ygh@ygh:~/program/MG5_aMC_v3_0_0$ ./bin/maddm.py Plugin PLUGIN.maddm has marked as NOT being validated with this version. It has been validated for the last time with version: 2.6.3 ==================================================== | MadDM v3.0 | ==================================================== ######### ###\\####//##### Launchpad: launchpad.net/maddm ######\\##//######## ########\\//########### #########//\\############ arXiv:1308.4955 #########//##\\############ arXiv:1505.04190 ########//#####\\########### arXiv:1804.00444 ######################### ## ___________________________________________ ####################### 0 # _ _ _ _____ _ _ ############# 0 ### ## | \ / | ___ ___|| | ___ \ | \ / | ############## ######### ||\\ //|| / __ | / __ | || || ||\\ //|| ########################## || V || ||__|| ||__|| ||___|| || V || ################### ## || || \_____\ \____| |_____/ || || ############ ### ___________________________________________ ########## ###### ################ ######## Need to learn? -> type tutorial ==================================================== | A MadGraph5_aMC@NLO plugin. | ==================================================== * VERSION 3.0.0 2018-05-01 * load MG5 configuration from input/mg5_configuration.txt set ninja to /home/ygh/program/MG5_aMC_v3_0_0/HEPTools/lib set collier to /home/ygh/program/MG5_aMC_v3_0_0/HEPTools/lib None does not seem to correspond to a valid fastjet-config executable (v3+). We will use fjcore instead. Please set the 'fastjet'variable to the full (absolute) /PATH/TO/fastjet-config (including fastjet-config). MG5_aMC> set fastjet /PATH/TO/fastjet-config /home/ygh/program/MG5_aMC_v3_0_0/HEPTools/lhapdf5/bin/lhapdf-config does not seem to correspond to a valid lhapdf-config executable. Please set the 'lhapdf' variable to the (absolute) /PATH/TO/lhapdf-config (including lhapdf-config). Note that you can still compile and run aMC@NLO with the built-in PDFs MG5_aMC> set lhapdf /PATH/TO/lhapdf-config Using default text editor "vi". Set another one in ./input/mg5_configuration.txt Using default eps viewer "evince". Set another one in ./input/mg5_configuration.txt No valid web browser found. Please set in ./input/mg5_configuration.txt Loading default model: sm INFO: Restrict model sm with file models/sm/restrict_default.dat . INFO: Run "set stdout_level DEBUG" before import for more information. INFO: Change particles name to pass to MG5 convention Defined multiparticle p = g u c d s u~ c~ d~ s~ Defined multiparticle j = g u c d s u~ c~ d~ s~ Defined multiparticle l+ = e+ mu+ Defined multiparticle l- = e- mu- Defined multiparticle vl = ve vm vt Defined multiparticle vl~ = ve~ vm~ vt~ Defined multiparticle all = g u c d s u~ c~ d~ s~ a ve vm vt e- mu- ve~ vm~ vt~ e+ mu+ t b t~ b~ z w+ h w- ta- ta+ MadDM>import model InertDoublet_UFO/ INFO: Change particles name to pass to MG5 convention Kept definitions of multiparticles l- / j / vl / l+ / p / vl~ unchanged Defined multiparticle all = g a u c t d s b u~ c~ t~ d~ s~ b~ z w+ h h2 h3 h+ w- h- ve vm vt e- mu- ta- ve~ vm~ vt~ e+ mu+ ta+ MadDM>generate relic_density Do you want to edit the benchmark (press enter to bypass editing)? - Press 1 or param to open an editor and edit the file - You can specify a path to a valid card (and potentially edit it afterwards) - You can use the 'set' command to edit the card [0, done, 1, param, enter path] > INFO: Found Dark Matter candidate: h2 add model /home/ygh/program/MG5_aMC_v3_0_0/PLUGIN/maddm/EffOperators/REAL ~sdm=h2 --recreate --keep_decay WARNING: The parameter %s is actually an internal parameter of the base model. his value is given by %s. If those two parameters are expected to be identical, you need to provide the value in the param_card according to this formula. WARNING: The parameter %s is actually an internal parameter of the base model. his value is given by %s. If those two parameters are expected to be identical, you need to provide the value in the param_card according to this formula. WARNING: The parameter %s is actually an internal parameter of the base model. his value is given by %s. If those two parameters are expected to be identical, you need to provide the value in the param_card according to this formula. Command "generate relic_density " interrupted in sub-command: "generate relic_density" with error: USRMODERROR : Some inconsistency in the mass assignment in the model Mass: MC and MC__1 conflict name {'MC': 'MC__1', 'MB': 'MB__1', 'MT': 'MT__1', 'aS': 'aS__1', 'Gf': 'Gf__1', 'aEWM1': 'aEWM1__1', 'Wsdm': 'WH0', 'sdmm': 'MH0'} pdg_code: 4 4 Please report this bug on https://bugs.launchpad.net/mg5amcnlo More information is found in 'MG5_debug'. Please attach this file to your report. MadDM>generate relic_density INFO: DM is allowed to annihilate into the following BSM particles: h3 h+ INFO: use generate relic_density / X to forbid the decay the annihilation to X INFO: if you want to forbid DM to annihilate into BSM particles do relic_density / bsm Multiparticle labels: all = g a u c t d s b u~ c~ t~ d~ s~ b~ z w+ h h2 h3 h+ w- h- ve vm vt e- mu- ta- ve~ vm~ vt~ e+ mu+ ta+ l- = e- mu- dm_particle_0 = h2 bsm = h2 h3 h+ h- dm_particles = h2 j = g u c d s u~ c~ d~ s~ vl = ve vm vt l+ = e+ mu+ p = g u c d s u~ c~ d~ s~ vl~ = ve~ vm~ vt~ INFO: Trying process: h2 h2 > g g QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 1 diagrams INFO: Trying process: h2 h2 > g a QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > g z QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > g h QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > g h3 QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > a a QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > a z QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > a h QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > a h3 QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > d d~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 1 diagrams INFO: Trying process: h2 h2 > d s~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > d b~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > u u~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 1 diagrams INFO: Trying process: h2 h2 > u c~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > u t~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > s d~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > s s~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 1 diagrams INFO: Trying process: h2 h2 > s b~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > c u~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > c c~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 1 diagrams INFO: Trying process: h2 h2 > c t~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > b