -> ETA: Tue Nov 28 22:31 XS = 4317.53 pb +- ( 1659.45 pb = 38 % ) Event 7 ( 1s elapsed / 38m 46s left ) -> ETA: Tue Nov 28 22:25 XS = 3976.67 pb +- ( 1420.24 pb = 35 % ) Event 8 ( 1s elapsed / 34m 8s left ) -> ETA: Tue Nov 28 22:20 XS = 4246.75 pb +- ( 1411.15 pb = 33 % ) Event 9 ( 1s elapsed / 30m 20s left ) -> ETA: Tue Nov 28 22:16 XS = 4553.64 pb +- ( 1418.24 pb = 31 % ) Event 10 ( 1s elapsed / 27m 28s left ) -> ETA: Tue Nov 28 22:13 XS = 4151.47 pb +- ( 1233.7 pb = 29 % ) Event 20 ( 1s elapsed / 14m 28s left ) -> ETA: Tue Nov 28 22:00 XS = 3408.57 pb +- ( 722.855 pb = 21 % ) Event 30 ( 1s elapsed / 10m 1s left ) -> ETA: Tue Nov 28 21:56 XS = 3948.96 pb +- ( 676.964 pb = 17 % ) Event 40 ( 1s elapsed / 7m 43s left ) -> ETA: Tue Nov 28 21:54 XS = 4576.88 pb +- ( 671.766 pb = 14 % ) Event 50 ( 1s elapsed / 6m 28s left ) -> ETA: Tue Nov 28 21:52 XS = 4027.54 pb +- ( 533.647 pb = 13 % ) Event 60 ( 2s elapsed / 5m 34s left ) -> ETA: Tue Nov 28 21:51 XS = 3981.32 pb +- ( 481.847 pb = 12 % ) Event 70 ( 2s elapsed / 4m 53s left ) -> ETA: Tue Nov 28 21:51 XS = 4091.52 pb +- ( 457.505 pb = 11 % ) Event 80 ( 2s elapsed / 4m 24s left ) -> ETA: Tue Nov 28 21:50 XS = 4324.73 pb +- ( 450.451 pb = 10 % ) Event 90 ( 2s elapsed / 4m 5s left ) -> ETA: Tue Nov 28 21:50 XS = 3948.96 pb +- ( 390.315 pb = 9 % ) Event 100 ( 2s elapsed / 3m 49s left ) -> ETA: Tue Nov 28 21:50 XS = 3953.78 pb +- ( 370.681 pb = 9 % ) Event 200 ( 2s elapsed / 2m 25s left ) -> ETA: Tue Nov 28 21:48 XS = 3995.24 pb +- ( 264.586 pb = 6 % ) Event 300 ( 3s elapsed / 1m 57s left ) -> ETA: Tue Nov 28 21:48 XS = 3920.27 pb +- ( 212.237 pb = 5 % ) Event 400 ( 4s elapsed / 1m 44s left ) -> ETA: Tue Nov 28 21:48 XS = 3936.95 pb +- ( 184.522 pb = 4 % ) Event 500 ( 5s elapsed / 1m 37s left ) -> ETA: Tue Nov 28 21:48 XS = 3820.37 pb +- ( 160.476 pb = 4 % ) Event 600 ( 5s elapsed / 1m 32s left ) -> ETA: Tue Nov 28 21:47 XS = 3773.33 pb +- ( 144.806 pb = 3 % ) Event 700 ( 6s elapsed / 1m 26s left ) -> ETA: Tue Nov 28 21:47 XS = 3863.47 pb +- ( 137.049 pb = 3 % ) Event 800 ( 7s elapsed / 1m 23s left ) -> ETA: Tue Nov 28 21:47 XS = 3769.12 pb +- ( 125.272 pb = 3 % ) Event 900 ( 7s elapsed / 1m 20s left ) -> ETA: Tue Nov 28 21:47 XS = 3772.59 pb +- ( 118.209 pb = 3 % ) Event 1000 ( 8s elapsed / 1m 18s left ) -> ETA: Tue Nov 28 21:47 XS = 3724.57 pb +- ( 110.807 pb = 2 % ) Event 2000 ( 16s elapsed / 1m 4s left ) -> ETA: Tue Nov 28 21:47 XS = 3842.13 pb +- ( 80.6572 pb = 2 % ) Event 3000 ( 24s elapsed / 56s left ) -> ETA: Tue Nov 28 21:47 XS = 3853.56 pb +- ( 66.0384 pb = 1 % ) Event 4000 ( 32s elapsed / 48s left ) -> ETA: Tue Nov 28 21:47 XS = 3820.93 pb +- ( 56.7389 pb = 1 % ) Event 5000 ( 44s elapsed / 44s left ) -> ETA: Tue Nov 28 21:47 XS = 3808.51 pb +- ( 50.5946 pb = 1 % ) Event 6000 ( 1m 2s elapsed / 41s left ) -> ETA: Tue Nov 28 21:48 XS = 3818.64 pb +- ( 46.3009 pb = 1 % ) Event 7000 ( 1m 15s elapsed / 32s left ) -> ETA: Tue Nov 28 21:48 XS = 3824.75 pb +- ( 42.9303 pb = 1 % ) Event 8000 ( 1m 22s elapsed / 20s left ) -> ETA: Tue Nov 28 21:48 XS = 3822 pb +- ( 40.1306 pb = 1 % ) Event 9000 ( 1m 30s elapsed / 10s left ) -> ETA: Tue Nov 28 21:47 XS = 3810.88 pb +- ( 37.7327 pb = 0 % ) Event 10000 ( 98 s total ) = 8.83616e+06 evts/day In Event_Handler::Finish : Summarizing the run may take some time. Rivet_Interface::Finish(Analysis_Allrecoil/8033){ } -------------------------------------------------------------------------- Nominal or variation name XS [pb] RelDev AbsErr [pb] RelErr -------------------------------------------------------------------------- Nominal  3804.34 0 % 35.7391 0.93 % -------------------------------------------------------------------------- Return_Value::PrintStatistics(): Statistics { Generated events: 10000 } Blob_List: Momentum Fail Statistics { } Decay_Channel: Kinematics max fail statistics { } WARNING: You are using an unsupported development branch. WARNING: Some settings that have been defined in the input files and/or the command line have not been used. For more details, see the Settings Report. Time: 1m 38s on Tue Nov 28 21:47:56 2023 (User: 1m 23s, System: 0s, Children User: 0s, Children System: 0s) Welcome to Sherpa, Daniel Reichelt on ip3-ws3.phyip3.dur.ac.uk. Initialization of framework underway. The local time is Tue Nov 28 21:56:19 2023. Run_Parameter::Init(): Setting memory limit to 187.131 GB. Random::SetSeed(): Seed set to 8033 ----------------------------------------------------------------------------- ----------- Event generation run with SHERPA started ....... ----------- ----------------------------------------------------------------------------- ................................................ | + ................................................ || | + + ................................... .... | | / + ................. ................ _,_ | .... || +| + + ............................... __.' ,\| ... || / +| + .............................. ( \ \ ... | | | + + \ + ............................. ( \ -/ .... || + | + ........ ................... (~~~~~~~~~## + + + ............................. ~~(! '~~~~~~~ \ + + + + ............................... `~~~QQQQQDb // | + + + + ........................ .......... IDDDDP|| \ + + + + + + .................................... IDDDI|| \ + .................................... IHD HD|| \ + + + + + + + + ................................... IHD ##| :-) + +\ + ......... ............... ......... IHI ## / / + + + + +\ + ................................... IHI/ / / + + + + + ................................... ## | | / / + + + + / + ....................... /TT\ ..... ##/ /// / + + + + + + +/ + ......................./TTT/T\ ... /TT\/\\\ / + + + + + + +/ \ + ....................../TTT/TTTT\...|TT/T\\\/ + ++ + / ----------------------------------------------------------------------------- SHERPA version 3.0.0beta1 (Dhaulagiri) Authors: Enrico Bothmann, Stefan Hoeche, Frank Krauss, Silvan Kuttimalai, Marek Schoenherr, Holger Schulz, Steffen Schumann, Frank Siegert, Korinna Zapp Former Authors: Timo Fischer, Tanju Gleisberg, Hendrik Hoeth, Ralf Kuhn, Thomas Laubrich, Andreas Schaelicke, Jan Winter This program uses a lot of genuine and original research work by other people. Users are encouraged to refer to the various original publications. Users are kindly asked to refer to the documentation published under JHEP 02(2009)007 Please visit also our homepage http://sherpa.hepforge.org for news, bugreports, updates and new releases. ----------------------------------------------------------------------------- WARNING: You are using an unsupported development branch. Git branch unknownurl, revision unknownrevision. Hadron_Init::Init(): Initializing kf table for hadrons. Beam_Spectra_Handler: type = Collider Setup for P+ (on = 0, p = (6500,0,0,6500)) and P+ (on = 0, p = (6500,0,0,-6500)). ISR handling: PDFs for hard scattering: CT14nnlo + CT14nnlo PDFs for multiple parton interactions: PDF4LHC21_40_pdfas + PDF4LHC21_40_pdfas Remnant_Handlers: hard process: P+: Intact + P+: Intact Standard_Model::FixEWParameters() { Input scheme: alpha0 alpha(0) scheme, input: 1/\alphaQED(0), m_W, m_Z, m_h, widths Ren. scheme: alpha0 Parameters: sin^2(\theta_W) = 0.222928 - 0.00110708 i vev = 243.034 - 3.75493 i } Running_AlphaQED::PrintSummary() { Setting \alpha according to EW scheme 1/\alpha(0) = 137.036 1/\alpha(def) = 128.802 } One_Running_AlphaS::PrintSummary() { Setting \alpha_s according to PDF perturbative order 2 \alpha_s(M_Z) = 0.118 } One_Running_AlphaS::PrintSummary() { Setting \alpha_s according to PDF perturbative order 2 \alpha_s(M_Z) = 0.118 } List of Particle Data IDName kfc Mass Width Stable Massive Active Yukawa d 1 0.01 0 1 0 1 0 u 2 0.005 0 1 0 1 0 s 3 0.2 0 1 0 1 0 c 4 1.42 0 1 0 1 0 b 5 4.92 0 1 0 1 0 t 6 173.21 2 0 1 1 173.21 e- 11 0.000511 0 1 0 1 0 ve 12 0 0 1 0 1 0 mu- 13 0.105 0 1 0 1 0 vmu 14 0 0 1 0 1 0 tau- 15 1.777 2.26735e-12 0 1 1 1.777 vtau 16 0 0 1 0 1 0 G 21 0 0 1 0 1 0 P 22 0 0 1 0 1 0 Z 23 91.1876 2.4952 0 1 1 91.1876 W+ 24 80.385 2.085 0 1 1 80.385 h0 25 125 0.00407 0 1 1 125 string 95 0 0 1 0 1 0 cluster 96 0 0 1 0 1 0 Instanton 999 0 0 0 0 1 0 List of Particle Containers IDName kfc Constituents l 90 {e-,e+,mu-,mu+} v 91 {ve,veb,vmu,vmub,vtau,vtaub} f 92 {d,db,u,ub,s,sb,c,cb,b,bb,e-,e+,mu-,mu+,ve,veb,vmu,vmub,vtau,vtaub} j 93 {d,db,u,ub,s,sb,c,cb,b,bb,G} Q 94 {d,db,u,ub,s,sb,c,cb,b,bb} ewj 98 {d,db,u,ub,s,sb,c,cb,b,bb,G,P} Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF ####### Permutations for 2 partons ############## found 2 entries: 1th permutation = { 0 1 } 2th permutation = { 1 0 } FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. IF: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, d -> (d,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, db -> (db,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, u -> (u,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, s -> (s,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, c -> (c,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, b -> (b,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, t -> (t,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. II: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, d -> (d,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. II: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, db -> (db,G): increase cutoff to 1, now t0 = 1^2. II: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, u -> (u,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. II: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. II: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, s -> (s,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. II: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. II: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, c -> (c,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. II: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. II: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, b -> (b,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. II: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. II: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, t -> (t,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. II: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. II: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. II: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF ####### Permutations for 2 partons ############## found 2 entries: 1th permutation = { 0 1 } 2th permutation = { 1 0 } FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. IF: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, d -> (d,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, db -> (db,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, u -> (u,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, s -> (s,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, c -> (c,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, b -> (b,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, t -> (t,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->FF, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. IF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. II: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, d -> (d,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. II: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, db -> (db,G): increase cutoff to 1, now t0 = 1^2. II: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, u -> (u,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. II: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. II: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, s -> (s,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. II: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. II: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, c -> (c,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. II: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. II: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, b -> (b,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. II: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. II: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, t -> (t,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. II: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->FF, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. II: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. II: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. Shower_Handler initialised. +-----------------------------------------+ | X X X XXXX XXX XXX XXX | | X X XX XX X X X X X X | | X X X X X XXX X XXX X X XXX XXX | | XXXXX X X X X X X X X X | | X X X X XXXX XXX XXX XXX | +-----------------------------------------+ | please cite: JHEP 0202:044,2002 | +-----------------------------------------+ Matrix_Element_Handler::Matrix_Element_Handler(): Set pilot run mode to 1. ME_Generator_Base::SetPSMasses(): Massive PS flavours for Comix: (none) +----------------------------------+ | | | CCC OOO M M I X X | | C O O MM MM I X X | | C O O M M M I X | | C O O M M I X X | | CCC OOO M M I X X | | | +==================================+ | Color dressed Matrix Elements | | http://comix.freacafe.de | | please cite JHEP12(2008)039 | +----------------------------------+ ME_Generator_Base::SetPSMasses(): Massive PS flavours for Amegic: (none) ME_Generator_Base::SetPSMasses(): Massive PS flavours for Internal: (none) Matrix_Element_Handler::BuildProcesses(): 3 ME generators, 1 process blocks. Matrix_Element_Handler::BuildProcesses(): Setting up processes .. done ( 52 MB, 0s / 0s ). Matrix_Element_Handler::InitializeProcesses(): Performing tests .. done ( 52 MB, 0s / 0s ). Matrix_Element_Handler::InitializeProcesses(): Initializing scales done ( 52 MB, 0s / 0s ). Initialized the Matrix_Element_Handler for the hard processes. Initialized the Beam_Remnant_Handler. MI_Handler::MI_Handler(id = 2, name = None, type = 0) Underlying event/multiple interactions handler: MI[2]: on = 0 (type = 0, None) Soft-collision handlers: Initialized the Fragmentation_Handler. Initialized the Soft_Photon_Handler. Initialized the Reweighting. Read in channels from directory: Results/Comix/MC_2_2__j__j__l__l Process_Group::CalculateTotalXSec(): Calculate xs for '2_2__j__j__l__l' (Comix) 2_2__j__j__l__l : 3847.35 pb +- ( 6.79368 pb = 0.176581 % )  exp. eff: 11.8814 % reduce max for 2_2__j__j__l__l to 1 ( eps = 0.001 -> exp. eff 0.118814 ) ---------------------------------------------------------- -- SHERPA generates events with the following structure -- ---------------------------------------------------------- Event generation : Partially unweighted Perturbative : Signal_Processes Perturbative : Minimum_Bias: None Perturbative : Hard_Decays Perturbative : Jet_Evolution:CFP Perturbative : Lepton_FS_QED_Corrections:None Perturbative : Multiple_Interactions: None Hadronization : Beam_Remnants:None Hadronization : Hadronization:None Hadronization : Hadron_Decays Userhook : Analysis : Rivet --------------------------------------------------------- Event 1 ( 1s elapsed / 2h 2m 28s left ) -> ETA: Tue Nov 28 23:58 XS = 32381.4 pb +- ( 32381.4 pb = 100 % ) Event 2 ( 1s elapsed / 1h 1m 13s left ) -> ETA: Tue Nov 28 22:57 XS = 3408.57 pb +- ( 2342.32 pb = 68 % ) Event 3 ( 1s elapsed / 41m 5s left ) -> ETA: Tue Nov 28 22:37 XS = 2943.77 pb +- ( 1645.62 pb = 55 % ) Event 4 ( 1s elapsed / 30m 48s left ) -> ETA: Tue Nov 28 22:27 XS = 3700.74 pb +- ( 1766.85 pb = 47 % ) Event 5 ( 1s elapsed / 24m 48s left ) -> ETA: Tue Nov 28 22:21 XS = 3765.28 pb +- ( 1601.7 pb = 42 % ) Event 6 ( 1s elapsed / 20m 48s left ) -> ETA: Tue Nov 28 22:17 XS = 4317.53 pb +- ( 1659.45 pb = 38 % ) Event 7 ( 1s elapsed / 17m 57s left ) -> ETA: Tue Nov 28 22:14 XS = 3976.67 pb +- ( 1420.24 pb = 35 % ) Event 8 ( 1s elapsed / 15m 42s left ) -> ETA: Tue Nov 28 22:12 XS = 4246.75 pb +- ( 1411.15 pb = 33 % ) Event 9 ( 1s elapsed / 14m 2s left ) -> ETA: Tue Nov 28 22:10 XS = 4553.64 pb +- ( 1418.24 pb = 31 % ) Event 10 ( 1s elapsed / 12m 38s left ) -> ETA: Tue Nov 28 22:08 XS = 4151.47 pb +- ( 1233.7 pb = 29 % ) Event 20 ( 1s elapsed / 6m 48s left ) -> ETA: Tue Nov 28 22:03 XS = 3321.17 pb +- ( 705.334 pb = 21 % ) Event 30 ( 1s elapsed / 4m 48s left ) -> ETA: Tue Nov 28 22:01 XS = 3584.66 pb +- ( 618.321 pb = 17 % ) Event 40 ( 1s elapsed / 3m 44s left ) -> ETA: Tue Nov 28 22:00 XS = 3597.94 pb +- ( 537.095 pb = 14 % ) Event 50 ( 1s elapsed / 3m 5s left ) -> ETA: Tue Nov 28 21:59 XS = 3920.27 pb +- ( 520.398 pb = 13 % ) Event 60 ( 1s elapsed / 2m 39s left ) -> ETA: Tue Nov 28 21:59 XS = 3658.92 pb +- ( 445.297 pb = 12 % ) Event 70 ( 2s elapsed / 2m 22s left ) -> ETA: Tue Nov 28 21:58 XS = 3703.76 pb +- ( 416.939 pb = 11 % ) Event 80 ( 2s elapsed / 2m 9s left ) -> ETA: Tue Nov 28 21:58 XS = 3510.18 pb +- ( 370.821 pb = 10 % ) Event 90 ( 2s elapsed / 1m 58s left ) -> ETA: Tue Nov 28 21:58 XS = 3670.44 pb +- ( 364.541 pb = 9 % ) Event 100 ( 2s elapsed / 1m 51s left ) -> ETA: Tue Nov 28 21:58 XS = 3791.74 pb +- ( 356.492 pb = 9 % ) Event 200 ( 3s elapsed / 1m 12s left ) -> ETA: Tue Nov 28 21:57 XS = 3887.33 pb +- ( 257.927 pb = 6 % ) Event 300 ( 3s elapsed / 1m 1s left ) -> ETA: Tue Nov 28 21:57 XS = 4118.03 pb +- ( 222.17 pb = 5 % ) Event 400 ( 4s elapsed / 53s left ) -> ETA: Tue Nov 28 21:57 XS = 4089.86 pb +- ( 191.173 pb = 4 % ) Event 500 ( 5s elapsed / 49s left ) -> ETA: Tue Nov 28 21:57 XS = 3920.27 pb +- ( 164.385 pb = 4 % ) Event 600 ( 6s elapsed / 45s left ) -> ETA: Tue Nov 28 21:57 XS = 3938.55 pb +- ( 150.71 pb = 3 % ) Event 700 ( 7s elapsed / 43s left ) -> ETA: Tue Nov 28 21:57 XS = 3927.06 pb +- ( 139.15 pb = 3 % ) Event 800 ( 7s elapsed / 40s left ) -> ETA: Tue Nov 28 21:57 XS = 3949.56 pb +- ( 130.855 pb = 3 % ) Event 900 ( 8s elapsed / 38s left ) -> ETA: Tue Nov 28 21:57 XS = 3932.44 pb +- ( 122.873 pb = 3 % ) Event 1000 ( 9s elapsed / 36s left ) -> ETA: Tue Nov 28 21:57 XS = 3950.88 pb +- ( 117.075 pb = 2 % ) Event 2000 ( 17s elapsed / 26s left ) -> ETA: Tue Nov 28 21:57 XS = 3916.95 pb +- ( 82.1202 pb = 2 % ) Event 3000 ( 25s elapsed / 16s left ) -> ETA: Tue Nov 28 21:57 XS = 3915.53 pb +- ( 67.0275 pb = 1 % ) Event 4000 ( 32s elapsed / 8s left ) -> ETA: Tue Nov 28 21:57 XS = 3906.32 pb +- ( 57.9201 pb = 1 % ) Event 5000 ( 40 s total ) = 1.08789e+07 evts/day In Event_Handler::Finish : Summarizing the run may take some time. Rivet_Interface::Finish(Analysis_Allrecoil_Tall/8033){ } -------------------------------------------------------------------------- Nominal or variation name XS [pb] RelDev AbsErr [pb] RelErr -------------------------------------------------------------------------- Nominal  3910.71 0 % 51.8593 1.32 % -------------------------------------------------------------------------- Return_Value::PrintStatistics(): Statistics { Generated events: 5000 } Blob_List: Momentum Fail Statistics { } Decay_Channel: Kinematics max fail statistics { } WARNING: You are using an unsupported development branch. WARNING: Some settings that have been defined in the input files and/or the command line have not been used. For more details, see the Settings Report. Time: 40s on Tue Nov 28 21:57:00 2023 (User: 40s, System: 0s, Children User: 0s, Children System: 0s) Welcome to Sherpa, Daniel Reichelt on ip3-ws3.phyip3.dur.ac.uk. Initialization of framework underway. The local time is Tue Nov 28 21:59:11 2023. Run_Parameter::Init(): Setting memory limit to 187.131 GB. Random::SetSeed(): Seed set to 8033 ----------------------------------------------------------------------------- ----------- Event generation run with SHERPA started ....... ----------- ----------------------------------------------------------------------------- ................................................ | + ................................................ || | + + ................................... .... | | / + ................. ................ _,_ | .... || +| + + ............................... __.' ,\| ... || / +| + .............................. ( \ \ ... | | | + + \ + ............................. ( \ -/ .... || + | + ........ ................... (~~~~~~~~~## + + + ............................. ~~(! '~~~~~~~ \ + + + + ............................... `~~~QQQQQDb // | + + + + ........................ .......... IDDDDP|| \ + + + + + + .................................... IDDDI|| \ + .................................... IHD HD|| \ + + + + + + + + ................................... IHD ##| :-) + +\ + ......... ............... ......... IHI ## / / + + + + +\ + ................................... IHI/ / / + + + + + ................................... ## | | / / + + + + / + ....................... /TT\ ..... ##/ /// / + + + + + + +/ + ......................./TTT/T\ ... /TT\/\\\ / + + + + + + +/ \ + ....................../TTT/TTTT\...