mw_run nb_exp_events integer 10 # number of experimental events mw_run MW_int_points integer 10000 # number of points for MadWeight integration mw_run use_cut logical F # use the cut defined in run_card.dat for weight computation mw_run 22 logical 0 # put on 1 to add a new events in the analysis (for step 5) mw_run bw_cut logical T mw_run histo logical F # put one creates histogram for value defined in topgraph.f mw_run histo_by_events logical F # decide if we create the histograms for each events mw_run nb_event_by_node integer 10 # decide how many events weight are computed in a single cluster submission mw_run event_packing integer 20 # the input event files will be splitted in event_packing*nb_event_by_node mw_run log_level string 'channel' # from low level of log to extensive log: weight, permutation, channel, iteration, full mw_run nwa float 0.1 # width below NWA is used instead of performing the actual integrals mw_run integrator integer 0 # default integrator method (0/1 -> vegas/mint) mw_run pretrained_tf logical T # if we pre-trained the grid for the TF mw_run use_sobol logical F # don t use sobol generator by default mw_run inputfile string './Events/input.lhco' # path to the inputfile mw_parameter mode integer 1 mw_parameter 1 integer mw_parameter@@mode # choose the mode for the generation of the param_card.dat mw_parameter 2 logical 0 # put on 1 to add new param_card.dat (for step 1) creates the corresponding new events dir if step 5 already performs mw_perm permutation logical T # make the permutation between identical particles/jets mw_perm bjet_is_jet logical T #consider bjet like normal jet for permutation mw_perm bjet_is_jet_for_selection logical mw_perm@@bjet_is_jet #don't use btagging for selceting events (follow precedent rules) mw_perm preselect string 'default' # How to pre-select permutation (None/default/path) mw_perm min_perm_cut float 5e-4 # permutation to remove if relative weight lower than mw_perm combine_mode integer 1 # how to combine the permutation 1: average # 2: first permutation # 3: higher permutation only mw_perm montecarlo logical T # Perform the MC over permutation or not... mw_gen 1 integer 1 # choose which propagator to allign in ECS: # 0: favours the BW at the very end of the decay chain # 1: favours the thinest BW mw_gen 2 integer 1 # Same condition but for blobs mw_gen 3 integer 4 # maximal multiplicity for ECS sector # Preference in blob generation (If more than one "True", we will perform a multi-channel techniques) mw_gen 4 logical F # maximizes the number of aligned BW mw_gen 5 logical T # choose all momenta as variables of integration mw_gen 6 logical T # mixed choice between the two above options mw_gen 10 logical T # Authorizes ECS A (0 neut) mw_gen 11 logical T # Authorizes ECS B (1 neut) mw_gen 12 logical T # Authorizes ECS C (1neut+1 visible(m=0)) mw_gen 13 logical T # Authorizes ECS D (2 neut ttbar-like) mw_gen 14 logical T # Authorizes ECS E (2 neut HWW-like) mw_gen 15 logical T # Authorizes ECS F (2 neut [WW in T-channel]-like) mw_gen force_nwa float 2.0 # width below the mass should ALWAYS be align.