d~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > b s~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > b b~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 1 diagrams INFO: Trying process: h2 h2 > t u~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > t c~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > t t~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 1 diagrams INFO: Trying process: h2 h2 > z z QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 4 diagrams INFO: Trying process: h2 h2 > z h QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > z h3 QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > w+ w- QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 4 diagrams INFO: Trying process: h2 h2 > w+ h- QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > h h QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 4 diagrams INFO: Trying process: h2 h2 > h h3 QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > h3 h3 QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 4 diagrams INFO: Trying process: h2 h2 > h+ w- QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > h+ h- QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 4 diagrams INFO: Trying process: h2 h2 > e- e+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 1 diagrams INFO: Trying process: h2 h2 > e- mu+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > e- ta+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > ve ve~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > ve vm~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > ve vt~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > mu- e+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > mu- mu+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 1 diagrams INFO: Trying process: h2 h2 > mu- ta+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > vm ve~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > vm vm~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > vm vt~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > ta- e+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > ta- mu+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > ta- ta+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 1 diagrams INFO: Trying process: h2 h2 > vt ve~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > vt vm~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > vt vt~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 15 processes with 30 diagrams generated in 0.155 s Total: 15 processes with 30 diagrams MadDM>output dark3 Output will be done with PLUGIN: maddm INFO: directory /home/ygh/program/MG5_aMC_v3_0_0/dark3 already exists. If you continue this directory will be deleted and replaced. Do you want to continue? [y, n][60s to answer] >y INFO: Initializing project directory: dark3 /home/ygh/program/MG5_aMC_v3_0_0/Template/LO/Source/make_opts INFO: Organizing processes into subprocess groups INFO: Generating Helas calls for process: h2 h2 > z z QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > z z QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > w+ w- QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > w+ w- QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > h h QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > h h QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > h3 h3 QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > h3 h3 QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > h+ h- QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > h+ h- QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > g g QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > g g QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > d d~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > d d~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > u u~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > u u~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > s s~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > s s~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > c c~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > c c~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > b b~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > b b~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > t t~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > t t~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > e- e+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > e- e+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > mu- mu+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > mu- mu+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > ta- ta+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > ta- ta+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 Generated helas calls for 0 subprocesses (30 diagrams) in 0.051 s ALOHA: aloha starts to compute helicity amplitudes ALOHA: aloha creates 7 routines in 0.088 s MadDM>launch INFO: Loaded experimental constraints. To change, use the set command INFO: Omega h^2 = 1.1980e-01 +- 1.5000e-03 INFO: Spin Independent cross section: /home/ygh/program/MG5_aMC_v3_0_0/PLUGIN/maddm/ExpData/Xenont1T_data_2017.dat INFO: Spin Dependent cross section (p): /home/ygh/program/MG5_aMC_v3_0_0/PLUGIN/maddm/ExpData/Pico60_sd_proton.dat INFO: Spin Dependent cross section (n): /home/ygh/program/MG5_aMC_v3_0_0/PLUGIN/maddm/ExpData/Lux_2017_sd_neutron.dat launch The following switches determine which programs are run: /=========================================================\ | 1. Compute the Relic Density relic = ON | | 2. Compute direct(ional) detection direct = OFF | | 3. Compute indirect detection/flux indirect = OFF | | 4. Run Multinest scan nestscan = OFF | \=========================================================/ You can also edit the various input card: * Enter the name/number to open the editor * Enter a path to a file to replace the card * Enter set NAME value to change any parameter to the requested value /=============================================================================\ | 5. Edit the model parameters [param] | | 6. Edit the MadDM options [maddm] | \=============================================================================/ [60s to answer] >set mma0 scan:[10,20,30,40,50] INFO: modify param_card information BLOCK frblock with id (14,) set to scan:[10,20,30,40,50] The following switches determine which programs are run: /=========================================================\ | 1. Compute the Relic Density relic = ON | | 2. Compute direct(ional) detection direct = OFF | | 3. Compute indirect detection/flux indirect = OFF | | 4. Run Multinest scan nestscan = OFF | \=========================================================/ You can also edit the various input