|TT/T\\\/ + ++ + / ----------------------------------------------------------------------------- SHERPA version 3.0.0beta1 (Dhaulagiri) Authors: Enrico Bothmann, Stefan Hoeche, Frank Krauss, Silvan Kuttimalai, Marek Schoenherr, Holger Schulz, Steffen Schumann, Frank Siegert, Korinna Zapp Former Authors: Timo Fischer, Tanju Gleisberg, Hendrik Hoeth, Ralf Kuhn, Thomas Laubrich, Andreas Schaelicke, Jan Winter This program uses a lot of genuine and original research work by other people. Users are encouraged to refer to the various original publications. Users are kindly asked to refer to the documentation published under JHEP 02(2009)007 Please visit also our homepage http://sherpa.hepforge.org for news, bugreports, updates and new releases. ----------------------------------------------------------------------------- WARNING: You are using an unsupported development branch. Git branch unknownurl, revision unknownrevision. Hadron_Init::Init(): Initializing kf table for hadrons. Beam_Spectra_Handler: type = Collider Setup for P+ (on = 0, p = (6500,0,0,6500)) and P+ (on = 0, p = (6500,0,0,-6500)). ISR handling: PDFs for hard scattering: CT14nnlo + CT14nnlo PDFs for multiple parton interactions: PDF4LHC21_40_pdfas + PDF4LHC21_40_pdfas Remnant_Handlers: hard process: P+: Intact + P+: Intact Standard_Model::FixEWParameters() { Input scheme: alpha0 alpha(0) scheme, input: 1/\alphaQED(0), m_W, m_Z, m_h, widths Ren. scheme: alpha0 Parameters: sin^2(\theta_W) = 0.222928 - 0.00110708 i vev = 243.034 - 3.75493 i } Running_AlphaQED::PrintSummary() { Setting \alpha according to EW scheme 1/\alpha(0) = 137.036 1/\alpha(def) = 128.802 } One_Running_AlphaS::PrintSummary() { Setting \alpha_s according to PDF perturbative order 2 \alpha_s(M_Z) = 0.118 } One_Running_AlphaS::PrintSummary() { Setting \alpha_s according to PDF perturbative order 2 \alpha_s(M_Z) = 0.118 } List of Particle Data IDName kfc Mass Width Stable Massive Active Yukawa d 1 0.01 0 1 0 1 0 u 2 0.005 0 1 0 1 0 s 3 0.2 0 1 0 1 0 c 4 1.42 0 1 0 1 0 b 5 4.92 0 1 0 1 0 t 6 173.21 2 0 1 1 173.21 e- 11 0.000511 0 1 0 1 0 ve 12 0 0 1 0 1 0 mu- 13 0.105 0 1 0 1 0 vmu 14 0 0 1 0 1 0 tau- 15 1.777 2.26735e-12 0 1 1 1.777 vtau 16 0 0 1 0 1 0 G 21 0 0 1 0 1 0 P 22 0 0 1 0 1 0 Z 23 91.1876 2.4952 0 1 1 91.1876 W+ 24 80.385 2.085 0 1 1 80.385 h0 25 125 0.00407 0 1 1 125 string 95 0 0 1 0 1 0 cluster 96 0 0 1 0 1 0 Instanton 999 0 0 0 0 1 0 List of Particle Containers IDName kfc Constituents l 90 {e-,e+,mu-,mu+} v 91 {ve,veb,vmu,vmub,vtau,vtaub} f 92 {d,db,u,ub,s,sb,c,cb,b,bb,e-,e+,mu-,mu+,ve,veb,vmu,vmub,vtau,vtaub} j 93 {d,db,u,ub,s,sb,c,cb,b,bb,G} Q 94 {d,db,u,ub,s,sb,c,cb,b,bb} ewj 98 {d,db,u,ub,s,sb,c,cb,b,bb,G,P} Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF ####### Permutations for 2 partons ############## found 2 entries: 1th permutation = { 0 1 } 2th permutation = { 1 0 } FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. IF: Soft, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. II: Soft, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF ####### Permutations for 2 partons ############## found 2 entries: 1th permutation = { 0 1 } 2th permutation = { 1 0 } FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. IF: Soft, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. II: Soft, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. Shower_Handler initialised. +-----------------------------------------+ | X X X XXXX XXX XXX XXX | | X X XX XX X X X X X X | | X X X X X XXX X XXX X X XXX XXX | | XXXXX X X X X X X X X X | | X X X X XXXX XXX XXX XXX | +-----------------------------------------+ | please cite: JHEP 0202:044,2002 | +-----------------------------------------+ Matrix_Element_Handler::Matrix_Element_Handler(): Set pilot run mode to 1. ME_Generator_Base::SetPSMasses(): Massive PS flavours for Comix: (none) +----------------------------------+ | | | CCC OOO M M I X X | | C O O MM MM I X X | | C O O M M M I X | | C O O M M I X X | | CCC OOO M M I X X | | | +==================================+ | Color dressed Matrix Elements | | http://comix.freacafe.de | | please cite JHEP12(2008)039 | +----------------------------------+ ME_Generator_Base::SetPSMasses(): Massive PS flavours for Amegic: (none) ME_Generator_Base::SetPSMasses(): Massive PS flavours for Internal: (none) Matrix_Element_Handler::BuildProcesses(): 3 ME generators, 1 process blocks. Matrix_Element_Handler::BuildProcesses(): Setting up processes .. done ( 52 MB, 0s / 0s ). Matrix_Element_Handler::InitializeProcesses(): Performing tests .. done ( 52 MB, 0s / 0s ). Matrix_Element_Handler::InitializeProcesses(): Initializing scales done ( 52 MB, 0s / 0s ). Initialized the Matrix_Element_Handler for the hard processes. Initialized the Beam_Remnant_Handler. MI_Handler::MI_Handler(id = 2, name = None, type = 0) Underlying event/multiple interactions handler: MI[2]: on = 0 (type = 0, None) Soft-collision handlers: Initialized the Fragmentation_Handler. Initialized the Soft_Photon_Handler. Initialized the Reweighting. Read in channels from directory: Results/Comix/MC_2_2__j__j__l__l Process_Group::CalculateTotalXSec(): Calculate xs for '2_2__j__j__l__l' (Comix) 2_2__j__j__l__l : 3847.35 pb +- ( 6.79368 pb = 0.176581 % )  exp. eff: 11.8814 % reduce max for 2_2__j__j__l__l to 1 ( eps = 0.001 -> exp. eff 0.118814 ) ---------------------------------------------------------- -- SHERPA generates events with the following structure -- ---------------------------------------------------------- Event generation : Partially unweighted Perturbative : Signal_Processes Perturbative : Minimum_Bias: None Perturbative : Hard_Decays Perturbative : Jet_Evolution:CFP Perturbative : Lepton_FS_QED_Corrections:None Perturbative : Multiple_Interactions: None Hadronization : Beam_Remnants:None Hadronization : Hadronization:None Hadronization : Hadron_Decays Userhook : Analysis : Rivet --------------------------------------------------------- Event 1 ( 1s elapsed / 2h 29m 8s left ) -> ETA: Wed Nov 29 00:28 XS = 32381.4 pb +- ( 32381.4 pb = 100 % ) Event 2 ( 1s elapsed / 1h 14m 33s left ) -> ETA: Tue Nov 28 23:13 XS = 21587.6 pb +- ( 10793.8 pb = 50 % ) Event 3 ( 1s elapsed / 49m 58s left ) -> ETA: Tue Nov 28 22:49 XS = 19428.9 pb +- ( 7931.8 pb = 40 % ) Event 4 ( 1s elapsed / 37m 40s left ) -> ETA: Tue Nov 28 22:36 XS = 10793.8 pb +- ( 4602.5 pb = 42 % ) Event 5 ( 1s elapsed / 30m 8s left ) -> ETA: Tue Nov 28 22:29 XS = 6227.2 pb +- ( 2552.39 pb = 40 % ) Event 6 ( 1s elapsed / 25m 14s left ) -> ETA: Tue Nov 28 22:24 XS = 3809.58 pb +- ( 1475.44 pb = 38 % ) Event 7 ( 1s elapsed / 21m 45s left ) -> ETA: Tue Nov 28 22:20 XS = 4359.04 pb +- ( 1547.62 pb = 35 % ) Event 8 ( 1s elapsed / 19m 1s left ) -> ETA: Tue Nov 28 22:18 XS = 4544.76 pb +- ( 1503.04 pb = 33 % ) Event 9 ( 1s elapsed / 17m left ) -> ETA: Tue Nov 28 22:16 XS = 4777.59 pb +- ( 1482.56 pb = 31 % ) Event 10 ( 1s elapsed / 15m 18s left ) -> ETA: Tue Nov 28 22:14 XS = 4981.76 pb +- ( 1460.41 pb = 29 % ) Event 20 ( 1s elapsed / 8m left ) -> ETA: Tue Nov 28 22:07 XS = 3722 pb +- ( 785.234 pb = 21 % ) Event 30 ( 2s elapsed / 5m 31s left ) -> ETA: Tue Nov 28 22:04 XS = 3519.72 pb +- ( 607.783 pb = 17 % ) Event 40 ( 2s elapsed / 4m 19s left ) -> ETA: Tue Nov 28 22:03 XS = 3538.95 pb +- ( 528.819 pb = 14 % ) Event 50 ( 2s elapsed / 3m 33s left ) -> ETA: Tue Nov 28 22:02 XS = 3512.09 pb +- ( 469.486 pb = 13 % ) Event 60 ( 2s elapsed / 3m 5s left ) -> ETA: Tue Nov 28 22:02 XS = 3133.69 pb +- ( 384.794 pb = 12 % ) Event 70 ( 2s elapsed / 2m 42s left ) -> ETA: Tue Nov 28 22:01 XS = 3343.22 pb +- ( 378.68 pb = 11 % ) Event 80 ( 2s elapsed / 2m 30s left ) -> ETA: Tue Nov 28 22:01 XS = 3355.59 pb +- ( 355.426 pb = 10 % ) Event 90 ( 2s elapsed / 2m 15s left ) -> ETA: Tue Nov 28 22:01 XS = 3461.2 pb +- ( 344.998 pb = 9 % ) Event 100 ( 2s elapsed / 2m 4s left ) -> ETA: Tue Nov 28 22:01 XS = 3570.17 pb +- ( 336.947 pb = 9 % ) Event 200 ( 3s elapsed / 1m 16s left ) -> ETA: Tue Nov 28 22:00 XS = 3915.53 pb +- ( 259.67 pb = 6 % ) Event 300 ( 3s elapsed / 1m left ) -> ETA: Tue Nov 28 22:00 XS = 4059.52 pb +- ( 219.239 pb = 5 % ) Event 400 ( 4s elapsed / 51s left ) -> ETA: Tue Nov 28 22:00 XS = 4109.32 pb +- ( 192.017 pb = 4 % ) Event 500 ( 5s elapsed / 45s left ) -> ETA: Tue Nov 28 22:00 XS = 4199.93 pb +- ( 175.246 pb = 4 % ) Event 600 ( 5s elapsed / 42s left ) -> ETA: Tue Nov 28 22:00 XS = 4085.99 pb +- ( 155.947 pb = 3 % ) Event 700 ( 6s elapsed / 40s left ) -> ETA: Tue Nov 28 21:59 XS = 4047.68 pb +- ( 143.12 pb = 3 % ) Event 800 ( 7s elapsed / 39s left ) -> ETA: Tue Nov 28 21:59 XS = 4097.62 pb +- ( 135.407 pb = 3 % ) Event 900 ( 8s elapsed / 37s left ) -> ETA: Tue Nov 28 21:59 XS = 4084.55 pb +- ( 127.284 pb = 3 % ) Event 1000 ( 8s elapsed / 35s left ) -> ETA: Tue Nov 28 21:59 XS = 4121.35 pb +- ( 121.76 pb = 2 % ) Event 2000 ( 16s elapsed / 24s left ) -> ETA: Tue Nov 28 21:59 XS = 4002.9 pb +- ( 83.7953 pb = 2 % ) Event 3000 ( 22s elapsed / 15s left ) -> ETA: Tue Nov 28 21:59 XS = 4017.22 pb +- ( 68.6453 pb = 1 % ) Event 4000 ( 29s elapsed / 7s left ) -> ETA: Tue Nov 28 21:59 XS = 4013.44 pb +- ( 59.3964 pb = 1 % ) Event 5000 ( 35 s total ) = 1.24388e+07 evts/day In Event_Handler::Finish : Summarizing the run may take some time. Rivet_Interface::Finish(Analysis_Allrecoil_Tall_PT2MIN/8033){ } -------------------------------------------------------------------------- Nominal or variation name XS [pb] RelDev AbsErr [pb] RelErr -------------------------------------------------------------------------- Nominal  3975.04 0 % 52.6528 1.32 % -------------------------------------------------------------------------- Return_Value::PrintStatistics(): Statistics { Generated events: 5000 } Blob_List: Momentum Fail Statistics { } Decay_Channel: Kinematics max fail statistics { } WARNING: You are using an unsupported development branch. WARNING: Some settings that have been defined in the input files and/or the command line have not been used. For more details, see the Settings Report. Time: 35s on Tue Nov 28 21:59:47 2023 (User: 35s, System: 0s, Children User: 0s, Children System: 0s) Welcome to Sherpa, Daniel Reichelt on ip3-ws3.phyip3.dur.ac.uk. Initialization of framework underway. The local time is Tue Nov 28 22:04:11 2023. Run_Parameter::Init(): Setting memory limit to 187.131 GB. Random::SetSeed(): Seed set to 8033 ----------------------------------------------------------------------------- ----------- Event generation run with SHERPA started ....... ----------- ----------------------------------------------------------------------------- ................................................ | + ................................................ || | + + ................................... .... | | / + ................. ................ _,_ | .... || +| + + ............................... __.' ,\| ... || / +| + .............................. ( \ \ ... | | | + + \ + ............................. ( \ -/ .... || + | + ........ ................... (~~~~~~~~~## + + + ............................. ~~(! '~~~~~~~ \ + + + + ............................... `~~~QQQQQDb // | + + + + ........................ .......... IDDDDP|| \ + + + + + + .................................... IDDDI|| \ + .................................... IHD HD|| \ + + + + + + + + ................................... IHD ##| :-) + +\ + ......... ............... ......... IHI ## / / + + + + +\ + ................................... IHI/ / / + + + + + ................................... ## | | / / + + + + / + ....................... /TT\ ..... ##/ /// / + + + + + + +/ + ......................./TTT/T\ ... /TT\/\\\ / + + + + + + +/ \ + ....................../TTT/TTTT\...|TT/T\\\/ + ++ + / ----------------------------------------------------------------------------- SHERPA version 3.0.0beta1 (Dhaulagiri) Authors: Enrico Bothmann, Stefan Hoeche, Frank Krauss, Silvan Kuttimalai, Marek Schoenherr, Holger Schulz, Steffen Schumann, Frank Siegert, Korinna Zapp Former Authors: Timo Fischer, Tanju Gleisberg, Hendrik Hoeth, Ralf Kuhn, Thomas Laubrich, Andreas Schaelicke, Jan Winter This program uses a lot of genuine and original research work by other people. Users are encouraged to refer to the various original publications. Users are kindly asked to refer to the documentation published under JHEP 02(2009)007 Please visit also our homepage http://sherpa.hepforge.org for news, bugreports, updates and new releases. ----------------------------------------------------------------------------- WARNING: You are using an unsupported development branch. Git branch unknownurl, revision unknownrevision. Hadron_Init::Init(): Initializing kf table for hadrons. Beam_Spectra_Handler: type = Collider Setup for P+ (on = 0, p = (6500,0,0,6500)) and P+ (on = 0, p = (6500,0,0,-6500)). ISR handling: PDFs for hard scattering: CT14nnlo + CT14nnlo PDFs for multiple parton interactions: PDF4LHC21_40_pdfas + PDF4LHC21_40_pdfas Remnant_Handlers: hard process: P+: Intact + P+: Intact Standard_Model::FixEWParameters() { Input scheme: alpha0 alpha(0) scheme, input: 1/\alphaQED(0), m_W, m_Z, m_h, widths Ren. scheme: alpha0 Parameters: sin^2(\theta_W) = 0.222928 - 0.00110708 i vev = 243.034 - 3.75493 i } Running_AlphaQED::PrintSummary() { Setting \alpha according to EW scheme 1/\alpha(0) = 137.036 1/\alpha(def) = 128.802 } One_Running_AlphaS::PrintSummary() { Setting \alpha_s according to PDF perturbative order 2 \alpha_s(M_Z) = 0.118 } One_Running_AlphaS::PrintSummary() { Setting \alpha_s according to PDF perturbative order 2 \alpha_s(M_Z) = 0.118 } List of Particle Data IDName kfc Mass Width Stable Massive Active Yukawa d 1 0.01 0 1 0 1 0 u 2 0.005 0 1 0 1 0 s 3 0.2 0 1 0 1 0 c 4 1.42 0 1 0 1 0 b 5 4.92 0 1 0 1 0 t 6 173.21 2 0 1 1 173.21 e- 11 0.000511 0 1 0 1 0 ve 12 0 0 1 0 1 0 mu- 13 0.105 0 1 0 1 0 vmu 14 0 0 1 0 1 0 tau- 15 1.777 2.26735e-12 0 1 1 1.777 vtau 16 0 0 1 0 1 0 G 21 0 0 1 0 1 0 P 22 0 0 1 0 1 0 Z 23 91.1876 2.4952 0 1 1 91.1876 W+ 24 80.385 2.085 0 1 1 80.385 h0 25 125 0.00407 0 1 1 125 string 95 0 0 1 0 1 0 cluster 96 0 0 1 0 1 0 Instanton 999 0 0 0 0 1 0 List of Particle Containers IDName kfc Constituents l 90 {e-,e+,mu-,mu+} v 91 {ve,veb,vmu,vmub,vtau,vtaub} f 92 {d,db,u,ub,s,sb,c,cb,b,bb,e-,e+,mu-,mu+,ve,veb,vmu,vmub,vtau,vtaub} j 93 {d,db,u,ub,s,sb,c,cb,b,bb,G} Q 94 {d,db,u,ub,s,sb,c,cb,b,bb} ewj 98 {d,db,u,ub,s,sb,c,cb,b,bb,G,P} Shower_Handler initialised. +-----------------------------------------+ | X X X XXXX XXX XXX XXX | | X X XX XX X X X X X X | | X X X X X XXX X XXX X X XXX XXX | | XXXXX X X X X X X X X X | | X X X X XXXX XXX XXX XXX | +-----------------------------------------+ | please cite: JHEP 0202:044,2002 | +-----------------------------------------+ Matrix_Element_Handler::Matrix_Element_Handler(): Set pilot run mode to 1. ME_Generator_Base::SetPSMasses(): Massive PS flavours for Comix: (none) +----------------------------------+ | | | CCC OOO M M I X X | | C O O MM MM I X X | | C O O M M M I X | | C O O M M I X X | | CCC OOO M M I X X | | | +==================================+ | Color dressed Matrix Elements | | http://comix.freacafe.de | | please cite JHEP12(2008)039 | +----------------------------------+ ME_Generator_Base::SetPSMasses(): Massive PS flavours for Amegic: (none) ME_Generator_Base::SetPSMasses(): Massive PS flavours for Internal: (none) Matrix_Element_Handler::BuildProcesses(): 3 ME generators, 1 process blocks. Matrix_Element_Handler::BuildProcesses(): Setting up processes .. done ( 52 MB, 0s / 0s ). Matrix_Element_Handler::InitializeProcesses(): Performing tests .. done ( 52 MB, 0s / 0s ). Matrix_Element_Handler::InitializeProcesses(): Initializing scales done ( 52 MB, 0s / 0s ). Initialized the Matrix_Element_Handler for the hard processes. Initialized the Beam_Remnant_Handler. MI_Handler::MI_Handler(id = 2, name = None, type = 0) Underlying event/multiple interactions handler: MI[2]: on = 0 (type = 0, None) Soft-collision handlers: Initialized the Fragmentation_Handler. Initialized the Soft_Photon_Handler. Initialized the Reweighting. Read in channels from directory: Results/Comix/MC_2_2__j__j__l__l Process_Group::CalculateTotalXSec(): Calculate xs for '2_2__j__j__l__l' (Comix) 2_2__j__j__l__l : 3847.35 pb +- ( 6.79368 pb = 0.176581 % )  exp. eff: 11.8814 % reduce max for 2_2__j__j__l__l to 1 ( eps = 0.001 -> exp. eff 0.118814 ) ---------------------------------------------------------- -- SHERPA generates events with the following structure -- ---------------------------------------------------------- Event generation : Partially unweighted Perturbative : Signal_Processes Perturbative : Minimum_Bias: None Perturbative : Hard_Decays Perturbative : Jet_Evolution:CSS Perturbative : Lepton_FS_QED_Corrections:None Perturbative : Multiple_Interactions: None Hadronization : Beam_Remnants:None Hadronization : Hadronization:None Hadronization : Hadron_Decays Userhook : Analysis : Rivet --------------------------------------------------------- Event 1 ( 1s elapsed / 2h 15m 48s left ) -> ETA: Wed Nov 29 00:20 XS = 32381.4 pb +- ( 32381.4 pb = 100 % ) Event 2 ( 1s elapsed / 1h 7m 53s left ) -> ETA: Tue Nov 28 23:12 XS = 3238.14 pb +- ( 2228.64 pb = 68 % ) Event 3 ( 1s elapsed / 45m 31s left ) -> ETA: Tue Nov 28 22:49 XS = 4223.67 pb +- ( 2325.05 pb = 55 % ) Event 4 ( 1s elapsed / 34m 8s left ) -> ETA: Tue Nov 28 22:38 XS = 3809.58 pb +- ( 1816.15 pb = 47 % ) Event 5 ( 1s elapsed / 27m 18s left ) -> ETA: Tue Nov 28 22:31 XS = 4625.92 pb +- ( 1943.27 pb = 42 % ) Event 6 ( 1s elapsed / 22m 53s left ) -> ETA: Tue Nov 28 22:27 XS = 3133.69 pb +- ( 1225.77 pb = 39 % ) Event 7 ( 1s elapsed / 19m 44s left ) -> ETA: Tue Nov 28 22:23 XS = 3148.2 pb +- ( 1138.52 pb = 36 % ) Event 8 ( 1s elapsed / 17m 15s left ) -> ETA: Tue Nov 28 22:21 XS = 3159.16 pb +- ( 1067.58 pb = 33 % ) Event 9 ( 1s elapsed / 15m 20s left ) -> ETA: Tue Nov 28 22:19 XS = 3511.24 pb +- ( 1111.86 pb = 31 % ) Event 10 ( 1s elapsed / 13m 53s left ) -> ETA: Tue Nov 28 22:18 XS = 3854.93 pb +- ( 1151.05 pb = 29 % ) Event 20 ( 1s elapsed / 7m 10s left ) -> ETA: Tue Nov 28 22:11 XS = 3578.06 pb +- ( 756.675 pb = 21 % ) Event 30 ( 1s elapsed / 4m 53s left ) -> ETA: Tue Nov 28 22:09 XS = 3809.58 pb +- ( 654.623 pb = 17 % ) Event 40 ( 1s elapsed / 3m 45s left ) -> ETA: Tue Nov 28 22:07 XS = 3913.16 pb +- ( 581.015 pb = 14 % ) Event 50 ( 1s elapsed / 3m 6s left ) -> ETA: Tue Nov 28 22:07 XS = 3481.88 pb +- ( 465.686 pb = 13 % ) Event 60 ( 1s elapsed / 2m 39s left ) -> ETA: Tue Nov 28 22:06 XS = 3591.29 pb +- ( 437.573 pb = 12 % ) Event 70 ( 1s elapsed / 2m 20s left ) -> ETA: Tue Nov 28 22:06 XS = 3603.66 pb +- ( 406.369 pb = 11 % ) Event 80 ( 2s elapsed / 2m 5s left ) -> ETA: Tue Nov 28 22:06 XS = 3395.17 pb +- ( 359.376 pb = 10 % ) Event 90 ( 2s elapsed / 1m 54s left ) -> ETA: Tue Nov 28 22:06 XS = 3270.85 pb +- ( 327.085 pb = 10 % ) Event 100 ( 2s elapsed / 1m 45s left ) -> ETA: Tue Nov 28 22:05 XS = 3297.5 pb +- ( 312.669 pb = 9 % ) Event 200 ( 2s elapsed / 1m 3s left ) -> ETA: Tue Nov 28 22:05 XS = 3343.46 pb +- ( 223.938 pb = 6 % ) Event 300 ( 3s elapsed / 48s left ) -> ETA: Tue Nov 28 22:05 XS = 3585.98 pb +- ( 195.273 pb = 5 % ) Event 400 ( 3s elapsed / 41s left ) -> ETA: Tue Nov 28 22:04 XS = 3478.14 pb +- ( 164.324 pb = 4 % ) Event 500 ( 4s elapsed / 36s left ) -> ETA: Tue Nov 28 22:04 XS = 3601.14 pb +- ( 151.846 pb = 4 % ) Event 600 ( 4s elapsed / 32s left ) -> ETA: Tue Nov 28 22:04 XS = 3630.88 pb +- ( 139.686 pb = 3 % ) Event 700 ( 4s elapsed / 30s left ) -> ETA: Tue Nov 28 22:04 XS = 3703.15 pb +- ( 131.731 pb = 3 % ) Event 800 ( 5s elapsed / 28s left ) -> ETA: Tue Nov 28 22:04 XS = 3722.54 pb +- ( 123.825 pb = 3 % ) Event 900 ( 5s elapsed / 26s left ) -> ETA: Tue Nov 28 22:04 XS = 3758.97 pb +- ( 117.81 pb = 3 % ) Event 1000 ( 6s elapsed / 25s left ) -> ETA: Tue Nov 28 22:04 XS = 3789.52 pb +- ( 112.612 pb = 2 % ) Event 2000 ( 10s elapsed / 16s left ) -> ETA: Tue Nov 28 22:04 XS = 3799.3 pb +- ( 79.818 pb = 2 % ) Event 3000 ( 15s elapsed / 10s left ) -> ETA: Tue Nov 28 22:04 XS = 3828.65 pb +- ( 65.6402 pb = 1 % ) Event 4000 ( 20s elapsed / 5s left ) -> ETA: Tue Nov 28 22:04 XS = 3841.9 pb +- ( 57.0293 pb = 1 % ) Event 5000 ( 24 s total ) = 1.75041e+07 evts/day In Event_Handler::Finish : Summarizing the run may take some time. Rivet_Interface::Finish(Analysis_CSS/8033){ } -------------------------------------------------------------------------- Nominal or variation name XS [pb] RelDev AbsErr [pb] RelErr -------------------------------------------------------------------------- Nominal  3815.42 0 % 50.6803 1.32 % -------------------------------------------------------------------------- Return_Value::PrintStatistics(): Statistics { Generated events: 5000 } Blob_List: Momentum Fail Statistics { } Decay_Channel: Kinematics max fail statistics { } WARNING: You are using an unsupported development branch. WARNING: Some settings that have been defined in the input files and/or the command line have not been used. For more details, see the Settings Report. Time: 25s on Tue Nov 28 22:04:36 2023 (User: 24s, System: 0s, Children User: 0s, Children System: 0s) Welcome to Sherpa, Daniel Reichelt on ip3-ws3.phyip3.dur.ac.uk. Initialization of framework underway. The local time is Tue Nov 28 22:06:33 2023. Run_Parameter::Init(): Setting memory limit to 187.131 GB. Random::SetSeed(): Seed set to 8033 ----------------------------------------------------------------------------- ----------- Event generation run with SHERPA started ....... ----------- ----------------------------------------------------------------------------- ................................................ | + ................................................ || | + + ................................... .... | | / + ................. ................ _,_ | .... || +| + + ............................... __.' ,\| ... || / +| + .............................. ( \ \ ... | | | + + \ + ............................. ( \ -/ .... || + | + ........ ................... (~~~~~~~~~## + + + ............................. ~~(! '~~~~~~~ \ + + + + ............................... `~~~QQQQQDb // | + + + + ........................ .......... IDDDDP|| \ + + + + + + .................................... IDDDI|| \ + .................................... IHD HD|| \ + + + + + + + + ................................... IHD ##| :-) + +\ + ......... ............... ......... IHI ## / / + + + + +\ + ................................... IHI/ / / + + + + + ................................... ## | | / / + + + + / + ....................... /TT\ ..... ##/ /// / + + + + + + +/ + ......................./TTT/T\ ... /TT\/\\\ / + + + + + + +/ \ + ....................../TTT/TTTT\...|TT/T\\\/ + ++ + / ----------------------------------------------------------------------------- SHERPA version 3.0.0beta1 (Dhaulagiri) Authors: Enrico Bothmann, Stefan Hoeche, Frank Krauss, Silvan Kuttimalai, Marek Schoenherr, Holger Schulz, Steffen Schumann, Frank Siegert, Korinna Zapp Former Authors: Timo Fischer, Tanju Gleisberg, Hendrik Hoeth, Ralf Kuhn, Thomas Laubrich, Andreas Schaelicke, Jan Winter This program uses a lot of genuine and original research work by other people. Users are encouraged to refer to the various original publications. Users are kindly asked to refer to the documentation published under JHEP 02(2009)007 Please visit also our homepage http://sherpa.hepforge.org for news, bugreports, updates and new releases. ----------------------------------------------------------------------------- WARNING: You are using an unsupported development branch. Git branch unknownurl, revision unknownrevision. Hadron_Init::Init(): Initializing kf table for hadrons. Beam_Spectra_Handler: type = Collider Setup for P+ (on = 0, p = (6500,0,0,6500)) and P+ (on = 0, p = (6500,0,0,-6500)). ISR handling: PDFs for hard scattering: CT14nnlo + CT14nnlo PDFs for multiple parton interactions: PDF4LHC21_40_pdfas + PDF4LHC21_40_pdfas Remnant_Handlers: hard process: P+: Intact + P+: Intact Standard_Model::FixEWParameters() { Input scheme: alpha0 alpha(0) scheme, input: 1/\alphaQED(0), m_W, m_Z, m_h, widths Ren. scheme: alpha0 Parameters: sin^2(\theta_W) = 0.222928 - 0.00110708 i vev = 243.034 - 3.75493 i } Running_AlphaQED::PrintSummary() { Setting \alpha according to EW scheme 1/\alpha(0) = 137.036 1/\alpha(def) = 128.802 } One_Running_AlphaS::PrintSummary() { Setting \alpha_s according to PDF perturbative order 2 \alpha_s(M_Z) = 0.118 } One_Running_AlphaS::PrintSummary() { Setting \alpha_s according to PDF perturbative order 2 \alpha_s(M_Z) = 0.118 } List of Particle Data IDName kfc Mass Width Stable Massive Active Yukawa d 1 0.01 0 1 0 1 0 u 2 0.005 0 1 0 1 0 s 3 0.2 0 1 0 1 0 c 4 1.42 0 1 0 1 0 b 5 4.92 0 1 0 1 0 t 6 173.21 2 0 1 1 173.21 e- 11 0.000511 0 1 0 1 0 ve 12 0 0 1 0 1 0 mu- 13 0.105 0 1 0 1 0 vmu 14 0 0 1 0 1 0 tau- 15 1.777 2.26735e-12 0 1 1 1.777 vtau 16 0 0 1 0 1 0 G 21 0 0 1 0 1 0 P 22 0 0 1 0 1 0 Z 23 91.1876 2.4952 0 1 1 91.1876 W+ 24 80.385 2.085 0 1 1 80.385 h0 25 125 0.00407 0 1 1 125 string 95 0 0 1 0 1 0 cluster 96 0 0 1 0 1 0 Instanton 999 0 0 0 0 1 0 List of Particle Containers IDName kfc Constituents l 90 {e-,e+,mu-,mu+} v 91 {ve,veb,vmu,vmub,vtau,vtaub} f 92 {d,db,u,ub,s,sb,c,cb,b,bb,e-,e+,mu-,mu+,ve,veb,vmu,vmub,vtau,vtaub} j 93 {d,db,u,ub,s,sb,c,cb,b,bb,G} Q 94 {d,db,u,ub,s,sb,c,cb,b,bb} ewj 98 {d,db,u,ub,s,sb,c,cb,b,bb,G,P} Shower_Handler initialised. +-----------------------------------------+ | X X X XXXX XXX XXX XXX | | X X XX XX X X X X X X | | X X X X X XXX X XXX X X XXX XXX | | XXXXX X X X X X X X X X | | X X X X XXXX XXX XXX XXX | +-----------------------------------------+ | please cite: JHEP 0202:044,2002 | +-----------------------------------------+ Matrix_Element_Handler::Matrix_Element_Handler(): Set pilot run mode to 1. ME_Generator_Base::SetPSMasses(): Massive PS flavours for Comix: (none) +----------------------------------+ | | | CCC OOO M M I X X | | C O O MM MM I X X | | C O O M M M I X | | C O O M M I X X | | CCC OOO M M I X X | | | +==================================+ | Color dressed Matrix Elements | | http://comix.freacafe.de | | please cite JHEP12(2008)039 | +----------------------------------+ ME_Generator_Base::SetPSMasses(): Massive PS flavours for Amegic: (none) ME_Generator_Base::SetPSMasses(): Massive PS flavours for Internal: (none) Matrix_Element_Handler::BuildProcesses(): 3 ME generators, 1 process blocks. Matrix_Element_Handler::BuildProcesses(): Setting up processes .. done ( 52 MB, 0s / 0s ). Matrix_Element_Handler::InitializeProcesses(): Performing tests .. done ( 52 MB, 0s / 0s ). Matrix_Element_Handler::InitializeProcesses(): Initializing scales done ( 52 MB, 0s / 0s ). Initialized the Matrix_Element_Handler for the hard processes. Initialized the Beam_Remnant_Handler. MI_Handler::MI_Handler(id = 2, name = None, type = 0) Underlying event/multiple interactions handler: MI[2]: on = 0 (type = 0, None) Soft-collision handlers: Initialized the Fragmentation_Handler. Initialized the Soft_Photon_Handler. Initialized the Reweighting. Read in channels from directory: Results/Comix/MC_2_2__j__j__l__l Process_Group::CalculateTotalXSec(): Calculate xs for '2_2__j__j__l__l' (Comix) 2_2__j__j__l__l : 3847.35 pb +- ( 6.79368 pb = 0.176581 % )  exp. eff: 11.8814 % reduce max for 2_2__j__j__l__l to 1 ( eps = 0.001 -> exp. eff 0.118814 ) ---------------------------------------------------------- -- SHERPA generates events with the following structure -- ---------------------------------------------------------- Event generation : Partially unweighted Perturbative : Signal_Processes Perturbative : Minimum_Bias: None Perturbative : Hard_Decays Perturbative : Jet_Evolution:CSS Perturbative : Lepton_FS_QED_Corrections:None Perturbative : Multiple_Interactions: None Hadronization : Beam_Remnants:None Hadronization : Hadronization:None Hadronization : Hadron_Decays Userhook : Analysis : Rivet --------------------------------------------------------- Event 1 ( 1s elapsed / 2h 19m 8s left ) -> ETA: Wed Nov 29 00:25 XS = 32381.4 pb +- ( 32381.4 pb = 100 % ) Event 2 ( 1s elapsed / 1h 9m 58s left ) -> ETA: Tue Nov 28 23:16 XS = 9251.84 pb +- ( 5972.04 pb = 64 % ) Event 3 ( 1s elapsed / 46m 38s left ) -> ETA: Tue Nov 28 22:53 XS = 9714.43 pb +- ( 4946.35 pb = 50 % ) Event 4 ( 1s elapsed / 35m 10s left ) -> ETA: Tue Nov 28 22:41 XS = 10793.8 pb +- ( 4602.5 pb = 42 % ) Event 5 ( 1s elapsed / 28m 8s left ) -> ETA: Tue Nov 28 22:34 XS = 12454.4 pb +- ( 4547.7 pb = 36 % ) Event 6 ( 1s elapsed / 23m 26s left ) -> ETA: Tue Nov 28 22:30 XS = 9714.43 pb +- ( 3404.31 pb = 35 % ) Event 7 ( 1s elapsed / 20m 5s left ) -> ETA: Tue Nov 28 22:26 XS = 10793.8 pb +- ( 3413.3 pb = 31 % ) Event 8 ( 1s elapsed / 17m 40s left ) -> ETA: Tue Nov 28 22:24 XS = 8932.81 pb +- ( 2735.1 pb = 30 % ) Event 9 ( 1s elapsed / 15m 42s left ) -> ETA: Tue Nov 28 22:22 XS = 8326.66 pb +- ( 2427.15 pb = 29 % ) Event 10 ( 1s elapsed / 14m 8s left ) -> ETA: Tue Nov 28 22:20 XS = 8521.43 pb +- ( 2344.18 pb = 27 % ) Event 20 ( 1s elapsed / 7m 15s left ) -> ETA: Tue Nov 28 22:13 XS = 4073.14 pb +- ( 854.265 pb = 20 % ) Event 30 ( 1s elapsed / 4m 58s left ) -> ETA: Tue Nov 28 22:11 XS = 4476.7 pb +- ( 760.486 pb = 16 % ) Event 40 ( 1s elapsed / 3m 46s left ) -> ETA: Tue Nov 28 22:10 XS = 4191.77 pb +- ( 619.396 pb = 14 % ) Event 50 ( 1s elapsed / 3m 4s left ) -> ETA: Tue Nov 28 22:09 XS = 4573.65 pb +- ( 600.243 pb = 13 % ) Event 60 ( 1s elapsed / 2m 35s left ) -> ETA: Tue Nov 28 22:09 XS = 4681.65 pb +- ( 559.677 pb = 11 % ) Event 70 ( 1s elapsed / 2m 15s left ) -> ETA: Tue Nov 28 22:08 XS = 4268.74 pb +- ( 475.842 pb = 11 % ) Event 80 ( 1s elapsed / 2m left ) -> ETA: Tue Nov 28 22:08 XS = 4164.82 pb +- ( 435.015 pb = 10 % ) Event 90 ( 2s elapsed / 1m 49s left ) -> ETA: Tue Nov 28 22:08 XS = 4127.95 pb +- ( 406.732 pb = 9 % ) Event 100 ( 2s elapsed / 1m 40s left ) -> ETA: Tue Nov 28 22:08 XS = 3953.78 pb +- ( 370.681 pb = 9 % ) Event 200 ( 2s elapsed / 59s left ) -> ETA: Tue Nov 28 22:07 XS = 3992.78 pb +- ( 264.435 pb = 6 % ) Event 300 ( 2s elapsed / 44s left ) -> ETA: Tue Nov 28 22:07 XS = 3856.46 pb +- ( 209.016 pb = 5 % ) Event 400 ( 3s elapsed / 38s left ) -> ETA: Tue Nov 28 22:07 XS = 3811.82 pb +- ( 179.049 pb = 4 % ) Event 500 ( 3s elapsed / 34s left ) -> ETA: Tue Nov 28 22:07 XS = 3757.42 pb +- ( 158.006 pb = 4 % ) Event 600 ( 4s elapsed / 30s left ) -> ETA: Tue Nov 28 22:07 XS = 3858.76 pb +- ( 147.864 pb = 3 % ) Event 700 ( 4s elapsed / 28s left ) -> ETA: Tue Nov 28 22:07 XS = 3848.39 pb +- ( 136.55 pb = 3 % ) Event 800 ( 5s elapsed / 26s left ) -> ETA: Tue Nov 28 22:07 XS = 3875.12 pb +- ( 128.557 pb = 3 % ) Event 900 ( 5s elapsed / 25s left ) -> ETA: Tue Nov 28 22:07 XS = 3919.22 pb +- ( 122.488 pb = 3 % ) Event 1000 ( 5s elapsed / 23s left ) -> ETA: Tue Nov 28 22:07 XS = 3892 pb +- ( 115.45 pb = 2 % ) Event 2000 ( 10s elapsed / 15s left ) -> ETA: Tue Nov 28 22:06 XS = 3833.94 pb +- ( 80.4968 pb = 2 % ) Event 3000 ( 14s elapsed / 9s left ) -> ETA: Tue Nov 28 22:06 XS = 3741.36 pb +- ( 64.2415 pb = 1 % ) Event 4000 ( 18s elapsed / 4s left ) -> ETA: Tue Nov 28 22:06 XS = 3775.93 pb +- ( 56.1148 pb = 1 % ) Event 5000 ( 23 s total ) = 1.90392e+07 evts/day In Event_Handler::Finish : Summarizing the run may take some time. Rivet_Interface::Finish(Analysis_CSS/8033){ } -------------------------------------------------------------------------- Nominal or variation name XS [pb] RelDev AbsErr [pb] RelErr -------------------------------------------------------------------------- Nominal  3773.18 0 % 50.1563 1.32 % -------------------------------------------------------------------------- Return_Value::PrintStatistics(): Statistics { Generated events: 5000 } Blob_List: Momentum Fail Statistics { } Decay_Channel: Kinematics max fail statistics { } WARNING: You are using an unsupported development branch. WARNING: Some settings that have been defined in the input files and/or the command line have not been used. For more details, see the Settings Report. Time: 23s on Tue Nov 28 22:06:56 2023 (User: 23s, System: 0s, Children User: 0s, Children System: 0s) Welcome to Sherpa, Daniel Reichelt on ip3-ws3.phyip3.dur.ac.uk. Initialization of framework underway. The local time is Tue Nov 28 22:11:50 2023. Run_Parameter::Init(): Setting memory limit to 187.131 GB. Random::SetSeed(): Seed set to 8033 ----------------------------------------------------------------------------- ----------- Event generation run with SHERPA started ....... ----------- ----------------------------------------------------------------------------- ................................................ | + ................................................ || | + + ................................... .... | | / + ................. ................ _,_ | .... || +| + + ............................... __.' ,\| ... || / +| + .............................. ( \ \ ... | | | + + \ + ............................. ( \ -/ .... || + | + ........ ................... (~~~~~~~~~## + + + ............................. ~~(! '~~~~~~~ \ + + + + ............................... `~~~QQQQQDb // | + + + + ........................ .......... IDDDDP|| \ + + + + + + .................................... IDDDI|| \ + .................................... IHD HD|| \ + + + + + + + + ................................... IHD ##| :-) + +\ + ......... ............... ......... IHI ## / / + + + + +\ + ................................... IHI/ / / + + + + + ................................... ## | | / / + + + + / + ....................... /TT\ ..... ##/ /// / + + + + + + +/ + ......................./TTT/T\ ... /TT\/\\\ / + + + + + + +/ \ + ....................../TTT/TTTT\...|TT/T\\\/ + ++ + / ----------------------------------------------------------------------------- SHERPA version 3.0.0beta1 (Dhaulagiri) Authors: Enrico Bothmann, Stefan Hoeche, Frank Krauss, Silvan Kuttimalai, Marek Schoenherr, Holger Schulz, Steffen Schumann, Frank Siegert, Korinna Zapp Former Authors: Timo Fischer, Tanju Gleisberg, Hendrik Hoeth, Ralf Kuhn, Thomas Laubrich, Andreas Schaelicke, Jan Winter This program uses a lot of genuine and original research work by other people. Users are encouraged to refer to the various original publications. Users are kindly asked to refer to the documentation published under JHEP 02(2009)007 Please visit also our homepage http://sherpa.hepforge.org for news, bugreports, updates and new releases. ----------------------------------------------------------------------------- WARNING: You are using an unsupported development branch. Git branch unknownurl, revision unknownrevision. Hadron_Init::Init(): Initializing kf table for hadrons. Beam_Spectra_Handler: type = Collider Setup for P+ (on = 0, p = (6500,0,0,6500)) and P+ (on = 0, p = (6500,0,0,-6500)). ISR handling: PDFs for hard scattering: CT14nnlo + CT14nnlo PDFs for multiple parton interactions: PDF4LHC21_40_pdfas + PDF4LHC21_40_pdfas Remnant_Handlers: hard process: P+: Intact + P+: Intact Standard_Model::FixEWParameters() { Input scheme: alpha0 alpha(0) scheme, input: 1/\alphaQED(0), m_W, m_Z, m_h, widths Ren. scheme: alpha0 Parameters: sin^2(\theta_W) = 0.222928 - 0.00110708 i vev = 243.034 - 3.75493 i } Running_AlphaQED::PrintSummary() { Setting \alpha according to EW scheme 1/\alpha(0) = 137.036 1/\alpha(def) = 128.802 } One_Running_AlphaS::PrintSummary() { Setting \alpha_s according to PDF perturbative order 2 \alpha_s(M_Z) = 0.118 } One_Running_AlphaS::PrintSummary() { Setting \alpha_s according to PDF perturbative order 2 \alpha_s(M_Z) = 0.118 } List of Particle Data IDName kfc Mass Width Stable Massive Active Yukawa d 1 0.01 0 1 0 1 0 u 2 0.005 0 1 0 1 0 s 3 0.2 0 1 0 1 0 c 4 1.42 0 1 0 1 0 b 5 4.92 0 1 0 1 0 t 6 173.21 2 0 1 1 173.21 e- 11 0.000511 0 1 0 1 0 ve 12 0 0 1 0 1 0 mu- 13 0.105 0 1 0 1 0 vmu 14 0 0 1 0 1 0 tau- 15 1.777 2.26735e-12 0 1 1 1.777 vtau 16 0 0 1 0 1 0 G 21 0 0 1 0 1 0 P 22 0 0 1 0 1 0 Z 23 91.1876 2.4952 0 1 1 91.1876 W+ 24 80.385 2.085 0 1 1 80.385 h0 25 125 0.00407 0 1 1 125 string 95 0 0 1 0 1 0 cluster 96 0 0 1 0 1 0 Instanton 999 0 0 0 0 1 0 List of Particle Containers IDName kfc Constituents l 90 {e-,e+,mu-,mu+} v 91 {ve,veb,vmu,vmub,vtau,vtaub} f 92 {d,db,u,ub,s,sb,c,cb,b,bb,e-,e+,mu-,mu+,ve,veb,vmu,vmub,vtau,vtaub} j 93 {d,db,u,ub,s,sb,c,cb,b,bb,G} Q 94 {d,db,u,ub,s,sb,c,cb,b,bb} ewj 98 {d,db,u,ub,s,sb,c,cb,b,bb,G,P} Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF ####### Permutations for 2 partons ############## found 2 entries: 1th permutation = { 0 1 } 2th permutation = { 1 0 } FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. IF: Soft, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. II: Soft, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF ####### Permutations for 2 partons ############## found 2 entries: 1th permutation = { 0 1 } 2th permutation = { 1 0 } FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. IF: Soft, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. II: Soft, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. Shower_Handler initialised. +-----------------------------------------+ | X X X XXXX XXX XXX XXX | | X X XX XX X X X X X X | | X X X X X XXX X XXX X X XXX XXX | | XXXXX X X X X X X X X X | | X X X X XXXX XXX XXX XXX | +-----------------------------------------+ | please cite: JHEP 0202:044,2002 | +-----------------------------------------+ Matrix_Element_Handler::Matrix_Element_Handler(): Set pilot run mode to 1. ME_Generator_Base::SetPSMasses(): Massive PS flavours for Comix: (none) +----------------------------------+ | | | CCC OOO M M I X X | | C O O MM MM I X X | | C O O M M M I X | | C O O M M I X X | | CCC OOO M M I X X | | | +==================================+ | Color dressed Matrix Elements | | http://comix.freacafe.de | | please cite JHEP12(2008)039 | +----------------------------------+ ME_Generator_Base::SetPSMasses(): Massive PS flavours for Amegic: (none) ME_Generator_Base::SetPSMasses(): Massive PS flavours for Internal: (none) Matrix_Element_Handler::BuildProcesses(): 3 ME generators, 1 process blocks. Matrix_Element_Handler::BuildProcesses(): Setting up processes .. done ( 52 MB, 0s / 0s ). Matrix_Element_Handler::InitializeProcesses(): Performing tests .. done ( 52 MB, 0s / 0s ). Matrix_Element_Handler::InitializeProcesses(): Initializing scales done ( 52 MB, 0s / 0s ). Initialized the Matrix_Element_Handler for the hard processes. Initialized the Beam_Remnant_Handler. MI_Handler::MI_Handler(id = 2, name = None, type = 0) Underlying event/multiple interactions handler: MI[2]: on = 0 (type = 0, None) Soft-collision handlers: Initialized the Fragmentation_Handler. Initialized the Soft_Photon_Handler. Initialized the Reweighting. Read in channels from directory: Results/Comix/MC_2_2__j__j__e-__e+ Process_Group::CalculateTotalXSec(): Calculate xs for '2_2__j__j__e-__e+' (Comix) 2_2__j__j__e-__e+ : 1929.23 pb +- ( 3.07365 pb = 0.15932 % )  exp. eff: 21.7926 % reduce max for 2_2__j__j__e-__e+ to 1 ( eps = 0.001 -> exp. eff 0.217926 ) ---------------------------------------------------------- -- SHERPA generates events with the following structure -- ---------------------------------------------------------- Event generation : Partially unweighted Perturbative : Signal_Processes Perturbative : Minimum_Bias: None Perturbative : Hard_Decays Perturbative : Jet_Evolution:CFP Perturbative : Lepton_FS_QED_Corrections:None Perturbative : Multiple_Interactions: None Hadronization : Beam_Remnants:None Hadronization : Hadronization:None Hadronization : Hadron_Decays Userhook : Analysis : Rivet --------------------------------------------------------- Event 1 ( 1s elapsed / 2h 30m 48s left ) -> ETA: Wed Nov 29 00:42 XS = 8852.68 pb +- ( 8852.68 pb = 100 % ) Event 2 ( 1s elapsed / 1h 15m 23s left ) -> ETA: Tue Nov 28 23:27 XS = 3541.07 pb +- ( 2168.45 pb = 61 % ) Event 3 ( 1s elapsed / 50m 31s left ) -> ETA: Tue Nov 28 23:02 XS = 4426.34 pb +- ( 1979.52 pb = 44 % ) Event 4 ( 1s elapsed / 37m 53s left ) -> ETA: Tue Nov 28 22:49 XS = 5058.67 pb +- ( 1788.51 pb = 35 % ) Event 5 ( 1s elapsed / 30m 28s left ) -> ETA: Tue Nov 28 22:42 XS = 5532.92 pb +- ( 1619.87 pb = 29 % ) Event 6 ( 1s elapsed / 25m 23s left ) -> ETA: Tue Nov 28 22:37 XS = 5311.61 pb +- ( 1445.64 pb = 27 % ) Event 7 ( 1s elapsed / 21m 52s left ) -> ETA: Tue Nov 28 22:33 XS = 5633.52 pb +- ( 1346.67 pb = 23 % ) Event 8 ( 1s elapsed / 19m 14s left ) -> ETA: Tue Nov 28 22:31 XS = 5058.67 pb +- ( 1215.05 pb = 24 % ) Event 9 ( 1s elapsed / 17m 11s left ) -> ETA: Tue Nov 28 22:29 XS = 5311.61 pb +- ( 1159.09 pb = 21 % ) Event 10 ( 1s elapsed / 15m 33s left ) -> ETA: Tue Nov 28 22:27 XS = 3688.61 pb +- ( 910.046 pb = 24 % ) Event 20 ( 1s elapsed / 8m left ) -> ETA: Tue Nov 28 22:19 XS = 2855.7 pb +- ( 529.856 pb = 18 % ) Event 30 ( 1s elapsed / 5m 26s left ) -> ETA: Tue Nov 28 22:17 XS = 2289.49 pb +- ( 361.474 pb = 15 % ) Event 40 ( 2s elapsed / 4m 12s left ) -> ETA: Tue Nov 28 22:16 XS = 2046.86 pb +- ( 284.59 pb = 13 % ) Event 50 ( 2s elapsed / 3m 28s left ) -> ETA: Tue Nov 28 22:15 XS = 2148.71 pb +- ( 265.08 pb = 12 % ) Event 60 ( 2s elapsed / 3m left ) -> ETA: Tue Nov 28 22:14 XS = 2116.18 pb +- ( 238.794 pb = 11 % ) Event 70 ( 2s elapsed / 2m 38s left ) -> ETA: Tue Nov 28 22:14 XS = 2151.69 pb +- ( 224.139 pb = 10 % ) Event 80 ( 2s elapsed / 2m 20s left ) -> ETA: Tue Nov 28 22:14 XS = 1989.37 pb +- ( 196.115 pb = 9 % ) Event 90 ( 2s elapsed / 2m 7s left ) -> ETA: Tue Nov 28 22:14 XS = 2006.9 pb +- ( 186.263 pb = 9 % ) Event 100 ( 2s elapsed / 1m 56s left ) -> ETA: Tue Nov 28 22:13 XS = 2025.78 pb +- ( 178.1 pb = 8 % ) Event 200 ( 3s elapsed / 1m 13s left ) -> ETA: Tue Nov 28 22:13 XS = 2009.69 pb +- ( 125.01 pb = 6 % ) Event 300 ( 3s elapsed / 57s left ) -> ETA: Tue Nov 28 22:12 XS = 2033.54 pb +- ( 103.083 pb = 5 % ) Event 400 ( 4s elapsed / 48s left ) -> ETA: Tue Nov 28 22:12 XS = 1993.85 pb +- ( 87.7752 pb = 4 % ) Event 500 ( 4s elapsed / 43s left ) -> ETA: Tue Nov 28 22:12 XS = 1938.83 pb +- ( 76.6428 pb = 3 % ) Event 600 ( 5s elapsed / 41s left ) -> ETA: Tue Nov 28 22:12 XS = 1937.83 pb +- ( 69.9317 pb = 3 % ) Event 700 ( 6s elapsed / 38s left ) -> ETA: Tue Nov 28 22:12 XS = 1939.55 pb +- ( 64.7919 pb = 3 % ) Event 800 ( 6s elapsed / 36s left ) -> ETA: Tue Nov 28 22:12 XS = 1957.47 pb +- ( 61.0868 pb = 3 % ) Event 900 ( 7s elapsed / 35s left ) -> ETA: Tue Nov 28 22:12 XS = 1938.54 pb +- ( 57.1135 pb = 2 % ) Event 1000 ( 8s elapsed / 33s left ) -> ETA: Tue Nov 28 22:12 XS = 1925.33 pb +- ( 53.864 pb = 2 % ) Event 2000 ( 14s elapsed / 21s left ) -> ETA: Tue Nov 28 22:12 XS = 1925.96 pb +- ( 38.0963 pb = 1 % ) Event 3000 ( 20s elapsed / 13s left ) -> ETA: Tue Nov 28 22:12 XS = 1931.91 pb +- ( 31.1877 pb = 1 % ) Event 4000 ( 27s elapsed / 6s left ) -> ETA: Tue Nov 28 22:12 XS = 1938.61 pb +- ( 27.0896 pb = 1 % ) Event 5000 ( 33 s total ) = 1.31989e+07 evts/day In Event_Handler::Finish : Summarizing the run may take some time. Rivet_Interface::Finish(Analysis_Allrecoil_Tall_PT2MIN/8033){ } -------------------------------------------------------------------------- Nominal or variation name XS [pb] RelDev AbsErr [pb] RelErr -------------------------------------------------------------------------- Nominal  1935.1 0 % 24.1917 1.25 % -------------------------------------------------------------------------- Return_Value::PrintStatistics(): Statistics { Generated events: 5000 } Blob_List: Momentum Fail Statistics { } Decay_Channel: Kinematics max fail statistics { } WARNING: You are using an unsupported development branch. WARNING: Some settings that have been defined in the input files and/or the command line have not been used. For more details, see the Settings Report. Time: 33s on Tue Nov 28 22:12:24 2023 (User: 32s, System: 0s, Children User: 0s, Children System: 0s) Welcome to Sherpa, Daniel Reichelt on ip3-ws3.phyip3.dur.ac.uk. Initialization of framework underway. The local time is Tue Nov 28 22:13:56 2023. Run_Parameter::Init(): Setting memory limit to 187.131 GB. Random::SetSeed(): Seed set to 8033 ----------------------------------------------------------------------------- ----------- Event generation run with SHERPA started ....... ----------- ----------------------------------------------------------------------------- ................................................ | + ................................................ || | + + ................................... .... | | / + ................. ................ _,_ | .... || +| + + ............................... __.' ,\| ... || / +| + .............................. ( \ \ ... | | | + + \ + ............................. ( \ -/ .... || + | + ........ ................... (~~~~~~~~~## + + + ............................. ~~(! '~~~~~~~ \ + + + + ............................... `~~~QQQQQDb // | + + + + ........................ .......... IDDDDP|| \ + + + + + + .................................... IDDDI|| \ + .................................... IHD HD|| \ + + + + + + + + ................................... IHD ##| :-) + +\ + ......... ............... ......... IHI ## / / + + + + +\ + ................................... IHI/ / / + + + + + ................................... ## | | / / + + + + / + ....................... /TT\ ..... ##/ /// / + + + + + + +/ + ......................./TTT/T\ ... /TT\/\\\ / + + + + + + +/ \ + ....................../TTT/TTTT\...|TT/T\\\/ + ++ + / ----------------------------------------------------------------------------- SHERPA version 3.0.0beta1 (Dhaulagiri) Authors: Enrico Bothmann, Stefan Hoeche, Frank Krauss, Silvan Kuttimalai, Marek Schoenherr, Holger Schulz, Steffen Schumann, Frank Siegert, Korinna Zapp Former Authors: Timo Fischer, Tanju Gleisberg, Hendrik Hoeth, Ralf Kuhn, Thomas Laubrich, Andreas Schaelicke, Jan Winter This program uses a lot of genuine and original research work by other people. Users are encouraged to refer to the various original publications. Users are kindly asked to refer to the documentation published under JHEP 02(2009)007 Please visit also our homepage http://sherpa.hepforge.org for news, bugreports, updates and new releases. ----------------------------------------------------------------------------- WARNING: You are using an unsupported development branch. Git branch unknownurl, revision unknownrevision. Hadron_Init::Init(): Initializing kf table for hadrons. Beam_Spectra_Handler: type = Collider Setup for P+ (on = 0, p = (6500,0,0,6500)) and P+ (on = 0, p = (6500,0,0,-6500)). ISR handling: PDFs for hard scattering: CT14nnlo + CT14nnlo PDFs for multiple parton interactions: PDF4LHC21_40_pdfas + PDF4LHC21_40_pdfas Remnant_Handlers: hard process: P+: Intact + P+: Intact Standard_Model::FixEWParameters() { Input scheme: alpha0 alpha(0) scheme, input: 1/\alphaQED(0), m_W, m_Z, m_h, widths Ren. scheme: alpha0 Parameters: sin^2(\theta_W) = 0.222928 - 0.00110708 i vev = 243.034 - 3.75493 i } Running_AlphaQED::PrintSummary() { Setting \alpha according to EW scheme 1/\alpha(0) = 137.036 1/\alpha(def) = 128.802 } One_Running_AlphaS::PrintSummary() { Setting \alpha_s according to PDF perturbative order 2 \alpha_s(M_Z) = 0.118 } One_Running_AlphaS::PrintSummary() { Setting \alpha_s according to PDF perturbative order 2 \alpha_s(M_Z) = 0.118 } List of Particle Data IDName kfc Mass Width Stable Massive Active Yukawa d 1 0.01 0 1 0 1 0 u 2 0.005 0 1 0 1 0 s 3 0.2 0 1 0 1 0 c 4 1.42 0 1 0 1 0 b 5 4.92 0 1 0 1 0 t 6 173.21 2 0 1 1 173.21 e- 11 0.000511 0 1 0 1 0 ve 12 0 0 1 0 1 0 mu- 13 0.105 0 1 0 1 0 vmu 14 0 0 1 0 1 0 tau- 15 1.777 2.26735e-12 0 1 1 1.777 vtau 16 0 0 1 0 1 0 G 21 0 0 1 0 1 0 P 22 0 0 1 0 1 0 Z 23 91.1876 2.4952 0 1 1 91.1876 W+ 24 80.385 2.085 0 1 1 80.385 h0 25 125 0.00407 0 1 1 125 string 95 0 0 1 0 1 0 cluster 96 0 0 1 0 1 0 Instanton 999 0 0 0 0 1 0 List of Particle Containers IDName kfc Constituents l 90 {e-,e+,mu-,mu+} v 91 {ve,veb,vmu,vmub,vtau,vtaub} f 92 {d,db,u,ub,s,sb,c,cb,b,bb,e-,e+,mu-,mu+,ve,veb,vmu,vmub,vtau,vtaub} j 93 {d,db,u,ub,s,sb,c,cb,b,bb,G} Q 94 {d,db,u,ub,s,sb,c,cb,b,bb} ewj 98 {d,db,u,ub,s,sb,c,cb,b,bb,G,P} Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF ####### Permutations for 2 partons ############## found 2 entries: 1th permutation = { 0 1 } 2th permutation = { 1 0 } FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. IF: Soft, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. II: Soft, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF ####### Permutations for 2 partons ############## found 2 entries: 1th permutation = { 0 1 } 2th permutation = { 1 0 } FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. IF: Soft, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. II: Soft, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. Shower_Handler initialised. +-----------------------------------------+ | X X X XXXX XXX XXX XXX | | X X XX XX X X X X X X | | X X X X X XXX X XXX X X XXX XXX | | XXXXX X X X X X X X X X | | X X X X XXXX XXX XXX XXX | +-----------------------------------------+ | please cite: JHEP 0202:044,2002 | +-----------------------------------------+ Matrix_Element_Handler::Matrix_Element_Handler(): Set pilot run mode to 1. ME_Generator_Base::SetPSMasses(): Massive PS flavours for Comix: (none) +----------------------------------+ | | | CCC OOO M M I X X | | C O O MM MM I X X | | C O O M M M I X | | C O O M M I X X | | CCC OOO M M I X X | | | +==================================+ | Color dressed Matrix Elements | | http://comix.freacafe.de | | please cite JHEP12(2008)039 | +----------------------------------+ ME_Generator_Base::SetPSMasses(): Massive PS flavours for Amegic: (none) ME_Generator_Base::SetPSMasses(): Massive PS flavours for Internal: (none) Matrix_Element_Handler::BuildProcesses(): 3 ME generators, 1 process blocks. Matrix_Element_Handler::BuildProcesses(): Setting