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 8058 ----------------------------------------------------------------------------- ----------- 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 53m 18s left ) -> ETA: Wed Nov 29 02:37 XS = 3238.14 pb +- ( 3238.14 pb = 100 % ) Event 2 ( 1s elapsed / 2h 28m 18s left ) -> ETA: Wed Nov 29 00:12 XS = 4047.68 pb +- ( 2765.09 pb = 68 % ) Event 3 ( 1s elapsed / 1h 39m 24s left ) -> ETA: Tue Nov 28 23:23 XS = 5714.37 pb +- ( 3086.11 pb = 54 % ) Event 4 ( 1s elapsed / 1h 14m 33s left ) -> ETA: Tue Nov 28 22:58 XS = 5181.03 pb +- ( 2423.2 pb = 46 % ) Event 5 ( 1s elapsed / 59m 58s left ) -> ETA: Tue Nov 28 22:44 XS = 5396.91 pb +- ( 2240.94 pb = 41 % ) Event 6 ( 1s elapsed / 50m 14s left ) -> ETA: Tue Nov 28 22:34 XS = 6267.38 pb +- ( 2335.71 pb = 37 % ) Event 7 ( 1s elapsed / 43m 3s left ) -> ETA: Tue Nov 28 22:27 XS = 7083.44 pb +- ( 2404.28 pb = 33 % ) Event 8 ( 1s elapsed / 37m 53s left ) -> ETA: Tue Nov 28 22:22 XS = 7619.16 pb +- ( 2391.07 pb = 31 % ) Event 9 ( 1s elapsed / 33m 40s left ) -> ETA: Tue Nov 28 22:18 XS = 6476.29 pb +- ( 1952.67 pb = 30 % ) Event 10 ( 1s elapsed / 30m 38s left ) -> ETA: Tue Nov 28 22:14 XS = 6349.3 pb +- ( 1818.16 pb = 28 % ) Event 20 ( 1s elapsed / 15m 53s left ) -> ETA: Tue Nov 28 22:00 XS = 4593.11 pb +- ( 954.818 pb = 20 % ) Event 30 ( 2s elapsed / 11m 11s left ) -> ETA: Tue Nov 28 21:55 XS = 4738.75 pb +- ( 801.322 pb = 16 % ) Event 40 ( 2s elapsed / 8m 35s left ) -> ETA: Tue Nov 28 21:52 XS = 5139.91 pb +- ( 746.89 pb = 14 % ) Event 50 ( 2s elapsed / 7m 7s left ) -> ETA: Tue Nov 28 21:51 XS = 4776.02 pb +- ( 624.557 pb = 13 % ) Event 60 ( 2s elapsed / 6m 12s left ) -> ETA: Tue Nov 28 21:50 XS = 4327.14 pb +- ( 520.549 pb = 12 % ) Event 70 ( 2s elapsed / 5m 29s left ) -> ETA: Tue Nov 28 21:49 XS = 4515.34 pb +- ( 501.146 pb = 11 % ) Event 80 ( 2s elapsed / 4m 57s left ) -> ETA: Tue Nov 28 21:49 XS = 4544.76 pb +- ( 471.529 pb = 10 % ) Event 90 ( 2s elapsed / 4m 31s left ) -> ETA: Tue Nov 28 21:48 XS = 4336.8 pb +- ( 425.744 pb = 9 % ) Event 100 ( 2s elapsed / 4m 11s left ) -> ETA: Tue Nov 28 21:48 XS = 4484.96 pb +- ( 416.569 pb = 9 % ) Event 200 ( 3s elapsed / 2m 49s left ) -> ETA: Tue Nov 28 21:47 XS = 4384.76 pb +- ( 288.392 pb = 6 % ) Event 300 ( 4s elapsed / 2m 20s left ) -> ETA: Tue Nov 28 21:46 XS = 4352.34 pb +- ( 233.839 pb = 5 % ) Event 400 ( 5s elapsed / 2m 5s left ) -> ETA: Tue Nov 28 21:46 XS = 4374.39 pb +- ( 203.445 pb = 4 % ) Event 500 ( 6s elapsed / 1m 54s left ) -> ETA: Tue Nov 28 21:46 XS = 4154.66 pb +- ( 173.496 pb = 4 % ) Event 600 ( 6s elapsed / 1m 46s left ) -> ETA: Tue Nov 28 21:46 XS = 4093.73 pb +- ( 156.221 pb = 3 % ) Event 700 ( 7s elapsed / 1m 41s left ) -> ETA: Tue Nov 28 21:46 XS = 4111.56 pb +- ( 145.215 pb = 3 % ) Event 800 ( 8s elapsed / 1m 35s left ) -> ETA: Tue Nov 28 21:46 XS = 4139.53 pb +- ( 136.691 pb = 3 % ) Event 900 ( 9s elapsed / 1m 31s left ) -> ETA: Tue Nov 28 21:45 XS = 4112.8 pb +- ( 128.101 pb = 3 % ) Event 1000 ( 9s elapsed / 1m 29s left ) -> ETA: Tue Nov 28 21:45 XS = 4045.66 pb +- ( 119.684 pb = 2 % ) Event 2000 ( 17s elapsed / 1m 10s left ) -> ETA: Tue Nov 28 21:45 XS = 3903.02 pb +- ( 81.8482 pb = 2 % ) Event 3000 ( 25s elapsed / 59s left ) -> ETA: Tue Nov 28 21:45 XS = 3975.46 pb +- ( 67.9817 pb = 1 % ) Event 4000 ( 34s elapsed / 51s left ) -> ETA: Tue Nov 28 21:45 XS = 3918.85 pb +- ( 58.093 pb = 1 % ) Event 5000 ( 42s elapsed / 42s left ) -> ETA: Tue Nov 28 21:45 XS = 3918.56 pb +- ( 51.9563 pb = 1 % ) Event 6000 ( 49s elapsed / 33s left ) -> ETA: Tue Nov 28 21:45 XS = 3929.31 pb +- ( 47.5504 pb = 1 % ) Event 7000 ( 58s elapsed / 25s left ) -> ETA: Tue Nov 28 21:45 XS = 3901.92 pb +- ( 43.7372 pb = 1 % ) Event 8000 ( 1m 6s elapsed / 16s left ) -> ETA: Tue Nov 28 21:45 XS = 3870.95 pb +- ( 40.6097 pb = 1 % ) Event 9000 ( 1m 14s elapsed / 8s left ) -> ETA: Tue Nov 28 21:45 XS = 3884.94 pb +- ( 38.4162 pb = 0 % ) Event 10000 ( 80 s total ) = 1.08325e+07 evts/day In Event_Handler::Finish : Summarizing the run may take some time. Rivet_Interface::Finish(Analysis_Zrecoil/8058){ } -------------------------------------------------------------------------- Nominal or variation name XS [pb] RelDev AbsErr [pb] RelErr -------------------------------------------------------------------------- Nominal  3883.27 0 % 36.4301 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 20s on Tue Nov 28 21:45:38 2023 (User: 1m 19s, 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 8058 ----------------------------------------------------------------------------- ----------- 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 48m 18s left ) -> ETA: Wed Nov 29 02:34 XS = 3238.14 pb +- ( 3238.14 pb = 100 % ) Event 2 ( 1s elapsed / 2h 24m 8s left ) -> ETA: Wed Nov 29 00:10 XS = 4047.68 pb +- ( 2765.09 pb = 68 % ) Event 3 ( 1s elapsed / 1h 36m 38s left ) -> ETA: Tue Nov 28 23:22 XS = 4857.22 pb +- ( 2652.62 pb = 54 % ) Event 4 ( 1s elapsed / 1h 12m 28s left ) -> ETA: Tue Nov 28 22:58 XS = 5887.53 pb +- ( 2725.4 pb = 46 % ) Event 5 ( 1s elapsed / 58m 18s left ) -> ETA: Tue Nov 28 22:44 XS = 6227.2 pb +- ( 2552.39 pb = 40 % ) Event 6 ( 1s elapsed / 48m 34s left ) -> ETA: Tue Nov 28 22:34 XS = 6071.52 pb +- ( 2270.01 pb = 37 % ) Event 7 ( 1s elapsed / 41m 52s left ) -> ETA: Tue Nov 28 22:28 XS = 6868.79 pb +- ( 2340.15 pb = 34 % ) Event 8 ( 1s elapsed / 36m 38s left ) -> ETA: Tue Nov 28 22:22 XS = 6642.35 pb +- ( 2121.12 pb = 31 % ) Event 9 ( 1s elapsed / 32m 33s left ) -> ETA: Tue Nov 28 22:18 XS = 7108.12 pb +- ( 2119.23 pb = 29 % ) Event 10 ( 1s elapsed / 29m 28s left ) -> ETA: Tue Nov 28 22:15 XS = 6889.67 pb +- ( 1953.98 pb = 28 % ) Event 20 ( 1s elapsed / 15m 18s left ) -> ETA: Tue Nov 28 22:01 XS = 4659.2 pb +- ( 967.454 pb = 20 % ) Event 30 ( 1s elapsed / 10m 24s left ) -> ETA: Tue Nov 28 21:56 XS = 4560.77 pb +- ( 773.633 pb = 16 % ) Event 40 ( 1s elapsed / 8m 10s left ) -> ETA: Tue Nov 28 21:54 XS = 4513.09 pb +- ( 663.147 pb = 14 % ) Event 50 ( 2s elapsed / 6m 47s left ) -> ETA: Tue Nov 28 21:53 XS = 4340.68 pb +- ( 572.008 pb = 13 % ) Event 60 ( 2s elapsed / 5m 47s left ) -> ETA: Tue Nov 28 21:52 XS = 4539.45 pb +- ( 544.049 pb = 11 % ) Event 70 ( 2s elapsed / 5m 9s left ) -> ETA: Tue Nov 28 21:51 XS = 4444.51 pb +- ( 493.904 pb = 11 % ) Event 80 ( 2s elapsed / 4m 41s left ) -> ETA: Tue Nov 28 21:51 XS = 4225.96 pb +- ( 440.929 pb = 10 % ) Event 90 ( 2s elapsed / 4m 16s left ) -> ETA: Tue Nov 28 21:50 XS = 4223.67 pb +- ( 415.465 pb = 9 % ) Event 100 ( 2s elapsed / 3m 57s left ) -> ETA: Tue Nov 28 21:50 XS = 4266.33 pb +- ( 397.798 pb = 9 % ) Event 200 ( 3s elapsed / 2m 36s left ) -> ETA: Tue Nov 28 21:48 XS = 4005.13 pb +- ( 265.195 pb = 6 % ) Event 300 ( 4s elapsed / 2m 9s left ) -> ETA: Tue Nov 28 21:48 XS = 3923.44 pb +- ( 212.397 pb = 5 % ) Event 400 ( 4s elapsed / 1m 54s left ) -> ETA: Tue Nov 28 21:48 XS = 3816.32 pb +- ( 179.245 pb = 4 % ) Event 500 ( 5s elapsed / 1m 46s left ) -> ETA: Tue Nov 28 21:48 XS = 3774.06 pb +- ( 158.659 pb = 4 % ) Event 600 ( 6s elapsed / 1m 41s left ) -> ETA: Tue Nov 28 21:48 XS = 3779.93 pb +- ( 145.043 pb = 3 % ) Event 700 ( 7s elapsed / 1m 36s left ) -> ETA: Tue Nov 28 21:48 XS = 3716.51 pb +- ( 132.175 pb = 3 % ) Event 800 ( 8s elapsed / 1m 34s left ) -> ETA: Tue Nov 28 21:48 XS = 3660.47 pb +- ( 121.892 pb = 3 % ) Event 900 ( 9s elapsed / 1m 31s left ) -> ETA: Tue Nov 28 21:47 XS = 3687.62 pb +- ( 115.717 pb = 3 % ) Event 1000 ( 9s elapsed / 1m 28s left ) -> ETA: Tue Nov 28 21:47 XS = 3737.04 pb +- ( 111.154 pb = 2 % ) Event 2000 ( 17s elapsed / 1m 9s left ) -> ETA: Tue Nov 28 21:47 XS = 3830.76 pb +- ( 80.4347 pb = 2 % ) Event 3000 ( 25s elapsed / 59s left ) -> ETA: Tue Nov 28 21:47 XS = 3839.85 pb +- ( 65.8193 pb = 1 % ) Event 4000 ( 33s elapsed / 49s left ) -> ETA: Tue Nov 28 21:47 XS = 3827.48 pb +- ( 56.8296 pb = 1 % ) Event 5000 ( 45s elapsed / 45s left ) -> ETA: Tue Nov 28 21:47 XS = 3824.7 pb +- ( 50.7953 pb = 1 % ) Event 6000 ( 1m 4s elapsed / 43s left ) -> ETA: Tue Nov 28 21:48 XS = 3810.1 pb +- ( 46.2043 pb = 1 % ) Event 7000 ( 1m 15s elapsed / 32s left ) -> ETA: Tue Nov 28 21:48 XS = 3816.19 pb +- ( 42.8406 pb = 1 % ) Event 8000 ( 1m 22s elapsed / 20s left ) -> ETA: Tue Nov 28 21:48 XS = 3827.14 pb +- ( 40.181 pb = 1 % ) Event 9000 ( 1m 30s elapsed / 10s left ) -> ETA: Tue Nov 28 21:47 XS = 3823.63 pb +- ( 37.8505 pb = 0 % ) Event 10000 ( 97 s total ) = 8.92839e+06 evts/day In Event_Handler::Finish : Summarizing the run may take some time. Rivet_Interface::Finish(Analysis_Allrecoil/8058){ } -------------------------------------------------------------------------- Nominal or variation name XS [pb] RelDev AbsErr [pb] RelErr -------------------------------------------------------------------------- Nominal  3850.35 0 % 36.1421 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 37s on Tue Nov 28 21:47:55 2023 (User: 1m 22s, 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 8058 ----------------------------------------------------------------------------- ----------- 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 26m 38s left ) -> ETA: Wed Nov 