card: * Enter the name/number to open the editor * Enter a path to a file to replace the card * Enter set NAME value to change any parameter to the requested value /=============================================================================\ | 5. Edit the model parameters [param] | | 6. Edit the MadDM options [maddm] | \=============================================================================/ > INFO: Start computing relic maddm_card missed argument print_sigmas. Takes default: False INFO: compilation done INFO: MadDM Results INFO: Define xsi = Relic density/Planck measurement for thermal scenarios. INFO: Rescaling theory prediction for xsi(direct det.) and xsi^2(indirect det.) for thermal scenarios. INFO: ***** Relic Density OMEGA IS 2.54783017106e-09 INFO: Relic Density = 2.55e-09 ALLOWED INFO: x_f = 4.40e+01 INFO: sigmav(xf) = 7.59e-02 INFO: xsi = 2.13e-08 INFO: Results written in: /home/ygh/program/MG5_aMC_v3_0_0/dark3/output/run_01/MadDM_results.txt quit MadDM>set mma0 scan:[10,20,30,40,50] -- set options for generation or output. syntax: set Possible options are: group_subprocesses,ignore_six_quark_processes,stdout_level fortran_compiler,cpp_compiler,loop_optimized_output complex_mass_scheme,include_lepton_initiated_processes,gauge EWscheme,max_npoint_for_channel,default_unset_couplings Details of each option: group_subprocesses True/False/Auto: > (default Auto) Smart grouping of subprocesses into directories, mirroring of initial states, and combination of integration channels. > Example: p p > j j j w+ gives 5 directories and 184 channels (cf. 65 directories and 1048 channels for regular output) > Auto means False for decay computation and True for collisions. ignore_six_quark_processes multi_part_label > (default none) ignore processes with at least 6 of any of the quarks given in multi_part_label. > These processes give negligible contribution to the cross section but have subprocesses/channels. stdout_level DEBUG|INFO|WARNING|ERROR|CRITICAL > change the default level for printed information fortran_compiler NAME > (default None) Force a specific fortran compiler. If None, it tries first g77 and if not present gfortran but loop output use gfortran. loop_optimized_output True|False > Exploits the open loop thechnique for considerable improvement. > CP relations among helicites are detected and the helicity filter has more potential. loop_color_flows True|False > Only relevant for the loop optimized output. > Reduces the loop diagrams at the amplitude level rendering possible the computation of the loop amplitude for a fixed color flow or color configuration. > This option can considerably slow down the loop ME computation time, especially when summing over all color and helicity configuration, hence turned off by default. gauge unitary|Feynman > (default unitary) choose the gauge of the non QCD part. > For loop processes, only Feynman gauge is employable. complex_mass_scheme True|False > (default False) Set complex mass scheme. > Complex mass scheme is not yet supported for loop processes. include_lepton_initiated_processes True|False > (default False) Do not include real emission with leptons in the initial state. timeout VALUE > (default 20) Seconds allowed to answer questions. > Note that pressing tab always stops the timer. cluster_temp_path PATH > (default None) [Used in Madevent Output] > Allow to perform the run in PATH directory > This allow to not run on the central disk. > This is not used by condor cluster (since condor has its own way to prevent it). mg5amc_py8_interface_path PATH > Necessary when showering events with Pythia8 from Madevent. OLP ProgramName > (default 'MadLoop') [Used for virtual generation] > Chooses what One-Loop Program to use for the virtual > matrix element generation via the BLAH accord. output_dependencies > (default 'external') [Use for NLO outputs] > Choses how the external dependences (such as CutTools) > of NLO outputs are handled. Possible values are: o external: Some of the libraries the output depends on are links to their installation in MG5 root dir. o internal: All libraries the output depends on are copied and compiled locally in the output directory. o environment_paths: The location of all libraries the output depends on should be found in your env. paths. Command "set mma0 scan:[10,20,30,40,50]" interrupted with error: InvalidCmd : Possible options for set are ['group_subprocesses', 'ignore_six_quark_processes', 'stdout_level', 'fortran_compiler', 'cpp_compiler', 'loop_optimized_output', 'complex_mass_scheme', 'include_lepton_initiated_processes', 'gauge', 'EWscheme', 'max_npoint_for_channel', 'default_unset_couplings', 'dragon_data_from_galprop'] -- set options for generation or output. syntax: set Possible options are: group_subprocesses,ignore_six_quark_processes,stdout_level fortran_compiler,cpp_compiler,loop_optimized_output complex_mass_scheme,include_lepton_initiated_processes,gauge EWscheme,max_npoint_for_channel,default_unset_couplings Details of each option: group_subprocesses True/False/Auto: > (default Auto) Smart grouping of subprocesses into directories, mirroring of initial states, and combination of integration channels. > Example: p p > j j j w+ gives 5 directories and 184 channels (cf. 65 directories and 1048 channels for regular output) > Auto means False for decay computation and True for collisions. ignore_six_quark_processes multi_part_label > (default none) ignore processes with at least 6 of any of the quarks given in multi_part_label. > These processes give negligible contribution to the cross section but have subprocesses/channels. stdout_level DEBUG|INFO|WARNING|ERROR|CRITICAL > change the default level for printed information fortran_compiler NAME > (default None) Force a specific fortran compiler. If None, it tries first g77 and if not present gfortran but loop output use gfortran. loop_optimized_output True|False > Exploits the open loop thechnique for considerable improvement. > CP relations among helicites are detected and the helicity filter has more potential. loop_color_flows True|False > Only relevant for the loop optimized output. > Reduces the loop diagrams at the amplitude level rendering possible the computation of the loop amplitude for a fixed color flow or color configuration. > This option can considerably slow down the loop ME computation time, especially when summing over all color and helicity configuration, hence turned off by default. gauge unitary|Feynman > (default unitary) choose the gauge of the non QCD part. > For loop processes, only Feynman gauge is employable. complex_mass_scheme True|False > (default False) Set complex mass scheme. > Complex mass scheme is not yet supported for loop processes. include_lepton_initiated_processes True|False > (default False) Do not include real emission with leptons in the initial state. timeout VALUE > (default 20) Seconds allowed to answer questions. > Note that pressing tab always stops the timer. cluster_temp_path PATH > (default None) [Used in Madevent Output] > Allow to perform the run in PATH directory > This allow to not run on the central disk. > This is not used by condor cluster (since condor has its own way to prevent it). mg5amc_py8_interface_path PATH > Necessary when showering events with Pythia8 from Madevent. OLP ProgramName > (default 'MadLoop') [Used for virtual generation] > Chooses what One-Loop Program to use for the virtual > matrix element generation via the BLAH accord. output_dependencies > (default 'external') [Use for NLO outputs] > Choses how the external dependences (such as CutTools) > of NLO outputs are handled. Possible values are: o external: Some of the libraries the output depends on are links to their installation in MG5 root dir. o internal: All libraries the output depends on are copied and compiled locally in the output directory. o environment_paths: The location of all libraries the output depends on should be found in your env. paths. MadDM>launch INFO: Loaded experimental constraints. To change, use the set command INFO: Omega h^2 = 1.1980e-01 +- 1.5000e-03 INFO: Spin Independent cross section: /home/ygh/program/MG5_aMC_v3_0_0/PLUGIN/maddm/ExpData/Xenont1T_data_2017.dat INFO: Spin Dependent cross section (p): /home/ygh/program/MG5_aMC_v3_0_0/PLUGIN/maddm/ExpData/Pico60_sd_proton.dat INFO: Spin Dependent cross section (n): /home/ygh/program/MG5_aMC_v3_0_0/PLUGIN/maddm/ExpData/Lux_2017_sd_neutron.dat launch The following switches determine which programs are run: /=========================================================\ | 1. Compute the Relic Density relic = ON | | 2. Compute direct(ional) detection direct = OFF | | 3. Compute indirect detection/flux indirect = OFF | | 4. Run Multinest scan nestscan = OFF | \=========================================================/ You can also edit the various input card: * Enter the name/number to open the editor * Enter a path to a file to replace the card * Enter set NAME value to change any parameter to the requested value /=============================================================================\ | 5. Edit the model parameters [param] | | 6. Edit the MadDM options [maddm] | \=============================================================================/ [60s to answer] >set mma0 scan:[10,20,30,40,50] INFO: modify param_card information BLOCK frblock with id (14,) set to scan:[10,20,30,40,50] The following switches determine which programs are run: /=========================================================\ | 1. Compute the Relic Density relic = ON | | 2. Compute direct(ional) detection direct = OFF | | 3. Compute indirect detection/flux indirect = OFF | | 4. Run Multinest scan nestscan = OFF | \=========================================================/ You can also edit the various input card: * Enter the name/number to open the editor * Enter a path to a file to replace the card * Enter set NAME value to change any parameter to the requested value /=============================================================================\ | 5. Edit the model parameters [param] | | 6. Edit the MadDM options [maddm] | \=============================================================================/ > INFO: Start computing relic maddm_card missed argument print_sigmas. Takes default: False INFO: compilation done INFO: MadDM Results INFO: Define xsi = Relic density/Planck measurement for thermal scenarios. INFO: Rescaling theory prediction for xsi(direct det.) and xsi^2(indirect det.) for thermal scenarios. INFO: ***** Relic Density OMEGA IS 2.54783017106e-09 INFO: Relic Density = 2.55e-09 ALLOWED INFO: x_f = 4.40e+01 INFO: sigmav(xf) = 7.59e-02 INFO: xsi = 2.13e-08 INFO: Results written in: /home/ygh/program/MG5_aMC_v3_0_0/dark3/output/run_02/MadDM_results.txt quit MadDM>exit ygh@ygh:~/program/MG5_aMC_v3_0_0$ ./maddm.py bash: ./maddm.py: 没有那个文件或目录 ygh@ygh:~/program/MG5_aMC_v3_0_0$ ./bin/maddm.py Plugin PLUGIN.maddm has marked as NOT being validated with this version. It has been validated for the last time with version: 2.6.3 ==================================================== | MadDM v3.0 | ==================================================== ######### ###\\####//##### Launchpad: launchpad.net/maddm ######\\##//######## ########\\//########### #########//\\############ arXiv:1308.4955 #########//##\\############ arXiv:1505.04190 ########//#####\\########### arXiv:1804.00444 ######################### ## ___________________________________________ ####################### 0 # _ _ _ _____ _ _ ############# 0 ### ## | \ / | ___ ___|| | ___ \ | \ / | ############## ######### ||\\ //|| / __ | / __ | || || ||\\ //|| ########################## || V || ||__|| ||__|| ||___|| || V || ################### ## || || \_____\ \____| |_____/ || || ############ ### ___________________________________________ ########## ###### ################ ######## Need to learn? -> type tutorial ==================================================== | A MadGraph5_aMC@NLO plugin. | ==================================================== * VERSION 3.0.0 2018-05-01 * load MG5 configuration from input/mg5_configuration.txt set ninja to /home/ygh/program/MG5_aMC_v3_0_0/HEPTools/lib set collier to /home/ygh/program/MG5_aMC_v3_0_0/HEPTools/lib None does not seem to correspond to a valid fastjet-config executable (v3+). We will use fjcore instead. Please set the 'fastjet'variable to the full (absolute) /PATH/TO/fastjet-config (including fastjet-config). MG5_aMC> set fastjet /PATH/TO/fastjet-config /home/ygh/program/MG5_aMC_v3_0_0/HEPTools/lhapdf5/bin/lhapdf-config does not seem to correspond to a valid lhapdf-config executable. Please set the 'lhapdf' variable to the (absolute) /PATH/TO/lhapdf-config (including lhapdf-config). Note that you can still compile and run aMC@NLO with the built-in PDFs MG5_aMC> set lhapdf /PATH/TO/lhapdf-config Using default text editor "vi". Set another one in ./input/mg5_configuration.txt Using default eps viewer "evince". Set another one in ./input/mg5_configuration.txt No valid web browser found. Please set in ./input/mg5_configuration.txt Loading default model: sm INFO: Restrict model sm with file models/sm/restrict_default.dat . INFO: Run "set stdout_level DEBUG" before import for more information. INFO: Change particles name to pass to MG5 convention Defined multiparticle p = g u c d s u~ c~ d~ s~ Defined multiparticle j = g u c d s u~ c~ d~ s~ Defined multiparticle l+ = e+ mu+ Defined multiparticle l- = e- mu- Defined multiparticle vl = ve vm vt Defined multiparticle vl~ = ve~ vm~ vt~ Defined