up processes .. done ( 52 MB, 0s / 0s ). Matrix_Element_Handler::InitializeProcesses(): Performing tests .. done ( 52 MB, 0s / 0s ). Matrix_Element_Handler::InitializeProcesses(): Initializing scales done ( 52 MB, 0s / 0s ). Initialized the Matrix_Element_Handler for the hard processes. Initialized the Beam_Remnant_Handler. MI_Handler::MI_Handler(id = 2, name = None, type = 0) Underlying event/multiple interactions handler: MI[2]: on = 0 (type = 0, None) Soft-collision handlers: Initialized the Fragmentation_Handler. Initialized the Soft_Photon_Handler. Initialized the Reweighting. Read in channels from directory: Results/Comix/MC_2_2__j__j__e-__e+ Process_Group::CalculateTotalXSec(): Calculate xs for '2_2__j__j__e-__e+' (Comix) 2_2__j__j__e-__e+ : 1929.23 pb +- ( 3.07365 pb = 0.15932 % )  exp. eff: 21.7926 % reduce max for 2_2__j__j__e-__e+ to 1 ( eps = 0.001 -> exp. eff 0.217926 ) ---------------------------------------------------------- -- SHERPA generates events with the following structure -- ---------------------------------------------------------- Event generation : Partially unweighted Perturbative : Signal_Processes Perturbative : Minimum_Bias: None Perturbative : Hard_Decays Perturbative : Jet_Evolution:CFP Perturbative : Lepton_FS_QED_Corrections:None Perturbative : Multiple_Interactions: None Hadronization : Beam_Remnants:None Hadronization : Hadronization:None Hadronization : Hadron_Decays Userhook : Analysis : Rivet --------------------------------------------------------- Event 1 ( 1s elapsed / 4h 59m 58s left ) -> ETA: Wed Nov 29 03:13 XS = 8852.68 pb +- ( 8852.68 pb = 100 % ) Event 2 ( 1s elapsed / 2h 30m 48s left ) -> ETA: Wed Nov 29 00:44 XS = 3541.07 pb +- ( 2168.45 pb = 61 % ) Event 3 ( 1s elapsed / 1h 40m 31s left ) -> ETA: Tue Nov 28 23:54 XS = 4426.34 pb +- ( 1979.52 pb = 44 % ) Event 4 ( 1s elapsed / 1h 15m 48s left ) -> ETA: Tue Nov 28 23:29 XS = 5058.67 pb +- ( 1788.51 pb = 35 % ) Event 5 ( 1s elapsed / 1h 38s left ) -> ETA: Tue Nov 28 23:14 XS = 5532.92 pb +- ( 1619.87 pb = 29 % ) Event 6 ( 1s elapsed / 50m 48s left ) -> ETA: Tue Nov 28 23:04 XS = 5311.61 pb +- ( 1445.64 pb = 27 % ) Event 7 ( 1s elapsed / 43m 46s left ) -> ETA: Tue Nov 28 22:57 XS = 5633.52 pb +- ( 1346.67 pb = 23 % ) Event 8 ( 1s elapsed / 38m 30s left ) -> ETA: Tue Nov 28 22:52 XS = 5058.67 pb +- ( 1215.05 pb = 24 % ) Event 9 ( 1s elapsed / 34m 24s left ) -> ETA: Tue Nov 28 22:48 XS = 5311.61 pb +- ( 1159.09 pb = 21 % ) Event 10 ( 1s elapsed / 31m 8s left ) -> ETA: Tue Nov 28 22:45 XS = 3688.61 pb +- ( 910.046 pb = 24 % ) Event 20 ( 1s elapsed / 15m 58s left ) -> ETA: Tue Nov 28 22:29 XS = 2855.7 pb +- ( 529.856 pb = 18 % ) Event 30 ( 1s elapsed / 11m 1s left ) -> ETA: Tue Nov 28 22:25 XS = 2289.49 pb +- ( 361.474 pb = 15 % ) Event 40 ( 2s elapsed / 8m 35s left ) -> ETA: Tue Nov 28 22:22 XS = 2046.86 pb +- ( 284.59 pb = 13 % ) Event 50 ( 2s elapsed / 7m 7s left ) -> ETA: Tue Nov 28 22:21 XS = 2148.71 pb +- ( 265.08 pb = 12 % ) Event 60 ( 2s elapsed / 6m 7s left ) -> ETA: Tue Nov 28 22:20 XS = 2116.18 pb +- ( 238.794 pb = 11 % ) Event 70 ( 2s elapsed / 5m 23s left ) -> ETA: Tue Nov 28 22:19 XS = 2151.69 pb +- ( 224.139 pb = 10 % ) Event 80 ( 2s elapsed / 4m 51s left ) -> ETA: Tue Nov 28 22:18 XS = 1989.37 pb +- ( 196.115 pb = 9 % ) Event 90 ( 2s elapsed / 4m 25s left ) -> ETA: Tue Nov 28 22:18 XS = 2006.9 pb +- ( 186.263 pb = 9 % ) Event 100 ( 2s elapsed / 4m 4s left ) -> ETA: Tue Nov 28 22:18 XS = 2025.78 pb +- ( 178.1 pb = 8 % ) Event 200 ( 2s elapsed / 2m 24s left ) -> ETA: Tue Nov 28 22:16 XS = 2009.69 pb +- ( 125.01 pb = 6 % ) Event 300 ( 3s elapsed / 1m 54s left ) -> ETA: Tue Nov 28 22:15 XS = 2033.54 pb +- ( 103.083 pb = 5 % ) Event 400 ( 4s elapsed / 1m 38s left ) -> ETA: Tue Nov 28 22:15 XS = 1993.85 pb +- ( 87.7752 pb = 4 % ) Event 500 ( 4s elapsed / 1m 27s left ) -> ETA: Tue Nov 28 22:15 XS = 1938.83 pb +- ( 76.6428 pb = 3 % ) Event 600 ( 5s elapsed / 1m 22s left ) -> ETA: Tue Nov 28 22:15 XS = 1937.83 pb +- ( 69.9317 pb = 3 % ) Event 700 ( 5s elapsed / 1m 17s left ) -> ETA: Tue Nov 28 22:15 XS = 1939.55 pb +- ( 64.7919 pb = 3 % ) Event 800 ( 6s elapsed / 1m 13s left ) -> ETA: Tue Nov 28 22:15 XS = 1957.47 pb +- ( 61.0868 pb = 3 % ) Event 900 ( 6s elapsed / 1m 10s left ) -> ETA: Tue Nov 28 22:15 XS = 1938.54 pb +- ( 57.1135 pb = 2 % ) Event 1000 ( 7s elapsed / 1m 7s left ) -> ETA: Tue Nov 28 22:15 XS = 1925.33 pb +- ( 53.864 pb = 2 % ) Event 2000 ( 13s elapsed / 53s left ) -> ETA: Tue Nov 28 22:15 XS = 1925.96 pb +- ( 38.0963 pb = 1 % ) Event 3000 ( 18s elapsed / 44s left ) -> ETA: Tue Nov 28 22:15 XS = 1931.91 pb +- ( 31.1877 pb = 1 % ) Event 4000 ( 24s elapsed / 36s left ) -> ETA: Tue Nov 28 22:14 XS = 1938.61 pb +- ( 27.0896 pb = 1 % ) Event 5000 ( 29s elapsed / 29s left ) -> ETA: Tue Nov 28 22:14 XS = 1935.1 pb +- ( 24.1917 pb = 1 % ) Event 6000 ( 35s elapsed / 23s left ) -> ETA: Tue Nov 28 22:14 XS = 1936 pb +- ( 22.0927 pb = 1 % ) Event 7000 ( 40s elapsed / 17s left ) -> ETA: Tue Nov 28 22:14 XS = 1940.16 pb +- ( 20.4916 pb = 1 % ) Event 8000 ( 46s elapsed / 11s left ) -> ETA: Tue Nov 28 22:14 XS = 1933.22 pb +- ( 19.1091 pb = 0 % ) Event 9000 ( 52s elapsed / 5s left ) -> ETA: Tue Nov 28 22:14 XS = 1933.46 pb +- ( 18.0182 pb = 0 % ) Event 10000 ( 57 s total ) = 1.49688e+07 evts/day In Event_Handler::Finish : Summarizing the run may take some time. Rivet_Interface::Finish(Analysis_Allrecoil_Tall_PT2MIN/8033){ } -------------------------------------------------------------------------- Nominal or variation name XS [pb] RelDev AbsErr [pb] RelErr -------------------------------------------------------------------------- Nominal  1939.55 0 % 17.1398 0.88 % -------------------------------------------------------------------------- Return_Value::PrintStatistics(): Statistics { Generated events: 10000 } Blob_List: Momentum Fail Statistics { } Decay_Channel: Kinematics max fail statistics { } WARNING: You are using an unsupported development branch. WARNING: Some settings that have been defined in the input files and/or the command line have not been used. For more details, see the Settings Report. Time: 58s on Tue Nov 28 22:14:54 2023 (User: 57s, System: 0s, Children User: 0s, Children System: 0s) Welcome to Sherpa, Daniel Reichelt on ip3-ws3.phyip3.dur.ac.uk. Initialization of framework underway. The local time is Tue Nov 28 22:21:09 2023. Run_Parameter::Init(): Setting memory limit to 187.131 GB. Random::SetSeed(): Seed set to 8033 ----------------------------------------------------------------------------- ----------- Event generation run with SHERPA started ....... ----------- ----------------------------------------------------------------------------- ................................................ | + ................................................ || | + + ................................... .... | | / + ................. ................ _,_ | .... || +| + + ............................... __.' ,\| ... || / +| + .............................. ( \ \ ... | | | + + \ + ............................. ( \ -/ .... || + | + ........ ................... (~~~~~~~~~## + + + ............................. ~~(! '~~~~~~~ \ + + + + ............................... `~~~QQQQQDb // | + + + + ........................ .......... IDDDDP|| \ + + + + + + .................................... IDDDI|| \ + .................................... IHD HD|| \ + + + + + + + + ................................... IHD ##| :-) + +\ + ......... ............... ......... IHI ## / / + + + + +\ + ................................... IHI/ / / + + + + + ................................... ## | | / / + + + + / + ....................... /TT\ ..... ##/ /// / + + + + + + +/ + ......................./TTT/T\ ... /TT\/\\\ / + + + + + + +/ \ + ....................../TTT/TTTT\...|TT/T\\\/ + ++ + / ----------------------------------------------------------------------------- SHERPA version 3.0.0beta1 (Dhaulagiri) Authors: Enrico Bothmann, Stefan Hoeche, Frank Krauss, Silvan Kuttimalai, Marek Schoenherr, Holger Schulz, Steffen Schumann, Frank Siegert, Korinna Zapp Former Authors: Timo Fischer, Tanju Gleisberg, Hendrik Hoeth, Ralf Kuhn, Thomas Laubrich, Andreas Schaelicke, Jan Winter This program uses a lot of genuine and original research work by other people. Users are encouraged to refer to the various original publications. Users are kindly asked to refer to the documentation published under JHEP 02(2009)007 Please visit also our homepage http://sherpa.hepforge.org for news, bugreports, updates and new releases. ----------------------------------------------------------------------------- WARNING: You are using an unsupported development branch. Git branch unknownurl, revision unknownrevision. Hadron_Init::Init(): Initializing kf table for hadrons. Beam_Spectra_Handler: type = Collider Setup for P+ (on = 0, p = (6500,0,0,6500)) and P+ (on = 0, p = (6500,0,0,-6500)). ISR handling: PDFs for hard scattering: CT14nnlo + CT14nnlo PDFs for multiple parton interactions: PDF4LHC21_40_pdfas + PDF4LHC21_40_pdfas Remnant_Handlers: hard process: P+: Intact + P+: Intact Standard_Model::FixEWParameters() { Input scheme: alpha0 alpha(0) scheme, input: 1/\alphaQED(0), m_W, m_Z, m_h, widths Ren. scheme: alpha0 Parameters: sin^2(\theta_W) = 0.222928 - 0.00110708 i vev = 243.034 - 3.75493 i } Running_AlphaQED::PrintSummary() { Setting \alpha according to EW scheme 1/\alpha(0) = 137.036 1/\alpha(def) = 128.802 } One_Running_AlphaS::PrintSummary() { Setting \alpha_s according to PDF perturbative order 2 \alpha_s(M_Z) = 0.118 } One_Running_AlphaS::PrintSummary() { Setting \alpha_s according to PDF perturbative order 2 \alpha_s(M_Z) = 0.118 } List of Particle Data IDName kfc Mass Width Stable Massive Active Yukawa d 1 0.01 0 1 0 1 0 u 2 0.005 0 1 0 1 0 s 3 0.2 0 1 0 1 0 c 4 1.42 0 1 0 1 0 b 5 4.92 0 1 0 1 0 t 6 173.21 2 0 1 1 173.21 e- 11 0.000511 0 1 0 1 0 ve 12 0 0 1 0 1 0 mu- 13 0.105 0 1 0 1 0 vmu 14 0 0 1 0 1 0 tau- 15 1.777 2.26735e-12 0 1 1 1.777 vtau 16 0 0 1 0 1 0 G 21 0 0 1 0 1 0 P 22 0 0 1 0 1 0 Z 23 91.1876 2.4952 0 1 1 91.1876 W+ 24 80.385 2.085 0 1 1 80.385 h0 25 125 0.00407 0 1 1 125 string 95 0 0 1 0 1 0 cluster 96 0 0 1 0 1 0 Instanton 999 0 0 0 0 1 0 List of Particle Containers IDName kfc Constituents l 90 {e-,e+,mu-,mu+} v 91 {ve,veb,vmu,vmub,vtau,vtaub} f 92 {d,db,u,ub,s,sb,c,cb,b,bb,e-,e+,mu-,mu+,ve,veb,vmu,vmub,vtau,vtaub} j 93 {d,db,u,ub,s,sb,c,cb,b,bb,G} Q 94 {d,db,u,ub,s,sb,c,cb,b,bb} ewj 98 {d,db,u,ub,s,sb,c,cb,b,bb,G,P} Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF ####### Permutations for 2 partons ############## found 2 entries: 1th permutation = { 0 1 } 2th permutation = { 1 0 } FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. IF: Soft, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. II: Soft, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF ####### Permutations for 2 partons ############## found 2 entries: 1th permutation = { 0 1 } 2th permutation = { 1 0 } FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. IF: Soft, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. II: Soft, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. Shower_Handler initialised. +-----------------------------------------+ | X X X XXXX XXX XXX XXX | | X X XX XX X X X X X X | | X X X X X XXX X XXX X X XXX XXX | | XXXXX X X X X X X X X X | | X X X X XXXX XXX XXX XXX | +-----------------------------------------+ | please cite: JHEP 0202:044,2002 | +-----------------------------------------+ Matrix_Element_Handler::Matrix_Element_Handler(): Set pilot run mode to 1. ME_Generator_Base::SetPSMasses(): Massive PS flavours for Comix: (none) +----------------------------------+ | | | CCC OOO M M I X X | | C O O MM MM I X X | | C O O M M M I X | | C O O M M I X X | | CCC OOO M M I X X | | | +==================================+ | Color dressed Matrix Elements | | http://comix.freacafe.de | | please cite JHEP12(2008)039 | +----------------------------------+ ME_Generator_Base::SetPSMasses(): Massive PS flavours for Amegic: (none) ME_Generator_Base::SetPSMasses(): Massive PS flavours for Internal: (none) Matrix_Element_Handler::BuildProcesses(): 3 ME generators, 1 process blocks. Matrix_Element_Handler::BuildProcesses(): Setting up processes .. done ( 52 MB, 0s / 0s ). Matrix_Element_Handler::InitializeProcesses(): Performing tests .. done ( 52 MB, 0s / 0s ). Matrix_Element_Handler::InitializeProcesses(): Initializing scales done ( 52 MB, 0s / 0s ). Initialized the Matrix_Element_Handler for the hard processes. Initialized the Beam_Remnant_Handler. MI_Handler::MI_Handler(id = 2, name = None, type = 0) Underlying event/multiple interactions handler: MI[2]: on = 0 (type = 0, None) Soft-collision handlers: Initialized the Fragmentation_Handler. Initialized the Soft_Photon_Handler. Initialized the Reweighting. Read in channels from directory: Results/Comix/MC_2_2__j__j__e-__e+ Process_Group::CalculateTotalXSec(): Calculate xs for '2_2__j__j__e-__e+' (Comix) 2_2__j__j__e-__e+ : 1929.23 pb +- ( 3.07365 pb = 0.15932 % )  exp. eff: 21.7926 % reduce max for 2_2__j__j__e-__e+ to 1 ( eps = 0.001 -> exp. eff 0.217926 ) ---------------------------------------------------------- -- SHERPA generates events with the following structure -- ---------------------------------------------------------- Event generation : Partially unweighted Perturbative : Signal_Processes Perturbative : Minimum_Bias: None Perturbative : Hard_Decays Perturbative : Jet_Evolution:CFP Perturbative : Lepton_FS_QED_Corrections:None Perturbative : Multiple_Interactions: None Hadronization : Beam_Remnants:None Hadronization : Hadronization:None Hadronization : Hadron_Decays Userhook : Analysis : Rivet --------------------------------------------------------- Event 1 ( 1s elapsed / 4h 39m 58s left ) -> ETA: Wed Nov 29 03:01 XS = 8852.68 pb +- ( 8852.68 pb = 100 % ) Event 2 ( 1s elapsed / 2h 20m 48s left ) -> ETA: Wed Nov 29 00:41 XS = 2213.17 pb +- ( 1448.86 pb = 65 % ) Event 3 ( 1s elapsed / 1h 33m 51s left ) -> ETA: Tue Nov 28 23:55 XS = 2950.89 pb +- ( 1475.45 pb = 50 % ) Event 4 ( 1s elapsed / 1h 10m 23s left ) -> ETA: Tue Nov 28 23:31 XS = 3219.15 pb +- ( 1346.67 pb = 41 % ) Event 5 ( 1s elapsed / 56m 38s left ) -> ETA: Tue Nov 28 23:17 XS = 3688.61 pb +- ( 1315.92 pb = 35 % ) Event 6 ( 1s elapsed / 47m 11s left ) -> ETA: Tue Nov 28 23:08 XS = 4085.85 pb +- ( 1273.99 pb = 31 % ) Event 7 ( 1s elapsed / 40m 26s left ) -> ETA: Tue Nov 28 23:01 XS = 4426.34 pb +- ( 1227.65 pb = 27 % ) Event 8 ( 1s elapsed / 35m 23s left ) -> ETA: Tue Nov 28 22:56 XS = 3934.52 pb +- ( 1066.9 pb = 27 % ) Event 9 ( 1s elapsed / 31m 38s left ) -> ETA: Tue Nov 28 22:52 XS = 3621.55 pb +- ( 949.807 pb = 26 % ) Event 10 ( 1s elapsed / 28m 28s left ) -> ETA: Tue Nov 28 22:49 XS = 3404.88 pb +- ( 861.373 pb = 25 % ) Event 20 ( 1s elapsed / 14m 23s left ) -> ETA: Tue Nov 28 22:35 XS = 2329.65 pb +- ( 450.131 pb = 19 % ) Event 30 ( 1s elapsed / 9m 44s left ) -> ETA: Tue Nov 28 22:30 XS = 1883.55 pb +- ( 306.206 pb = 16 % ) Event 40 ( 1s elapsed / 7m 25s left ) -> ETA: Tue Nov 28 22:28 XS = 1956.39 pb +- ( 273.778 pb = 13 % ) Event 50 ( 1s elapsed / 6m left ) -> ETA: Tue Nov 28 22:27 XS = 1875.57 pb +- ( 235.977 pb = 12 % ) Event 60 ( 1s elapsed / 5m 3s left ) -> ETA: Tue Nov 28 22:26 XS = 1945.64 pb +- ( 222.276 pb = 11 % ) Event 70 ( 1s elapsed / 4m 22s left ) -> ETA: Tue Nov 28 22:25 XS = 1973.53 pb +- ( 208.265 pb = 10 % ) Event 80 ( 1s elapsed / 3m 53s left ) -> ETA: Tue Nov 28 22:25 XS = 2017.7 pb +- ( 198.501 pb = 9 % ) Event 90 ( 1s elapsed / 3m 30s left ) -> ETA: Tue Nov 28 22:24 XS = 1986.88 pb +- ( 184.672 pb = 9 % ) Event 100 ( 1s elapsed / 3m 12s left ) -> ETA: Tue Nov 28 22:24 XS = 1962.9 pb +- ( 173.359 pb = 8 % ) Event 200 ( 2s elapsed / 1m 47s left ) -> ETA: Tue Nov 28 22:22 XS = 1889.58 pb +- ( 118.562 pb = 6 % ) Event 300 ( 2s elapsed / 1m 18s left ) -> ETA: Tue Nov 28 22:22 XS = 1949.93 pb +- ( 99.4469 pb = 5 % ) Event 400 ( 2s elapsed / 1m 3s left ) -> ETA: Tue Nov 28 22:22 XS = 1974.94 pb +- ( 87.0624 pb = 4 % ) Event 500 ( 2s elapsed / 54s left ) -> ETA: Tue Nov 28 22:22 XS = 1980.46 pb +- ( 78.0531 pb = 3 % ) Event 600 ( 3s elapsed / 49s left ) -> ETA: Tue Nov 28 22:22 XS = 1939.25 pb +- ( 69.9756 pb = 3 % ) Event 700 ( 3s elapsed / 45s left ) -> ETA: Tue Nov 28 22:21 XS = 1935.31 pb +- ( 64.67 pb = 3 % ) Event 800 ( 3s elapsed / 42s left ) -> ETA: Tue Nov 28 22:21 XS = 1956.93 pb +- ( 61.0723 pb = 3 % ) Event 900 ( 3s elapsed / 40s left ) -> ETA: Tue Nov 28 22:21 XS = 1920.78 pb +- ( 56.6628 pb = 2 % ) Event 1000 ( 4s elapsed / 38s left ) -> ETA: Tue Nov 28 22:21 XS = 1917.41 pb +- ( 53.673 pb = 2 % ) Event 2000 ( 7s elapsed / 28s left ) -> ETA: Tue Nov 28 22:21 XS = 1932.69 pb +- ( 38.2108 pb = 1 % ) Event 3000 ( 9s elapsed / 22s left ) -> ETA: Tue Nov 28 22:21 XS = 1941.38 pb +- ( 31.319 pb = 1 % ) Event 4000 ( 12s elapsed / 18s left ) -> ETA: Tue Nov 28 22:21 XS = 1951.97 pb +- ( 27.2499 pb = 1 % ) Event 5000 ( 15s elapsed / 15s left ) -> ETA: Tue Nov 28 22:21 XS = 1957.52 pb +- ( 24.4323 pb = 1 % ) Event 6000 ( 18s elapsed / 12s left ) -> ETA: Tue Nov 28 22:21 XS = 1918.52 pb +- ( 21.9209 pb = 1 % ) Event 7000 ( 20s elapsed / 8s left ) -> ETA: Tue Nov 28 22:21 XS = 1915.28 pb +- ( 20.2652 pb = 1 % ) Event 8000 ( 23s elapsed / 5s left ) -> ETA: Tue Nov 28 22:21 XS = 1907.7 pb +- ( 18.8916 pb = 0 % ) Event 9000 ( 24s elapsed / 2s left ) -> ETA: Tue Nov 28 22:21 XS = 1913.95 pb +- ( 17.8615 pb = 0 % ) Event 10000 ( 26 s total ) = 3.36187e+07 evts/day In Event_Handler::Finish : Summarizing the run may take some time. Rivet_Interface::Finish(Analysis_Allrecoil_1em/8033){ } -------------------------------------------------------------------------- Nominal or variation name XS [pb] RelDev AbsErr [pb] RelErr -------------------------------------------------------------------------- Nominal  1916.12 0 % 16.9614 0.88 % -------------------------------------------------------------------------- Return_Value::PrintStatistics(): Statistics { Generated events: 10000 } Blob_List: Momentum Fail Statistics { } Decay_Channel: Kinematics max fail statistics { } WARNING: You are using an unsupported development branch. WARNING: Some settings that have been defined in the input files and/or the command line have not been used. For more details, see the Settings Report. Time: 26s on Tue Nov 28 22:21:36 2023 (User: 26s, System: 0s, Children User: 0s, Children System: 0s) Welcome to Sherpa, Daniel Reichelt on ip3-ws3.phyip3.dur.ac.uk. Initialization of framework underway. The local time is Tue Nov 28 22:22:27 2023. Run_Parameter::Init(): Setting memory limit to 187.131 GB. Random::SetSeed(): Seed set to 8033 ----------------------------------------------------------------------------- ----------- Event generation run with SHERPA started ....... ----------- ----------------------------------------------------------------------------- ................................................ | + ................................................ || | + + ................................... .... | | / + ................. ................ _,_ | .... || +| + + ............................... __.' ,\| ... || / +| + .............................. ( \ \ ... | | | + + \ + ............................. ( \ -/ .... || + | + ........ ................... (~~~~~~~~~## + + + ............................. ~~(! '~~~~~~~ \ + + + + ............................... `~~~QQQQQDb // | + + + + ........................ .......... IDDDDP|| \ + + + + + + .................................... IDDDI|| \ + .................................... IHD HD|| \ + + + + + + + + ................................... IHD ##| :-) + +\ + ......... ............... ......... IHI ## / / + + + + +\ + ................................... IHI/ / / + + + + + ................................... ## | | / / + + + + / + ....................... /TT\ ..... ##/ /// / + + + + + + +/ + ......................./TTT/T\ ... /TT\/\\\ / + + + + + + +/ \ + ....................../TTT/TTTT\...