29 00:22 XS = 3238.14 pb +- ( 3238.14 pb = 100 % ) Event 2 ( 1s elapsed / 1h 13m 43s left ) -> ETA: Tue Nov 28 23:10 XS = 4047.68 pb +- ( 2765.09 pb = 68 % ) Event 3 ( 1s elapsed / 49m 24s left ) -> ETA: Tue Nov 28 22:45 XS = 4857.22 pb +- ( 2652.62 pb = 54 % ) Event 4 ( 1s elapsed / 37m 15s left ) -> ETA: Tue Nov 28 22:33 XS = 5887.53 pb +- ( 2725.4 pb = 46 % ) Event 5 ( 1s elapsed / 30m 8s left ) -> ETA: Tue Nov 28 22:26 XS = 4761.98 pb +- ( 1996.38 pb = 41 % ) Event 6 ( 1s elapsed / 25m 6s left ) -> ETA: Tue Nov 28 22:21 XS = 3349.8 pb +- ( 1306.19 pb = 38 % ) Event 7 ( 1s elapsed / 21m 38s left ) -> ETA: Tue Nov 28 22:17 XS = 3777.83 pb +- ( 1353.34 pb = 35 % ) Event 8 ( 1s elapsed / 19m 1s left ) -> ETA: Tue Nov 28 22:15 XS = 4178.25 pb +- ( 1389.89 pb = 33 % ) Event 9 ( 1s elapsed / 16m 54s left ) -> ETA: Tue Nov 28 22:13 XS = 3885.77 pb +- ( 1223.24 pb = 31 % ) Event 10 ( 1s elapsed / 15m 18s left ) -> ETA: Tue Nov 28 22:11 XS = 3026.3 pb +- ( 915.472 pb = 30 % ) Event 20 ( 1s elapsed / 8m 3s left ) -> ETA: Tue Nov 28 22:04 XS = 3578.06 pb +- ( 756.675 pb = 21 % ) Event 30 ( 2s elapsed / 5m 39s left ) -> ETA: Tue Nov 28 22:02 XS = 3532.52 pb +- ( 609.862 pb = 17 % ) Event 40 ( 2s elapsed / 4m 24s left ) -> ETA: Tue Nov 28 22:00 XS = 3529.31 pb +- ( 527.465 pb = 14 % ) Event 50 ( 2s elapsed / 3m 36s left ) -> ETA: Tue Nov 28 21:59 XS = 3722 pb +- ( 495.767 pb = 13 % ) Event 60 ( 2s elapsed / 3m 6s left ) -> ETA: Tue Nov 28 21:59 XS = 3885.77 pb +- ( 471.062 pb = 12 % ) Event 70 ( 2s elapsed / 2m 44s left ) -> ETA: Tue Nov 28 21:59 XS = 4040.46 pb +- ( 452.198 pb = 11 % ) Event 80 ( 2s elapsed / 2m 26s left ) -> ETA: Tue Nov 28 21:58 XS = 4191.77 pb +- ( 437.624 pb = 10 % ) Event 90 ( 2s elapsed / 2m 16s left ) -> ETA: Tue Nov 28 21:58 XS = 3922.38 pb +- ( 387.867 pb = 9 % ) Event 100 ( 2s elapsed / 2m 8s left ) -> ETA: Tue Nov 28 21:58 XS = 4002.65 pb +- ( 374.943 pb = 9 % ) Event 200 ( 3s elapsed / 1m 25s left ) -> ETA: Tue Nov 28 21:57 XS = 4037.59 pb +- ( 267.192 pb = 6 % ) Event 300 ( 4s elapsed / 1m 7s left ) -> ETA: Tue Nov 28 21:57 XS = 4181.85 pb +- ( 225.359 pb = 5 % ) Event 400 ( 4s elapsed / 57s left ) -> ETA: Tue Nov 28 21:57 XS = 4160.8 pb +- ( 194.246 pb = 4 % ) Event 500 ( 5s elapsed / 52s left ) -> ETA: Tue Nov 28 21:57 XS = 4134.5 pb +- ( 172.716 pb = 4 % ) Event 600 ( 6s elapsed / 47s left ) -> ETA: Tue Nov 28 21:57 XS = 4041.79 pb +- ( 154.38 pb = 3 % ) Event 700 ( 7s elapsed / 44s left ) -> ETA: Tue Nov 28 21:57 XS = 4060.73 pb +- ( 143.548 pb = 3 % ) Event 800 ( 7s elapsed / 41s left ) -> ETA: Tue Nov 28 21:57 XS = 4084.7 pb +- ( 135.011 pb = 3 % ) Event 900 ( 8s elapsed / 39s left ) -> ETA: Tue Nov 28 21:57 XS = 3986.77 pb +- ( 124.451 pb = 3 % ) Event 1000 ( 9s elapsed / 38s left ) -> ETA: Tue Nov 28 21:57 XS = 3966.86 pb +- ( 117.516 pb = 2 % ) Event 2000 ( 16s elapsed / 25s left ) -> ETA: Tue Nov 28 21:57 XS = 3924.07 pb +- ( 82.2592 pb = 2 % ) Event 3000 ( 25s elapsed / 16s left ) -> ETA: Tue Nov 28 21:57 XS = 3916 pb +- ( 67.0351 pb = 1 % ) Event 4000 ( 32s elapsed / 8s left ) -> ETA: Tue Nov 28 21:57 XS = 3882.9 pb +- ( 57.5965 pb = 1 % ) Event 5000 ( 40 s total ) = 1.06064e+07 evts/day In Event_Handler::Finish : Summarizing the run may take some time. Rivet_Interface::Finish(Analysis_Allrecoil_Tall/8058){ } -------------------------------------------------------------------------- Nominal or variation name XS [pb] RelDev AbsErr [pb] RelErr -------------------------------------------------------------------------- Nominal  3838.03 0 % 50.9604 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: 41s 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 21:59:12 2023. Run_Parameter::Init(): Setting memory limit to 187.131 GB. Random::SetSeed(): Seed set to 8058 ----------------------------------------------------------------------------- ----------- 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 33m 18s left ) -> ETA: Wed Nov 29 00:32 XS = 3238.14 pb +- ( 3238.14 pb = 100 % ) Event 2 ( 1s elapsed / 1h 17m 3s left ) -> ETA: Tue Nov 28 23:16 XS = 3809.58 pb +- ( 2608.24 pb = 68 % ) Event 3 ( 1s elapsed / 51m 38s left ) -> ETA: Tue Nov 28 22:50 XS = 2556.43 pb +- ( 1435.51 pb = 56 % ) Event 4 ( 1s elapsed / 38m 55s left ) -> ETA: Tue Nov 28 22:38 XS = 3083.95 pb +- ( 1484.49 pb = 48 % ) Event 5 ( 1s elapsed / 31m 18s left ) -> ETA: Tue Nov 28 22:30 XS = 3304.23 pb +- ( 1414.79 pb = 42 % ) Event 6 ( 1s elapsed / 26m 13s left ) -> ETA: Tue Nov 28 22:25 XS = 2661.49 pb +- ( 1048.14 pb = 39 % ) Event 7 ( 1s elapsed / 22m 35s left ) -> ETA: Tue Nov 28 22:21 XS = 2764.27 pb +- ( 1005.35 pb = 36 % ) Event 8 ( 1s elapsed / 19m 45s left ) -> ETA: Tue Nov 28 22:18 XS = 2815.78 pb +- ( 956.472 pb = 33 % ) Event 9 ( 1s elapsed / 17m 39s left ) -> ETA: Tue Nov 28 22:16 XS = 3133.69 pb +- ( 998.114 pb = 31 % ) Event 10 ( 1s elapsed / 15m 58s left ) -> ETA: Tue Nov 28 22:15 XS = 2998.28 pb +- ( 907.389 pb = 30 % ) Event 20 ( 1s elapsed / 8m 15s left ) -> ETA: Tue Nov 28 22:07 XS = 3997.71 pb +- ( 839.513 pb = 20 % ) Event 30 ( 2s elapsed / 5m 42s left ) -> ETA: Tue Nov 28 22:04 XS = 3326.86 pb +- ( 576.339 pb = 17 % ) Event 40 ( 2s elapsed / 4m 26s left ) -> ETA: Tue Nov 28 22:03 XS = 3076.62 pb +- ( 463.321 pb = 15 % ) Event 50 ( 2s elapsed / 3m 37s left ) -> ETA: Tue Nov 28 22:02 XS = 3277.47 pb +- ( 439.868 pb = 13 % ) Event 60 ( 2s elapsed / 3m 8s left ) -> ETA: Tue Nov 28 22:02 XS = 2989.06 pb +- ( 367.927 pb = 12 % ) Event 70 ( 2s elapsed / 2m 44s left ) -> ETA: Tue Nov 28 22:01 XS = 3201.55 pb +- ( 363.507 pb = 11 % ) Event 80 ( 2s elapsed / 2m 26s left ) -> ETA: Tue Nov 28 22:01 XS = 3270.85 pb +- ( 346.951 pb = 10 % ) Event 90 ( 2s elapsed / 2m 13s left ) -> ETA: Tue Nov 28 22:01 XS = 3404.59 pb +- ( 339.684 pb = 9 % ) Event 100 ( 2s elapsed / 2m 3s left ) -> ETA: Tue Nov 28 22:01 XS = 3496.92 pb +- ( 330.449 pb = 9 % ) Event 200 ( 3s elapsed / 1m 14s left ) -> ETA: Tue Nov 28 22:00 XS = 3663.06 pb +- ( 243.997 pb = 6 % ) Event 300 ( 3s elapsed / 59s left ) -> ETA: Tue Nov 28 22:00 XS = 3665.82 pb +- ( 199.344 pb = 5 % ) Event 400 ( 4s elapsed / 51s left ) -> ETA: Tue Nov 28 22:00 XS = 3882.67 pb +- ( 182.15 pb = 4 % ) Event 500 ( 5s elapsed / 47s left ) -> ETA: Tue Nov 28 22:00 XS = 3832.12 pb +- ( 160.937 pb = 4 % ) Event 600 ( 6s elapsed / 44s left ) -> ETA: Tue Nov 28 22:00 XS = 3816.32 pb +- ( 146.346 pb = 3 % ) Event 700 ( 6s elapsed / 42s left ) -> ETA: Tue Nov 28 22:00 XS = 3827.59 pb +- ( 135.862 pb = 3 % ) Event 800 ( 7s elapsed / 40s left ) -> ETA: Tue Nov 28 21:59 XS = 3785.09 pb +- ( 125.768 pb = 3 % ) Event 900 ( 8s elapsed / 38s left ) -> ETA: Tue Nov 28 21:59 XS = 3774.06 pb +- ( 118.252 pb = 3 % ) Event 1000 ( 9s elapsed / 36s left ) -> ETA: Tue Nov 28 21:59 XS = 3804.21 pb +- ( 113.019 pb = 2 % ) Event 2000 ( 16s elapsed / 24s left ) -> ETA: Tue Nov 28 21:59 XS = 3865.29 pb +- ( 81.1105 pb = 2 % ) Event 3000 ( 23s elapsed / 15s left ) -> ETA: Tue Nov 28 21:59 XS = 3894.03 pb +- ( 66.6846 pb = 1 % ) Event 4000 ( 30s elapsed / 7s left ) -> ETA: Tue Nov 28 21:59 XS = 3866.09 pb +- ( 57.3641 pb = 1 % ) Event 5000 ( 36 s total ) = 1.17423e+07 evts/day In Event_Handler::Finish : Summarizing the run may take some time. Rivet_Interface::Finish(Analysis_Allrecoil_Tall_PT2MIN/8058){ } -------------------------------------------------------------------------- Nominal or variation name XS [pb] RelDev AbsErr [pb] RelErr -------------------------------------------------------------------------- Nominal  3892.84 0 % 51.6386 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: 37s on Tue Nov 28 21:59:49 2023 (User: 36s, 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 8058 ----------------------------------------------------------------------------- ----------- 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 10m 48s left ) -> ETA: Wed Nov 29 00:15 XS = 3238.14 pb +- ( 3238.14 pb = 100 % ) Event 2 ( 1s elapsed / 1h 5m 48s left ) -> ETA: Tue Nov 28 23:10 XS = 3238.14 pb +- ( 2228.64 pb = 68 % ) Event 3 ( 1s elapsed / 44m 8s left ) -> ETA: Tue Nov 28 22:48 XS = 3597.94 pb +- ( 1995.78 pb = 55 % ) Event 4 ( 1s elapsed / 33m 5s left ) -> ETA: Tue Nov 28 22:37 XS = 3500.7 pb +- ( 1675.83 pb = 47 % ) Event 5 ( 1s elapsed / 26m 38s left ) -> ETA: Tue Nov 28 22:30 XS = 3444.83 pb +- ( 1472.07 pb = 42 % ) Event 6 ( 1s elapsed / 22m 11s left ) -> ETA: Tue Nov 28 22:26 XS = 3736.32 pb +- ( 1448.65 pb = 38 % ) Event 7 ( 1s elapsed / 19m 1s left ) -> ETA: Tue Nov 28 22:23 XS = 3908.1 pb +- ( 1397.22 pb = 35 % ) Event 8 ( 1s elapsed / 16m 38s left ) -> ETA: Tue Nov 28 22:20 XS = 4390.7 pb +- ( 1455.66 pb = 33 % ) Event 9 ( 1s elapsed / 14m 52s left ) -> ETA: Tue Nov 28 22:19 XS = 4415.65 pb +- ( 1378.33 pb = 31 % ) Event 10 ( 1s elapsed / 13m 23s left ) -> ETA: Tue Nov 28 22:17 XS = 4435.81 pb +- ( 1312.13 pb = 29 % ) Event 20 ( 1s elapsed / 6m 50s left ) -> ETA: Tue Nov 28 22:11 XS = 4047.68 pb +- ( 849.291 pb = 20 % ) Event 30 ( 1s elapsed / 4m 39s left ) -> ETA: Tue Nov 28 22:08 XS = 4356.25 pb +- ( 741.573 pb = 17 % ) Event 40 ( 1s elapsed / 3m 34s left ) -> ETA: Tue Nov 28 22:07 XS = 4560.77 pb +- ( 