multiparticle all = g u c d s u~ c~ d~ s~ a ve vm vt e- mu- ve~ vm~ vt~ e+ mu+ t b t~ b~ z w+ h w- ta- ta+ MadDM>import model InertDoublet_UFO/ INFO: Change particles name to pass to MG5 convention Kept definitions of multiparticles l- / j / vl / l+ / p / vl~ unchanged Defined multiparticle all = g a u c t d s b u~ c~ t~ d~ s~ b~ z w+ h h2 h3 h+ w- h- ve vm vt e- mu- ta- ve~ vm~ vt~ e+ mu+ ta+ MadDM>generate relic_density Do you want to edit the benchmark (press enter to bypass editing)? - Press 1 or param to open an editor and edit the file - You can specify a path to a valid card (and potentially edit it afterwards) - You can use the 'set' command to edit the card [0, done, 1, param, enter path] > INFO: Found Dark Matter candidate: h2 add model /home/ygh/program/MG5_aMC_v3_0_0/PLUGIN/maddm/EffOperators/REAL ~sdm=h2 --recreate --keep_decay WARNING: The parameter %s is actually an internal parameter of the base model. his value is given by %s. If those two parameters are expected to be identical, you need to provide the value in the param_card according to this formula. WARNING: The parameter %s is actually an internal parameter of the base model. his value is given by %s. If those two parameters are expected to be identical, you need to provide the value in the param_card according to this formula. WARNING: The parameter %s is actually an internal parameter of the base model. his value is given by %s. If those two parameters are expected to be identical, you need to provide the value in the param_card according to this formula. Command "generate relic_density " interrupted in sub-command: "generate relic_density" with error: USRMODERROR : Some inconsistency in the mass assignment in the model Mass: MC and MC__1 conflict name {'MC': 'MC__1', 'MB': 'MB__1', 'MT': 'MT__1', 'aS': 'aS__1', 'Gf': 'Gf__1', 'aEWM1': 'aEWM1__1', 'Wsdm': 'WH0', 'sdmm': 'MH0'} pdg_code: 4 4 Please report this bug on https://bugs.launchpad.net/mg5amcnlo More information is found in 'MG5_debug'. Please attach this file to your report. MadDM>generate relic_density INFO: DM is allowed to annihilate into the following BSM particles: h3 h+ INFO: use generate relic_density / X to forbid the decay the annihilation to X INFO: if you want to forbid DM to annihilate into BSM particles do relic_density / bsm Multiparticle labels: all = g a u c t d s b u~ c~ t~ d~ s~ b~ z w+ h h2 h3 h+ w- h- ve vm vt e- mu- ta- ve~ vm~ vt~ e+ mu+ ta+ l- = e- mu- dm_particle_0 = h2 bsm = h2 h3 h+ h- dm_particles = h2 j = g u c d s u~ c~ d~ s~ vl = ve vm vt l+ = e+ mu+ p = g u c d s u~ c~ d~ s~ vl~ = ve~ vm~ vt~ INFO: Trying process: h2 h2 > g g QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 1 diagrams INFO: Trying process: h2 h2 > g a QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > g z QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > g h QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > g h3 QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > a a QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > a z QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > a h QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > a h3 QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > d d~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 1 diagrams INFO: Trying process: h2 h2 > d s~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > d b~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > u u~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 1 diagrams INFO: Trying process: h2 h2 > u c~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > u t~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > s d~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > s s~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 1 diagrams INFO: Trying process: h2 h2 > s b~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > c u~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > c c~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 1 diagrams INFO: Trying process: h2 h2 > c t~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > b d~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > b s~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > b b~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 1 diagrams INFO: Trying process: h2 h2 > t u~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > t c~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > t t~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 1 diagrams INFO: Trying process: h2 h2 > z z QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 4 diagrams INFO: Trying process: h2 h2 > z h QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > z h3 QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > w+ w- QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 4 diagrams INFO: Trying process: h2 h2 > w+ h- QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > h h QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 4 diagrams INFO: Trying process: h2 h2 > h h3 QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > h3 h3 QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 4 diagrams INFO: Trying process: h2 h2 > h+ w- QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > h+ h- QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 4 diagrams INFO: Trying process: h2 h2 > e- e+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 1 diagrams INFO: Trying process: h2 h2 > e- mu+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > e- ta+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > ve ve~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > ve vm~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > ve vt~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > mu- e+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > mu- mu+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 1 diagrams INFO: Trying process: h2 h2 > mu- ta+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > vm ve~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > vm vm~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > vm vt~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > ta- e+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > ta- mu+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > ta- ta+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 1 diagrams INFO: Trying process: h2 h2 > vt ve~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > vt vm~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > vt vt~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 15 processes with 30 diagrams generated in 0.152 s Total: 15 processes with 30 diagrams MadDM>output dark3 Output will be done with PLUGIN: maddm INFO: directory /home/ygh/program/MG5_aMC_v3_0_0/dark3 already exists. If you continue this