|TT/T\\\/ + ++ + / ----------------------------------------------------------------------------- SHERPA version 3.0.0beta1 (Dhaulagiri) Authors: Enrico Bothmann, Stefan Hoeche, Frank Krauss, Silvan Kuttimalai, Marek Schoenherr, Holger Schulz, Steffen Schumann, Frank Siegert, Korinna Zapp Former Authors: Timo Fischer, Tanju Gleisberg, Hendrik Hoeth, Ralf Kuhn, Thomas Laubrich, Andreas Schaelicke, Jan Winter This program uses a lot of genuine and original research work by other people. Users are encouraged to refer to the various original publications. Users are kindly asked to refer to the documentation published under JHEP 02(2009)007 Please visit also our homepage http://sherpa.hepforge.org for news, bugreports, updates and new releases. ----------------------------------------------------------------------------- WARNING: You are using an unsupported development branch. Git branch unknownurl, revision unknownrevision. Hadron_Init::Init(): Initializing kf table for hadrons. Beam_Spectra_Handler: type = Collider Setup for P+ (on = 0, p = (6500,0,0,6500)) and P+ (on = 0, p = (6500,0,0,-6500)). ISR handling: PDFs for hard scattering: CT14nnlo + CT14nnlo PDFs for multiple parton interactions: PDF4LHC21_40_pdfas + PDF4LHC21_40_pdfas Remnant_Handlers: hard process: P+: Intact + P+: Intact Standard_Model::FixEWParameters() { Input scheme: alpha0 alpha(0) scheme, input: 1/\alphaQED(0), m_W, m_Z, m_h, widths Ren. scheme: alpha0 Parameters: sin^2(\theta_W) = 0.222928 - 0.00110708 i vev = 243.034 - 3.75493 i } Running_AlphaQED::PrintSummary() { Setting \alpha according to EW scheme 1/\alpha(0) = 137.036 1/\alpha(def) = 128.802 } One_Running_AlphaS::PrintSummary() { Setting \alpha_s according to PDF perturbative order 2 \alpha_s(M_Z) = 0.118 } One_Running_AlphaS::PrintSummary() { Setting \alpha_s according to PDF perturbative order 2 \alpha_s(M_Z) = 0.118 } List of Particle Data IDName kfc Mass Width Stable Massive Active Yukawa d 1 0.01 0 1 0 1 0 u 2 0.005 0 1 0 1 0 s 3 0.2 0 1 0 1 0 c 4 1.42 0 1 0 1 0 b 5 4.92 0 1 0 1 0 t 6 173.21 2 0 1 1 173.21 e- 11 0.000511 0 1 0 1 0 ve 12 0 0 1 0 1 0 mu- 13 0.105 0 1 0 1 0 vmu 14 0 0 1 0 1 0 tau- 15 1.777 2.26735e-12 0 1 1 1.777 vtau 16 0 0 1 0 1 0 G 21 0 0 1 0 1 0 P 22 0 0 1 0 1 0 Z 23 91.1876 2.4952 0 1 1 91.1876 W+ 24 80.385 2.085 0 1 1 80.385 h0 25 125 0.00407 0 1 1 125 string 95 0 0 1 0 1 0 cluster 96 0 0 1 0 1 0 Instanton 999 0 0 0 0 1 0 List of Particle Containers IDName kfc Constituents l 90 {e-,e+,mu-,mu+} v 91 {ve,veb,vmu,vmub,vtau,vtaub} f 92 {d,db,u,ub,s,sb,c,cb,b,bb,e-,e+,mu-,mu+,ve,veb,vmu,vmub,vtau,vtaub} j 93 {d,db,u,ub,s,sb,c,cb,b,bb,G} Q 94 {d,db,u,ub,s,sb,c,cb,b,bb} ewj 98 {d,db,u,ub,s,sb,c,cb,b,bb,G,P} Shower_Handler initialised. +-----------------------------------------+ | X X X XXXX XXX XXX XXX | | X X XX XX X X X X X X | | X X X X X XXX X XXX X X XXX XXX | | XXXXX X X X X X X X X X | | X X X X XXXX XXX XXX XXX | +-----------------------------------------+ | please cite: JHEP 0202:044,2002 | +-----------------------------------------+ Matrix_Element_Handler::Matrix_Element_Handler(): Set pilot run mode to 1. ME_Generator_Base::SetPSMasses(): Massive PS flavours for Comix: (none) +----------------------------------+ | | | CCC OOO M M I X X | | C O O MM MM I X X | | C O O M M M I X | | C O O M M I X X | | CCC OOO M M I X X | | | +==================================+ | Color dressed Matrix Elements | | http://comix.freacafe.de | | please cite JHEP12(2008)039 | +----------------------------------+ ME_Generator_Base::SetPSMasses(): Massive PS flavours for Amegic: (none) ME_Generator_Base::SetPSMasses(): Massive PS flavours for Internal: (none) Matrix_Element_Handler::BuildProcesses(): 3 ME generators, 1 process blocks. Matrix_Element_Handler::BuildProcesses(): Setting up processes .. done ( 52 MB, 0s / 0s ). Matrix_Element_Handler::InitializeProcesses(): Performing tests .. done ( 52 MB, 0s / 0s ). Matrix_Element_Handler::InitializeProcesses(): Initializing scales done ( 52 MB, 0s / 0s ). Initialized the Matrix_Element_Handler for the hard processes. Initialized the Beam_Remnant_Handler. MI_Handler::MI_Handler(id = 2, name = None, type = 0) Underlying event/multiple interactions handler: MI[2]: on = 0 (type = 0, None) Soft-collision handlers: Initialized the Fragmentation_Handler. Initialized the Soft_Photon_Handler. Initialized the Reweighting. Read in channels from directory: Results/Comix/MC_2_2__j__j__l__l Process_Group::CalculateTotalXSec(): Calculate xs for '2_2__j__j__l__l' (Comix) 2_2__j__j__l__l : 3847.35 pb +- ( 6.79368 pb = 0.176581 % )  exp. eff: 11.8814 % reduce max for 2_2__j__j__l__l to 1 ( eps = 0.001 -> exp. eff 0.118814 ) ---------------------------------------------------------- -- SHERPA generates events with the following structure -- ---------------------------------------------------------- Event generation : Partially unweighted Perturbative : Signal_Processes Perturbative : Minimum_Bias: None Perturbative : Hard_Decays Perturbative : Jet_Evolution:CSS Perturbative : Lepton_FS_QED_Corrections:None Perturbative : Multiple_Interactions: None Hadronization : Beam_Remnants:None Hadronization : Hadronization:None Hadronization : Hadron_Decays Userhook : Analysis : Rivet --------------------------------------------------------- Event 1 ( 1s elapsed / 4h 29m 58s left ) -> ETA: Wed Nov 29 02:52 XS = 32381.4 pb +- ( 32381.4 pb = 100 % ) Event 2 ( 1s elapsed / 2h 15m 48s left ) -> ETA: Wed Nov 29 00:38 XS = 6476.29 pb +- ( 4317.53 pb = 66 % ) Event 3 ( 1s elapsed / 1h 30m 31s left ) -> ETA: Tue Nov 28 23:53 XS = 7472.64 pb +- ( 3938.43 pb = 52 % ) Event 4 ( 1s elapsed / 1h 7m 53s left ) -> ETA: Tue Nov 28 23:30 XS = 9251.84 pb +- ( 4057.2 pb = 43 % ) Event 5 ( 1s elapsed / 54m 18s left ) -> ETA: Tue Nov 28 23:16 XS = 8994.84 pb +- ( 3517.68 pb = 39 % ) Event 6 ( 1s elapsed / 45m 31s left ) -> ETA: Tue Nov 28 23:08 XS = 5714.37 pb +- ( 2148.89 pb = 37 % ) Event 7 ( 1s elapsed / 39m 1s left ) -> ETA: Tue Nov 28 23:01 XS = 5666.75 pb +- ( 1970.2 pb = 34 % ) Event 8 ( 1s elapsed / 34m 8s left ) -> ETA: Tue Nov 28 22:56 XS = 5286.77 pb +- ( 1727.49 pb = 32 % ) Event 9 ( 1s elapsed / 30m 20s left ) -> ETA: Tue Nov 28 22:52 XS = 5112.86 pb +- ( 1577.86 pb = 30 % ) Event 10 ( 1s elapsed / 27m 18s left ) -> ETA: Tue Nov 28 22:49 XS = 5488.38 pb +- ( 1595.25 pb = 29 % ) Event 20 ( 1s elapsed / 13m 48s left ) -> ETA: Tue Nov 28 22:36 XS = 5059.6 pb +- ( 1043.3 pb = 20 % ) Event 30 ( 1s elapsed / 9m 21s left ) -> ETA: Tue Nov 28 22:31 XS = 4395.67 pb +- ( 747.773 pb = 17 % ) Event 40 ( 1s elapsed / 7m 5s left ) -> ETA: Tue Nov 28 22:29 XS = 4191.77 pb +- ( 619.396 pb = 14 % ) Event 50 ( 1s elapsed / 5m 48s left ) -> ETA: Tue Nov 28 22:28 XS = 3809.58 pb +- ( 506.67 pb = 13 % ) Event 60 ( 1s elapsed / 4m 54s left ) -> ETA: Tue Nov 28 22:27 XS = 3584.66 pb +- ( 436.815 pb = 12 % ) Event 70 ( 1s elapsed / 4m 15s left ) -> ETA: Tue Nov 28 22:26 XS = 3796.82 pb +- ( 426.73 pb = 11 % ) Event 80 ( 1s elapsed / 3m 48s left ) -> ETA: Tue Nov 28 22:26 XS = 3837.8 pb +- ( 403.149 pb = 10 % ) Event 90 ( 1s elapsed / 3m 24s left ) -> ETA: Tue Nov 28 22:25 XS = 3927.67 pb +- ( 388.354 pb = 9 % ) Event 100 ( 1s elapsed / 3m 7s left ) -> ETA: Tue Nov 28 22:25 XS = 3948.96 pb +- ( 370.26 pb = 9 % ) Event 200 ( 2s elapsed / 1m 46s left ) -> ETA: Tue Nov 28 22:24 XS = 3920.27 pb +- ( 259.963 pb = 6 % ) Event 300 ( 2s elapsed / 1m 18s left ) -> ETA: Tue Nov 28 22:23 XS = 3920.27 pb +- ( 212.237 pb = 5 % ) Event 400 ( 2s elapsed / 1m 5s left ) -> ETA: Tue Nov 28 22:23 XS = 3926.21 pb +- ( 184.053 pb = 4 % ) Event 500 ( 2s elapsed / 56s left ) -> ETA: Tue Nov 28 22:23 XS = 3860.45 pb +- ( 162.046 pb = 4 % ) Event 600 ( 3s elapsed / 51s left ) -> ETA: Tue Nov 28 22:23 XS = 3749.3 pb +- ( 143.945 pb = 3 % ) Event 700 ( 3s elapsed / 47s left ) -> ETA: Tue Nov 28 22:23 XS = 3748.47 pb +- ( 133.237 pb = 3 % ) Event 800 ( 3s elapsed / 43s left ) -> ETA: Tue Nov 28 22:23 XS = 3740.82 pb +- ( 124.393 pb = 3 % ) Event 900 ( 4s elapsed / 41s left ) -> ETA: Tue Nov 28 22:23 XS = 3738.24 pb +- ( 117.202 pb = 3 % ) Event 1000 ( 4s elapsed / 39s left ) -> ETA: Tue Nov 28 22:23 XS = 3792.63 pb +- ( 112.698 pb = 2 % ) Event 2000 ( 7s elapsed / 29s left ) -> ETA: Tue Nov 28 22:23 XS = 3752.19 pb +- ( 78.8932 pb = 2 % ) Event 3000 ( 10s elapsed / 23s left ) -> ETA: Tue Nov 28 22:23 XS = 3804.81 pb +- ( 65.2586 pb = 1 % ) Event 4000 ( 13s elapsed / 19s left ) -> ETA: Tue Nov 28 22:22 XS = 3764.52 pb +- ( 55.9563 pb = 1 % ) Event 5000 ( 16s elapsed / 16s left ) -> ETA: Tue Nov 28 22:22 XS = 3740.41 pb +- ( 49.7491 pb = 1 % ) Event 6000 ( 19s elapsed / 12s left ) -> ETA: Tue Nov 28 22:22 XS = 3767.55 pb +- ( 45.7223 pb = 1 % ) Event 7000 ( 21s elapsed / 9s left ) -> ETA: Tue Nov 28 22:22 XS = 3803.13 pb +- ( 42.7037 pb = 1 % ) Event 8000 ( 24s elapsed / 6s left ) -> ETA: Tue Nov 28 22:22 XS = 3820.65 pb +- ( 40.1174 pb = 1 % ) Event 9000 ( 27s elapsed / 3s left ) -> ETA: Tue Nov 28 22:22 XS = 3818.32 pb +- ( 37.8014 pb = 0 % ) Event 10000 ( 30 s total ) = 2.91301e+07 evts/day In Event_Handler::Finish : Summarizing the run may take some time. Rivet_Interface::Finish(Analysis_CSS_1em/8033){ } -------------------------------------------------------------------------- Nominal or variation name XS [pb] RelDev AbsErr [pb] RelErr -------------------------------------------------------------------------- Nominal  3826.91 0 % 35.9369 0.93 % -------------------------------------------------------------------------- Return_Value::PrintStatistics(): Statistics { Generated events: 10000 } Blob_List: Momentum Fail Statistics { } Decay_Channel: Kinematics max fail statistics { } WARNING: You are using an unsupported development branch. WARNING: Some settings that have been defined in the input files and/or the command line have not been used. For more details, see the Settings Report. Time: 30s on Tue Nov 28 22:22:57 2023 (User: 30s, System: 0s, Children User: 0s, Children System: 0s) Welcome to Sherpa, Daniel Reichelt on ip3-ws3.phyip3.dur.ac.uk. Initialization of framework underway. The local time is Tue Nov 28 22:25:19 2023. Run_Parameter::Init(): Setting memory limit to 187.131 GB. Random::SetSeed(): Seed set to 8033 ----------------------------------------------------------------------------- ----------- Event generation run with SHERPA started ....... ----------- ----------------------------------------------------------------------------- ................................................ | + ................................................ || | + + ................................... .... | | / + ................. ................ _,_ | .... || +| + + ............................... __.' ,\| ... || / +| + .............................. ( \ \ ... | | | + + \ + ............................. ( \ -/ .... || + | + ........ ................... (~~~~~~~~~## + + + ............................. ~~(! '~~~~~~~ \ + + + + ............................... `~~~QQQQQDb // | + + + + ........................ .......... IDDDDP|| \ + + + + + + .................................... IDDDI|| \ + .................................... IHD HD|| \ + + + + + + + + ................................... IHD ##| :-) + +\ + ......... ............... ......... IHI ## / / + + + + +\ + ................................... IHI/ / / + + + + + ................................... ## | | / / + + + + / + ....................... /TT\ ..... ##/ /// / + + + + + + +/ + ......................./TTT/T\ ... /TT\/\\\ / + + + + + + +/ \ + ....................../TTT/TTTT\...|TT/T\\\/ + ++ + / ----------------------------------------------------------------------------- SHERPA version 3.0.0beta1 (Dhaulagiri) Authors: Enrico Bothmann, Stefan Hoeche, Frank Krauss, Silvan Kuttimalai, Marek Schoenherr, Holger Schulz, Steffen Schumann, Frank Siegert, Korinna Zapp Former Authors: Timo Fischer, Tanju Gleisberg, Hendrik Hoeth, Ralf Kuhn, Thomas Laubrich, Andreas Schaelicke, Jan Winter This program uses a lot of genuine and original research work by other people. Users are encouraged to refer to the various original publications. Users are kindly asked to refer to the documentation published under JHEP 02(2009)007 Please visit also our homepage http://sherpa.hepforge.org for news, bugreports, updates and new releases. ----------------------------------------------------------------------------- WARNING: You are using an unsupported development branch. Git branch unknownurl, revision unknownrevision. Hadron_Init::Init(): Initializing kf table for hadrons. Beam_Spectra_Handler: type = Collider Setup for P+ (on = 0, p = (6500,0,0,6500)) and P+ (on = 0, p = (6500,0,0,-6500)). ISR handling: PDFs for hard scattering: CT14nnlo + CT14nnlo PDFs for multiple parton interactions: PDF4LHC21_40_pdfas + PDF4LHC21_40_pdfas Remnant_Handlers: hard process: P+: Intact + P+: Intact Standard_Model::FixEWParameters() { Input scheme: alpha0 alpha(0) scheme, input: 1/\alphaQED(0), m_W, m_Z, m_h, widths Ren. scheme: alpha0 Parameters: sin^2(\theta_W) = 0.222928 - 0.00110708 i vev = 243.034 - 3.75493 i } Running_AlphaQED::PrintSummary() { Setting \alpha according to EW scheme 1/\alpha(0) = 137.036 1/\alpha(def) = 128.802 } One_Running_AlphaS::PrintSummary() { Setting \alpha_s according to PDF perturbative order 2 \alpha_s(M_Z) = 0.118 } One_Running_AlphaS::PrintSummary() { Setting \alpha_s according to PDF perturbative order 2 \alpha_s(M_Z) = 0.118 } List of Particle Data IDName kfc Mass Width Stable Massive Active Yukawa d 1 0.01 0 1 0 1 0 u 2 0.005 0 1 0 1 0 s 3 0.2 0 1 0 1 0 c 4 1.42 0 1 0 1 0 b 5 4.92 0 1 0 1 0 t 6 173.21 2 0 1 1 173.21 e- 11 0.000511 0 1 0 1 0 ve 12 0 0 1 0 1 0 mu- 13 0.105 0 1 0 1 0 vmu 14 0 0 1 0 1 0 tau- 15 1.777 2.26735e-12 0 1 1 1.777 vtau 16 0 0 1 0 1 0 G 21 0 0 1 0 1 0 P 22 0 0 1 0 1 0 Z 23 91.1876 2.4952 0 1 1 91.1876 W+ 24 80.385 2.085 0 1 1 80.385 h0 25 125 0.00407 0 1 1 125 string 95 0 0 1 0 1 0 cluster 96 0 0 1 0 1 0 Instanton 999 0 0 0 0 1 0 List of Particle Containers IDName kfc Constituents l 90 {e-,e+,mu-,mu+} v 91 {ve,veb,vmu,vmub,vtau,vtaub} f 92 {d,db,u,ub,s,sb,c,cb,b,bb,e-,e+,mu-,mu+,ve,veb,vmu,vmub,vtau,vtaub} j 93 {d,db,u,ub,s,sb,c,cb,b,bb,G} Q 94 {d,db,u,ub,s,sb,c,cb,b,bb} ewj 98 {d,db,u,ub,s,sb,c,cb,b,bb,G,P} Shower_Handler initialised. +-----------------------------------------+ | X X X XXXX XXX XXX XXX | | X X XX XX X X X X X X | | X X X X X XXX X XXX X X XXX XXX | | XXXXX X X X X X X X X X | | X X X X XXXX XXX XXX XXX | +-----------------------------------------+ | please cite: JHEP 0202:044,2002 | +-----------------------------------------+ Matrix_Element_Handler::Matrix_Element_Handler(): Set pilot run mode to 1. ME_Generator_Base::SetPSMasses(): Massive PS flavours for Comix: (none) +----------------------------------+ | | | CCC OOO M M I X X | | C O O MM MM I X X | | C O O M M M I X | | C O O M M I X X | | CCC OOO M M I X X | | | +==================================+ | Color dressed Matrix Elements | | http://comix.freacafe.de | | please cite JHEP12(2008)039 | +----------------------------------+ ME_Generator_Base::SetPSMasses(): Massive PS flavours for Amegic: (none) ME_Generator_Base::SetPSMasses(): Massive PS flavours for Internal: (none) Matrix_Element_Handler::BuildProcesses(): 3 ME generators, 1 process blocks. Matrix_Element_Handler::BuildProcesses(): Setting up processes .. done ( 52 MB, 0s / 0s ). Matrix_Element_Handler::InitializeProcesses(): Performing tests .. done ( 52 MB, 0s / 0s ). Matrix_Element_Handler::InitializeProcesses(): Initializing scales done ( 52 MB, 0s / 0s ). Initialized the Matrix_Element_Handler for the hard processes. Initialized the Beam_Remnant_Handler. MI_Handler::MI_Handler(id = 2, name = None, type = 0) Underlying event/multiple interactions handler: MI[2]: on = 0 (type = 0, None) Soft-collision handlers: Initialized the Fragmentation_Handler. Initialized the Soft_Photon_Handler. Initialized the Reweighting. Read in channels from directory: Results/Comix/MC_2_2__j__j__e-__e+ Process_Group::CalculateTotalXSec(): Calculate xs for '2_2__j__j__e-__e+' (Comix) 2_2__j__j__e-__e+ : 1929.23 pb +- ( 3.07365 pb = 0.15932 % )  exp. eff: 21.7926 % reduce max for 2_2__j__j__e-__e+ to 1 ( eps = 0.001 -> exp. eff 0.217926 ) ---------------------------------------------------------- -- SHERPA generates events with the following structure -- ---------------------------------------------------------- Event generation : Partially unweighted Perturbative : Signal_Processes Perturbative : Minimum_Bias: None Perturbative : Hard_Decays Perturbative : Jet_Evolution:CSS Perturbative : Lepton_FS_QED_Corrections:None Perturbative : Multiple_Interactions: None Hadronization : Beam_Remnants:None Hadronization : Hadronization:None Hadronization : Hadron_Decays Userhook : Analysis : Rivet --------------------------------------------------------- Event 1 ( 1s elapsed / 4h 43m 18s left ) -> ETA: Wed Nov 29 03:08 XS = 8852.68 pb +- ( 8852.68 pb = 100 % ) Event 2 ( 1s elapsed / 2h 21m 38s left ) -> ETA: Wed Nov 29 00:46 XS = 8852.68 pb +- ( 0 pb = 0 % ) Event 3 ( 1s elapsed / 1h 34m 24s left ) -> ETA: Tue Nov 28 23:59 XS = 3319.75 pb +- ( 1619.87 pb = 48 % ) Event 4 ( 1s elapsed / 1h 11m 13s left ) -> ETA: Tue Nov 28 23:36 XS = 2950.89 pb +- ( 1258.26 pb = 42 % ) Event 5 ( 1s elapsed / 56m 58s left ) -> ETA: Tue Nov 28 23:22 XS = 3404.88 pb +- ( 1243.28 pb = 36 % ) Event 6 ( 1s elapsed / 47m 28s left ) -> ETA: Tue Nov 28 23:12 XS = 3124.47 pb +- ( 1057.64 pb = 33 % ) Event 7 ( 1s elapsed / 40m 41s left ) -> ETA: Tue Nov 28 23:06 XS = 3261.51 pb +- ( 1006.52 pb = 30 % ) Event 8 ( 1s elapsed / 35m 48s left ) -> ETA: Tue Nov 28 23:01 XS = 2529.34 pb +- ( 769.652 pb = 30 % ) Event 9 ( 1s elapsed / 31m 49s left ) -> ETA: Tue Nov 28 22:57 XS = 2414.37 pb +- ( 696.967 pb = 28 % ) Event 10 ( 1s elapsed / 28m 38s left ) -> ETA: Tue Nov 28 22:53 XS = 2529.34 pb +- ( 685.862 pb = 27 % ) Event 20 ( 1s elapsed / 14m 28s left ) -> ETA: Tue Nov 28 22:39 XS = 2529.34 pb +- ( 481.451 pb = 19 % ) Event 30 ( 1s elapsed / 9m 48s left ) -> ETA: Tue Nov 28 22:35 XS = 2269.92 pb +- ( 358.905 pb = 15 % ) Event 40 ( 1s elapsed / 7m 23s left ) -> ETA: Tue Nov 28 22:32 XS = 2199.42 pb +- ( 302.421 pb = 13 % ) Event 50 ( 1s elapsed / 5m 56s left ) -> ETA: Tue Nov 28 22:31 XS = 2367.03 pb +- ( 287.291 pb = 12 % ) Event 60 ( 1s elapsed / 4m 59s left ) -> ETA: Tue Nov 28 22:30 XS = 2222.43 pb +- ( 248.823 pb = 11 % ) Event 70 ( 1s elapsed / 4m 21s left ) -> ETA: Tue Nov 28 22:29 XS = 2051.94 pb +- ( 215.317 pb = 10 % ) Event 80 ( 1s elapsed / 3m 49s left ) -> ETA: Tue Nov 28 22:29 XS = 2101.53 pb +- ( 205.488 pb = 9 % ) Event 90 ( 1s elapsed / 3m 25s left ) -> ETA: Tue Nov 28 22:28 XS = 2225.53 pb +- ( 203.257 pb = 9 % ) Event 100 ( 1s elapsed / 3m 7s left ) -> ETA: Tue Nov 28 22:28 XS = 2078.09 pb +- ( 182.003 pb = 8 % ) Event 200 ( 2s elapsed / 1m 42s left ) -> ETA: Tue Nov 28 22:27 XS = 1984.9 pb +- ( 123.691 pb = 6 % ) Event 300 ( 2s elapsed / 1m 15s left ) -> ETA: Tue Nov 28 22:26 XS = 1986.39 pb +- ( 101.039 pb = 5 % ) Event 400 ( 2s elapsed / 1m 1s left ) -> ETA: Tue Nov 28 22:26 XS = 2044.5 pb +- ( 89.6727 pb = 4 % ) Event 500 ( 2s elapsed / 53s left ) -> ETA: Tue Nov 28 22:26 XS = 1949.07 pb +- ( 76.9908 pb = 3 % ) Event 600 ( 3s elapsed / 48s left ) -> ETA: Tue Nov 28 22:26 XS = 1942.8 pb +- ( 70.0856 pb = 3 % ) Event 700 ( 3s elapsed / 44s left ) -> ETA: Tue Nov 28 22:26 XS = 1896.23 pb +- ( 63.5425 pb = 3 % ) Event 800 ( 3s elapsed / 40s left ) -> ETA: Tue Nov 28 22:26 XS = 1909.96 pb +- ( 59.8089 pb = 3 % ) Event 900 ( 3s elapsed / 38s left ) -> ETA: Tue Nov 28 22:26 XS = 1907.9 pb +- ( 56.3351 pb = 2 % ) Event 1000 ( 3s elapsed / 35s left ) -> ETA: Tue Nov 28 22:25 XS = 1895.24 pb +- ( 53.1372 pb = 2 % ) Event 2000 ( 5s elapsed / 23s left ) -> ETA: Tue Nov 28 22:25 XS = 1947.14 pb +- ( 38.4563 pb = 1 % ) Event 3000 ( 7s elapsed / 18s left ) -> ETA: Tue Nov 28 22:25 XS = 1966.1 pb +- ( 31.661 pb = 1 % ) Event 4000 ( 9s elapsed / 14s left ) -> ETA: Tue Nov 28 22:25 XS = 1957.15 pb +- ( 27.3119 pb = 1 % ) Event 5000 ( 11s elapsed / 11s left ) -> ETA: Tue Nov 28 22:25 XS = 1940.28 pb +- ( 24.2474 pb = 1 % ) Event 6000 ( 13s elapsed / 9s left ) -> ETA: Tue Nov 28 22:25 XS = 1942.3 pb +- ( 22.1546 pb = 1 % ) Event 7000 ( 15s elapsed / 6s left ) -> ETA: Tue Nov 28 22:25 XS = 1941.93 pb +- ( 20.5077 pb = 1 % ) Event 8000 ( 17s elapsed / 4s left ) -> ETA: Tue Nov 28 22:25 XS = 1943.89 pb +- ( 19.1997 pb = 0 % ) Event 9000 ( 19s elapsed / 2s left ) -> ETA: Tue Nov 28 22:25 XS = 1946.26 pb +- ( 18.1207 pb = 0 % ) Event 10000 ( 21 s total ) = 4.16185e+07 evts/day In Event_Handler::Finish : Summarizing the run may take some time. Rivet_Interface::Finish(Analysis_CSS_1em/8033){ } -------------------------------------------------------------------------- Nominal or variation name XS [pb] RelDev AbsErr [pb] RelErr -------------------------------------------------------------------------- Nominal  1950.19 0 % 17.2206 0.88 % -------------------------------------------------------------------------- Return_Value::PrintStatistics(): Statistics { Generated events: 10000 } Blob_List: Momentum Fail Statistics { } Decay_Channel: Kinematics max fail statistics { } WARNING: You are using an unsupported development branch. WARNING: Some settings that have been defined in the input files and/or the command line have not been used. For more details, see the Settings Report. Time: 21s on Tue Nov 28 22:25:40 2023 (User: 20s, System: 0s, Children User: 0s, Children System: 0s) Welcome to Sherpa, Daniel Reichelt on ip3-ws3.phyip3.dur.ac.uk. Initialization of framework underway. The local time is Tue Nov 28 22:27:01 2023. Run_Parameter::Init(): Setting memory limit to 187.131 GB. Random::SetSeed(): Seed set to 8033 ----------------------------------------------------------------------------- ----------- Event generation run with SHERPA started ....... ----------- ----------------------------------------------------------------------------- ................................................ | + ................................................ || | + + ................................... .... | | / + ................. ................ _,_ | .... || +| + + ............................... __.' ,\| ... || / +| + .............................. ( \ \ ... | | | + + \ + ............................. ( \ -/ .... || + | + ........ ................... (~~~~~~~~~## + + + ............................. ~~(! '~~~~~~~ \ + + + + ............................... `~~~QQQQQDb // | + + + + ........................ .......... IDDDDP|| \ + + + + + + .................................... IDDDI|| \ + .................................... IHD HD|| \ + + + + + + + + ................................... IHD ##| :-) + +\ + ......... ............... ......... IHI ## / / + + + + +\ + ................................... IHI/ / / + + + + + ................................... ## | | / / + + + + / + ....................... /TT\ ..... ##/ /// / + + + + + + +/ + ......................./TTT/T\ ... /TT\/\\\ / + + + + + + +/ \ + ....................../TTT/TTTT\...|TT/T\\\/ + ++ + / ----------------------------------------------------------------------------- SHERPA version 3.0.0beta1 (Dhaulagiri) Authors: Enrico Bothmann, Stefan Hoeche, Frank Krauss, Silvan Kuttimalai, Marek Schoenherr, Holger Schulz, Steffen Schumann, Frank Siegert, Korinna Zapp Former Authors: Timo Fischer, Tanju Gleisberg, Hendrik Hoeth, Ralf Kuhn, Thomas Laubrich, Andreas Schaelicke, Jan Winter This program uses a lot of genuine and original research work by other people. Users are encouraged to refer to the various original publications. Users are kindly asked to refer to the documentation published under JHEP 02(2009)007 Please visit also our homepage http://sherpa.hepforge.org for news, bugreports, updates and new releases. ----------------------------------------------------------------------------- WARNING: You are using an unsupported development branch. Git branch unknownurl, revision unknownrevision. Hadron_Init::Init(): Initializing kf table for hadrons. Beam_Spectra_Handler: type = Collider Setup for P+ (on = 0, p = (6500,0,0,6500)) and P+ (on = 0, p = (6500,0,0,-6500)). ISR handling: PDFs for hard scattering: NNPDF31_nlo_hessian_pdfas + NNPDF31_nlo_hessian_pdfas PDFs for multiple parton interactions: PDF4LHC21_40_pdfas + PDF4LHC21_40_pdfas Remnant_Handlers: hard process: P+: Intact + P+: Intact Standard_Model::FixEWParameters() { Input scheme: alpha0 alpha(0) scheme, input: 1/\alphaQED(0), m_W, m_Z, m_h, widths Ren. scheme: alpha0 Parameters: sin^2(\theta_W) = 0.222928 - 0.00110708 i vev = 243.034 - 3.75493 i } Running_AlphaQED::PrintSummary() { Setting \alpha according to EW scheme 1/\alpha(0) = 137.036 1/\alpha(def) = 128.802 } One_Running_AlphaS::PrintSummary() { Setting \alpha_s according to PDF perturbative order 1 \alpha_s(M_Z) = 0.118 } One_Running_AlphaS::PrintSummary() { Setting \alpha_s according to PDF perturbative order 2 \alpha_s(M_Z) = 0.118 } List of Particle Data IDName kfc Mass Width Stable Massive Active Yukawa d 1 0.01 0 1 0 1 0 u 2 0.005 0 1 0 1 0 s 3 0.2 0 1 0 1 0 c 4 1.42 0 1 0 1 0 b 5 4.92 0 1 0 1 0 t 6 173.21 2 0 1 1 173.21 e- 11 0.000511 0 1 0 1 0 ve 12 0 0 1 0 1 0 mu- 13 0.105 0 1 0 1 0 vmu 14 0 0 1 0 1 0 tau- 15 1.777 2.26735e-12 0 1 1 1.777 vtau 16 0 0 1 0 1 0 G 21 0 0 1 0 1 0 P 22 0 0 1 0 1 0 Z 23 91.1876 2.4952 0 1 1 91.1876 W+ 24 80.385 2.085 0 1 1 80.385 h0 25 125 0.00407 0 1 1 125 string 95 0 0 1 0 1 0 cluster 96 0 0 1 0 1 0 Instanton 999 0 0 0 0 1 0 List of Particle Containers IDName kfc Constituents l 90 {e-,e+,mu-,mu+} v 91 {ve,veb,vmu,vmub,vtau,vtaub} f 92 {d,db,u,ub,s,sb,c,cb,b,bb,e-,e+,mu-,mu+,ve,veb,vmu,vmub,vtau,vtaub} j 93 {d,db,u,ub,s,sb,c,cb,b,bb,G} Q 94 {d,db,u,ub,s,sb,c,cb,b,bb} ewj 98 {d,db,u,ub,s,sb,c,cb,b,bb,G,P} Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF ####### Permutations for 2 partons ############## found 2 entries: 1th permutation = { 0 1 } 2th permutation = { 1 0 } FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. IF: Soft, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. II: Soft, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF ####### Permutations for 2 partons ############## found 2 entries: 1th permutation = { 0 1 } 2th permutation = { 1 0 } FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. IF: Soft, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. II: Soft, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. Shower_Handler initialised. +-----------------------------------------+ | X X X XXXX XXX XXX XXX | | X X XX XX X X X X X X | | X X X X X XXX X XXX X X XXX XXX | | XXXXX X X X X X X X X X | | X X X X XXXX XXX XXX XXX | +-----------------------------------------+ | please cite: JHEP 0202:044,2002 | +-----------------------------------------+ Matrix_Element_Handler::Matrix_Element_Handler(): Set pilot run mode to 1. ME_Generator_Base::SetPSMasses(): Massive PS flavours for Comix: (none) +----------------------------------+ | | | CCC OOO M M I X X | | C O O MM MM I X X | | C O O M M M I X | | C O O M M I X X | | CCC OOO M M I X X | | | +==================================+ | Color dressed Matrix Elements | | http://comix.freacafe.de | | please cite JHEP12(2008)039 | +----------------------------------+ ME_Generator_Base::SetPSMasses(): Massive PS flavours for Amegic: (none) ME_Generator_Base::SetPSMasses(): Massive PS flavours for Internal: (none) Matrix_Element_Handler::BuildProcesses(): 3 ME generators, 1 process blocks. Matrix_Element_Handler::BuildProcesses(): Setting up processes .. done ( 51 MB, 0s / 0s ). Matrix_Element_Handler::InitializeProcesses(): Performing tests .. done ( 51 MB, 0s / 0s ). Matrix_Element_Handler::InitializeProcesses(): Initializing scales done ( 51 MB, 0s / 0s ). Initialized the Matrix_Element_Handler for the hard processes. Initialized the Beam_Remnant_Handler. MI_Handler::MI_Handler(id = 2, name = None, type = 0) Underlying event/multiple interactions handler: MI[2]: on = 0 (type = 0, None) Soft-collision handlers: Initialized the Fragmentation_Handler. Initialized the Soft_Photon_Handler. Initialized the Reweighting. Read in channels from directory: Results/Comix/MC_2_2__j__j__e-__e+ Process_Group::CalculateTotalXSec(): Calculate xs for '2_2__j__j__e-__e+' (Comix) 2_2__j__j__e-__e+ : 1929.23 pb +- ( 3.07365 pb = 0.15932 % )  exp. eff: 21.7926 % reduce max for 2_2__j__j__e-__e+ to 1 ( eps = 0.001 -> exp. eff 0.217926 ) ---------------------------------------------------------- -- SHERPA generates events with the following structure -- ---------------------------------------------------------- Event generation : Partially unweighted Perturbative : Signal_Processes Perturbative : Minimum_Bias: None Perturbative : Hard_Decays Perturbative : Jet_Evolution:CFP Perturbative : Lepton_FS_QED_Corrections:None Perturbative : Multiple_Interactions: None Hadronization : Beam_Remnants:None Hadronization : Hadronization:None Hadronization : Hadron_Decays Userhook : Analysis : Rivet --------------------------------------------------------- Event 1 ( 1s elapsed / 5h 26m 38s left ) -> ETA: Wed Nov 29 03:53 XS = 8852.68 pb +- ( 8852.68 pb = 100 % ) Event 2 ( 1s elapsed / 2h 44m 8s left ) -> ETA: Wed Nov 29 01:11 XS = 4426.34 pb +- ( 2555.55 pb = 57 % ) Event 3 ( 1s elapsed / 1h 49m 24s left ) -> ETA: Wed Nov 29 00:16 XS = 3319.75 pb +- ( 1619.87 pb = 48 % ) Event 4 ( 1s elapsed / 1h 22m 28s left ) -> ETA: Tue Nov 28 23:49 XS = 2529.34 pb +- ( 1109.19 pb = 43 % ) Event 5 ( 1s elapsed / 1h 6m 18s left ) -> ETA: Tue Nov 28 23:33 XS = 2766.46 pb +- ( 1059.47 pb = 38 % ) Event 6 ( 1s elapsed / 55m 14s left ) -> ETA: Tue Nov 28 23:22 XS = 2529.34 pb +- ( 894.255 pb = 35 % ) Event 7 ( 2s elapsed / 47m 35s left ) -> ETA: Tue Nov 28 23:14 XS = 2694.29 pb +- ( 868.449 pb = 32 % ) Event 8 ( 2s elapsed / 41m 38s left ) -> ETA: Tue Nov 28 23:08 XS = 2950.89 pb +- ( 870.171 pb = 29 % ) Event 9 ( 2s elapsed / 37m left ) -> ETA: Tue Nov 28 23:04 XS = 2096.69 pb +- ( 618.743 pb = 29 % ) Event 10 ( 2s elapsed / 33m 18s left ) -> ETA: Tue Nov 28 23:00 XS = 2213.17 pb +- ( 613.823 pb = 27 % ) Event 20 ( 2s elapsed / 17m 2s left ) -> ETA: Tue Nov 28 22:44 XS = 2058.76 pb +- ( 405.652 pb = 19 % ) Event 30 ( 2s elapsed / 11m 34s left ) -> ETA: Tue Nov 28 22:38 XS = 2269.92 pb +- ( 358.905 pb = 15 % ) Event 40 ( 2s elapsed / 8m 52s left ) -> ETA: Tue Nov 28 22:35 XS = 2476.27 pb +- ( 333.459 pb = 13 % ) Event 50 ( 2s elapsed / 7m 11s left ) -> ETA: Tue Nov 28 22:34 XS = 2269.92 pb +- ( 277.529 pb = 12 % ) Event 60 ( 2s elapsed / 6m 11s left ) -> ETA: Tue Nov 28 22:33 XS = 2260.26 pb +- ( 252.344 pb = 11 % ) Event 70 ( 2s elapsed / 5m 30s left ) -> ETA: Tue Nov 28 22:32 XS = 2205.29 pb +- ( 228.812 pb = 10 % ) Event 80 ( 2s elapsed / 4m 58s left ) -> ETA: Tue Nov 28 22:32 XS = 2152.63 pb +- ( 209.694 pb = 9 % ) Event 90 ( 2s elapsed / 4m 29s left ) -> ETA: Tue Nov 28 22:31 XS = 2124.64 pb +- ( 195.502 pb = 9 % ) Event 100 ( 2s elapsed / 4m 6s left ) -> ETA: Tue Nov 28 22:31 XS = 2180.46 pb +- ( 189.532 pb = 8 % ) Event 200 ( 3s elapsed / 2m 33s left ) -> ETA: Tue Nov 28 22:29 XS = 1947.78 pb +- ( 121.704 pb = 6 % ) Event 300 ( 3s elapsed / 1m 59s left ) -> ETA: Tue Nov 28 22:29 XS = 1977.51 pb +- ( 100.653 pb = 5 % ) Event 400 ( 4s elapsed / 1m 40s left ) -> ETA: Tue Nov 28 22:28 XS = 1951 pb +- ( 86.1564 pb = 4 % ) Event 500 ( 4s elapsed / 1m 30s left ) -> ETA: Tue Nov 28 22:28 XS = 1956.82 pb +- ( 77.2538 pb = 3 % ) Event 600 ( 5s elapsed / 1m 22s left ) -> ETA: Tue Nov 28 22:28 XS = 1974.57 pb +- ( 71.0683 pb = 3 % ) Event 700 ( 5s elapsed / 1m 17s left ) -> ETA: Tue Nov 28 22:28 XS = 1918.54 pb +- ( 64.187 pb = 3 % ) Event 800 ( 6s elapsed / 1m 16s left ) -> ETA: Tue Nov 28 22:28 XS = 1919.8 pb +- ( 60.0744 pb = 3 % ) Event 900 ( 7s elapsed / 1m 12s left ) -> ETA: Tue Nov 28 22:28 XS = 1917.09 pb +- ( 56.5688 pb = 2 % ) Event 1000 ( 7s elapsed / 1m 9s left ) -> ETA: Tue Nov 28 22:28 XS = 1946.07 pb +- ( 54.3627 pb = 2 % ) Event 2000 ( 13s elapsed / 52s left ) -> ETA: Tue Nov 28 22:28 XS = 1882.06 pb +- ( 37.3881 pb = 1 % ) Event 3000 ( 18s elapsed / 43s left ) -> ETA: Tue Nov 28 22:28 XS = 1859.93 pb +- ( 30.227 pb = 1 % ) Event 4000 ( 24s elapsed / 36s left ) -> ETA: Tue Nov 28 22:28 XS = 1885.17 pb +- ( 26.4745 pb = 1 % ) Event 5000 ( 29s elapsed / 29s left ) -> ETA: Tue Nov 28 22:27 XS = 1881.34 pb +- ( 23.6539 pb = 1 % ) Event 6000 ( 34s elapsed / 22s left ) -> ETA: Tue Nov 28 22:27 XS = 1874.13 pb +- ( 21.5147 pb = 1 % ) Event 7000 ( 39s elapsed / 17s left ) -> ETA: Tue Nov 28 22:27 XS = 1858.36 pb +- ( 19.769 pb = 1 % ) Event 8000 ( 44s elapsed / 11s left ) -> ETA: Tue Nov 28 22:27 XS = 1867.66 pb +- ( 18.5694 pb = 0 % ) Event 9000 ( 50s elapsed / 5s left ) -> ETA: Tue Nov 28 22:27 XS = 1871.61 pb +- ( 17.5373 pb = 0 % ) Event 10000 ( 55 s total ) = 1.57866e+07 evts/day In Event_Handler::Finish : Summarizing the run may take some time. Rivet_Interface::Finish(Analysis_Allrecoil_NNPDF/8033){ } -------------------------------------------------------------------------- Nominal or variation name XS [pb] RelDev AbsErr [pb] RelErr -------------------------------------------------------------------------- Nominal  1875.54 0 % 16.6658 0.88 % -------------------------------------------------------------------------- Return_Value::PrintStatistics(): Statistics { Generated events: 10000 } Blob_List: Momentum Fail Statistics { } Decay_Channel: Kinematics max fail statistics { } WARNING: You are using an unsupported development branch. WARNING: Some settings that have been defined in the input files and/or the command line have not been used. For more details, see the Settings Report. Time: 55s on Tue Nov 28 22:27:56 2023 (User: 55s, System: 0s, Children User: 0s, Children System: 0s) Welcome to Sherpa, Daniel Reichelt on ip3-ws3.phyip3.dur.ac.uk. Initialization of framework underway. The local time is Tue Nov 28 22:31:35 2023. Run_Parameter::Init(): Setting memory limit to 187.131 GB. Random::SetSeed(): Seed set to 8033 ----------------------------------------------------------------------------- ----------- Event generation run with SHERPA started ....... ----------- ----------------------------------------------------------------------------- ................................................ | + ................................................ || | + + ................................... .... | | / + ................. ................ _,_ | .... || +| + + ............................... __.' ,\| ... || / +| + .............................. ( \ \ ... | | | + + \ + ............................. ( \ -/ .... || + | + ........ ................... (~~~~~~~~~## + + + ............................. ~~(! '~~~~~~~ \ + + + + ............................... `~~~QQQQQDb // | + + + + ........................ .......... IDDDDP|| \ + + + + + + .................................... IDDDI|| \ + .................................... IHD HD|| \ + + + + + + + + ................................... IHD ##| :-) + +\ + ......... ............... ......... IHI ## / / + + + + +\ + ................................... IHI/ / / + + + + + ................................... ## | | / / + + + + / + ....................... /TT\ ..... ##/ /// / + + + + + + +/ + ......................./TTT/T\ ... /TT\/\\\ / + + + + + + +/ \ + ....................../TTT/TTTT\...|TT/T\\\/ + ++ + / ----------------------------------------------------------------------------- SHERPA version 3.0.0beta1 (Dhaulagiri) Authors: Enrico Bothmann, Stefan Hoeche, Frank Krauss, Silvan Kuttimalai, Marek Schoenherr, Holger Schulz, Steffen Schumann, Frank Siegert, Korinna Zapp Former Authors: Timo Fischer, Tanju Gleisberg, Hendrik Hoeth, Ralf Kuhn, Thomas Laubrich, Andreas Schaelicke, Jan Winter This program uses a lot of genuine and original research work by other people. Users are encouraged to refer to the various original publications. Users are kindly asked to refer to the documentation published under JHEP 02(2009)007 Please visit also our homepage http://sherpa.hepforge.org for news, bugreports, updates and new releases. ----------------------------------------------------------------------------- WARNING: You are using an unsupported development branch. Git branch unknownurl, revision unknownrevision. Hadron_Init::Init(): Initializing kf table for hadrons. Beam_Spectra_Handler: type = Collider Setup for P+ (on = 0, p = (6500,0,0,6500)) and P+ (on = 0, p = (6500,0,0,-6500)). ISR handling: PDFs for hard scattering: CT14nnlo + CT14nnlo PDFs for multiple parton interactions: PDF4LHC21_40_pdfas + PDF4LHC21_40_pdfas Remnant_Handlers: hard process: P+: Intact + P+: Intact Standard_Model::FixEWParameters() { Input scheme: alpha0 alpha(0) scheme, input: 1/\alphaQED(0), m_W, m_Z, m_h, widths Ren. scheme: alpha0 Parameters: sin^2(\theta_W) = 0.222928 - 0.00110708 i vev = 243.034 - 3.75493 i } Running_AlphaQED::PrintSummary() { Setting \alpha according to EW scheme 1/\alpha(0) = 137.036 1/\alpha(def) = 128.802 } One_Running_AlphaS::PrintSummary() { Setting \alpha_s according to PDF perturbative order 2 \alpha_s(M_Z) = 0.118 } One_Running_AlphaS::PrintSummary() { Setting \alpha_s according to PDF perturbative order 2 \alpha_s(M_Z) = 0.118 } List of Particle Data IDName kfc Mass Width Stable Massive Active Yukawa d 1 0.01 0 1 0 1 0 u 2 0.005 0 1 0 1 0 s 3 0.2 0 1 0 1 0 c 4 1.42 0 1 0 1 0 b 5 4.92 0 1 0 1 0 t 6 173.21 2 0 1 1 173.21 e- 11 0.000511 0 1 0 1 0 ve 12 0 0 1 0 1 0 mu- 13 0.105 0 1 0 1 0 vmu 14 0 0 1 0 1 0 tau- 15 1.777 2.26735e-12 0 1 1 1.777 vtau 16 0 0 1 0 1 0 G 21 0 0 1 0 1 0 P 22 0 0 1 0 1 0 Z 23 91.1876 2.4952 0 1 1 91.1876 W+ 24 80.385 2.085 0 1 1 80.385 h0 25 125 0.00407 0 1 1 125 string 95 0 0 1 0 1 0 cluster 96 0 0 1 0 1 0 Instanton 999 0 0 0 0 1 0 List of Particle Containers IDName kfc Constituents l 90 {e-,e+,mu-,mu+} v 91 {ve,veb,vmu,vmub,vtau,vtaub} f 92 {d,db,u,ub,s,sb,c,cb,b,bb,e-,e+,mu-,mu+,ve,veb,vmu,vmub,vtau,vtaub} j 93 {d,db,u,ub,s,sb,c,cb,b,bb,G} Q 94 {d,db,u,ub,s,sb,c,cb,b,bb} ewj 98 {d,db,u,ub,s,sb,c,cb,b,bb,G,P} Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF ####### Permutations for 2 partons ############## found 2 entries: 1th permutation = { 0 1 } 2th permutation = { 1 0 } FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. IF: Soft, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. II: Soft, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF ####### Permutations for 2 partons ############## found 2 entries: 1th permutation = { 0 1 } 2th permutation = { 1 0 } FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. IF: Soft, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. II: Soft, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. Shower_Handler initialised. +-----------------------------------------+ | X X X XXXX XXX XXX XXX | | X X XX XX X X X X X X | | X X X X X XXX X XXX X X XXX XXX | | XXXXX X X X X X X X X X | | X X X X XXXX XXX XXX XXX | +-----------------------------------------+ | please cite: JHEP 0202:044,2002 | +-----------------------------------------+ Matrix_Element_Handler::Matrix_Element_Handler(): Set pilot run mode to 1. ME_Generator_Base::SetPSMasses(): Massive PS flavours for Comix: (none) +----------------------------------+ | | | CCC OOO M M I X X | | C O O MM MM I X X | | C O O M M M I X | | C O O M M I X X | | CCC OOO M M I X X | | | +==================================+ | Color dressed Matrix Elements | | http://comix.freacafe.de | | please cite JHEP12(2008)039 | +----------------------------------+ ME_Generator_Base::SetPSMasses(): Massive PS flavours for Amegic: (none) ME_Generator_Base::SetPSMasses(): Massive PS flavours for Internal: (none) Matrix_Element_Handler::BuildProcesses(): 3 ME generators, 1 process blocks. Matrix_Element_Handler::BuildProcesses(): Setting up processes .. done ( 52 MB, 0s / 0s ). Matrix_Element_Handler::InitializeProcesses(): Performing tests .. done ( 52 MB, 0s / 0s ). Matrix_Element_Handler::InitializeProcesses(): Initializing scales done ( 52 MB, 0s / 0s ). Initialized the Matrix_Element_Handler for the hard processes. Initialized the Beam_Remnant_Handler. MI_Handler::MI_Handler(id = 2, name = None, type = 0) Underlying event/multiple interactions handler: MI[2]: on = 0 (type = 0, None) Soft-collision handlers: Initialized the Fragmentation_Handler. Initialized the Soft_Photon_Handler. Initialized the Reweighting. Read in channels from directory: Results/Comix/MC_2_2__j__j__e-__e+ Process_Group::CalculateTotalXSec(): Calculate xs for '2_2__j__j__e-__e+' (Comix) 2_2__j__j__e-__e+ : 1929.23 pb +- ( 3.07365 pb = 0.15932 % )  exp. eff: 21.7926 % reduce max for 2_2__j__j__e-__e+ to 1 ( eps = 0.001 -> exp. eff 0.217926 ) ---------------------------------------------------------- -- SHERPA generates events with the following structure -- ---------------------------------------------------------- Event generation : Partially unweighted Perturbative : Signal_Processes Perturbative : Minimum_Bias: None Perturbative : Hard_Decays Perturbative : Jet_Evolution:CFP Perturbative : Lepton_FS_QED_Corrections:None Perturbative : Multiple_Interactions: None Hadronization : Beam_Remnants:None Hadronization : Hadronization:None Hadronization : Hadron_Decays Userhook : Analysis : Rivet --------------------------------------------------------- Event 1 ( 1s elapsed / 4h 31m 38s left ) -> ETA: Wed Nov 29 03:03 XS = 8852.68 pb +- ( 8852.68 pb = 100 % ) Event 2 ( 1s elapsed / 2h 16m 38s left ) -> ETA: Wed Nov 29 00:48 XS = 3541.07 pb +- ( 2168.45 pb = 61 % ) Event 3 ( 1s elapsed / 1h 31m 38s left ) -> ETA: Wed Nov 29 00:03 XS = 4426.34 pb +- ( 1979.52 pb = 44 % ) Event 4 ( 1s elapsed / 1h 8m 43s left ) -> ETA: Tue Nov 28 23:40 XS = 5058.67 pb +- ( 1788.51 pb = 35 % ) Event 5 ( 1s elapsed / 55m 18s left ) -> ETA: Tue Nov 28 23:26 XS = 5532.92 pb +- ( 1619.87 pb = 29 % ) Event 6 ( 1s elapsed / 46m 21s left ) -> ETA: Tue Nov 28 23:17 XS = 5311.61 pb +- ( 1445.64 pb = 27 % ) Event 7 ( 1s elapsed / 39m 58s left ) -> ETA: Tue Nov 28 23:11 XS = 3873.05 pb +- ( 1133.91 pb = 29 % ) Event 8 ( 1s elapsed / 35m 23s left ) -> ETA: Tue Nov 28 23:07 XS = 3541.07 pb +- ( 994.955 pb = 28 % ) Event 9 ( 1s elapsed / 31m 27s left ) -> ETA: Tue Nov 28 23:03 XS = 3319.75 pb +- ( 893.648 pb = 26 % ) Event 10 ( 1s elapsed / 28m 28s left ) -> ETA: Tue Nov 28 23:00 XS = 3404.88 pb +- ( 861.373 pb = 25 % ) Event 20 ( 1s elapsed / 14m 48s left ) -> ETA: Tue Nov 28 22:46 XS = 2392.61 pb +- ( 460.143 pb = 19 % ) Event 30 ( 1s elapsed / 10m 11s left ) -> ETA: Tue Nov 28 22:41 XS = 2553.66 pb +- ( 395.184 pb = 15 % ) Event 40 ( 1s elapsed / 7m 53s left ) -> ETA: Tue Nov 28 22:39 XS = 2529.34 pb +- ( 339.21 pb = 13 % ) Event 50 ( 1s elapsed / 6m 30s left ) -> ETA: Tue Nov 28 22:38 XS = 2445.49 pb +- ( 295.04 pb = 12 % ) Event 60 ( 2s elapsed / 5m 37s left ) -> ETA: Tue Nov 28 22:37 XS = 2392.61 pb +- ( 264.459 pb = 11 % ) Event 70 ( 2s elapsed / 4m 56s left ) -> ETA: Tue Nov 28 22:36 XS = 2374.28 pb +- ( 243.228 pb = 10 % ) Event 80 ( 2s elapsed / 4m 24s left ) -> ETA: Tue Nov 28 22:36 XS = 2400.73 pb +- ( 229.532 pb = 9 % ) Event 90 ( 2s elapsed / 4m 1s left ) -> ETA: Tue Nov 28 22:35 XS = 2276.4 pb +- ( 207.11 pb = 9 % ) Event 100 ( 2s elapsed / 3m 41s left ) -> ETA: Tue Nov 28 22:35 XS = 2241.18 pb +- ( 193.928 pb = 8 % ) Event 200 ( 2s elapsed / 2m 17s left ) -> ETA: Tue Nov 28 22:33 XS = 2227.09 pb +- ( 136.323 pb = 6 % ) Event 300 ( 3s elapsed / 1m 47s left ) -> ETA: Tue Nov 28 22:33 XS = 2086.26 pb +- ( 105.346 pb = 5 % ) Event 400 ( 3s elapsed / 1m 35s left ) -> ETA: Tue Nov 28 22:33 XS = 2039.79 pb +- ( 89.497 pb = 4 % ) Event 500 ( 4s elapsed / 1m 26s left ) -> ETA: Tue Nov 28 22:33 XS = 1961.16 pb +- ( 77.4006 pb = 3 % ) Event 600 ( 5s elapsed / 1m 20s left ) -> ETA: Tue Nov 28 22:33 XS = 1958.56 pb +- ( 70.5737 pb = 3 % ) Event 700 ( 5s elapsed / 1m 18s left ) -> ETA: Tue Nov 28 22:32 XS = 1941.98 pb +- ( 64.8617 pb = 3 % ) Event 800 ( 6s elapsed / 1m 14s left ) -> ETA: Tue Nov 28 22:32 XS = 1927.11 pb +- ( 60.2714 pb = 3 % ) Event 900 ( 7s elapsed / 1m 11s left ) -> ETA: Tue Nov 28 22:32 XS = 1932.43 pb +- ( 56.9585 pb = 2 % ) Event 1000 ( 7s elapsed / 1m 9s left ) -> ETA: Tue Nov 28 22:32 XS = 1935.86 pb +- ( 54.1174 pb = 2 % ) Event 2000 ( 13s elapsed / 54s left ) -> ETA: Tue Nov 28 22:32 XS = 1941.38 pb +- ( 38.3585 pb = 1 % ) Event 3000 ( 19s elapsed / 45s left ) -> ETA: Tue Nov 28 22:32 XS = 1940.67 pb +- ( 31.3091 pb = 1 % ) Event 4000 ( 25s elapsed / 38s left ) -> ETA: Tue Nov 28 22:32 XS = 1919.7 pb +- ( 26.8619 pb = 1 % ) Event 5000 ( 31s elapsed / 31s left ) -> ETA: Tue Nov 28 22:32 XS = 1928.86 pb +- ( 24.1246 pb = 1 % ) Event 6000 ( 37s elapsed / 25s left ) -> ETA: Tue Nov 28 22:32 XS = 1943.22 pb +- ( 22.1636 pb = 1 % ) Event 7000 ( 43s elapsed / 18s left ) -> ETA: Tue Nov 28 22:32 XS = 1949.68 pb +- ( 20.578 pb = 1 % ) Event 8000 ( 49s elapsed / 12s left ) -> ETA: Tue Nov 28 22:32 XS = 1948.86 pb +- ( 19.2419 pb = 0 % ) Event 9000 ( 55s elapsed / 6s left ) -> ETA: Tue Nov 28 22:32 XS = 1934.02 pb +- ( 18.0227 pb = 0 % ) Event 10000 ( 61 s total ) = 1.42129e+07 evts/day In Event_Handler::Finish : Summarizing the run may take some time. Rivet_Interface::Finish(Analysis_Allrecoil_v2/8033){ } -------------------------------------------------------------------------- Nominal or variation name XS [pb] RelDev AbsErr [pb] RelErr -------------------------------------------------------------------------- Nominal  1932.31 0 % 17.0847 0.88 % -------------------------------------------------------------------------- Return_Value::PrintStatistics(): Statistics { Generated events: 10000 } Blob_List: Momentum Fail Statistics { } Decay_Channel: Kinematics max fail statistics { } WARNING: You are using an unsupported development branch. WARNING: Some settings that have been defined in the input files and/or the command line have not been used. For more details, see the Settings Report. Time: 1m 1s on Tue Nov 28 22:32:36 2023 (User: 1m, System: 0s, Children User: 0s, Children System: 0s) Welcome to Sherpa, Daniel Reichelt on ip3-ws3.phyip3.dur.ac.uk. Initialization of framework underway. The local time is Tue Nov 28 22:41:55 2023. Run_Parameter::Init(): Setting memory limit to 187.131 GB. Random::SetSeed(): Seed set to 8033 ----------------------------------------------------------------------------- ----------- Event generation run with SHERPA started ....... ----------- ----------------------------------------------------------------------------- ................................................ | + ................................................ || | + + ................................... .... | | / + ................. ................ _,_ | .... || +| + + ............................... __.' ,\| ... || / +| + .............................. ( \ \ ... | | | + + \ + ............................. ( \ -/ .... || + | + ........ ................... (~~~~~~~~~## + + + ............................. ~~(! '~~~~~~~ \ + + + + ............................... `~~~QQQQQDb // | + + + + ........................ .......... IDDDDP|| \ + + + + + + .................................... IDDDI|| \ + .................................... IHD HD|| \ + + + + + + + + ................................... IHD ##| :-) + +\ + ......... ............... ......... IHI ## / / + + + + +\ + ................................... IHI/ / / + + + + + ................................... ## | | / / + + + + / + ....................... /TT\ ..... ##/ /// / + + + + + + +/ + ......................./TTT/T\ ... /TT\/\\\ / + + + + + + +/ \ + ....................../TTT/TTTT\...