669.591 pb = 14 % ) Event 50 ( 1s elapsed / 2m 54s left ) -> ETA: Tue Nov 28 22:07 XS = 4423.69 pb +- ( 582.099 pb = 13 % ) Event 60 ( 1s elapsed / 2m 29s left ) -> ETA: Tue Nov 28 22:06 XS = 4279.49 pb +- ( 515.246 pb = 12 % ) Event 70 ( 1s elapsed / 2m 10s left ) -> ETA: Tue Nov 28 22:06 XS = 4292.99 pb +- ( 478.342 pb = 11 % ) Event 80 ( 1s elapsed / 1m 57s left ) -> ETA: Tue Nov 28 22:06 XS = 4489.63 pb +- ( 466.264 pb = 10 % ) Event 90 ( 1s elapsed / 1m 45s left ) -> ETA: Tue Nov 28 22:05 XS = 4497.42 pb +- ( 440.258 pb = 9 % ) Event 100 ( 1s elapsed / 1m 37s left ) -> ETA: Tue Nov 28 22:05 XS = 4334.86 pb +- ( 403.7 pb = 9 % ) Event 200 ( 2s elapsed / 57s left ) -> ETA: Tue Nov 28 22:05 XS = 4132.92 pb +- ( 273.043 pb = 6 % ) Event 300 ( 2s elapsed / 43s left ) -> ETA: Tue Nov 28 22:04 XS = 4111.06 pb +- ( 221.821 pb = 5 % ) Event 400 ( 3s elapsed / 37s left ) -> ETA: Tue Nov 28 22:04 XS = 3994.01 pb +- ( 187.008 pb = 4 % ) Event 500 ( 3s elapsed / 33s left ) -> ETA: Tue Nov 28 22:04 XS = 3919.32 pb +- ( 164.348 pb = 4 % ) Event 600 ( 4s elapsed / 29s left ) -> ETA: Tue Nov 28 22:04 XS = 3971.56 pb +- ( 151.886 pb = 3 % ) Event 700 ( 4s elapsed / 27s left ) -> ETA: Tue Nov 28 22:04 XS = 3932.51 pb +- ( 139.33 pb = 3 % ) Event 800 ( 4s elapsed / 25s left ) -> ETA: Tue Nov 28 22:04 XS = 4033.81 pb +- ( 133.449 pb = 3 % ) Event 900 ( 5s elapsed / 24s left ) -> ETA: Tue Nov 28 22:04 XS = 4022.54 pb +- ( 125.489 pb = 3 % ) Event 1000 ( 5s elapsed / 22s left ) -> ETA: Tue Nov 28 22:04 XS = 4064.45 pb +- ( 120.2 pb = 2 % ) Event 2000 ( 10s elapsed / 15s left ) -> ETA: Tue Nov 28 22:04 XS = 3791.96 pb +- ( 79.674 pb = 2 % ) Event 3000 ( 14s elapsed / 9s left ) -> ETA: Tue Nov 28 22:04 XS = 3816.17 pb +- ( 65.4404 pb = 1 % ) Event 4000 ( 19s elapsed / 4s left ) -> ETA: Tue Nov 28 22:04 XS = 3808.8 pb +- ( 56.5707 pb = 1 % ) Event 5000 ( 23 s total ) = 1.82355e+07 evts/day In Event_Handler::Finish : Summarizing the run may take some time. Rivet_Interface::Finish(Analysis_CSS/8058){ } -------------------------------------------------------------------------- Nominal or variation name XS [pb] RelDev AbsErr [pb] RelErr -------------------------------------------------------------------------- Nominal  3811.28 0 % 50.629 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: 24s on Tue Nov 28 22:04:35 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 22:06:33 2023. Run_Parameter::Init(): Setting memory limit to 187.131 GB. Random::SetSeed(): Seed set to 8058 ----------------------------------------------------------------------------- ----------- 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 7m 28s left ) -> ETA: Wed Nov 29 00:14 XS = 3238.14 pb +- ( 3238.14 pb = 100 % ) Event 2 ( 1s elapsed / 1h 4m 8s left ) -> ETA: Tue Nov 28 23:10 XS = 3238.14 pb +- ( 2228.64 pb = 68 % ) Event 3 ( 1s elapsed / 43m 1s left ) -> ETA: Tue Nov 28 22:49 XS = 4415.65 pb +- ( 2424.94 pb = 54 % ) Event 4 ( 1s elapsed / 32m 15s left ) -> ETA: Tue Nov 28 22:38 XS = 4797.25 pb +- ( 2256 pb = 47 % ) Event 5 ( 1s elapsed / 25m 58s left ) -> ETA: Tue Nov 28 22:32 XS = 2380.99 pb +- ( 1032.54 pb = 43 % ) Event 6 ( 1s elapsed / 21m 46s left ) -> ETA: Tue Nov 28 22:28 XS = 2698.45 pb +- ( 1062.14 pb = 39 % ) Event 7 ( 1s elapsed / 18m 39s left ) -> ETA: Tue Nov 28 22:25 XS = 2943.77 pb +- ( 1067.82 pb = 36 % ) Event 8 ( 1s elapsed / 16m 25s left ) -> ETA: Tue Nov 28 22:22 XS = 2643.38 pb +- ( 900.224 pb = 34 % ) Event 9 ( 1s elapsed / 14m 36s left ) -> ETA: Tue Nov 28 22:21 XS = 2857.19 pb +- ( 913.899 pb = 31 % ) Event 10 ( 1s elapsed / 13m 8s left ) -> ETA: Tue Nov 28 22:19 XS = 2891.2 pb +- ( 876.429 pb = 30 % ) Event 20 ( 1s elapsed / 6m 40s left ) -> ETA: Tue Nov 28 22:13 XS = 3743.52 pb +- ( 789.49 pb = 21 % ) Event 30 ( 1s elapsed / 4m 33s left ) -> ETA: Tue Nov 28 22:11 XS = 4242.11 pb +- ( 723.57 pb = 17 % ) Event 40 ( 1s elapsed / 3m 30s left ) -> ETA: Tue Nov 28 22:10 XS = 3658.92 pb +- ( 545.633 pb = 14 % ) Event 50 ( 1s elapsed / 2m 52s left ) -> ETA: Tue Nov 28 22:09 XS = 3901.38 pb +- ( 518.059 pb = 13 % ) Event 60 ( 1s elapsed / 2m 25s left ) -> ETA: Tue Nov 28 22:09 XS = 3824.58 pb +- ( 464.134 pb = 12 % ) Event 70 ( 1s elapsed / 2m 8s left ) -> ETA: Tue Nov 28 22:08 XS = 3928.42 pb +- ( 440.516 pb = 11 % ) Event 80 ( 1s elapsed / 1m 54s left ) -> ETA: Tue Nov 28 22:08 XS = 3776.26 pb +- ( 397.107 pb = 10 % ) Event 90 ( 1s elapsed / 1m 44s left ) -> ETA: Tue Nov 28 22:08 XS = 3829.6 pb +- ( 379.304 pb = 9 % ) Event 100 ( 1s elapsed / 1m 35s left ) -> ETA: Tue Nov 28 22:08 XS = 3901.38 pb +- ( 366.102 pb = 9 % ) Event 200 ( 2s elapsed / 56s left ) -> ETA: Tue Nov 28 22:07 XS = 3843.49 pb +- ( 255.213 pb = 6 % ) Event 300 ( 2s elapsed / 43s left ) -> ETA: Tue Nov 28 22:07 XS = 3868.75 pb +- ( 209.637 pb = 5 % ) Event 400 ( 3s elapsed / 36s left ) -> ETA: Tue Nov 28 22:07 XS = 3708.15 pb +- ( 174.494 pb = 4 % ) Event 500 ( 3s elapsed / 32s left ) -> ETA: Tue Nov 28 22:07 XS = 3805.1 pb +- ( 159.878 pb = 4 % ) Event 600 ( 4s elapsed / 29s left ) -> ETA: Tue Nov 28 22:07 XS = 3823.07 pb +- ( 146.588 pb = 3 % ) Event 700 ( 4s elapsed / 27s left ) -> ETA: Tue Nov 28 22:07 XS = 3890 pb +- ( 137.926 pb = 3 % ) Event 800 ( 4s elapsed / 25s left ) -> ETA: Tue Nov 28 22:07 XS = 3831.56 pb +- ( 127.209 pb = 3 % ) Event 900 ( 5s elapsed / 24s left ) -> ETA: Tue Nov 28 22:07 XS = 3855.95 pb +- ( 120.645 pb = 3 % ) Event 1000 ( 5s elapsed / 23s left ) -> ETA: Tue Nov 28 22:07 XS = 3848.98 pb +- ( 114.26 pb = 2 % ) Event 2000 ( 9s elapsed / 14s left ) -> ETA: Tue Nov 28 22:06 XS = 3910.33 pb +- ( 81.9909 pb = 2 % ) Event 3000 ( 14s elapsed / 9s left ) -> ETA: Tue Nov 28 22:06 XS = 3862.6 pb +- ( 66.1828 pb = 1 % ) Event 4000 ( 18s elapsed / 4s left ) -> ETA: Tue Nov 28 22:06 XS = 3890.48 pb +- ( 57.7012 pb = 1 % ) Event 5000 ( 22 s total ) = 1.9917e+07 evts/day In Event_Handler::Finish : Summarizing the run may take some time. Rivet_Interface::Finish(Analysis_CSS/8058){ } -------------------------------------------------------------------------- Nominal or variation name XS [pb] RelDev AbsErr [pb] RelErr -------------------------------------------------------------------------- Nominal  3878.11 0 % 51.4565 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: 22s on Tue Nov 28 22:06:55 2023 (User: 22s, 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 8058 ----------------------------------------------------------------------------- ----------- 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 10m 48s left ) -> ETA: Wed Nov 29 00:22 XS = 983.631 pb +- ( 983.631 pb = 100 % ) Event 2 ( 1s elapsed / 1h 5m 48s left ) -> ETA: Tue Nov 28 23:17 XS = 1361.95 pb +- ( 922.045 pb = 67 % ) Event 3 ( 1s elapsed / 44m 8s left ) -> ETA: Tue Nov 28 22:56 XS = 1264.67 pb +- ( 692.687 pb = 54 % ) Event 4 ( 1s elapsed / 33m 5s left ) -> ETA: Tue Nov 28 22:44 XS = 1609.58 pb +- ( 745.09 pb = 46 % ) Event 5 ( 1s elapsed / 26m 38s left ) -> ETA: Tue Nov 28 22:38 XS = 1770.54 pb +- ( 722.818 pb = 40 % ) Event 6 ( 1s elapsed / 22m 20s left ) -> ETA: Tue Nov 28 22:34 XS = 1897 pb +- ( 699.071 pb = 36 % ) Event 7 ( 1s elapsed / 19m 8s left ) -> ETA: Tue Nov 28 22:31 XS = 1877.84 pb +- ( 639.766 pb = 34 % ) Event 8 ( 1s elapsed / 16m 50s left ) -> ETA: Tue Nov 28 22:28 XS = 2082.98 pb +- ( 653.688 pb = 31 % ) Event 9 ( 1s elapsed / 14m 58s left ) -> ETA: Tue Nov 28 22:26 XS = 1991.85 pb +- ( 591.949 pb = 29 % ) Event 10 ( 1s elapsed / 13m 38s left ) -> ETA: Tue Nov 28 22:25 XS = 1806.67 pb +- ( 514.98 pb = 28 % ) Event 20 ( 1s elapsed / 7m 10s left ) -> ETA: Tue Nov 28 22:19 XS = 1903.8 pb +- ( 379.205 pb = 19 % ) Event 30 ( 1s elapsed / 4m 54s left ) -> ETA: Tue Nov 28 22:16 XS = 2011.97 pb +- ( 324.135 pb = 16 % ) Event 40 ( 1s elapsed / 3m 48s left ) -> ETA: Tue Nov 28 22:15 XS = 1844.31 pb +- ( 260.141 pb = 14 % ) Event 50 ( 1s elapsed / 3m 8s left ) -> ETA: Tue Nov 28 22:15 XS = 1852.02 pb +- ( 233.402 pb = 12 % ) Event 60 ( 1s elapsed / 2m 42s left ) -> ETA: Tue Nov 28 22:14 XS = 1876.89 pb +- ( 215.472 pb = 11 % ) Event 70 ( 2s elapsed / 2m 25s left ) -> ETA: Tue Nov 28 22:14 XS = 1900.88 pb +- ( 201.644 pb = 10 % ) Event 80 ( 2s elapsed / 2m 10s left ) -> ETA: Tue Nov 28 22:14 XS = 1972.74 pb +- ( 194.709 pb = 9 % ) Event 90 ( 2s elapsed / 1m 58s left ) -> ETA: Tue Nov 28 22:13 XS = 1986.88 pb +- ( 184.672 pb = 9 % ) Event 100 ( 2s elapsed / 1m 48s left ) -> ETA: Tue Nov 28 22:13 XS = 2011.97 pb +- ( 177.064 pb = 8 % ) Event 200 ( 2s elapsed / 1m 8s left ) -> ETA: Tue Nov 28 22:13 XS = 1897.68 pb +- ( 119.001 pb = 6 % ) Event 300 ( 3s elapsed / 54s left ) -> ETA: Tue Nov 28 22:12 XS = 1931.49 pb +- ( 98.6378 pb = 5 % ) Event 400 ( 4s elapsed / 47s left ) -> ETA: Tue Nov 28 22:12 XS = 1916.16 pb +- ( 84.8308 pb = 4 % ) Event 500 ( 4s elapsed / 42s left ) -> ETA: Tue Nov 28 22:12 XS = 1921.15 pb +- ( 76.0411 pb = 3 % ) Event 600 ( 5s elapsed / 39s left ) -> ETA: Tue Nov 28 22:12 XS = 1894.3 pb +- ( 68.5751 pb = 3 % ) Event 700 ( 6s elapsed / 37s left ) -> ETA: Tue Nov 28 22:12 XS = 1912.02 pb +- ( 63.9992 pb = 3 % ) Event 800 ( 6s elapsed / 35s left ) -> ETA: Tue Nov 28 22:12 