directory will be deleted and replaced. Do you want to continue? [y, n][60s to answer] >y INFO: Initializing project directory: dark3 /home/ygh/program/MG5_aMC_v3_0_0/Template/LO/Source/make_opts INFO: Organizing processes into subprocess groups INFO: Generating Helas calls for process: h2 h2 > z z QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > z z QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > w+ w- QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > w+ w- QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > h h QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > h h QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > h3 h3 QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > h3 h3 QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > h+ h- QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > h+ h- QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > g g QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > g g QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > d d~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > d d~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > u u~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > u u~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > s s~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > s s~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > c c~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > c c~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > b b~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > b b~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > t t~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > t t~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > e- e+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > e- e+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > mu- mu+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > mu- mu+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > ta- ta+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > ta- ta+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 Generated helas calls for 0 subprocesses (30 diagrams) in 0.045 s ALOHA: aloha starts to compute helicity amplitudes ALOHA: aloha creates 7 routines in 0.090 s MadDM>la Command "la" not recognized, please try again MadDM>launch INFO: Loaded experimental constraints. To change, use the set command INFO: Omega h^2 = 1.1980e-01 +- 1.5000e-03 INFO: Spin Independent cross section: /home/ygh/program/MG5_aMC_v3_0_0/PLUGIN/maddm/ExpData/Xenont1T_data_2017.dat INFO: Spin Dependent cross section (p): /home/ygh/program/MG5_aMC_v3_0_0/PLUGIN/maddm/ExpData/Pico60_sd_proton.dat INFO: Spin Dependent cross section (n): /home/ygh/program/MG5_aMC_v3_0_0/PLUGIN/maddm/ExpData/Lux_2017_sd_neutron.dat launch The following switches determine which programs are run: /=========================================================\ | 1. Compute the Relic Density relic = ON | | 2. Compute direct(ional) detection direct = OFF | | 3. Compute indirect detection/flux indirect = OFF | | 4. Run Multinest scan nestscan = OFF | \=========================================================/ You can also edit the various input card: * Enter the name/number to open the editor * Enter a path to a file to replace the card * Enter set NAME value to change any parameter to the requested value /=============================================================================\ | 5. Edit the model parameters [param] | | 6. Edit the MadDM options [maddm] | \=============================================================================/ [60s to answer] >4 Can not switch "nestscan" to another value via number The following switches determine which programs are run: /=========================================================\ | 1. Compute the Relic Density relic = ON | | 2. Compute direct(ional) detection direct = OFF | | 3. Compute indirect detection/flux indirect = OFF | | 4. Run Multinest scan nestscan = OFF | \=========================================================/ You can also edit the various input card: * Enter the name/number to open the editor * Enter a path to a file to replace the card * Enter set NAME value to change any parameter to the requested value /=============================================================================\ | 5. Edit the model parameters [param] | | 6. Edit the MadDM options [maddm] | \=============================================================================/ >set mma0 scan:[10,20,30,40,50] INFO: modify param_card information BLOCK frblock with id (14,) set to scan:[10,20,30,40,50] The following switches determine which programs are run: /============== Description ==============|========= values ==========|======== other options ========\ | 1. Compute the Relic Density | relic = ON | OFF | | 2. Compute direct(ional) detection | direct = OFF | Please install module | | 3. Compute indirect detection/flux | indirect = OFF | Please install module | | 4. Run Multinest scan | nestscan = OFF | Please install module | \=====================================================================================================/ You can also edit the various input card: * Enter the name/number to open the editor * Enter a path to a file to replace the card * Enter set NAME value to change any parameter to the requested value /=============================================================================\ | 5. Edit the model parameters [param] | | 6. Edit the MadDM options [maddm] | \=============================================================================/ > INFO: Start computing relic maddm_card missed argument print_sigmas. Takes default: False INFO: compilation done INFO: MadDM Results INFO: Define xsi = Relic density/Planck measurement for thermal scenarios. INFO: Rescaling theory prediction for xsi(direct det.) and xsi^2(indirect det.) for thermal scenarios. INFO: ***** Relic Density OMEGA IS 2.54783017106e-09 INFO: Relic Density = 2.55e-09 ALLOWED INFO: x_f = 4.40e+01 INFO: sigmav(xf) = 7.59e-02 INFO: xsi = 2.13e-08 INFO: Results written in: /home/ygh/program/MG5_aMC_v3_0_0/dark3/output/run_01/MadDM_results.txt quit MadDM>launch INFO: Loaded experimental constraints. To change, use the set command INFO: Omega h^2 = 1.1980e-01 +- 1.5000e-03 INFO: Spin Independent cross section: /home/ygh/program/MG5_aMC_v3_0_0/PLUGIN/maddm/ExpData/Xenont1T_data_2017.dat INFO: Spin Dependent cross section (p): /home/ygh/program/MG5_aMC_v3_0_0/PLUGIN/maddm/ExpData/Pico60_sd_proton.dat INFO: Spin Dependent cross section (n): /home/ygh/program/MG5_aMC_v3_0_0/PLUGIN/maddm/ExpData/Lux_2017_sd_neutron.dat launch The following switches determine which programs are run: /============== Description ==============|========= values ==========|======== other