|TT/T\\\/ + ++ + / ----------------------------------------------------------------------------- SHERPA version 3.0.0beta1 (Dhaulagiri) Authors: Enrico Bothmann, Stefan Hoeche, Frank Krauss, Silvan Kuttimalai, Marek Schoenherr, Holger Schulz, Steffen Schumann, Frank Siegert, Korinna Zapp Former Authors: Timo Fischer, Tanju Gleisberg, Hendrik Hoeth, Ralf Kuhn, Thomas Laubrich, Andreas Schaelicke, Jan Winter This program uses a lot of genuine and original research work by other people. Users are encouraged to refer to the various original publications. Users are kindly asked to refer to the documentation published under JHEP 02(2009)007 Please visit also our homepage http://sherpa.hepforge.org for news, bugreports, updates and new releases. ----------------------------------------------------------------------------- WARNING: You are using an unsupported development branch. Git branch unknownurl, revision unknownrevision. Hadron_Init::Init(): Initializing kf table for hadrons. Beam_Spectra_Handler: type = Collider Setup for P+ (on = 0, p = (6500,0,0,6500)) and P+ (on = 0, p = (6500,0,0,-6500)). ISR handling: PDFs for hard scattering: CT14nnlo + CT14nnlo PDFs for multiple parton interactions: PDF4LHC21_40_pdfas + PDF4LHC21_40_pdfas Remnant_Handlers: hard process: P+: Intact + P+: Intact Standard_Model::FixEWParameters() { Input scheme: alpha0 alpha(0) scheme, input: 1/\alphaQED(0), m_W, m_Z, m_h, widths Ren. scheme: alpha0 Parameters: sin^2(\theta_W) = 0.222928 - 0.00110708 i vev = 243.034 - 3.75493 i } Running_AlphaQED::PrintSummary() { Setting \alpha according to EW scheme 1/\alpha(0) = 137.036 1/\alpha(def) = 128.802 } One_Running_AlphaS::PrintSummary() { Setting \alpha_s according to PDF perturbative order 2 \alpha_s(M_Z) = 0.118 } One_Running_AlphaS::PrintSummary() { Setting \alpha_s according to PDF perturbative order 2 \alpha_s(M_Z) = 0.118 } List of Particle Data IDName kfc Mass Width Stable Massive Active Yukawa d 1 0.01 0 1 0 1 0 u 2 0.005 0 1 0 1 0 s 3 0.2 0 1 0 1 0 c 4 1.42 0 1 0 1 0 b 5 4.92 0 1 0 1 0 t 6 173.21 2 0 1 1 173.21 e- 11 0.000511 0 1 0 1 0 ve 12 0 0 1 0 1 0 mu- 13 0.105 0 1 0 1 0 vmu 14 0 0 1 0 1 0 tau- 15 1.777 2.26735e-12 0 1 1 1.777 vtau 16 0 0 1 0 1 0 G 21 0 0 1 0 1 0 P 22 0 0 1 0 1 0 Z 23 91.1876 2.4952 0 1 1 91.1876 W+ 24 80.385 2.085 0 1 1 80.385 h0 25 125 0.00407 0 1 1 125 string 95 0 0 1 0 1 0 cluster 96 0 0 1 0 1 0 Instanton 999 0 0 0 0 1 0 List of Particle Containers IDName kfc Constituents l 90 {e-,e+,mu-,mu+} v 91 {ve,veb,vmu,vmub,vtau,vtaub} f 92 {d,db,u,ub,s,sb,c,cb,b,bb,e-,e+,mu-,mu+,ve,veb,vmu,vmub,vtau,vtaub} j 93 {d,db,u,ub,s,sb,c,cb,b,bb,G} Q 94 {d,db,u,ub,s,sb,c,cb,b,bb} ewj 98 {d,db,u,ub,s,sb,c,cb,b,bb,G,P} Shower_Handler initialised. +-----------------------------------------+ | X X X XXXX XXX XXX XXX | | X X XX XX X X X X X X | | X X X X X XXX X XXX X X XXX XXX | | XXXXX X X X X X X X X X | | X X X X XXXX XXX XXX XXX | +-----------------------------------------+ | please cite: JHEP 0202:044,2002 | +-----------------------------------------+ Matrix_Element_Handler::Matrix_Element_Handler(): Set pilot run mode to 1. ME_Generator_Base::SetPSMasses(): Massive PS flavours for Comix: (none) +----------------------------------+ | | | CCC OOO M M I X X | | C O O MM MM I X X | | C O O M M M I X | | C O O M M I X X | | CCC OOO M M I X X | | | +==================================+ | Color dressed Matrix Elements | | http://comix.freacafe.de | | please cite JHEP12(2008)039 | +----------------------------------+ ME_Generator_Base::SetPSMasses(): Massive PS flavours for Amegic: (none) ME_Generator_Base::SetPSMasses(): Massive PS flavours for Internal: (none) Matrix_Element_Handler::BuildProcesses(): 3 ME generators, 1 process blocks. Matrix_Element_Handler::BuildProcesses(): Setting up processes .. done ( 52 MB, 0s / 0s ). Matrix_Element_Handler::InitializeProcesses(): Performing tests .. done ( 52 MB, 0s / 0s ). Matrix_Element_Handler::InitializeProcesses(): Initializing scales done ( 52 MB, 0s / 0s ). Initialized the Matrix_Element_Handler for the hard processes. Initialized the Beam_Remnant_Handler. MI_Handler::MI_Handler(id = 2, name = None, type = 0) Underlying event/multiple interactions handler: MI[2]: on = 0 (type = 0, None) Soft-collision handlers: Initialized the Fragmentation_Handler. Initialized the Soft_Photon_Handler. Initialized the Reweighting. Read in channels from directory: Results/Comix/MC_2_2__j__j__e-__e+ Process_Group::CalculateTotalXSec(): Calculate xs for '2_2__j__j__e-__e+' (Comix) 2_2__j__j__e-__e+ : 1929.23 pb +- ( 3.07365 pb = 0.15932 % )  exp. eff: 21.7926 % reduce max for 2_2__j__j__e-__e+ to 1 ( eps = 0.001 -> exp. eff 0.217926 ) ---------------------------------------------------------- -- SHERPA generates events with the following structure -- ---------------------------------------------------------- Event generation : Partially unweighted Perturbative : Signal_Processes Perturbative : Minimum_Bias: None Perturbative : Hard_Decays Perturbative : Jet_Evolution:CSS Perturbative : Lepton_FS_QED_Corrections:None Perturbative : Multiple_Interactions: None Hadronization : Beam_Remnants:None Hadronization : Hadronization:None Hadronization : Hadron_Decays Userhook : Analysis : Rivet --------------------------------------------------------- Event 1 ( 1s elapsed / 4h 53m 18s left ) -> ETA: Wed Nov 29 03:35 XS = 8852.68 pb +- ( 8852.68 pb = 100 % ) Event 2 ( 1s elapsed / 2h 27m 28s left ) -> ETA: Wed Nov 29 01:09 XS = 8852.68 pb +- ( 0 pb = 0 % ) Event 3 ( 1s elapsed / 1h 38m 18s left ) -> ETA: Wed Nov 29 00:20 XS = 3319.75 pb +- ( 1619.87 pb = 48 % ) Event 4 ( 1s elapsed / 1h 13m 43s left ) -> ETA: Tue Nov 28 23:55 XS = 2950.89 pb +- ( 1258.26 pb = 42 % ) Event 5 ( 1s elapsed / 58m 58s left ) -> ETA: Tue Nov 28 23:40 XS = 3404.88 pb +- ( 1243.28 pb = 36 % ) Event 6 ( 1s elapsed / 49m 24s left ) -> ETA: Tue Nov 28 23:31 XS = 3124.47 pb +- ( 1057.64 pb = 33 % ) Event 7 ( 1s elapsed / 42m 21s left ) -> ETA: Tue Nov 28 23:24 XS = 3261.51 pb +- ( 1006.52 pb = 30 % ) Event 8 ( 1s elapsed / 37m 3s left ) -> ETA: Tue Nov 28 23:19 XS = 2529.34 pb +- ( 769.652 pb = 30 % ) Event 9 ( 1s elapsed / 32m 55s left ) -> ETA: Tue Nov 28 23:14 XS = 2414.37 pb +- ( 696.967 pb = 28 % ) Event 10 ( 1s elapsed / 29m 48s left ) -> ETA: Tue Nov 28 23:11 XS = 2529.34 pb +- ( 685.862 pb = 27 % ) Event 20 ( 1s elapsed / 15m 3s left ) -> ETA: Tue Nov 28 22:57 XS = 2529.34 pb +- ( 481.451 pb = 19 % ) Event 30 ( 1s elapsed / 10m 8s left ) -> ETA: Tue Nov 28 22:52 XS = 2269.92 pb +- ( 358.905 pb = 15 % ) Event 40 ( 1s elapsed / 7m 40s left ) -> ETA: Tue Nov 28 22:49 XS = 2199.42 pb +- ( 302.421 pb = 13 % ) Event 50 ( 1s elapsed / 6m 10s left ) -> ETA: Tue Nov 28 22:48 XS = 2367.03 pb +- ( 287.291 pb = 12 % ) Event 60 ( 1s elapsed / 5m 11s left ) -> ETA: Tue Nov 28 22:47 XS = 2222.43 pb +- ( 248.823 pb = 11 % ) Event 70 ( 1s elapsed / 4m 29s left ) -> ETA: Tue Nov 28 22:46 XS = 2051.94 pb +- ( 215.317 pb = 10 % ) Event 80 ( 1s elapsed / 3m 58s left ) -> ETA: Tue Nov 28 22:45 XS = 2101.53 pb +- ( 205.488 pb = 9 % ) Event 90 ( 1s elapsed / 3m 32s left ) -> ETA: Tue Nov 28 22:45 XS = 2225.53 pb +- ( 203.257 pb = 9 % ) Event 100 ( 1s elapsed / 3m 13s left ) -> ETA: Tue Nov 28 22:45 XS = 2078.09 pb +- ( 182.003 pb = 8 % ) Event 200 ( 2s elapsed / 1m 45s left ) -> ETA: Tue Nov 28 22:43 XS = 1984.9 pb +- ( 123.691 pb = 6 % ) Event 300 ( 2s elapsed / 1m 15s left ) -> ETA: Tue Nov 28 22:43 XS = 1986.39 pb +- ( 101.039 pb = 5 % ) Event 400 ( 2s elapsed / 1m left ) -> ETA: Tue Nov 28 22:42 XS = 2044.5 pb +- ( 89.6727 pb = 4 % ) Event 500 ( 2s elapsed / 51s left ) -> ETA: Tue Nov 28 22:42 XS = 1949.07 pb +- ( 76.9908 pb = 3 % ) Event 600 ( 2s elapsed / 45s left ) -> ETA: Tue Nov 28 22:42 XS = 1942.8 pb +- ( 70.0856 pb = 3 % ) Event 700 ( 3s elapsed / 41s left ) -> ETA: Tue Nov 28 22:42 XS = 1896.23 pb +- ( 63.5425 pb = 3 % ) Event 800 ( 3s elapsed / 37s left ) -> ETA: Tue Nov 28 22:42 XS = 1909.96 pb +- ( 59.8089 pb = 3 % ) Event 900 ( 3s elapsed / 35s left ) -> ETA: Tue Nov 28 22:42 XS = 1907.9 pb +- ( 56.3351 pb = 2 % ) Event 1000 ( 3s elapsed / 33s left ) -> ETA: Tue Nov 28 22:42 XS = 1895.24 pb +- ( 53.1372 pb = 2 % ) Event 2000 ( 5s elapsed / 23s left ) -> ETA: Tue Nov 28 22:42 XS = 1947.14 pb +- ( 38.4563 pb = 1 % ) Event 3000 ( 7s elapsed / 18s left ) -> ETA: Tue Nov 28 22:42 XS = 1966.1 pb +- ( 31.661 pb = 1 % ) Event 4000 ( 9s elapsed / 14s left ) -> ETA: Tue Nov 28 22:42 XS = 1957.15 pb +- ( 27.3119 pb = 1 % ) Event 5000 ( 12s elapsed / 12s left ) -> ETA: Tue Nov 28 22:42 XS = 1940.28 pb +- ( 24.2474 pb = 1 % ) Event 6000 ( 14s elapsed / 9s left ) -> ETA: Tue Nov 28 22:42 XS = 1942.3 pb +- ( 22.1546 pb = 1 % ) Event 7000 ( 15s elapsed / 6s left ) -> ETA: Tue Nov 28 22:42 XS = 1941.93 pb +- ( 20.5077 pb = 1 % ) Event 8000 ( 17s elapsed / 4s left ) -> ETA: Tue Nov 28 22:42 XS = 1943.89 pb +- ( 19.1997 pb = 0 % ) Event 9000 ( 19s elapsed / 2s left ) -> ETA: Tue Nov 28 22:42 XS = 1946.26 pb +- ( 18.1207 pb = 0 % ) Event 10000 ( 21 s total ) = 4.17391e+07 evts/day In Event_Handler::Finish : Summarizing the run may take some time. Rivet_Interface::Finish(Analysis_CSS_1em/8033){ } -------------------------------------------------------------------------- Nominal or variation name XS [pb] RelDev AbsErr [pb] RelErr -------------------------------------------------------------------------- Nominal  1950.19 0 % 17.2206 0.88 % -------------------------------------------------------------------------- Return_Value::PrintStatistics(): Statistics { Generated events: 10000 } Blob_List: Momentum Fail Statistics { } Decay_Channel: Kinematics max fail statistics { } WARNING: You are using an unsupported development branch. WARNING: Some settings that have been defined in the input files and/or the command line have not been used. For more details, see the Settings Report. Time: 21s on Tue Nov 28 22:42:16 2023 (User: 21s, System: 0s, Children User: 0s, Children System: 0s) Welcome to Sherpa, Daniel Reichelt on ip3-ws3.phyip3.dur.ac.uk. Initialization of framework underway. The local time is Wed Nov 29 18:37:24 2023. Run_Parameter::Init(): Setting memory limit to 187.131 GB. Random::SetSeed(): Seed set to 8033 ----------------------------------------------------------------------------- ----------- Event generation run with SHERPA started ....... ----------- ----------------------------------------------------------------------------- ................................................ | + ................................................ || | + + ................................... .... | | / + ................. ................ _,_ | .... || +| + + ............................... __.' ,\| ... || / +| + .............................. ( \ \ ... | | | + + \ + ............................. ( \ -/ .... || + | + ........ ................... (~~~~~~~~~## + + + ............................. ~~(! '~~~~~~~ \ + + + + ............................... `~~~QQQQQDb // | + + + + ........................ .......... IDDDDP|| \ + + + + + + .................................... IDDDI|| \ + .................................... IHD HD|| \ + + + + + + + + ................................... IHD ##| :-) + +\ + ......... ............... ......... IHI ## / / + + + + +\ + ................................... IHI/ / / + + + + + ................................... ## | | / / + + + + / + ....................... /TT\ ..... ##/ /// / + + + + + + +/ + ......................./TTT/T\ ... /TT\/\\\ / + + + + + + +/ \ + ....................../TTT/TTTT\...|TT/T\\\/ + ++ + / ----------------------------------------------------------------------------- SHERPA version 3.0.0beta1 (Dhaulagiri) Authors: Enrico Bothmann, Stefan Hoeche, Frank Krauss, Silvan Kuttimalai, Marek Schoenherr, Holger Schulz, Steffen Schumann, Frank Siegert, Korinna Zapp Former Authors: Timo Fischer, Tanju Gleisberg, Hendrik Hoeth, Ralf Kuhn, Thomas Laubrich, Andreas Schaelicke, Jan Winter This program uses a lot of genuine and original research work by other people. Users are encouraged to refer to the various original publications. Users are kindly asked to refer to the documentation published under JHEP 02(2009)007 Please visit also our homepage http://sherpa.hepforge.org for news, bugreports, updates and new releases. ----------------------------------------------------------------------------- WARNING: You are using an unsupported development branch. Git branch unknownurl, revision unknownrevision. Hadron_Init::Init(): Initializing kf table for hadrons. Beam_Spectra_Handler: type = Collider Setup for P+ (on = 0, p = (6500,0,0,6500)) and P+ (on = 0, p = (6500,0,0,-6500)). ISR handling: PDFs for hard scattering: NNPDF31_nnlo_as_0118_mc + NNPDF31_nnlo_as_0118_mc PDFs for multiple parton interactions: PDF4LHC21_40_pdfas + PDF4LHC21_40_pdfas Remnant_Handlers: hard process: P+: Intact + P+: Intact Standard_Model::FixEWParameters() { Input scheme: Gmu Gmu scheme, input: GF, m_W, m_Z, m_h, widths Ren. scheme: Gmu Parameters: sin^2(\theta_W) = 0.223043 - 0.00110541 i vev = 246.218 } Running_AlphaQED::PrintSummary() { Setting \alpha according to EW scheme 1/\alpha(0) = 137.036 1/\alpha(def) = 132.119 } One_Running_AlphaS::PrintSummary() { Setting \alpha_s according to PDF perturbative order 2 \alpha_s(M_Z) = 0.118 } One_Running_AlphaS::PrintSummary() { Setting \alpha_s according to PDF perturbative order 2 \alpha_s(M_Z) = 0.118 } List of Particle Data IDName kfc Mass Width Stable Massive Active Yukawa d 1 0.01 0 1 0 1 0 u 2 0.005 0 1 0 1 0 s 3 0.2 0 1 0 1 0 c 4 1.42 0 1 0 1 0 b 5 4.92 0 1 0 1 0 t 6 172.5 1.32 0 1 1 172.5 e- 11 0.000511 0 1 0 1 0 ve 12 0 0 1 0 1 0 mu- 13 0.105 0 1 0 1 0 vmu 14 0 0 1 0 1 0 tau- 15 1.777 2.26735e-12 0 1 1 1.777 vtau 16 0 0 1 0 1 0 G 21 0 0 1 0 1 0 P 22 0 0 1 0 1 0 Z 23 91.1876 2.4952 0 1 1 91.1876 W+ 24 80.379 2.085 0 1 1 80.379 h0 25 125.09 0.0041 0 1 1 125.09 string 95 0 0 1 0 1 0 cluster 96 0 0 1 0 1 0 Instanton 999 0 0 0 0 1 0 List of Particle Containers IDName kfc Constituents l 90 {e-,e+,mu-,mu+} v 91 {ve,veb,vmu,vmub,vtau,vtaub} f 92 {d,db,u,ub,s,sb,c,cb,b,bb,e-,e+,mu-,mu+,ve,veb,vmu,vmub,vtau,vtaub} j 93 {d,db,u,ub,s,sb,c,cb,b,bb,G} Q 94 {d,db,u,ub,s,sb,c,cb,b,bb} ewj 98 {d,db,u,ub,s,sb,c,cb,b,bb,G,P} Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF ####### Permutations for 2 partons ############## found 2 entries: 1th permutation = { 0 1 } 2th permutation = { 1 0 } FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. IF: Soft, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. II: Soft, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF ####### Permutations for 2 partons ############## found 2 entries: 1th permutation = { 0 1 } 2th permutation = { 1 0 } FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. IF: Soft, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. II: Soft, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. Shower_Handler initialised. +-----------------------------------------+ | X X X XXXX XXX XXX XXX | | X X XX XX X X X X X X | | X X X X X XXX X XXX X X XXX XXX | | XXXXX X X X X X X X X X | | X X X X XXXX XXX XXX XXX | +-----------------------------------------+ | please cite: JHEP 0202:044,2002 | +-----------------------------------------+ Matrix_Element_Handler::Matrix_Element_Handler(): Set pilot run mode to 1. ME_Generator_Base::SetPSMasses(): Massive PS flavours for Comix: (none) +----------------------------------+ | | | CCC OOO M M I X X | | C O O MM MM I X X | | C O O M M M I X | | C O O M M I X X | | CCC OOO M M I X X | | | +==================================+ | Color dressed Matrix Elements | | http://comix.freacafe.de | | please cite JHEP12(2008)039 | +----------------------------------+ ME_Generator_Base::SetPSMasses(): Massive PS flavours for Amegic: (none) ME_Generator_Base::SetPSMasses(): Massive PS flavours for Internal: (none) Matrix_Element_Handler::BuildProcesses(): 3 ME generators, 1 process blocks. Matrix_Element_Handler::BuildProcesses(): Setting up processes .. done ( 51 MB, 0s / 0s ). Matrix_Element_Handler::InitializeProcesses(): Performing tests .. done ( 51 MB, 0s / 0s ). Matrix_Element_Handler::InitializeProcesses(): Initializing scales done ( 51 MB, 0s / 0s ). Initialized the Matrix_Element_Handler for the hard processes. Initialized the Beam_Remnant_Handler. MI_Handler::MI_Handler(id = 2, name = None, type = 0) Underlying event/multiple interactions handler: MI[2]: on = 0 (type = 0, None) Soft-collision handlers: Initialized the Fragmentation_Handler. Initialized the Soft_Photon_Handler. Initialized the Reweighting. Read in channels from directory: Results/Comix/MC_2_2__j__j__l__l Process_Group::CalculateTotalXSec(): Calculate xs for '2_2__j__j__l__l' (Comix) 2_2__j__j__l__l : 3430.28 pb +- ( 5.31938 pb = 0.155071 % )  exp. eff: 13.1482 % reduce max for 2_2__j__j__l__l to 1 ( eps = 0.001 -> exp. eff 0.131482 ) ---------------------------------------------------------- -- SHERPA generates events with the following structure -- ---------------------------------------------------------- Event generation : Partially unweighted Perturbative : Signal_Processes Perturbative : Minimum_Bias: None Perturbative : Hard_Decays Perturbative : Jet_Evolution:CFP Perturbative : Lepton_FS_QED_Corrections:None Perturbative : Multiple_Interactions: None Hadronization : Beam_Remnants:None Hadronization : Hadronization:None Hadronization : Hadron_Decays Userhook : Analysis : Rivet --------------------------------------------------------- Event 1 ( 1s elapsed / 4h 53m 18s left ) -> ETA: Wed Nov 29 23:30 XS = 26089.4 pb +- ( 26089.4 pb = 100 % ) Event 2 ( 1s elapsed / 2h 26m 38s left ) -> ETA: Wed Nov 29 21:04 XS = 26089.4 pb +- ( 0 pb = 0 % ) Event 3 ( 1s elapsed / 1h 37m 44s left ) -> ETA: Wed Nov 29 20:15 XS = 5217.88 pb +- ( 2789.08 pb = 53 % ) Event 4 ( 1s elapsed / 1h 13m 43s left ) -> ETA: Wed Nov 29 19:51 XS = 4537.29 pb +- ( 2108.3 pb = 46 % ) Event 5 ( 1s elapsed / 58m 58s left ) -> ETA: Wed Nov 29 19:36 XS = 4658.82 pb +- ( 1922.97 pb = 41 % ) Event 6 ( 1s elapsed / 49m 8s left ) -> ETA: Wed Nov 29 19:26 XS = 3069.34 pb +- ( 1188.75 pb = 38 % ) Event 7 ( 1s elapsed / 42m 21s left ) -> ETA: Wed Nov 29 19:19 XS = 3381.96 pb +- ( 1203.73 pb = 35 % ) Event 8 ( 1s elapsed / 37m 3s left ) -> ETA: Wed Nov 29 19:14 XS = 3794.82 pb +- ( 1251.7 pb = 32 % ) Event 9 ( 1s elapsed / 32m 55s left ) -> ETA: Wed Nov 29 19:10 XS = 4048.36 pb +- ( 1251.18 pb = 30 % ) Event 10 ( 1s elapsed / 29m 38s left ) -> ETA: Wed Nov 29 19:07 XS = 4141.18 pb +- ( 1210.78 pb = 29 % ) Event 20 ( 1s elapsed / 15m 13s left ) -> ETA: Wed Nov 29 18:52 XS = 3366.38 pb +- ( 704.781 pb = 20 % ) Event 30 ( 1s elapsed / 10m 21s left ) -> ETA: Wed Nov 29 18:47 XS = 3220.92 pb +- ( 551.697 pb = 17 % ) Event 40 ( 1s elapsed / 7m 53s left ) -> ETA: Wed Nov 29 18:45 XS = 3377.27 pb +- ( 499.041 pb = 14 % ) Event 50 ( 1s elapsed / 6m 24s left ) -> ETA: Wed Nov 29 18:43 XS = 3285.82 pb +- ( 434.987 pb = 13 % ) Event 60 ( 1s elapsed / 5m 26s left ) -> ETA: Wed Nov 29 18:42 XS = 3194.62 pb +- ( 386.744 pb = 12 % ) Event 70 ( 2s elapsed / 4m 46s left ) -> ETA: Wed Nov 29 18:42 XS = 3064.19 pb +- ( 344.351 pb = 11 % ) Event 80 ( 2s elapsed / 4m 14s left ) -> ETA: Wed Nov 29 18:41 XS = 3096.67 pb +- ( 325.263 pb = 10 % ) Event 90 ( 2s elapsed / 3m 52s left ) -> ETA: Wed Nov 29 18:41 XS = 2991.14 pb +- ( 296.859 pb = 9 % ) Event 100 ( 2s elapsed / 3m 31s left ) -> ETA: Wed Nov 29 18:40 XS = 2934.69 pb +- ( 276.627 pb = 9 % ) Event 200 ( 2s elapsed / 2m 3s left ) -> ETA: Wed Nov 29 18:39 XS = 3183.58 pb +- ( 210.996 pb = 6 % ) Event 300 ( 2s elapsed / 1m 35s left ) -> ETA: Wed Nov 29 18:39 XS = 3144.57 pb +- ( 170.293 pb = 5 % ) Event 400 ( 3s elapsed / 1m 20s left ) -> ETA: Wed Nov 29 18:38 XS = 3132.92 pb +- ( 146.962 pb = 4 % ) Event 500 ( 3s elapsed / 1m 13s left ) -> ETA: Wed Nov 29 18:38 XS = 3018.21 pb +- ( 126.946 pb = 4 % ) Event 600 ( 4s elapsed / 1m 5s left ) -> ETA: Wed Nov 29 18:38 XS = 3148.99 pb +- ( 120.561 pb = 3 % ) Event 700 ( 4s elapsed / 1m left ) -> ETA: Wed Nov 29 18:38 XS = 3187.74 pb +- ( 112.895 pb = 3 % ) Event 800 ( 4s elapsed / 57s left ) -> ETA: Wed Nov 29 18:38 XS = 3210.02 pb +- ( 106.288 pb = 3 % ) Event 900 ( 5s elapsed / 54s left ) -> ETA: Wed Nov 29 18:38 XS = 3231.55 pb +- ( 100.834 pb = 3 % ) Event 1000 ( 5s elapsed / 51s left ) -> ETA: Wed Nov 29 18:38 XS = 3304.97 pb +- ( 97.6746 pb = 2 % ) Event 2000 ( 9s elapsed / 39s left ) -> ETA: Wed Nov 29 18:38 XS = 3365.72 pb +- ( 70.2401 pb = 2 % ) Event 3000 ( 13s elapsed / 31s left ) -> ETA: Wed Nov 29 18:38 XS = 3382.67 pb +- ( 57.6174 pb = 1 % ) Event 4000 ( 17s elapsed / 26s left ) -> ETA: Wed Nov 29 18:38 XS = 3374.98 pb +- ( 49.7928 pb = 1 % ) Event 5000 ( 21s elapsed / 21s left ) -> ETA: Wed Nov 29 18:38 XS = 3388.15 pb +- ( 44.6967 pb = 1 % ) Event 6000 ( 25s elapsed / 17s left ) -> ETA: Wed Nov 29 18:38 XS = 3414.17 pb +- ( 41.0921 pb = 1 % ) Event 7000 ( 29s elapsed / 12s left ) -> ETA: Wed Nov 29 18:38 XS = 3407.71 pb +- ( 37.9772 pb = 1 % ) Event 8000 ( 33s elapsed / 8s left ) -> ETA: Wed Nov 29 18:38 XS = 3429.1 pb +- ( 35.7305 pb = 1 % ) Event 9000 ( 37s elapsed / 4s left ) -> ETA: Wed Nov 29 18:38 XS = 3428.66 pb +- ( 33.683 pb = 0 % ) Event 10000 ( 41 s total ) = 2.11921e+07 evts/day In Event_Handler::Finish : Summarizing the run may take some time. Rivet_Interface::Finish(Analysis_Alaric/8033){ } -------------------------------------------------------------------------- Nominal or variation name XS [pb] RelDev AbsErr [pb] RelErr -------------------------------------------------------------------------- Nominal  3438.41 0 % 32.0385 0.93 % -------------------------------------------------------------------------- Return_Value::PrintStatistics(): Statistics { Generated events: 10000 } Blob_List: Momentum Fail Statistics { } Decay_Channel: Kinematics max fail statistics { } WARNING: You are using an unsupported development branch. WARNING: Some settings that have been defined in the input files and/or the command line have not been used. For more details, see the Settings Report. Time: 41s on Wed Nov 29 18:38:06 2023 (User: 40s, System: 0s, Children User: 0s, Children System: 0s) Welcome to Sherpa, Daniel Reichelt on ip3-ws3.phyip3.dur.ac.uk. Initialization of framework underway. The local time is Wed Nov 29 18:43:36 2023. Run_Parameter::Init(): Setting memory limit to 187.131 GB. Random::SetSeed(): Seed set to 8033 ----------------------------------------------------------------------------- ----------- Event generation run with SHERPA started ....... ----------- ----------------------------------------------------------------------------- ................................................ | + ................................................ || | + + ................................... .... | | / + ................. ................ _,_ | .... || +| + + ............................... __.' ,\| ... || / +| + .............................. ( \ \ ... | | | + + \ + ............................. ( \ -/ .... || + | + ........ ................... (~~~~~~~~~## + + + ............................. ~~(! '~~~~~~~ \ + + + + ............................... `~~~QQQQQDb // | + + + + ........................ .......... IDDDDP|| \ + + + + + + .................................... IDDDI|| \ + .................................... IHD HD|| \ + + + + + + + + ................................... IHD ##| :-) + +\ + ......... ............... ......... IHI ## / / + + + + +\ + ................................... IHI/ / / + + + + + ................................... ## | | / / + + + + / + ....................... /TT\ ..... ##/ /// / + + + + + + +/ + ......................./TTT/T\ ... /TT\/\\\ / + + + + + + +/ \ + ....................../TTT/TTTT\...