XS = 1870.12 pb +- ( 58.7289 pb = 3 % ) Event 900 ( 7s elapsed / 33s left ) -> ETA: Tue Nov 28 22:12 XS = 1878.66 pb +- ( 55.5882 pb = 2 % ) Event 1000 ( 7s elapsed / 31s left ) -> ETA: Tue Nov 28 22:12 XS = 1885.96 pb +- ( 52.9121 pb = 2 % ) Event 2000 ( 13s elapsed / 20s left ) -> ETA: Tue Nov 28 22:12 XS = 1900.53 pb +- ( 37.6622 pb = 1 % ) Event 3000 ( 19s elapsed / 12s left ) -> ETA: Tue Nov 28 22:12 XS = 1916.99 pb +- ( 30.9801 pb = 1 % ) Event 4000 ( 25s elapsed / 6s left ) -> ETA: Tue Nov 28 22:12 XS = 1921.57 pb +- ( 26.8845 pb = 1 % ) Event 5000 ( 30 s total ) = 1.45161e+07 evts/day In Event_Handler::Finish : Summarizing the run may take some time. Rivet_Interface::Finish(Analysis_Allrecoil_Tall_PT2MIN/8058){ } -------------------------------------------------------------------------- Nominal or variation name XS [pb] RelDev AbsErr [pb] RelErr -------------------------------------------------------------------------- Nominal  1956.91 0 % 24.4258 1.24 % -------------------------------------------------------------------------- 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: 30s on Tue Nov 28 22:12:21 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 22:13:56 2023. Run_Parameter::Init(): Setting memory limit to 187.131 GB. Random::SetSeed(): Seed set to 8058 ----------------------------------------------------------------------------- ----------- 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 / 5h 18m 18s left ) -> ETA: Wed Nov 29 03:32 XS = 983.631 pb +- ( 983.631 pb = 100 % ) Event 2 ( 1s elapsed / 2h 39m 58s left ) -> ETA: Wed Nov 29 00:53 XS = 1361.95 pb +- ( 922.045 pb = 67 % ) Event 3 ( 1s elapsed / 1h 47m 11s left ) -> ETA: Wed Nov 29 00:01 XS = 1264.67 pb +- ( 692.687 pb = 54 % ) Event 4 ( 1s elapsed / 1h 20m 48s left ) -> ETA: Tue Nov 28 23:34 XS = 1609.58 pb +- ( 745.09 pb = 46 % ) Event 5 ( 1s elapsed / 1h 4m 38s left ) -> ETA: Tue Nov 28 23:18 XS = 1770.54 pb +- ( 722.818 pb = 40 % ) Event 6 ( 1s elapsed / 54m 8s left ) -> ETA: Tue Nov 28 23:08 XS = 1897 pb +- ( 699.071 pb = 36 % ) Event 7 ( 1s elapsed / 46m 38s left ) -> ETA: Tue Nov 28 23:00 XS = 1877.84 pb +- ( 639.766 pb = 34 % ) Event 8 ( 1s elapsed / 40m 48s left ) -> ETA: Tue Nov 28 22:54 XS = 2082.98 pb +- ( 653.688 pb = 31 % ) Event 9 ( 1s elapsed / 36m 26s left ) -> ETA: Tue Nov 28 22:50 XS = 1991.85 pb +- ( 591.949 pb = 29 % ) Event 10 ( 1s elapsed / 32m 58s left ) -> ETA: Tue Nov 28 22:46 XS = 1806.67 pb +- ( 514.98 pb = 28 % ) Event 20 ( 2s elapsed / 17m 17s left ) -> ETA: Tue Nov 28 22:31 XS = 1903.8 pb +- ( 379.205 pb = 19 % ) Event 30 ( 2s elapsed / 11m 44s left ) -> ETA: Tue Nov 28 22:25 XS = 2011.97 pb +- ( 324.135 pb = 16 % ) Event 40 ( 2s elapsed / 9m 2s left ) -> ETA: Tue Nov 28 22:23 XS = 1844.31 pb +- ( 260.141 pb = 14 % ) Event 50 ( 2s elapsed / 7m 29s left ) -> ETA: Tue Nov 28 22:21 XS = 1852.02 pb +- ( 233.402 pb = 12 % ) Event 60 ( 2s elapsed / 6m 24s left ) -> ETA: Tue Nov 28 22:20 XS = 1876.89 pb +- ( 215.472 pb = 11 % ) Event 70 ( 2s elapsed / 5m 39s left ) -> ETA: Tue Nov 28 22:19 XS = 1900.88 pb +- ( 201.644 pb = 10 % ) Event 80 ( 2s elapsed / 5m 6s left ) -> ETA: Tue Nov 28 22:19 XS = 1972.74 pb +- ( 194.709 pb = 9 % ) Event 90 ( 2s elapsed / 4m 40s left ) -> ETA: Tue Nov 28 22:18 XS = 1986.88 pb +- ( 184.672 pb = 9 % ) Event 100 ( 2s elapsed / 4m 20s left ) -> ETA: Tue Nov 28 22:18 XS = 2011.97 pb +- ( 177.064 pb = 8 % ) Event 200 ( 3s elapsed / 2m 41s left ) -> ETA: Tue Nov 28 22:16 XS = 1897.68 pb +- ( 119.001 pb = 6 % ) Event 300 ( 3s elapsed / 2m 6s left ) -> ETA: Tue Nov 28 22:16 XS = 1931.49 pb +- ( 98.6378 pb = 5 % ) Event 400 ( 4s elapsed / 1m 49s left ) -> ETA: Tue Nov 28 22:15 XS = 1916.16 pb +- ( 84.8308 pb = 4 % ) Event 500 ( 5s elapsed / 1m 39s left ) -> ETA: Tue Nov 28 22:15 XS = 1921.15 pb +- ( 76.0411 pb = 3 % ) Event 600 ( 6s elapsed / 1m 35s left ) -> ETA: Tue Nov 28 22:15 XS = 1894.3 pb +- ( 68.5751 pb = 3 % ) Event 700 ( 6s elapsed / 1m 30s left ) -> ETA: Tue Nov 28 22:15 XS = 1912.02 pb +- ( 63.9992 pb = 3 % ) Event 800 ( 7s elapsed / 1m 24s left ) -> ETA: Tue Nov 28 22:15 XS = 1870.12 pb +- ( 58.7289 pb = 3 % ) Event 900 ( 7s elapsed / 1m 20s left ) -> ETA: Tue Nov 28 22:15 XS = 1878.66 pb +- ( 55.5882 pb = 2 % ) Event 1000 ( 8s elapsed / 1m 18s left ) -> ETA: Tue Nov 28 22:15 XS = 1885.96 pb +- ( 52.9121 pb = 2 % ) Event 2000 ( 15s elapsed / 1m 1s left ) -> ETA: Tue Nov 28 22:15 XS = 1900.53 pb +- ( 37.6622 pb = 1 % ) Event 3000 ( 21s elapsed / 51s left ) -> ETA: Tue Nov 28 22:15 XS = 1916.99 pb +- ( 30.9801 pb = 1 % ) Event 4000 ( 28s elapsed / 43s left ) -> ETA: Tue Nov 28 22:15 XS = 1921.57 pb +- ( 26.8845 pb = 1 % ) Event 5000 ( 35s elapsed / 35s left ) -> ETA: Tue Nov 28 22:15 XS = 1956.91 pb +- ( 24.4258 pb = 1 % ) Event 6000 ( 41s elapsed / 27s left ) -> ETA: Tue Nov 28 22:15 XS = 1955.6 pb +- ( 22.2847 pb = 1 % ) Event 7000 ( 48s elapsed / 20s left ) -> ETA: Tue Nov 28 22:15 XS = 1956.15 pb +- ( 20.6365 pb = 1 % ) Event 8000 ( 54s elapsed / 13s left ) -> ETA: Tue Nov 28 22:15 XS = 1948.16 pb +- ( 19.236 pb = 0 % ) Event 9000 ( 1m elapsed / 6s left ) -> ETA: Tue Nov 28 22:15 XS = 1945.36 pb +- ( 18.1134 pb = 0 % ) Event 10000 ( 64 s total ) = 1.35423e+07 evts/day In Event_Handler::Finish : Summarizing the run may take some time. Rivet_Interface::Finish(Analysis_Allrecoil_Tall_PT2MIN/8058){ } -------------------------------------------------------------------------- Nominal or variation name XS [pb] RelDev AbsErr [pb] RelErr -------------------------------------------------------------------------- Nominal  1941.29 0 % 17.153 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 4s on Tue Nov 28 22:15:01 2023 (User: 1m 4s, 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 8058 ----------------------------------------------------------------------------- ----------- 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 / 5h 6m 38s left ) -> ETA: Wed Nov 29 03:27 XS = 983.631 pb +- ( 983.631 pb = 100 % ) Event 2 ( 1s elapsed / 2h 33m 18s left ) -> ETA: Wed Nov 29 00:54 XS = 1475.45 pb +- ( 994.745 pb = 67 % ) Event 3 ( 1s elapsed / 1h 42m 11s left ) -> ETA: Wed Nov 29 00:03 XS = 2042.93 pb +- ( 1076.72 pb = 52 % ) Event 4 ( 1s elapsed / 1h 16m 38s left ) -> ETA: Tue Nov 28 23:37 XS = 2213.17 pb +- ( 989.759 pb = 44 % ) Event 5 ( 1s elapsed / 1h 1m 38s left ) -> ETA: Tue Nov 28 23:22 XS = 1924.49 pb +- ( 778.496 pb = 40 % ) Event 6 ( 1s elapsed / 51m 21s left ) -> ETA: Tue Nov 28 23:12 XS = 1831.59 pb +- ( 677.699 pb = 37 % ) Event 7 ( 1s elapsed / 44m 1s left ) -> ETA: Tue Nov 28 23:05 XS = 1936.52 pb +- ( 657.299 pb = 33 % ) Event 8 ( 1s elapsed / 38m 30s left ) -> ETA: Tue Nov 28 22:59 XS = 2082.98 pb +- ( 653.688 pb = 31 % ) Event 9 ( 1s elapsed / 34m 24s left ) -> ETA: Tue Nov 28 22:55 XS = 2153.35 pb +- ( 633.026 pb = 29 % ) Event 10 ( 1s elapsed / 30m 58s left ) -> ETA: Tue Nov 28 22:52 XS = 2058.76 pb +- ( 577.083 pb = 28 % ) Event 20 ( 1s elapsed / 15m 38s left ) -> ETA: Tue Nov 28 22:36 XS = 2642.59 pb +- ( 498.645 pb = 18 % ) Event 30 ( 1s elapsed / 10m 38s left ) -> ETA: Tue Nov 28 22:31 XS = 2124.64 pb +- ( 339.528 pb = 15 % ) Event 40 ( 1s elapsed / 8m 3s left ) -> ETA: Tue Nov 28 22:29 XS = 2070.8 pb +- ( 287.422 pb = 13 % ) Event 50 ( 1s elapsed / 6m 32s left ) -> ETA: Tue Nov 28 22:27 XS = 2068.38 pb +- ( 256.672 pb = 12 % ) Event 60 ( 2s elapsed / 5m 31s left ) -> ETA: Tue Nov 28 22:26 XS = 2019.62 pb +- ( 229.505 pb = 11 % ) Event 70 ( 2s elapsed / 4m 47s left ) -> ETA: Tue Nov 28 22:25 XS = 2079.49 pb +- ( 217.769 pb = 10 % ) Event 80 ( 2s elapsed / 4m 15s left ) -> ETA: Tue Nov 28 22:25 XS = 2101.53 pb +- ( 205.488 pb = 9 % ) Event 90 ( 2s elapsed / 3m 49s left ) -> ETA: Tue Nov 28 22:25 XS = 2080.26 pb +- ( 192.043 pb = 9 % ) Event 100 ( 2s elapsed / 3m 27s left ) -> ETA: Tue Nov 28 22:24 XS = 2063.56 pb +- ( 180.923 pb = 8 % ) Event 200 ( 2s elapsed / 1m 55s left ) -> ETA: Tue Nov 28 22:23 XS = 1887.56 pb +- ( 118.453 pb = 6 % ) Event 300 ( 2s elapsed / 1m 25s left ) -> ETA: Tue Nov 28 22:22 XS = 1964.35 pb +- ( 100.078 pb = 5 % ) Event 400 ( 2s elapsed / 1m 9s left ) -> ETA: Tue Nov 28 22:22 XS = 2025.78 pb +- ( 88.9737 pb = 4 % ) Event 500 ( 3s elapsed / 59s left ) -> ETA: Tue Nov 28 22:22 XS = 2036.97 pb +- ( 79.9499 pb = 3 % ) Event 600 ( 3s elapsed / 53s left ) -> ETA: Tue Nov 28 22:22 XS = 2018.85 pb +- ( 72.428 pb = 3 % ) Event 700 ( 3s elapsed / 48s left ) -> ETA: Tue Nov 28 22:22 XS = 2020.5 pb +- ( 67.1 pb = 3 % ) Event 800 ( 3s elapsed / 45s left ) -> ETA: Tue Nov 28 22:21 XS = 1997.22 pb +- ( 62.1474 pb = 3 % ) Event 900 ( 4s elapsed / 42s left ) -> ETA: Tue Nov 28 22:21 XS = 1962.42 pb +- ( 57.717 pb = 2 % ) Event 1000 ( 4s elapsed / 39s left ) -> ETA: Tue Nov 28 22:21 XS = 1965.51 pb +- ( 54.8286 pb = 2 % ) Event 2000 ( 6s elapsed / 27s left ) -> ETA: Tue Nov 28 22:21 XS = 2002.41 pb +- ( 39.3894 pb = 1 % ) Event 3000 ( 9s elapsed / 21s left ) -> ETA: Tue Nov 28 22:21 XS = 1969.74 pb +- ( 31.7113 pb = 1 % ) Event 4000 ( 11s elapsed / 17s left ) -> ETA: Tue Nov 28 22:21 XS = 1959.21 pb +- ( 27.3366 pb = 1 % ) Event 5000 ( 14s elapsed / 14s left ) -> ETA: Tue Nov 28 22:21 XS = 1954.66 pb +- ( 24.4018 pb = 1 % ) Event 6000 ( 17s elapsed / 11s left ) -> ETA: Tue Nov 28 22:21 XS = 1952.29 pb +- ( 22.2524 pb = 1 % ) Event 7000 ( 19s elapsed / 8s left ) -> ETA: Tue Nov 28 22:21 XS = 1943.69 pb +- ( 20.5237 pb = 1 % ) Event 8000 ( 22s elapsed / 5s left ) -> ETA: Tue Nov 28 22:21 XS = 1936.7 pb +- ( 19.1388 pb = 0 % ) Event 9000 ( 24s elapsed / 2s left ) -> ETA: Tue Nov 28 22:21 XS = 1942.42 pb +- ( 18.0899 pb = 0 % ) Event 10000 ( 26 s total ) = 3.35534e+07 evts/day In Event_Handler::Finish : Summarizing the run may take some time. Rivet_Interface::Finish(Analysis_Allrecoil_1em/8058){ } -------------------------------------------------------------------------- Nominal or variation name XS [pb] RelDev AbsErr [pb] RelErr -------------------------------------------------------------------------- Nominal  1943.12 0 % 17.1669 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: 27s 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 8058 ----------------------------------------------------------------------------- ----------- 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 / 5h 13m 18s left ) -> ETA: Wed Nov 29 03:35 XS = 3238.14 pb +- ( 3238.14 pb = 100 % ) Event 2 ( 1s elapsed / 2h 36m 38s left ) -> ETA: Wed Nov 29 00:59 XS = 5887.53 pb +- ( 3949.48 pb = 67 % ) Event 3 ( 1s elapsed / 1h 44m 24s left ) -> ETA: Wed Nov 29 00:06 XS = 4857.22 pb +- ( 2652.62 pb = 54 % ) Event 4 ( 1s elapsed / 1h 18m 43s left ) -> ETA: Tue Nov 28 23:41 XS = 4466.41 pb +- ( 2110.18 pb = 47 % ) Event 5 ( 1s elapsed / 1h 2m 58s left ) -> ETA: Tue Nov 28 23:25 XS = 4047.68 pb +- ( 1714.84 pb = 42 % ) Event 6 ( 1s elapsed / 52m 44s left ) -> ETA: Tue Nov 28 23:15 XS = 4223.67 pb +- ( 1625.69 pb = 38 % ) Event 7 ( 1s elapsed / 45m 12s left ) -> ETA: Tue Nov 28 23:07 XS = 4359.04 pb +- ( 1547.62 pb = 35 % ) Event 8 ( 1s elapsed / 39m 33s left ) -> ETA: Tue Nov 28 23:02 XS = 4797.25 pb +- ( 1580.11 pb = 32 % ) Event 9 ( 1s elapsed / 35m 20s left ) -> ETA: Tue Nov 28 22:57 XS = 3736.32 pb +- ( 1178.97 pb = 31 % ) Event 10 ( 1s elapsed / 31m 48s left ) -> ETA: Tue Nov 28 22:54 XS = 4098.92 pb +- ( 1219.12 pb = 29 % ) Event 20 ( 1s elapsed / 16m 13s left ) -> ETA: Tue Nov 28 22:38 XS = 3948.96 pb +- ( 829.955 pb = 21 % ) Event 30 ( 1s elapsed / 11m 1s left ) -> ETA: Tue Nov 28 22:33 XS = 3679.71 pb +- ( 633.699 pb = 17 % ) Event 40 ( 2s elapsed / 8m 22s left ) -> ETA: Tue Nov 28 22:30 XS = 4035.07 pb +- ( 597.86 pb = 14 % ) Event 50 ( 2s elapsed / 6m 47s left ) -> ETA: Tue Nov 28 22:29 XS = 4109.32 pb +- ( 543.711 pb = 13 % ) Event 60 ( 2s elapsed / 5m 46s left ) -> ETA: Tue Nov 28 22:28 XS = 4098.92 pb +- ( 495.066 pb = 12 % ) Event 70 ( 2s elapsed / 4m 59s left ) -> ETA: Tue Nov 28 22:27 XS = 4350.67 pb +- ( 484.277 pb = 11 % ) Event 80 ( 2s elapsed / 4m 26s left ) -> ETA: Tue Nov 28 22:26 XS = 4361.14 pb +- ( 453.951 pb = 10 % ) Event 90 ( 2s elapsed / 4m 1s left ) -> ETA: Tue Nov 28 22:26 XS = 4116.28 pb +- ( 405.666 pb = 9 % ) Event 100 ( 2s elapsed / 3m 40s left ) -> ETA: Tue Nov 28 22:26 XS = 4151.47 pb +- ( 387.871 pb = 9 % ) Event 200 ( 2s elapsed / 2m 2s left ) -> ETA: Tue Nov 28 22:24 XS = 3889.66 pb +- ( 258.071 pb = 6 % ) Event 300 ( 2s elapsed / 1m 28s left ) -> ETA: Tue Nov 28 22:23 XS = 3868.75 pb +- ( 209.637 pb = 5 % ) Event 400 ( 2s elapsed / 1m 11s left ) -> ETA: Tue Nov 28 22:23 XS = 4079.55 pb +- ( 190.726 pb = 4 % ) Event 500 ( 3s elapsed / 1m 2s left ) -> ETA: Tue Nov 28 22:23 XS = 4019.54 pb +- ( 168.254 pb = 4 % ) Event 600 ( 3s elapsed / 54s left ) -> ETA: Tue Nov 28 22:23 XS = 4122.4 pb +- ( 157.236 pb = 3 % ) Event 700 ( 3s elapsed / 50s left ) -> ETA: Tue Nov 28 22:23 XS = 4071.67 pb +- ( 143.907 pb = 3 % ) Event 800 ( 4s elapsed / 46s left ) -> ETA: Tue Nov 28 22:23 XS = 4055.92 pb +- ( 134.128 pb = 3 % ) Event 900 ( 4s elapsed / 43s left ) -> ETA: Tue Nov 28 22:23 XS = 3986.77 pb +- ( 124.451 pb = 3 % ) Event 1000 ( 4s elapsed / 41s left ) -> ETA: Tue Nov 28 22:23 XS = 3962.49 pb +- ( 117.395 pb = 2 % ) Event 2000 ( 7s elapsed / 29s left ) -> ETA: Tue Nov 28 22:23 XS = 3793.51 pb +- ( 79.7045 pb = 2 % ) Event 3000 ( 10s elapsed / 24s left ) -> ETA: Tue Nov 28 22:23 XS = 3809.73 pb +- ( 65.3374 pb = 1 % ) Event 4000 ( 13s elapsed / 20s left ) -> ETA: Tue Nov 28 22:23 XS = 3838.6 pb +- ( 56.9835 pb = 1 % ) Event 5000 ( 16s elapsed / 16s left ) -> ETA: Tue Nov 28 22:23 XS = 3839.87 pb +- ( 50.9834 pb = 1 % ) Event 6000 ( 19s elapsed / 13s left ) -> ETA: Tue Nov 28 22:23 XS = 3826.86 pb +- ( 46.394 pb = 1 % ) Event 7000 ( 22s elapsed / 9s left ) -> ETA: Tue Nov 28 22:22 XS = 3805.95 pb +- ( 42.7334 pb = 1 % ) Event 8000 ( 25s elapsed / 6s left ) -> ETA: Tue Nov 28 22:22 XS = 3793.69 pb +- ( 39.8532 pb = 1 % ) Event 9000 ( 28s elapsed / 3s left ) -> ETA: Tue Nov 28 22:22 XS = 3808.2 pb +- ( 37.708 pb = 0 % ) Event 10000 ( 30 s total ) = 2.81158e+07 evts/day In Event_Handler::Finish : Summarizing the run may take some time. Rivet_Interface::Finish(Analysis_CSS_1em/8058){ } -------------------------------------------------------------------------- Nominal or variation name XS [pb] RelDev AbsErr [pb] RelErr -------------------------------------------------------------------------- Nominal  3811.56 0 % 35.8025 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: 31s on Tue Nov 28 22:22:58 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 8058 ----------------------------------------------------------------------------- ----------- 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 49m 58s left ) -> ETA: Wed Nov 29 03:15 XS = 983.631 pb +- ( 983.631 pb = 100 % ) Event 2 ( 1s elapsed / 2h 24m 58s left ) -> ETA: Wed Nov 29 00:50 XS = 1264.67 pb +- ( 859.173 pb = 67 % ) Event 3 ( 1s elapsed / 1h 37m 11s left ) -> ETA: Wed Nov 29 00:02 XS = 1770.54 pb +- ( 946.391 pb = 53 % ) Event 4 ( 1s elapsed / 1h 12m 53s left ) -> ETA: Tue Nov 28 23:38 XS = 1361.95 pb +- ( 638.811 pb = 46 % ) Event 5 ( 1s elapsed / 58m 18s left ) -> ETA: Tue Nov 28 23:23 XS = 1526.32 pb +- ( 631.958 pb = 41 % ) Event 6 ( 1s elapsed / 48m 34s left ) -> ETA: Tue Nov 28 23:13 XS = 1713.42 pb +- ( 638.554 pb = 37 % ) Event 7 ( 1s elapsed / 41m 52s left ) -> ETA: Tue Nov 28 23:07 XS = 1630.76 pb +- ( 564.183 pb = 34 % ) Event 8 ( 1s elapsed / 36m 38s left ) -> ETA: Tue Nov 28 23:01 XS = 1815.93 pb +- ( 579.888 pb = 31 % ) Event 9 ( 1s elapsed / 32m 33s left ) -> ETA: Tue Nov 28 22:57 XS = 1991.85 pb +- ( 591.949 pb = 29 % ) Event 10 ( 1s elapsed / 29m 18s left ) -> ETA: Tue Nov 28 22:54 XS = 1735.82 pb +- ( 497.063 pb = 28 % ) Event 20 ( 1s elapsed / 14m 48s left ) -> ETA: Tue Nov 28 22:40 XS = 1967.26 pb +- ( 390.123 pb = 19 % ) Event 30 ( 1s elapsed / 10m 1s left ) -> ETA: Tue Nov 28 22:35 XS = 1897 pb +- ( 308.103 pb = 16 % ) Event 40 ( 1s elapsed / 7m 35s left ) -> ETA: Tue Nov 28 22:32 XS = 1686.22 pb +- ( 240.457 pb = 14 % ) Event 50 ( 1s elapsed / 6m 8s left ) -> ETA: Tue Nov 28 22:31 XS = 1689.44 pb +- ( 215.331 pb = 12 % ) Event 60 ( 1s elapsed / 5m 8s left ) -> ETA: Tue Nov 28 22:30 XS = 1850.73 pb +- ( 212.862 pb = 11 % ) Event 70 ( 1s elapsed / 4m 26s left ) -> ETA: Tue Nov 28 22:29 XS = 1801.42 pb +- ( 192.439 pb = 10 % ) Event 80 ( 1s elapsed / 3m 54s left ) -> ETA: Tue Nov 28 22:29 XS = 1878.55 pb +- ( 186.665 pb = 9 % ) Event 90 ( 1s elapsed / 3m 29s left ) -> ETA: Tue Nov 28 22:28 XS = 1929.15 pb +- ( 180.052 pb = 9 % ) Event 100 ( 1s elapsed / 3m 10s left ) -> ETA: Tue Nov 28 22:28 XS = 1958.56 pb +- ( 173.029 pb = 8 % ) Event 200 ( 2s elapsed / 1m 43s left ) -> ETA: Tue Nov 28 22:27 XS = 1996.09 pb +- ( 124.287 pb = 6 % ) Event 300 ( 2s elapsed / 1m 15s left ) -> ETA: Tue Nov 28 22:26 XS = 1939.96 pb +- ( 99.0096 pb = 5 % ) Event 400 ( 2s elapsed / 1m 2s left ) -> ETA: Tue Nov 28 22:26 XS = 1976.04 pb +- ( 87.1041 pb = 4 % ) Event 500 ( 2s elapsed / 52s left ) -> ETA: Tue Nov 28 22:26 XS = 1981.35 pb +- ( 78.083 pb = 3 % ) Event 600 ( 2s elapsed / 46s left ) -> ETA: Tue Nov 28 22:26 XS = 2011.97 pb +- ( 72.2174 pb = 3 % ) Event 700 ( 3s elapsed / 43s left ) -> ETA: Tue Nov 28 22:26 XS = 2003.52 pb +- ( 66.6186 pb = 3 % ) Event 800 ( 3s elapsed / 40s left ) -> ETA: Tue Nov 28 22:26 XS = 1992.72 pb +- ( 62.0278 pb = 3 % ) Event 900 ( 3s elapsed / 37s left ) -> ETA: Tue Nov 28 22:26 XS = 1970.18 pb +- ( 57.9127 pb = 2 % ) Event 1000 ( 3s elapsed / 34s left ) -> ETA: Tue Nov 28 22:25 XS = 1958.12 pb +- ( 54.6517 pb = 2 % ) Event 2000 ( 5s elapsed / 23s left ) -> ETA: Tue Nov 28 22:25 XS = 1939.89 pb +- ( 38.3332 pb = 1 % ) Event 3000 ( 7s elapsed / 18s left ) -> ETA: Tue Nov 28 22:25 XS = 1912.3 pb +- ( 30.9147 pb = 1 % ) Event 4000 ( 9s elapsed / 14s left ) -> ETA: Tue Nov 28 22:25 XS = 1939.14 pb +- ( 27.096 pb = 1 % ) Event 5000 ( 11s elapsed / 11s left ) -> ETA: Tue Nov 28 22:25 XS = 1952.16 pb +- ( 24.375 pb = 1 % ) Event 6000 ( 13s elapsed / 9s left ) -> ETA: Tue Nov 28 22:25 XS = 1947.07 pb +- ( 22.2012 pb = 1 % ) Event 7000 ( 15s elapsed / 6s left ) -> ETA: Tue Nov 28 22:25 XS = 1943.51 pb +- ( 20.522 pb = 1 % ) Event 8000 ( 17s elapsed / 4s left ) -> ETA: Tue Nov 28 22:25 XS = 1932.11 pb +- ( 19.0997 