|TT/T\\\/ + ++ + / ----------------------------------------------------------------------------- SHERPA version 3.0.0beta1 (Dhaulagiri) Authors: Enrico Bothmann, Stefan Hoeche, Frank Krauss, Silvan Kuttimalai, Marek Schoenherr, Holger Schulz, Steffen Schumann, Frank Siegert, Korinna Zapp Former Authors: Timo Fischer, Tanju Gleisberg, Hendrik Hoeth, Ralf Kuhn, Thomas Laubrich, Andreas Schaelicke, Jan Winter This program uses a lot of genuine and original research work by other people. Users are encouraged to refer to the various original publications. Users are kindly asked to refer to the documentation published under JHEP 02(2009)007 Please visit also our homepage http://sherpa.hepforge.org for news, bugreports, updates and new releases. ----------------------------------------------------------------------------- WARNING: You are using an unsupported development branch. Git branch unknownurl, revision unknownrevision. Hadron_Init::Init(): Initializing kf table for hadrons. Beam_Spectra_Handler: type = Collider Setup for P+ (on = 0, p = (6500,0,0,6500)) and P+ (on = 0, p = (6500,0,0,-6500)). ISR handling: PDFs for hard scattering: NNPDF31_nnlo_as_0118_mc + NNPDF31_nnlo_as_0118_mc PDFs for multiple parton interactions: PDF4LHC21_40_pdfas + PDF4LHC21_40_pdfas Remnant_Handlers: hard process: P+: Intact + P+: Intact Standard_Model::FixEWParameters() { Input scheme: Gmu Gmu scheme, input: GF, m_W, m_Z, m_h, widths Ren. scheme: Gmu Parameters: sin^2(\theta_W) = 0.223043 - 0.00110541 i vev = 246.218 } Running_AlphaQED::PrintSummary() { Setting \alpha according to EW scheme 1/\alpha(0) = 137.036 1/\alpha(def) = 132.119 } One_Running_AlphaS::PrintSummary() { Setting \alpha_s according to PDF perturbative order 2 \alpha_s(M_Z) = 0.118 } One_Running_AlphaS::PrintSummary() { Setting \alpha_s according to PDF perturbative order 2 \alpha_s(M_Z) = 0.118 } List of Particle Data IDName kfc Mass Width Stable Massive Active Yukawa d 1 0.01 0 1 0 1 0 u 2 0.005 0 1 0 1 0 s 3 0.2 0 1 0 1 0 c 4 1.42 0 1 0 1 0 b 5 4.92 0 1 0 1 0 t 6 172.5 1.32 0 1 1 172.5 e- 11 0.000511 0 1 0 1 0 ve 12 0 0 1 0 1 0 mu- 13 0.105 0 1 0 1 0 vmu 14 0 0 1 0 1 0 tau- 15 1.777 2.26735e-12 0 1 1 1.777 vtau 16 0 0 1 0 1 0 G 21 0 0 1 0 1 0 P 22 0 0 1 0 1 0 Z 23 91.1876 2.4952 0 1 1 91.1876 W+ 24 80.379 2.085 0 1 1 80.379 h0 25 125.09 0.0041 0 1 1 125.09 string 95 0 0 1 0 1 0 cluster 96 0 0 1 0 1 0 Instanton 999 0 0 0 0 1 0 List of Particle Containers IDName kfc Constituents l 90 {e-,e+,mu-,mu+} v 91 {ve,veb,vmu,vmub,vtau,vtaub} f 92 {d,db,u,ub,s,sb,c,cb,b,bb,e-,e+,mu-,mu+,ve,veb,vmu,vmub,vtau,vtaub} j 93 {d,db,u,ub,s,sb,c,cb,b,bb,G} Q 94 {d,db,u,ub,s,sb,c,cb,b,bb} ewj 98 {d,db,u,ub,s,sb,c,cb,b,bb,G,P} Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF ####### Permutations for 2 partons ############## found 2 entries: 1th permutation = { 0 1 } 2th permutation = { 1 0 } FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. IF: Soft, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. II: Soft, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF ####### Permutations for 2 partons ############## found 2 entries: 1th permutation = { 0 1 } 2th permutation = { 1 0 } FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. IF: Soft, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. II: Soft, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. Shower_Handler initialised. +-----------------------------------------+ | X X X XXXX XXX XXX XXX | | X X XX XX X X X X X X | | X X X X X XXX X XXX X X XXX XXX | | XXXXX X X X X X X X X X | | X X X X XXXX XXX XXX XXX | +-----------------------------------------+ | please cite: JHEP 0202:044,2002 | +-----------------------------------------+ Matrix_Element_Handler::Matrix_Element_Handler(): Set pilot run mode to 1. ME_Generator_Base::SetPSMasses(): Massive PS flavours for Comix: (none) +----------------------------------+ | | | CCC OOO M M I X X | | C O O MM MM I X X | | C O O M M M I X | | C O O M M I X X | | CCC OOO M M I X X | | | +==================================+ | Color dressed Matrix Elements | | http://comix.freacafe.de | | please cite JHEP12(2008)039 | +----------------------------------+ ME_Generator_Base::SetPSMasses(): Massive PS flavours for Amegic: (none) ME_Generator_Base::SetPSMasses(): Massive PS flavours for Internal: (none) Matrix_Element_Handler::BuildProcesses(): 3 ME generators, 1 process blocks. Matrix_Element_Handler::BuildProcesses(): Setting up processes .. done ( 51 MB, 0s / 0s ). Matrix_Element_Handler::InitializeProcesses(): Performing tests .. done ( 51 MB, 0s / 0s ). Matrix_Element_Handler::InitializeProcesses(): Initializing scales done ( 51 MB, 0s / 0s ). Initialized the Matrix_Element_Handler for the hard processes. Initialized the Beam_Remnant_Handler. MI_Handler::MI_Handler(id = 2, name = None, type = 0) Underlying event/multiple interactions handler: MI[2]: on = 0 (type = 0, None) Soft-collision handlers: Initialized the Fragmentation_Handler. Initialized the Soft_Photon_Handler. Initialized the Reweighting. Read in channels from directory: Results/Comix/MC_2_2__j__j__l__l Process_Group::CalculateTotalXSec(): Calculate xs for '2_2__j__j__l__l' (Comix) 2_2__j__j__l__l : 3430.28 pb +- ( 5.31938 pb = 0.155071 % )  exp. eff: 13.1482 % reduce max for 2_2__j__j__l__l to 1 ( eps = 0.001 -> exp. eff 0.131482 ) ---------------------------------------------------------- -- SHERPA generates events with the following structure -- ---------------------------------------------------------- Event generation : Partially unweighted Perturbative : Signal_Processes Perturbative : Minimum_Bias: None Perturbative : Hard_Decays Perturbative : Jet_Evolution:CFP Perturbative : Lepton_FS_QED_Corrections:None Perturbative : Multiple_Interactions: None Hadronization : Beam_Remnants:None Hadronization : Hadronization:None Hadronization : Hadron_Decays Userhook : Analysis : Rivet --------------------------------------------------------- Event 1 ( 1s elapsed / 3h 34m 58s left ) -> ETA: Wed Nov 29 22:18 XS = 26089.4 pb +- ( 26089.4 pb = 100 % ) Event 2 ( 1s elapsed / 1h 47m 28s left ) -> ETA: Wed Nov 29 20:31 XS = 26089.4 pb +- ( 0 pb = 0 % ) Event 3 ( 1s elapsed / 1h 12m 12s left ) -> ETA: Wed Nov 29 19:55 XS = 5217.88 pb +- ( 2789.08 pb = 53 % ) Event 4 ( 1s elapsed / 54m 8s left ) -> ETA: Wed Nov 29 19:37 XS = 4537.29 pb +- ( 2108.3 pb = 46 % ) Event 5 ( 1s elapsed / 43m 18s left ) -> ETA: Wed Nov 29 19:26 XS = 4658.82 pb +- ( 1922.97 pb = 41 % ) Event 6 ( 1s elapsed / 36m 22s left ) -> ETA: Wed Nov 29 19:19 XS = 3069.34 pb +- ( 1188.75 pb = 38 % ) Event 7 ( 1s elapsed / 31m 10s left ) -> ETA: Wed Nov 29 19:14 XS = 3381.96 pb +- ( 1203.73 pb = 35 % ) Event 8 ( 1s elapsed / 27m 16s left ) -> ETA: Wed Nov 29 19:10 XS = 3794.82 pb +- ( 1251.7 pb = 32 % ) Event 9 ( 1s elapsed / 24m 14s left ) -> ETA: Wed Nov 29 19:07 XS = 4048.36 pb +- ( 1251.18 pb = 30 % ) Event 10 ( 1s elapsed / 21m 58s left ) -> ETA: Wed Nov 29 19:05 XS = 4141.18 pb +- ( 1210.78 pb = 29 % ) Event 20 ( 1s elapsed / 11m 13s left ) -> ETA: Wed Nov 29 18:54 XS = 3366.38 pb +- ( 704.781 pb = 20 % ) Event 30 ( 1s elapsed / 7m 45s left ) -> ETA: Wed Nov 29 18:51 XS = 3220.92 pb +- ( 551.697 pb = 17 % ) Event 40 ( 1s elapsed / 5m 56s left ) -> ETA: Wed Nov 29 18:49 XS = 3377.27 pb +- ( 499.041 pb = 14 % ) Event 50 ( 1s elapsed / 4m 52s left ) -> ETA: Wed Nov 29 18:48 XS = 3285.82 pb +- ( 434.987 pb = 13 % ) Event 60 ( 1s elapsed / 4m 11s left ) -> ETA: Wed Nov 29 18:47 XS = 3194.62 pb +- ( 386.744 pb = 12 % ) Event 70 ( 1s elapsed / 3m 41s left ) -> ETA: Wed Nov 29 18:47 XS = 3064.19 pb +- ( 344.351 pb = 11 % ) Event 80 ( 1s elapsed / 3m 18s left ) -> ETA: Wed Nov 29 18:46 XS = 3096.67 pb +- ( 325.263 pb = 10 % ) Event 90 ( 1s elapsed / 3m left ) -> ETA: Wed Nov 29 18:46 XS = 2991.14 pb +- ( 296.859 pb = 9 % ) Event 100 ( 1s elapsed / 2m 46s left ) -> ETA: Wed Nov 29 18:46 XS = 2934.69 pb +- ( 276.627 pb = 9 % ) Event 200 ( 2s elapsed / 1m 40s left ) -> ETA: Wed Nov 29 18:45 XS = 3183.58 pb +- ( 210.996 pb = 6 % ) Event 300 ( 2s elapsed / 1m 21s left ) -> ETA: Wed Nov 29 18:44 XS = 3144.57 pb +- ( 170.293 pb = 5 % ) Event 400 ( 2s elapsed / 1m 11s left ) -> ETA: Wed Nov 29 18:44 XS = 3132.92 pb +- ( 146.962 pb = 4 % ) Event 500 ( 3s elapsed / 1m 5s left ) -> ETA: Wed Nov 29 18:44 XS = 3018.21 pb +- ( 126.946 pb = 4 % ) Event 600 ( 3s elapsed / 1m left ) -> ETA: Wed Nov 29 18:44 XS = 3148.99 pb +- ( 120.561 pb = 3 % ) Event 700 ( 4s elapsed / 55s left ) -> ETA: Wed Nov 29 18:44 XS = 3187.74 pb +- ( 112.895 pb = 3 % ) Event 800 ( 4s elapsed / 52s left ) -> ETA: Wed Nov 29 18:44 XS = 3210.02 pb +- ( 106.288 pb = 3 % ) Event 900 ( 4s elapsed / 49s left ) -> ETA: Wed Nov 29 18:44 XS = 3231.55 pb +- ( 100.834 pb = 3 % ) Event 1000 ( 5s elapsed / 46s left ) -> ETA: Wed Nov 29 18:44 XS = 3304.97 pb +- ( 97.6746 pb = 2 % ) Event 2000 ( 8s elapsed / 33s left ) -> ETA: Wed Nov 29 18:44 XS = 3365.72 pb +- ( 70.2401 pb = 2 % ) Event 3000 ( 11s elapsed / 27s left ) -> ETA: Wed Nov 29 18:44 XS = 3382.67 pb +- ( 57.6174 pb = 1 % ) Event 4000 ( 15s elapsed / 22s left ) -> ETA: Wed Nov 29 18:44 XS = 3374.98 pb +- ( 49.7928 pb = 1 % ) Event 5000 ( 18s elapsed / 18s left ) -> ETA: Wed Nov 29 18:44 XS = 3388.15 pb +- ( 44.6967 pb = 1 % ) Event 6000 ( 21s elapsed / 14s left ) -> ETA: Wed Nov 29 18:44 XS = 3414.17 pb +- ( 41.0921 pb = 1 % ) Event 7000 ( 25s elapsed / 10s left ) -> ETA: Wed Nov 29 18:44 XS = 3407.71 pb +- ( 37.9772 pb = 1 % ) Event 8000 ( 28s elapsed / 7s left ) -> ETA: Wed Nov 29 18:44 XS = 3429.1 pb +- ( 35.7305 pb = 1 % ) Event 9000 ( 31s elapsed / 3s left ) -> ETA: Wed Nov 29 18:44 XS = 3428.66 pb +- ( 33.683 pb = 0 % ) Event 10000 ( 34 s total ) = 2.48562e+07 evts/day In Event_Handler::Finish : Summarizing the run may take some time. Rivet_Interface::Finish(Analysis_Alaric/8033){ } -------------------------------------------------------------------------- Nominal or variation name XS [pb] RelDev AbsErr [pb] RelErr -------------------------------------------------------------------------- Nominal  3438.41 0 % 32.0385 0.93 % -------------------------------------------------------------------------- Return_Value::PrintStatistics(): Statistics { Generated events: 10000 } Blob_List: Momentum Fail Statistics { } Decay_Channel: Kinematics max fail statistics { } WARNING: You are using an unsupported development branch. WARNING: Some settings that have been defined in the input files and/or the command line have not been used. For more details, see the Settings Report. Time: 35s on Wed Nov 29 18:44:11 2023 (User: 34s, System: 0s, Children User: 0s, Children System: 0s) Welcome to Sherpa, Daniel Reichelt on ip3-ws3.phyip3.dur.ac.uk. Initialization of framework underway. The local time is Wed Nov 29 19:45:49 2023. Run_Parameter::Init(): Setting memory limit to 187.131 GB. Random::SetSeed(): Seed set to 8033 ----------------------------------------------------------------------------- ----------- Event generation run with SHERPA started ....... ----------- ----------------------------------------------------------------------------- ................................................ | + ................................................ || | + + ................................... .... | | / + ................. ................ _,_ | .... || +| + + ............................... __.' ,\| ... || / +| + .............................. ( \ \ ... | | | + + \ + ............................. ( \ -/ .... || + | + ........ ................... (~~~~~~~~~## + + + ............................. ~~(! '~~~~~~~ \ + + + + ............................... `~~~QQQQQDb // | + + + + ........................ .......... IDDDDP|| \ + + + + + + .................................... IDDDI|| \ + .................................... IHD HD|| \ + + + + + + + + ................................... IHD ##| :-) + +\ + ......... ............... ......... IHI ## / / + + + + +\ + ................................... IHI/ / / + + + + + ................................... ## | | / / + + + + / + ....................... /TT\ ..... ##/ /// / + + + + + + +/ + ......................./TTT/T\ ... /TT\/\\\ / + + + + + + +/ \ + ....................../TTT/TTTT\...|TT/T\\\/ + ++ + / ----------------------------------------------------------------------------- SHERPA version 3.0.0beta1 (Dhaulagiri) Authors: Enrico Bothmann, Stefan Hoeche, Frank Krauss, Silvan Kuttimalai, Marek Schoenherr, Holger Schulz, Steffen Schumann, Frank Siegert, Korinna Zapp Former Authors: Timo Fischer, Tanju Gleisberg, Hendrik Hoeth, Ralf Kuhn, Thomas Laubrich, Andreas Schaelicke, Jan Winter This program uses a lot of genuine and original research work by other people. Users are encouraged to refer to the various original publications. Users are kindly asked to refer to the documentation published under JHEP 02(2009)007 Please visit also our homepage http://sherpa.hepforge.org for news, bugreports, updates and new releases. ----------------------------------------------------------------------------- WARNING: You are using an unsupported development branch. Git branch unknownurl, revision unknownrevision. Hadron_Init::Init(): Initializing kf table for hadrons. Beam_Spectra_Handler: type = Collider Setup for P+ (on = 0, p = (6500,0,0,6500)) and P+ (on = 0, p = (6500,0,0,-6500)). ISR handling: PDFs for hard scattering: NNPDF31_nnlo_as_0118_mc + NNPDF31_nnlo_as_0118_mc PDFs for multiple parton interactions: PDF4LHC21_40_pdfas + PDF4LHC21_40_pdfas Remnant_Handlers: hard process: P+: Intact + P+: Intact Standard_Model::FixEWParameters() { Input scheme: Gmu Gmu scheme, input: GF, m_W, m_Z, m_h, widths Ren. scheme: Gmu Parameters: sin^2(\theta_W) = 0.223043 - 0.00110541 i vev = 246.218 } Running_AlphaQED::PrintSummary() { Setting \alpha according to EW scheme 1/\alpha(0) = 137.036 1/\alpha(def) = 132.119 } One_Running_AlphaS::PrintSummary() { Setting \alpha_s according to PDF perturbative order 2 \alpha_s(M_Z) = 0.118 } One_Running_AlphaS::PrintSummary() { Setting \alpha_s according to PDF perturbative order 2 \alpha_s(M_Z) = 0.118 } List of Particle Data IDName kfc Mass Width Stable Massive Active Yukawa d 1 0.01 0 1 0 1 0 u 2 0.005 0 1 0 1 0 s 3 0.2 0 1 0 1 0 c 4 1.42 0 1 0 1 0 b 5 4.92 0 1 0 1 0 t 6 172.5 1.32 0 1 1 172.5 e- 11 0.000511 0 1 0 1 0 ve 12 0 0 1 0 1 0 mu- 13 0.105 0 1 0 1 0 vmu 14 0 0 1 0 1 0 tau- 15 1.777 2.26735e-12 0 1 1 1.777 vtau 16 0 0 1 0 1 0 G 21 0 0 1 0 1 0 P 22 0 0 1 0 1 0 Z 23 91.1876 2.4952 0 1 1 91.1876 W+ 24 80.379 2.085 0 1 1 80.379 h0 25 125.09 0.0041 0 1 1 125.09 string 95 0 0 1 0 1 0 cluster 96 0 0 1 0 1 0 Instanton 999 0 0 0 0 1 0 List of Particle Containers IDName kfc Constituents l 90 {e-,e+,mu-,mu+} v 91 {ve,veb,vmu,vmub,vtau,vtaub} f 92 {d,db,u,ub,s,sb,c,cb,b,bb,e-,e+,mu-,mu+,ve,veb,vmu,vmub,vtau,vtaub} j 93 {d,db,u,ub,s,sb,c,cb,b,bb,G} Q 94 {d,db,u,ub,s,sb,c,cb,b,bb} ewj 98 {d,db,u,ub,s,sb,c,cb,b,bb,G,P} Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF ####### Permutations for 2 partons ############## found 2 entries: 1th permutation = { 0 1 } 2th permutation = { 1 0 } FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. IF: Soft, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. II: Soft, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefII Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF Alaric_KFrame_TdefFF ####### Permutations for 2 partons ############## found 2 entries: 1th permutation = { 0 1 } 2th permutation = { 1 0 } FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. II: collinear F->VF, G -> (db,d): increase cutoff to 0.02, now t0 = 0.02^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 0.01, now t0 = 0.01^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 0.4, now t0 = 0.4^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 2.84, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 9.84, now t0 = 9.84^2. FF: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FF: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: Soft, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, d -> (d,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, db -> (db,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, u -> (u,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, ub -> (ub,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, s -> (s,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, sb -> (sb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, c -> (c,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, cb -> (cb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, b -> (b,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, bb -> (bb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, t -> (t,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: collinear F->FV, tb -> (tb,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: Soft, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->VV, G -> (G,G): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (db,d): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (ub,u): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (sb,s): increase cutoff to 1, now t0 = 1^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (cb,c): increase cutoff to 1, now t0 = 2.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. FI: collinear V->FF, G -> (bb,b): increase cutoff to 1, now t0 = 9.84^2. IF: Soft, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->FV, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->FF, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. IF: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. IF: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. II: Soft, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, d -> (d,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, db -> (db,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, u -> (u,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, ub -> (ub,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, s -> (s,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, sb -> (sb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, c -> (c,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, cb -> (cb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, b -> (b,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, bb -> (bb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, t -> (t,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->FV, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->FF, tb -> (tb,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: Soft, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear V->VV, G -> (G,G): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (db,d): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (ub,u): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (sb,s): increase cutoff to 1.41421, now t0 = 1.41421^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. II: collinear F->VF, G -> (cb,c): increase cutoff to 1.41421, now t0 = 2.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. II: collinear F->VF, G -> (bb,b): increase cutoff to 1.41421, now t0 = 9.84^2. Shower_Handler initialised. +-----------------------------------------+ | X X X XXXX XXX XXX XXX | | X X XX XX X X X X X X | | X X X X X XXX X XXX X X XXX XXX | | XXXXX X X X X X X X X X | | X X X X XXXX XXX XXX XXX | +-----------------------------------------+ | please cite: JHEP 0202:044,2002 | +-----------------------------------------+ Matrix_Element_Handler::Matrix_Element_Handler(): Set pilot run mode to 1. ME_Generator_Base::SetPSMasses(): Massive PS flavours for Comix: (none) +----------------------------------+ | | | CCC OOO M M I X X | | C O O MM MM I X X | | C O O M M M I X | | C O O M M I X X | | CCC OOO M M I X X | | | +==================================+ | Color dressed Matrix Elements | | http://comix.freacafe.de | | please cite JHEP12(2008)039 | +----------------------------------+ ME_Generator_Base::SetPSMasses(): Massive PS flavours for Amegic: (none) ME_Generator_Base::SetPSMasses(): Massive PS flavours for Internal: (none) Matrix_Element_Handler::BuildProcesses(): 3 ME generators, 1 process blocks. Matrix_Element_Handler::BuildProcesses(): Setting up processes .. done ( 51 MB, 0s / 0s ). Matrix_Element_Handler::InitializeProcesses(): Performing tests .. done ( 51 MB, 0s / 0s ). Matrix_Element_Handler::InitializeProcesses(): Initializing scales done ( 51 MB, 0s / 0s ). Initialized the Matrix_Element_Handler for the hard processes. Initialized the Beam_Remnant_Handler. MI_Handler::MI_Handler(id = 2, name = None, type = 0) Underlying event/multiple interactions handler: MI[2]: on = 0 (type = 0, None) Soft-collision handlers: Initialized the Fragmentation_Handler. Initialized the Soft_Photon_Handler. Initialized the Reweighting. Read in channels from directory: Results/Comix/MC_2_2__j__j__l__l Process_Group::CalculateTotalXSec(): Calculate xs for '2_2__j__j__l__l' (Comix) 2_2__j__j__l__l : 3430.28 pb +- ( 5.31938 pb = 0.155071 % )  exp. eff: 13.1482 % reduce max for 2_2__j__j__l__l to 1 ( eps = 0.001 -> exp. eff 0.131482 ) ---------------------------------------------------------- -- SHERPA generates events with the following structure -- ---------------------------------------------------------- Event generation : Partially unweighted Perturbative : Signal_Processes Perturbative : Minimum_Bias: None Perturbative : Hard_Decays Perturbative : Jet_Evolution:CFP Perturbative : Lepton_FS_QED_Corrections:None Perturbative : Multiple_Interactions: None Hadronization : Beam_Remnants:None Hadronization : Hadronization:None Hadronization : Hadron_Decays Userhook : Analysis : Rivet --------------------------------------------------------- Event 1 ( 1s elapsed / 4h 23m 18s left ) -> ETA: Thu Nov 30 00:09 XS = 26089.4 pb +- ( 26089.4 pb = 100 % ) Event 2 ( 1s elapsed / 2h 11m 38s left ) -> ETA: Wed Nov 29 21:57 XS = 26089.4 pb +- ( 0 pb = 0 % ) Event 3 ( 1s elapsed / 1h 27m 45s left ) -> ETA: Wed Nov 29 21:13 XS = 5217.88 pb +- ( 2789.08 pb = 53 % ) Event 4 ( 1s elapsed / 1h 6m 13s left ) -> ETA: Wed Nov 29 20:52 XS = 4537.29 pb +- ( 2108.3 pb = 46 % ) Event 5 ( 1s elapsed / 52m 58s left ) -> ETA: Wed Nov 29 20:38 XS = 4658.82 pb +- ( 1922.97 pb = 41 % ) Event 6 ( 1s elapsed / 44m 8s left ) -> ETA: Wed Nov 29 20:29 XS = 3069.34 pb +- ( 1188.75 pb = 38 % ) Event 7 ( 1s elapsed / 37m 49s left ) -> ETA: Wed Nov 29 20:23 XS = 3381.96 pb +- ( 1203.73 pb = 35 % ) Event 8 ( 1s elapsed / 33m 18s left ) -> ETA: Wed Nov 29 20:19 XS = 3794.82 pb +- ( 1251.7 pb = 32 % ) Event 9 ( 1s elapsed / 29m 36s left ) -> ETA: Wed Nov 29 20:15 XS = 4048.36 pb +- ( 1251.18 pb = 30 % ) Event 10 ( 1s elapsed / 26m 38s left ) -> ETA: Wed Nov 29 20:12 XS = 4141.18 pb +- ( 1210.78 pb = 29 % ) Event 20 ( 1s elapsed / 13m 33s left ) -> ETA: Wed Nov 29 19:59 XS = 3366.38 pb +- ( 704.781 pb = 20 % ) Event 30 ( 1s elapsed / 9m 11s left ) -> ETA: Wed Nov 29 19:55 XS = 3220.92 pb +- ( 551.697 pb = 17 % ) Event 40 ( 1s elapsed / 6m 58s left ) -> ETA: Wed Nov 29 19:52 XS = 3377.27 pb +- ( 499.041 pb = 14 % ) Event 50 ( 1s elapsed / 5m 42s left ) -> ETA: Wed Nov 29 19:51 XS = 3285.82 pb +- ( 434.987 pb = 13 % ) Event 60 ( 1s elapsed / 4m 51s left ) -> ETA: Wed Nov 29 19:50 XS = 3194.62 pb +- ( 386.744 pb = 12 % ) Event 70 ( 1s elapsed / 4m 15s left ) -> ETA: Wed Nov 29 19:50 XS = 3064.19 pb +- ( 344.351 pb = 11 % ) Event 80 ( 1s elapsed / 3m 46s left ) -> ETA: Wed Nov 29 19:49 XS = 3096.67 pb +- ( 325.263 pb = 10 % ) Event 90 ( 1s elapsed / 3m 25s left ) -> ETA: Wed Nov 29 19:49 XS = 2991.14 pb +- ( 296.859 pb = 9 % ) Event 100 ( 1s elapsed / 3m 8s left ) -> ETA: Wed Nov 29 19:49 XS = 2934.69 pb +- ( 276.627 pb = 9 % ) Event 200 ( 2s elapsed / 1m 52s left ) -> ETA: Wed Nov 29 19:47 XS = 3183.58 pb +- ( 210.996 pb = 6 % ) Event 300 ( 2s elapsed / 1m 25s left ) -> ETA: Wed Nov 29 19:47 XS = 3144.57 pb +- ( 170.293 pb = 5 % ) Event 400 ( 3s elapsed / 1m 12s left ) -> ETA: Wed Nov 29 19:47 XS = 3132.92 pb +- ( 146.962 pb = 4 % ) Event 500 ( 3s elapsed / 1m 5s left ) -> ETA: Wed Nov 29 19:46 XS = 3018.21 pb +- ( 126.946 pb = 4 % ) Event 600 ( 3s elapsed / 58s left ) -> ETA: Wed Nov 29 19:46 XS = 3148.99 pb +- ( 120.561 pb = 3 % ) Event 700 ( 4s elapsed / 54s left ) -> ETA: Wed Nov 29 19:46 XS = 3187.74 pb +- ( 112.895 pb = 3 % ) Event 800 ( 4s elapsed / 50s left ) -> ETA: Wed Nov 29 19:46 XS = 3210.02 pb +- ( 106.288 pb = 3 % ) Event 900 ( 4s elapsed / 47s left ) -> ETA: Wed Nov 29 19:46 XS = 3231.55 pb +- ( 100.834 pb = 3 % ) Event 1000 ( 5s elapsed / 45s left ) -> ETA: Wed Nov 29 19:46 XS = 3304.97 pb +- ( 97.6746 pb = 2 % ) Event 2000 ( 8s elapsed / 32s left ) -> ETA: Wed Nov 29 19:46 XS = 3365.72 pb +- ( 70.2401 pb = 2 % ) Event 3000 ( 11s elapsed / 26s left ) -> ETA: Wed Nov 29 19:46 XS = 3382.67 pb +- ( 57.6174 pb = 1 % ) Event 4000 ( 14s elapsed / 22s left ) -> ETA: Wed Nov 29 19:46 XS = 3374.98 pb +- ( 49.7928 pb = 1 % ) Event 5000 ( 18s elapsed / 18s left ) -> ETA: Wed Nov 29 19:46 XS = 3388.15 pb +- ( 44.6967 pb = 1 % ) Event 6000 ( 21s elapsed / 14s left ) -> ETA: Wed Nov 29 19:46 XS = 3414.17 pb +- ( 41.0921 pb = 1 % ) Event 7000 ( 24s elapsed / 10s left ) -> ETA: Wed Nov 29 19:46 XS = 3407.71 pb +- ( 37.9772 pb = 1 % ) Event 8000 ( 27s elapsed / 6s left ) -> ETA: Wed Nov 29 19:46 XS = 3429.1 pb +- ( 35.7305 pb = 1 % ) Event 9000 ( 30s elapsed / 3s left ) -> ETA: Wed Nov 29 19:46 XS = 3428.66 pb +- ( 33.683 pb = 0 % ) Event 10000 ( 33 s total ) = 2.55848e+07 evts/day In Event_Handler::Finish : Summarizing the run may take some time. Rivet_Interface::Finish(Analysis_Alaric/8033){ } -------------------------------------------------------------------------- Nominal or variation name XS [pb] RelDev AbsErr [pb] RelErr -------------------------------------------------------------------------- Nominal  3438.41 0 % 32.0385 0.93 % -------------------------------------------------------------------------- Return_Value::PrintStatistics(): Statistics { Generated events: 10000 } Blob_List: Momentum Fail Statistics { } Decay_Channel: Kinematics max fail statistics { } WARNING: You are using an unsupported development branch. WARNING: Some settings that have been defined in the input files and/or the command line have not been used. For more details, see the Settings Report. Time: 34s on Wed Nov 29 19:46:24 2023 (User: 33s, System: 0s, Children User: 0s, Children System: 0s)