pb = 0 % ) Event 9000 ( 19s elapsed / 2s left ) -> ETA: Tue Nov 28 22:25 XS = 1935.53 pb +- ( 18.0347 pb = 0 % ) Event 10000 ( 21 s total ) = 4.18605e+07 evts/day In Event_Handler::Finish : Summarizing the run may take some time. Rivet_Interface::Finish(Analysis_CSS_1em/8058){ } -------------------------------------------------------------------------- Nominal or variation name XS [pb] RelDev AbsErr [pb] RelErr -------------------------------------------------------------------------- Nominal  1936.96 0 % 17.1201 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 22:25:41 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 Tue Nov 28 22:27:00 2023. Run_Parameter::Init(): Setting memory limit to 187.131 GB. Random::SetSeed(): Seed set to 8058 ----------------------------------------------------------------------------- ----------- 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 / 3h 34m 58s left ) -> ETA: Wed Nov 29 02:02 XS = 983.631 pb +- ( 983.631 pb = 100 % ) Event 2 ( 1s elapsed / 1h 48m 18s left ) -> ETA: Wed Nov 29 00:15 XS = 1609.58 pb +- ( 1079.74 pb = 67 % ) Event 3 ( 1s elapsed / 1h 13m 18s left ) -> ETA: Tue Nov 28 23:40 XS = 1659.88 pb +- ( 892.157 pb = 53 % ) Event 4 ( 1s elapsed / 54m 58s left ) -> ETA: Tue Nov 28 23:22 XS = 1609.58 pb +- ( 745.09 pb = 46 % ) Event 5 ( 1s elapsed / 43m 58s left ) -> ETA: Tue Nov 28 23:11 XS = 1924.49 pb +- ( 778.496 pb = 40 % ) Event 6 ( 1s elapsed / 36m 55s left ) -> ETA: Tue Nov 28 23:03 XS = 1831.59 pb +- ( 677.699 pb = 37 % ) Event 7 ( 1s elapsed / 31m 38s left ) -> ETA: Tue Nov 28 22:58 XS = 1770.54 pb +- ( 607.289 pb = 34 % ) Event 8 ( 1s elapsed / 27m 41s left ) -> ETA: Tue Nov 28 22:54 XS = 1914.09 pb +- ( 607.387 pb = 31 % ) Event 9 ( 1s elapsed / 24m 47s left ) -> ETA: Tue Nov 28 22:51 XS = 1770.54 pb +- ( 533.836 pb = 30 % ) Event 10 ( 1s elapsed / 22m 18s left ) -> ETA: Tue Nov 28 22:49 XS = 1639.38 pb +- ( 472.356 pb = 28 % ) Event 20 ( 1s elapsed / 11m 43s left ) -> ETA: Tue Nov 28 22:38 XS = 1609.58 pb +- ( 327.043 pb = 20 % ) Event 30 ( 1s elapsed / 8m 5s left ) -> ETA: Tue Nov 28 22:35 XS = 1857.2 pb +- ( 302.478 pb = 16 % ) Event 40 ( 1s elapsed / 6m 15s left ) -> ETA: Tue Nov 28 22:33 XS = 1761.73 pb +- ( 249.923 pb = 14 % ) Event 50 ( 1s elapsed / 5m 10s left ) -> ETA: Tue Nov 28 22:32 XS = 1580.83 pb +- ( 202.985 pb = 12 % ) Event 60 ( 1s elapsed / 4m 26s left ) -> ETA: Tue Nov 28 22:31 XS = 1730.16 pb +- ( 200.678 pb = 11 % ) Event 70 ( 1s elapsed / 3m 54s left ) -> ETA: Tue Nov 28 22:30 XS = 1872.17 pb +- ( 199.003 pb = 10 % ) Event 80 ( 1s elapsed / 3m 30s left ) -> ETA: Tue Nov 28 22:30 XS = 1797.5 pb +- ( 179.635 pb = 9 % ) Event 90 ( 1s elapsed / 3m 14s left ) -> ETA: Tue Nov 28 22:30 XS = 1861.54 pb +- ( 174.581 pb = 9 % ) Event 100 ( 1s elapsed / 2m 59s left ) -> ETA: Tue Nov 28 22:30 XS = 1912.02 pb +- ( 169.483 pb = 8 % ) Event 200 ( 2s elapsed / 1m 58s left ) -> ETA: Tue Nov 28 22:29 XS = 1836.65 pb +- ( 115.677 pb = 6 % ) Event 300 ( 3s elapsed / 1m 38s left ) -> ETA: Tue Nov 28 22:28 XS = 1916.16 pb +- ( 97.963 pb = 5 % ) Event 400 ( 3s elapsed / 1m 25s left ) -> ETA: Tue Nov 28 22:28 XS = 1876.56 pb +- ( 83.3139 pb = 4 % ) Event 500 ( 4s elapsed / 1m 20s left ) -> ETA: Tue Nov 28 22:28 XS = 1894.84 pb +- ( 75.1415 pb = 3 % ) Event 600 ( 4s elapsed / 1m 15s left ) -> ETA: Tue Nov 28 22:28 XS = 1910.65 pb +- ( 69.0859 pb = 3 % ) Event 700 ( 5s elapsed / 1m 11s left ) -> ETA: Tue Nov 28 22:28 XS = 1935.92 pb +- ( 64.6874 pb = 3 % ) Event 800 ( 5s elapsed / 1m 7s left ) -> ETA: Tue Nov 28 22:28 XS = 1887.06 pb +- ( 59.189 pb = 3 % ) Event 900 ( 6s elapsed / 1m 4s left ) -> ETA: Tue Nov 28 22:28 XS = 1896.85 pb +- ( 56.1951 pb = 2 % ) Event 1000 ( 6s elapsed / 1m 2s left ) -> ETA: Tue Nov 28 22:28 XS = 1881.38 pb +- ( 52.9212 pb = 2 % ) Event 2000 ( 12s elapsed / 50s left ) -> ETA: Tue Nov 28 22:28 XS = 1917.26 pb +- ( 38.078 pb = 1 % ) Event 3000 ( 17s elapsed / 41s left ) -> ETA: Tue Nov 28 22:28 XS = 1906.63 pb +- ( 30.9529 pb = 1 % ) Event 4000 ( 23s elapsed / 34s left ) -> ETA: Tue Nov 28 22:27 XS = 1899.02 pb +- ( 26.7032 pb = 1 % ) Event 5000 ( 29s elapsed / 29s left ) -> ETA: Tue Nov 28 22:27 XS = 1900.63 pb +- ( 23.8851 pb = 1 % ) Event 6000 ( 34s elapsed / 22s left ) -> ETA: Tue Nov 28 22:27 XS = 1918.47 pb +- ( 21.9871 pb = 1 % ) Event 7000 ( 39s elapsed / 16s left ) -> ETA: Tue Nov 28 22:27 XS = 1907.17 pb +- ( 20.2504 pb = 1 % ) Event 8000 ( 44s elapsed / 11s left ) -> ETA: Tue Nov 28 22:27 XS = 1912.48 pb +- ( 18.981 pb = 0 % ) Event 9000 ( 50s elapsed / 5s left ) -> ETA: Tue Nov 28 22:27 XS = 1915.87 pb +- ( 17.9223 pb = 0 % ) Event 10000 ( 56 s total ) = 1.54922e+07 evts/day In Event_Handler::Finish : Summarizing the run may take some time. Rivet_Interface::Finish(Analysis_Allrecoil_NNPDF/8058){ } -------------------------------------------------------------------------- Nominal or variation name XS [pb] RelDev AbsErr [pb] RelErr -------------------------------------------------------------------------- Nominal  1913.32 0 % 16.9825 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: 56s on Tue Nov 28 22:27:57 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 8058 ----------------------------------------------------------------------------- ----------- 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 / 5h 31m 38s left ) -> ETA: Wed Nov 29 04:03 XS = 983.631 pb +- ( 983.631 pb = 100 % ) Event 2 ( 2s elapsed / 2h 47m 27s left ) -> ETA: Wed Nov 29 01:19 XS = 1361.95 pb +- ( 922.045 pb = 67 % ) Event 3 ( 2s elapsed / 1h 51m 37s left ) -> ETA: Wed Nov 29 00:23 XS = 1264.67 pb +- ( 692.687 pb = 54 % ) Event 4 ( 2s elapsed / 1h 24m 7s left ) -> ETA: Tue Nov 28 23:55 XS = 1609.58 pb +- ( 745.09 pb = 46 % ) Event 5 ( 2s elapsed / 1h 7m 37s left ) -> ETA: Tue Nov 28 23:39 XS = 1770.54 pb +- ( 722.818 pb = 40 % ) Event 6 ( 2s elapsed / 56m 21s left ) -> ETA: Tue Nov 28 23:27 XS = 1897 pb +- ( 699.071 pb = 36 % ) Event 7 ( 2s elapsed / 48m 32s left ) -> ETA: Tue Nov 28 23:20 XS = 1877.84 pb +- ( 639.766 pb = 34 % ) Event 8 ( 2s elapsed / 42m 40s left ) -> ETA: Tue Nov 28 23:14 XS = 2082.98 pb +- ( 653.688 pb = 31 % ) Event 9 ( 2s elapsed / 37m 55s left ) -> ETA: Tue Nov 28 23:09 XS = 1991.85 pb +- ( 591.949 pb = 29 % ) Event 10 ( 2s elapsed / 34m 17s left ) -> ETA: Tue Nov 28 23:05 XS = 1806.67 pb +- ( 514.98 pb = 28 % ) Event 20 ( 2s elapsed / 17m 52s left ) -> ETA: Tue Nov 28 22:49 XS = 1903.8 pb +- ( 379.205 pb = 19 % ) Event 30 ( 2s elapsed / 12m 14s left ) -> ETA: Tue Nov 28 22:43 XS = 2011.97 pb +- ( 324.135 pb = 16 % ) Event 40 ( 2s elapsed / 9m 27s left ) -> ETA: Tue Nov 28 22:41 XS = 1844.31 pb +- ( 260.141 pb = 14 % ) Event 50 ( 2s elapsed / 7m 43s left ) -> ETA: Tue Nov 28 22:39 XS = 1852.02 pb +- ( 233.402 pb = 12 % ) Event 60 ( 2s elapsed / 6m 35s left ) -> ETA: Tue Nov 28 22:38 XS = 1876.89 pb +- ( 215.472 pb = 11 % ) Event 70 ( 2s elapsed / 5m 48s left ) -> ETA: Tue Nov 28 22:37 XS = 1900.88 pb +- ( 201.644 pb = 10 % ) Event 80 ( 2s elapsed / 5m 14s left ) -> ETA: Tue Nov 28 22:36 XS = 1972.74 pb +- ( 194.709 pb = 9 % ) Event 90 ( 2s elapsed / 4m 45s left ) -> ETA: Tue Nov 28 22:36 XS = 1996.84 pb +- ( 185.464 pb = 9 % ) Event 100 ( 2s elapsed / 4m 25s left ) -> ETA: Tue Nov 28 22:36 XS = 1891.6 pb +- ( 167.917 pb = 8 % ) Event 200 ( 3s elapsed / 2m 48s left ) -> ETA: Tue Nov 28 22:34 XS = 1836.65 pb +- ( 115.677 pb = 6 % ) Event 300 ( 4s elapsed / 2m 11s left ) -> ETA: Tue Nov 28 22:33 XS = 1897 pb +- ( 97.1169 pb = 5 % ) Event 400 ( 4s elapsed / 1m 50s left ) -> ETA: Tue Nov 28 22:33 XS = 1919.28 pb +- ( 84.9497 pb = 4 % ) Event 500 ( 5s elapsed / 1m 41s left ) -> ETA: Tue Nov 28 22:33 XS = 1937.13 pb +- ( 76.5851 pb = 3 % ) Event 600 ( 5s elapsed / 1m 32s left ) -> ETA: Tue Nov 28 22:33 XS = 1933.6 pb +- ( 69.8003 pb = 3 % ) Event 700 ( 6s elapsed / 1m 26s left ) -> ETA: Tue Nov 28 22:33 XS = 1934.11 pb +- ( 64.6353 pb = 3 % ) Event 800 ( 7s elapsed / 1m 20s left ) -> ETA: Tue Nov 28 22:33 XS = 1904.31 pb +- ( 59.6562 pb = 3 % ) Event 900 ( 7s elapsed / 1m 17s left ) -> ETA: Tue Nov 28 22:33 XS = 1940.43 pb +- ( 57.1613 pb = 2 % ) Event 1000 ( 8s elapsed / 1m 13s left ) -> ETA: Tue Nov 28 22:32 XS = 1937.55 pb +- ( 54.1581 pb = 2 % ) Event 2000 ( 13s elapsed / 55s left ) -> ETA: Tue Nov 28 22:32 XS = 1914.71 pb +- ( 37.9045 pb = 1 % ) Event 3000 ( 19s elapsed / 45s left ) -> ETA: Tue Nov 28 22:32 XS = 1911.61 pb +- ( 30.9051 pb = 1 % ) Event 4000 ( 25s elapsed / 38s left ) -> ETA: Tue Nov 28 22:32 XS = 1929 pb +- ( 26.974 pb = 1 % ) Event 5000 ( 31s elapsed / 31s left ) -> ETA: Tue Nov 28 22:32 XS = 1938.57 pb +- ( 24.2291 pb = 1 % ) Event 6000 ( 37s elapsed / 24s left ) -> ETA: Tue Nov 28 22:32 XS = 1925.61 pb +- ( 21.9907 pb = 1 % ) Event 7000 ( 42s elapsed / 18s left ) -> ETA: Tue Nov 28 22:32 XS = 1935.43 pb +- ( 20.4487 pb = 1 % ) Event 8000 ( 48s elapsed / 12s left ) -> ETA: Tue Nov 28 22:32 XS = 1927.64 pb +- ( 19.0616 pb = 0 % ) Event 9000 ( 53s elapsed / 5s left ) -> ETA: Tue Nov 28 22:32 XS = 1925.8 pb +- ( 17.9567 pb = 0 % ) Event 10000 ( 58 s total ) = 1.47114e+07 evts/day In Event_Handler::Finish : Summarizing the run may take some time. Rivet_Interface::Finish(Analysis_Allrecoil_v2/8058){ } -------------------------------------------------------------------------- Nominal or variation name XS [pb] RelDev AbsErr [pb] RelErr -------------------------------------------------------------------------- Nominal  1917.33 0 % 16.9706 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: 59s on Tue Nov 28 22:32:34 2023 (User: 58s, 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 8058 ----------------------------------------------------------------------------- ----------- 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 44m 58s left ) -> ETA: Wed Nov 29 03:26 XS = 983.631 pb +- ( 983.631 pb = 100 % ) Event 2 ( 1s elapsed / 2h 23m 18s left ) -> ETA: Wed Nov 29 01:05 XS = 1264.67 pb +- ( 859.173 pb = 67 % ) Event 3 ( 1s elapsed / 1h 35m 31s left ) -> ETA: Wed Nov 29 00:17 XS = 1770.54 pb +- ( 946.391 pb = 53 % ) Event 4 ( 1s elapsed / 1h 11m 38s left ) -> ETA: Tue Nov 28 23:53 XS = 1361.95 pb +- ( 638.811 pb = 46 % ) Event 5 ( 1s elapsed / 57m 18s left ) -> ETA: Tue Nov 28 23:39 XS = 1526.32 pb +- ( 631.958 pb = 41 % ) Event 6 ( 1s elapsed / 47m 44s left ) -> ETA: Tue Nov 28 23:29 XS = 1713.42 pb +- ( 638.554 pb = 37 % ) Event 7 ( 1s elapsed / 41m 9s left ) -> ETA: Tue Nov 28 23:23 XS = 1630.76 pb +- ( 564.183 pb = 34 % ) Event 8 ( 1s elapsed / 36m left ) -> ETA: Tue Nov 28 23:17 XS = 1815.93 pb +- ( 579.888 pb = 31 % ) Event 9 ( 1s elapsed / 32m left ) -> ETA: Tue Nov 28 23:13 XS = 1991.85 pb +- ( 591.949 pb = 29 % ) Event 10 ( 1s elapsed / 28m 48s left ) -> ETA: Tue Nov 28 23:10 XS = 1735.82 pb +- ( 497.063 pb = 28 % ) Event 20 ( 1s elapsed / 14m 33s left ) -> ETA: Tue Nov 28 22:56 XS = 1967.26 pb +- ( 390.123 pb = 19 % ) Event 30 ( 1s elapsed / 9m 44s left ) -> ETA: Tue Nov 28 22:51 XS = 1897 pb +- ( 308.103 pb = 16 % ) Event 40 ( 1s elapsed / 7m 23s left ) -> ETA: Tue Nov 28 22:49 XS = 1686.22 pb +- ( 240.457 pb = 14 % ) Event 50 ( 1s elapsed / 6m left ) -> ETA: Tue Nov 28 22:47 XS = 1689.44 pb +- ( 215.331 pb = 12 % ) Event 60 ( 1s elapsed / 5m 1s left ) -> ETA: Tue Nov 28 22:46 XS = 1850.73 pb +- ( 212.862 pb = 11 % ) Event 70 ( 1s elapsed / 4m 21s left ) -> ETA: Tue Nov 28 22:46 XS = 1801.42 pb +- ( 192.439 pb = 10 % ) Event 80 ( 1s elapsed / 3m 49s left ) -> ETA: Tue Nov 28 22:45 XS = 1878.55 pb +- ( 186.665 pb = 9 % ) Event 90 ( 1s elapsed / 3m 24s left ) -> ETA: Tue Nov 28 22:45 XS = 1929.15 pb +- ( 180.052 pb = 9 % ) Event 100 ( 1s elapsed / 3m 6s left ) -> ETA: Tue Nov 28 22:45 XS = 1958.56 pb +- ( 173.029 pb = 8 % ) Event 200 ( 2s elapsed / 1m 40s left ) -> ETA: Tue Nov 28 22:43 XS = 1996.09 pb +- ( 124.287 pb = 6 % ) Event 300 ( 2s elapsed / 1m 12s left ) -> ETA: Tue Nov 28 22:43 XS = 1939.96 pb +- ( 99.0096 pb = 5 % ) Event 400 ( 2s elapsed / 58s left ) -> ETA: Tue Nov 28 22:42 XS = 1976.04 pb +- ( 87.1041 pb = 4 % ) Event 500 ( 2s elapsed / 49s left ) -> ETA: Tue Nov 28 22:42 XS = 1981.35 pb +- ( 78.083 pb = 3 % ) Event 600 ( 2s elapsed / 43s left ) -> ETA: Tue Nov 28 22:42 XS = 2011.97 pb +- ( 72.2174 pb = 3 % ) Event 700 ( 2s elapsed / 39s left ) -> ETA: Tue Nov 28 22:42 XS = 2003.52 pb +- ( 66.6186 pb = 3 % ) Event 800 ( 3s elapsed / 35s left ) -> ETA: Tue Nov 28 22:42 XS = 1992.72 pb +- ( 62.0278 pb = 3 % ) Event 900 ( 3s elapsed / 33s left ) -> ETA: Tue Nov 28 22:42 XS = 1970.18 pb +- ( 57.9127 pb = 2 % ) Event 1000 ( 3s elapsed / 31s left ) -> ETA: Tue Nov 28 22:42 XS = 1958.12 pb +- ( 54.6517 pb = 2 % ) Event 2000 ( 5s elapsed / 22s left ) -> ETA: Tue Nov 28 22:42 XS = 1939.89 pb +- ( 38.3332 pb = 1 % ) Event 3000 ( 7s elapsed / 17s left ) -> ETA: Tue Nov 28 22:42 XS = 1912.3 pb +- ( 30.9147 pb = 1 % ) Event 4000 ( 9s elapsed / 14s left ) -> ETA: Tue Nov 28 22:42 XS = 1939.14 pb +- ( 27.096 pb = 1 % ) Event 5000 ( 11s elapsed / 11s left ) -> ETA: Tue Nov 28 22:42 XS = 1952.16 pb +- ( 24.375 pb = 1 % ) Event 6000 ( 13s elapsed / 8s left ) -> ETA: Tue Nov 28 22:42 XS = 1947.07 pb +- ( 22.2012 pb = 1 % ) Event 7000 ( 15s elapsed / 6s left ) -> ETA: Tue Nov 28 22:42 XS = 1943.51 pb +- ( 20.522 pb = 1 % ) Event 8000 ( 17s elapsed / 4s left ) -> ETA: Tue Nov 28 22:42 XS = 1932.11 pb +- ( 19.0997 pb = 0 % ) Event 9000 ( 19s elapsed / 2s left ) -> ETA: Tue Nov 28 22:42 XS = 1935.53 pb +- ( 18.0347 pb = 0 % ) Event 10000 ( 21 s total ) = 4.16787e+07 evts/day In Event_Handler::Finish : Summarizing the run may take some time. Rivet_Interface::Finish(Analysis_CSS_1em/8058){ } -------------------------------------------------------------------------- Nominal or variation name XS [pb] RelDev AbsErr [pb] RelErr -------------------------------------------------------------------------- Nominal  1936.96 0 % 17.1201 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: 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 Wed Nov 29 18:37:24 2023. Run_Parameter::Init(): Setting memory limit to 187.131 GB. Random::SetSeed(): Seed set to 8058 ----------------------------------------------------------------------------- ----------- 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 29m 58s left ) -> ETA: Wed Nov 29 23:07 XS = 2898.82 pb +- ( 2898.82 pb = 100 % ) Event 2 ( 1s elapsed / 2h 14m 58s left ) -> ETA: Wed Nov 29 20:52 XS = 3261.18 pb +- ( 2227.81 pb = 68 % ) Event 3 ( 1s elapsed / 1h 30m 31s left ) -> ETA: Wed Nov 29 20:07 XS = 3913.41 pb +- ( 2137.19 pb = 54 % ) Event 4 ( 1s elapsed / 1h 7m 53s left ) -> ETA: Wed Nov 29 19:45 XS = 2608.94 pb +- ( 1253.29 pb = 48 % ) Event 5 ( 1s elapsed / 54m 38s left ) -> ETA: Wed Nov 29 19:32 XS = 2898.82 pb +- ( 1236.06 pb = 42 % ) Event 6 ( 1s elapsed / 45m 31s left ) -> ETA: Wed Nov 29 19:22 XS = 3261.18 pb +- ( 1258.56 pb = 38 % ) Event 7 ( 1s elapsed / 39m 15s left ) -> ETA: Wed Nov 29 19:16 XS = 3652.52 pb +- ( 1293.24 pb = 35 % ) Event 8 ( 1s elapsed / 34m 20s left ) -> ETA: Wed Nov 29 19:11 XS = 3598.54 pb +- ( 1191.6 pb = 33 % ) Event 9 ( 1s elapsed / 30m 42s left ) -> ETA: Wed Nov 29 19:08 XS = 3354.35 pb +- ( 1051.3 pb = 31 % ) Event 10 ( 1s elapsed / 27m 38s left ) -> ETA: Wed Nov 29 19:05 XS = 3478.59 pb +- ( 1030.96 pb = 29 % ) Event 20 ( 1s elapsed / 13m 58s left ) -> ETA: Wed Nov 29 18:51 XS = 4141.18 pb +- ( 852.72 pb = 20 % ) Event 30 ( 1s elapsed / 9m 31s left ) -> ETA: Wed Nov 29 18:46 XS = 4141.18 pb +- ( 695.317 pb = 16 % ) Event 40 ( 1s elapsed / 7m 18s left ) -> ETA: Wed Nov 29 18:44 XS = 3998.38 pb +- ( 582.859 pb = 14 % ) Event 50 ( 1s elapsed / 5m 56s left ) -> ETA: Wed Nov 29 18:43 XS = 4102.11 pb +- ( 533.409 pb = 13 % ) Event 60 ( 1s elapsed / 5m 3s left ) -> ETA: Wed Nov 29 18:42 XS = 3817.96 pb +- ( 455.962 pb = 11 % ) Event 70 ( 1s elapsed / 4m 25s left ) -> ETA: Wed Nov 29 18:41 XS = 3645.23 pb +- ( 404.51 pb = 11 % ) Event 80 ( 1s elapsed / 3m 55s left ) -> ETA: Wed Nov 29 18:41 XS = 3549.58 pb +- ( 369.186 pb = 10 % ) Event 90 ( 1s elapsed / 3m 34s left ) -> ETA: Wed Nov 29 18:41 XS = 3478.59 pb +- ( 341.609 pb = 9 % ) Event 100 ( 1s elapsed / 3m 16s left ) -> ETA: Wed Nov 29 18:40 XS = 3478.59 pb +- ( 324.055 pb = 9 % ) Event 200 ( 2s elapsed / 1m 57s left ) -> ETA: Wed Nov 29 18:39 XS = 3218.93 pb +- ( 213.175 pb = 6 % ) Event 300 ( 2s elapsed / 1m 28s left ) -> ETA: Wed Nov 29 18:38 XS = 3351.96 pb +- ( 180.705 pb = 5 % ) Event 400 ( 3s elapsed / 1m 14s left ) -> ETA: Wed Nov 29 18:38 XS = 3452.12 pb +- ( 160.808 pb = 4 % ) Event 500 ( 3s elapsed / 1m 7s left ) -> ETA: Wed Nov 29 18:38 XS = 3396.17 pb +- ( 141.67 pb = 4 % ) Event 600 ( 3s elapsed / 1m 1s left ) -> ETA: Wed Nov 29 18:38 XS = 3402.97 pb +- ( 129.563 pb = 3 % ) Event 700 ( 4s elapsed / 57s left ) -> ETA: Wed Nov 29 18:38 XS = 3444.47 pb +- ( 121.302 pb = 3 % ) Event 800 ( 4s elapsed / 54s left ) -> ETA: Wed Nov 29 18:38 XS = 3478.01 pb +- ( 114.486 pb = 3 % ) Event 900 ( 5s elapsed / 51s left ) -> ETA: Wed Nov 29 18:38 XS = 3509.26 pb +- ( 108.832 pb = 3 % ) Event 1000 ( 5s elapsed / 48s left ) -> ETA: Wed Nov 29 18:38 XS = 3477.66 pb +- ( 102.388 pb = 2 % ) Event 2000 ( 9s elapsed / 36s left ) -> ETA: Wed Nov 29 18:38 XS = 3317.36 pb +- ( 69.3044 pb = 2 % ) Event 3000 ( 12s elapsed / 29s left ) -> ETA: Wed Nov 29 18:38 XS = 3381.82 pb +- ( 57.6041 pb = 1 % ) Event 4000 ( 16s elapsed / 24s left ) -> ETA: Wed Nov 29 18:38 XS = 3426.3 pb +- ( 50.493 pb = 1 % ) Event 5000 ( 20s elapsed / 20s left ) -> ETA: Wed Nov 29 18:38 XS = 3436.75 pb +- ( 45.2894 pb = 1 % ) Event 6000 ( 24s elapsed / 16s left ) -> ETA: Wed Nov 29 18:38 XS = 3448.13 pb +- ( 41.4698 pb = 1 % ) Event 7000 ( 28s elapsed / 12s left ) -> ETA: Wed Nov 29 18:38 XS = 3427.82 pb +- ( 38.1846 pb = 1 % ) Event 8000 ( 32s elapsed / 8s left ) -> ETA: Wed Nov 29 18:38 XS = 3437.59 pb +- ( 35.8124 pb = 1 % ) Event 9000 ( 36s elapsed / 4s left ) -> ETA: Wed Nov 29 18:38 XS = 3430.84 pb +- ( 33.7029 pb = 0 % ) Event 10000 ( 40 s total ) = 2.17085e+07 evts/day In Event_Handler::Finish : Summarizing the run may take some time. Rivet_Interface::Finish(Analysis_Alaric/8058){ } -------------------------------------------------------------------------- Nominal or variation name XS [pb] RelDev AbsErr [pb] RelErr -------------------------------------------------------------------------- Nominal  3431.72 0 % 31.981 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: 40s on Wed Nov 29 18:38:05 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 8058 ----------------------------------------------------------------------------- ----------- 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 31m 38s left ) -> ETA: Wed Nov 29 22:15 XS = 2898.82 pb +- ( 2898.82 pb = 100 % ) Event 2 ( 1s elapsed / 1h 45m 48s left ) -> ETA: Wed Nov 29 20:29 XS = 3261.18 pb +- ( 2227.81 pb = 68 % ) Event 3 ( 1s elapsed / 1h 10m 32s left ) -> ETA: Wed Nov 29 19:54 XS = 3913.41 pb +- ( 2137.19 pb = 54 % ) Event 4 ( 1s elapsed / 53m 18s left ) -> ETA: Wed Nov 29 19:36 XS = 2608.94 pb +- ( 1253.29 pb = 48 % ) Event 5 ( 1s elapsed / 42m 38s left ) -> ETA: Wed Nov 29 19:26 XS = 2898.82 pb +- ( 1236.06 pb = 42 % ) Event 6 ( 1s elapsed / 35m 48s left ) -> ETA: Wed Nov 29 19:19 XS = 3261.18 pb +- ( 1258.56 pb = 38 % ) Event 7 ( 1s elapsed / 30m 41s left ) -> ETA: Wed Nov 29 19:14 XS = 3652.52 pb +- ( 1293.24 pb = 35 % ) Event 8 ( 1s elapsed / 26m 51s left ) -> ETA: Wed Nov 29 19:10 XS = 3598.54 pb +- ( 1191.6 pb = 33 % ) Event 9 ( 1s elapsed / 23m 52s left ) -> ETA: Wed Nov 29 19:07 XS = 3354.35 pb +- ( 1051.3 pb = 31 % ) Event 10 ( 1s elapsed / 21m 38s left ) -> ETA: Wed Nov 29 19:05 XS = 3478.59 pb +- ( 1030.96 pb = 29 % ) Event 20 ( 1s elapsed / 10m 58s left ) -> ETA: Wed Nov 29 18:54 XS = 4141.18 pb +- ( 852.72 pb = 20 % ) Event 30 ( 1s elapsed / 7m 25s left ) -> ETA: Wed Nov 29 18:51 XS = 4141.18 pb +- ( 695.317 pb = 16 % ) Event 40 ( 1s elapsed / 5m 41s left ) -> ETA: Wed Nov 29 18:49 XS = 3998.38 pb +- ( 582.859 pb = 14 % ) Event 50 ( 1s elapsed / 4m 38s left ) -> ETA: Wed Nov 29 18:48 XS = 4102.11 pb +- ( 533.409 pb = 13 % ) Event 60 ( 1s elapsed / 3m 55s left ) -> ETA: Wed Nov 29 18:47 XS = 3817.96 pb +- ( 455.962 pb = 11 % ) Event 70 ( 1s elapsed / 3m 27s left ) -> ETA: Wed Nov 29 18:47 XS = 3645.23 pb +- ( 404.51 pb = 11 % ) Event 80 ( 1s elapsed / 3m 6s left ) -> ETA: Wed Nov 29 18:46 XS = 3549.58 pb +- ( 369.186 pb = 10 % ) Event 90 ( 1s elapsed / 2m 49s left ) -> ETA: Wed Nov 29 18:46 XS = 3478.59 pb +- ( 341.609 pb = 9 % ) Event 100 ( 1s elapsed / 2m 34s left ) -> ETA: Wed Nov 29 18:46 XS = 3478.59 pb +- ( 324.055 pb = 9 % ) Event 200 ( 2s elapsed / 1m 38s left ) -> ETA: Wed Nov 29 18:45 XS = 3218.93 pb +- ( 213.175 pb = 6 % ) Event 300 ( 2s elapsed / 1m 17s left ) -> ETA: Wed Nov 29 18:44 XS = 3351.96 pb +- ( 180.705 pb = 5 % ) Event 400 ( 2s elapsed / 1m 4s left ) -> ETA: Wed Nov 29 18:44 XS = 3452.12 pb +- ( 160.808 pb = 4 % ) Event 500 ( 3s elapsed / 57s left ) -> ETA: Wed Nov 29 18:44 XS = 3396.17 pb +- ( 141.67 pb = 4 % ) Event 600 ( 3s elapsed / 51s left ) -> ETA: Wed Nov 29 18:44 XS = 3402.97 pb +- ( 129.563 pb = 3 % ) Event 700 ( 3s elapsed / 48s left ) -> ETA: Wed Nov 29 18:44 XS = 3444.47 pb +- ( 121.302 pb = 3 % ) Event 800 ( 4s elapsed / 46s left ) -> ETA: Wed Nov 29 18:44 XS = 3478.01 pb +- ( 114.486 pb = 3 % ) Event 900 ( 4s elapsed / 43s left ) -> ETA: Wed Nov 29 18:44 XS = 3509.26 pb +- ( 108.832 pb = 3 % ) Event 1000 ( 4s elapsed / 42s left ) -> ETA: Wed Nov 29 18:44 XS = 3477.66 pb +- ( 102.388 pb = 2 % ) Event 2000 ( 8s elapsed / 33s left ) -> ETA: Wed Nov 29 18:44 XS = 3317.36 pb +- ( 69.3044 pb = 2 % ) Event 3000 ( 12s elapsed / 28s left ) -> ETA: Wed Nov 29 18:44 XS = 3381.82 pb +- ( 57.6041 pb = 1 % ) Event 4000 ( 15s elapsed / 23s left ) -> ETA: Wed Nov 29 18:44 XS = 3426.3 pb +- ( 50.493 pb = 1 % ) Event 5000 ( 18s elapsed / 18s left ) -> ETA: Wed Nov 29 18:44 XS = 3436.75 pb +- ( 45.2894 pb = 1 % ) Event 6000 ( 22s elapsed / 14s left ) -> ETA: Wed Nov 29 18:44 XS = 3448.13 pb +- ( 41.4698 pb = 1 % ) Event 7000 ( 25s elapsed / 11s left ) -> ETA: Wed Nov 29 18:44 XS = 3427.82 pb +- ( 38.1846 pb = 1 % ) Event 8000 ( 29s elapsed / 7s left ) -> ETA: Wed Nov 29 18:44 XS = 3437.59 pb +- ( 35.8124 pb = 1 % ) Event 9000 ( 33s elapsed / 3s left ) -> ETA: Wed Nov 29 18:44 XS = 3430.84 pb +- ( 33.7029 pb = 0 % ) Event 10000 ( 36 s total ) = 2.41341e+07 evts/day In Event_Handler::Finish : Summarizing the run may take some time. Rivet_Interface::Finish(Analysis_Alaric/8058){ } -------------------------------------------------------------------------- Nominal or variation name XS [pb] RelDev AbsErr [pb] RelErr -------------------------------------------------------------------------- Nominal  3431.72 0 % 31.981 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: 36s on Wed Nov 29 18:44:12 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 Wed Nov 29 19:45:49 2023. Run_Parameter::Init(): Setting memory limit to 187.131 GB. Random::SetSeed(): Seed set to 8058 ----------------------------------------------------------------------------- ----------- 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 46m 38s left ) -> ETA: Thu Nov 30 00:32 XS = 2898.82 pb +- ( 2898.82 pb = 100 % ) Event 2 ( 1s elapsed / 2h 23m 18s left ) -> ETA: Wed Nov 29 22:09 XS = 3261.18 pb +- ( 2227.81 pb = 68 % ) Event 3 ( 1s elapsed / 1h 35m 31s left ) -> ETA: Wed Nov 29 21:21 XS = 3913.41 pb +- ( 2137.19 pb = 54 % ) Event 4 ( 1s elapsed / 1h 12m 3s left ) -> ETA: Wed Nov 29 20:57 XS = 2608.94 pb +- ( 1253.29 pb = 48 % ) Event 5 ( 1s elapsed / 57m 38s left ) -> ETA: Wed Nov 29 20:43 XS = 2898.82 pb +- ( 1236.06 pb = 42 % ) Event 6 ( 1s elapsed / 48m 1s left ) -> ETA: Wed Nov 29 20:33 XS = 3261.18 pb +- ( 1258.56 pb = 38 % ) Event 7 ( 1s elapsed / 41m 23s left ) -> ETA: Wed Nov 29 20:27 XS = 3652.52 pb +- ( 1293.24 pb = 35 % ) Event 8 ( 1s elapsed / 36m 13s left ) -> ETA: Wed Nov 29 20:22 XS = 3598.54 pb +- ( 1191.6 pb = 33 % ) Event 9 ( 1s elapsed / 32m 11s left ) -> ETA: Wed Nov 29 20:18 XS = 3354.35 pb +- ( 1051.3 pb = 31 % ) Event 10 ( 1s elapsed / 28m 58s left ) -> ETA: Wed Nov 29 20:14 XS = 3478.59 pb +- ( 1030.96 pb = 29 % ) Event 20 ( 1s elapsed / 14m 43s left ) -> ETA: Wed Nov 29 20:00 XS = 4141.18 pb +- ( 852.72 pb = 20 % ) Event 30 ( 1s elapsed / 9m 54s left ) -> ETA: Wed Nov 29 19:55 XS = 4141.18 pb +- ( 695.317 pb = 16 % ) Event 40 ( 1s elapsed / 7m 40s left ) -> ETA: Wed Nov 29 19:53 XS = 3998.38 pb +- ( 582.859 pb = 14 % ) Event 50 ( 1s elapsed / 6m 14s left ) -> ETA: Wed Nov 29 19:52 XS = 4102.11 pb +- ( 533.409 pb = 13 % ) Event 60 ( 1s elapsed / 5m 19s left ) -> ETA: Wed Nov 29 19:51 XS = 3817.96 pb +- ( 455.962 pb = 11 % ) Event 70 ( 1s elapsed / 4m 40s left ) -> ETA: Wed Nov 29 19:50 XS = 3645.23 pb +- ( 404.51 pb = 11 % ) Event 80 ( 2s elapsed / 4m 11s left ) -> ETA: Wed Nov 29 19:50 XS = 3549.58 pb +- ( 369.186 pb = 10 % ) Event 90 ( 2s elapsed / 3m 51s left ) -> ETA: Wed Nov 29 19:49 XS = 3478.59 pb +- ( 341.609 pb = 9 % ) Event 100 ( 2s elapsed / 3m 29s left ) -> ETA: Wed Nov 29 19:49 XS = 3478.59 pb +- ( 324.055 pb = 9 % ) Event 200 ( 2s elapsed / 2m 2s left ) -> ETA: Wed Nov 29 19:47 XS = 3218.93 pb +- ( 213.175 pb = 6 % ) Event 300 ( 2s elapsed / 1m 31s left ) -> ETA: Wed Nov 29 19:47 XS = 3351.96 pb +- ( 180.705 pb = 5 % ) Event 400 ( 3s elapsed / 1m 15s left ) -> ETA: Wed Nov 29 19:47 XS = 3452.12 pb +- ( 160.808 pb = 4 % ) Event 500 ( 3s elapsed / 1m 7s left ) -> ETA: Wed Nov 29 19:47 XS = 3396.17 pb +- ( 141.67 pb = 4 % ) Event 600 ( 3s elapsed / 1m 1s left ) -> ETA: Wed Nov 29 19:46 XS = 3402.97 pb +- ( 129.563 pb = 3 % ) Event 700 ( 4s elapsed / 57s left ) -> ETA: Wed Nov 29 19:46 XS = 3444.47 pb +- ( 121.302 pb = 3 % ) Event 800 ( 4s elapsed / 54s left ) -> ETA: Wed Nov 29 19:46 XS = 3478.01 pb +- ( 114.486 pb = 3 % ) Event 900 ( 4s elapsed / 50s left ) -> ETA: Wed Nov 29 19:46 XS = 3509.26 pb +- ( 108.832 pb = 3 % ) Event 1000 ( 5s elapsed / 48s left ) -> ETA: Wed Nov 29 19:46 XS = 3477.66 pb +- ( 102.388 pb = 2 % ) Event 2000 ( 8s elapsed / 34s left ) -> ETA: Wed Nov 29 19:46 XS = 3317.36 pb +- ( 69.3044 pb = 2 % ) Event 3000 ( 11s elapsed / 27s left ) -> ETA: Wed Nov 29 19:46 XS = 3381.82 pb +- ( 57.6041 pb = 1 % ) Event 4000 ( 14s elapsed / 22s left ) -> ETA: Wed Nov 29 19:46 XS = 3426.3 pb +- ( 50.493 pb = 1 % ) Event 5000 ( 18s elapsed / 18s left ) -> ETA: Wed Nov 29 19:46 XS = 3436.75 pb +- ( 45.2894 pb = 1 % ) Event 6000 ( 21s elapsed / 14s left ) -> ETA: Wed Nov 29 19:46 XS = 3448.13 pb +- ( 41.4698 pb = 1 % ) Event 7000 ( 24s elapsed / 10s left ) -> ETA: Wed Nov 29 19:46 XS = 3427.82 pb +- ( 38.1846 pb = 1 % ) Event 8000 ( 27s elapsed / 6s left ) -> ETA: Wed Nov 29 19:46 XS = 3437.59 pb +- ( 35.8124 pb = 1 % ) Event 9000 ( 30s elapsed / 3s left ) -> ETA: Wed Nov 29 19:46 XS = 3430.84 pb +- ( 33.7029 pb = 0 % ) Event 10000 ( 33 s total ) = 2.63334e+07 evts/day In Event_Handler::Finish : Summarizing the run may take some time. Rivet_Interface::Finish(Analysis_Alaric/8058){ } -------------------------------------------------------------------------- Nominal or variation name XS [pb] RelDev AbsErr [pb] RelErr -------------------------------------------------------------------------- Nominal  3431.72 0 % 31.981 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: 33s on Wed Nov 29 19:46:23 2023 (User: 32s, System: 0s, Children User: 0s, Children System: 0s)