options ========\ | 1. Compute the Relic Density | relic = ON | OFF | | 2. Compute direct(ional) detection | direct = OFF | Please install module | | 3. Compute indirect detection/flux | indirect = OFF | Please install module | | 4. Run Multinest scan | nestscan = OFF | Please install module | \=====================================================================================================/ You can also edit the various input card: * Enter the name/number to open the editor * Enter a path to a file to replace the card * Enter set NAME value to change any parameter to the requested value /=============================================================================\ | 5. Edit the model parameters [param] | | 6. Edit the MadDM options [maddm] | \=============================================================================/ [60s to answer] >5 open /home/ygh/program/MG5_aMC_v3_0_0/dark3/Cards/param_card.dat The following switches determine which programs are run: /============== Description ==============|========= values ==========|======== other options ========\ | 1. Compute the Relic Density | relic = ON | OFF | | 2. Compute direct(ional) detection | direct = OFF | Please install module | | 3. Compute indirect detection/flux | indirect = OFF | Please install module | | 4. Run Multinest scan | nestscan = OFF | Please install module | \=====================================================================================================/ You can also edit the various input card: * Enter the name/number to open the editor * Enter a path to a file to replace the card * Enter set NAME value to change any parameter to the requested value /=============================================================================\ | 5. Edit the model parameters [param] | | 6. Edit the MadDM options [maddm] | \=============================================================================/ >set 36 scan:[10,20,30,40,50] WARNING: invalid set command 36 scan:[10,20,30,40,50] The following switches determine which programs are run: /============== Description ==============|========= values ==========|======== other options ========\ | 1. Compute the Relic Density | relic = ON | OFF | | 2. Compute direct(ional) detection | direct = OFF | Please install module | | 3. Compute indirect detection/flux | indirect = OFF | Please install module | | 4. Run Multinest scan | nestscan = OFF | Please install module | \=====================================================================================================/ You can also edit the various input card: * Enter the name/number to open the editor * Enter a path to a file to replace the card * Enter set NAME value to change any parameter to the requested value /=============================================================================\ | 5. Edit the model parameters [param] | | 6. Edit the MadDM options [maddm] | \=============================================================================/ >set mmA0 10 INFO: modify param_card information BLOCK frblock with id (14,) set to 10.0 The following switches determine which programs are run: /============== Description ==============|========= values ==========|======== other options ========\ | 1. Compute the Relic Density | relic = ON | OFF | | 2. Compute direct(ional) detection | direct = OFF | Please install module | | 3. Compute indirect detection/flux | indirect = OFF | Please install module | | 4. Run Multinest scan | nestscan = OFF | Please install module | \=====================================================================================================/ You can also edit the various input card: * Enter the name/number to open the editor * Enter a path to a file to replace the card * Enter set NAME value to change any parameter to the requested value /=============================================================================\ | 5. Edit the model parameters [param] | | 6. Edit the MadDM options [maddm] | \=============================================================================/ >set 36 scan:[10,20] WARNING: invalid set command 36 scan:[10,20] The following switches determine which programs are run: /============== Description ==============|========= values ==========|======== other options ========\ | 1. Compute the Relic Density | relic = ON | OFF | | 2. Compute direct(ional) detection | direct = OFF | Please install module | | 3. Compute indirect detection/flux | indirect = OFF | Please install module | | 4. Run Multinest scan | nestscan = OFF | Please install module | \=====================================================================================================/ You can also edit the various input card: * Enter the name/number to open the editor * Enter a path to a file to replace the card * Enter set NAME value to change any parameter to the requested value /=============================================================================\ | 5. Edit the model parameters [param] | | 6. Edit the MadDM options [maddm] | \=============================================================================/ >set 36 scan[10,20] WARNING: invalid set command 36 scan[10,20] The following switches determine which programs are run: /============== Description ==============|========= values ==========|======== other options ========\ | 1. Compute the Relic Density | relic = ON | OFF | | 2. Compute direct(ional) detection | direct = OFF | Please install module | | 3. Compute indirect detection/flux | indirect = OFF | Please install module | | 4. Run Multinest scan | nestscan = OFF | Please install module | \=====================================================================================================/ You can also edit the various input card: * Enter the name/number to open the editor * Enter a path to a file to replace the card * Enter set NAME value to change any parameter to the requested value /=============================================================================\ | 5. Edit the model parameters [param] | | 6. Edit the MadDM options [maddm] | \=============================================================================/ >set mmA0 scan:[10,20] INFO: modify param_card information BLOCK frblock with id (14,) set to scan:[10,20] The following switches determine which programs are run: /============== Description ==============|========= values ==========|======== other options ========\ | 1. Compute the Relic Density | relic = ON | OFF | | 2. Compute direct(ional) detection | direct = OFF | Please install module | | 3. Compute indirect detection/flux | indirect = OFF | Please install module | | 4. Run Multinest scan | nestscan = OFF | Please install module | \=====================================================================================================/ You can also edit the various input card: * Enter the name/number to open the editor * Enter a path to a file to replace the card * Enter set NAME value to change any parameter to the requested value /=============================================================================\ | 5. Edit the model parameters [param] | | 6. Edit the MadDM options [maddm] | \=============================================================================/ >set mmA0 scan:[10,20,30,40] INFO: modify param_card information BLOCK frblock with id (14,) set to scan:[10,20,30,40] The following switches determine which programs are run: /============== Description ==============|========= values ==========|======== other options ========\ | 1. Compute the Relic Density | relic = ON | OFF | | 2. Compute direct(ional) detection | direct = OFF | Please install module | | 3. Compute indirect detection/flux | indirect = OFF | Please install module | | 4. Run Multinest scan | nestscan = OFF | Please install module | \=====================================================================================================/ You can also edit the various input card: * Enter the name/number to open the editor * Enter a path to a file to replace the card * Enter set NAME value to change any parameter to the requested value /=============================================================================\ | 5. Edit the model parameters [param] | | 6. Edit the MadDM options [maddm] | \=============================================================================/ > INFO: Start computing relic maddm_card missed argument print_sigmas. Takes default: False INFO: compilation done INFO: MadDM Results INFO: Define xsi = Relic density/Planck measurement for thermal scenarios. INFO: Rescaling theory prediction for xsi(direct det.) and xsi^2(indirect det.) for thermal scenarios. INFO: ***** Relic Density OMEGA IS 2.54783017106e-09 INFO: Relic Density = 2.55e-09 ALLOWED INFO: x_f = 4.40e+01 INFO: sigmav(xf) = 7.59e-02 INFO: xsi = 2.13e-08 INFO: Results written in: /home/ygh/program/MG5_aMC_v3_0_0/dark3/output/run_02/MadDM_results.txt quit MadDM>launch INFO: Loaded experimental constraints. To change, use the set command INFO: Omega h^2 = 1.1980e-01 +- 1.5000e-03 INFO: Spin Independent cross section: /home/ygh/program/MG5_aMC_v3_0_0/PLUGIN/maddm/ExpData/Xenont1T_data_2017.dat INFO: Spin Dependent cross section (p): /home/ygh/program/MG5_aMC_v3_0_0/PLUGIN/maddm/ExpData/Pico60_sd_proton.dat INFO: Spin Dependent cross section (n): /home/ygh/program/MG5_aMC_v3_0_0/PLUGIN/maddm/ExpData/Lux_2017_sd_neutron.dat launch The following switches determine which programs are run: /============== Description ==============|========= values ==========|======== other options ========\ | 1. Compute the Relic Density | relic = ON | OFF | | 2. Compute direct(ional) detection | direct = OFF | Please install module | | 3. Compute indirect detection/flux | indirect = OFF | Please install module | | 4. Run Multinest scan | nestscan = OFF | Please install module | \=====================================================================================================/ You can also edit the various input card: * Enter the name/number to open the editor * Enter a path to a file to replace the card * Enter set NAME value to change any parameter to the requested value /=============================================================================\ | 5. Edit the model parameters [param] | | 6. Edit the MadDM options [maddm] | \=============================================================================/ [60s to answer] >6 open /home/ygh/program/MG5_aMC_v3_0_0/dark3/Cards/maddm_card.dat The following switches determine which programs are run: /============== Description ==============|========= values ==========|======== other options ========\ | 1. Compute the Relic Density | relic = ON | OFF | | 2. Compute direct(ional) detection | direct = OFF | Please install module | | 3. Compute indirect detection/flux | indirect = OFF | Please install module | | 4. Run Multinest scan | nestscan = OFF | Please install module | \=====================================================================================================/ You can also edit the various input card: * Enter the name/number to open the editor * Enter a path to a file to replace the card * Enter set NAME value to change any parameter to the requested value /=============================================================================\ | 5. Edit the model parameters [param] | | 6. Edit the MadDM options [maddm] | \=============================================================================/ >5 open /home/ygh/program/MG5_aMC_v3_0_0/dark3/Cards/param_card.dat The following switches determine which programs are run: /============== Description ==============|========= values ==========|======== other options ========\ | 1. Compute the Relic Density | relic = ON | OFF | | 2. Compute direct(ional) detection | direct = OFF | Please install module | | 3. Compute indirect detection/flux | indirect = OFF | Please install module | | 4. Run Multinest scan | nestscan = OFF | Please install module | \=====================================================================================================/ You can also edit the various input card: * Enter the name/number to open the editor * Enter a path to a file to replace the card * Enter set NAME value to change any parameter to the requested value /=============================================================================\ | 5. Edit the model parameters [param] | | 6. Edit the MadDM options [maddm] | \=============================================================================/ >exit The following switches determine which programs are run: /============== Description ==============|========= values ==========|======== other options ========\ | 1. Compute the Relic Density | relic = ON | OFF | | 2. Compute direct(ional) detection | direct = OFF | Please install module | | 3. Compute indirect detection/flux | indirect = OFF | Please install module | | 4. Run Multinest scan | nestscan = OFF | Please install module | \=====================================================================================================/ You can also edit the various input card: * Enter the name/number to open the editor * Enter a path to a file to replace the card * Enter set NAME value to change any parameter to the requested value /=============================================================================\ | 5. Edit the model parameters [param] | | 6. Edit the MadDM options [maddm] | \=============================================================================/ >quit stopping all operation in order to quit mg5 please enter exit MadDM>writting history and quit on KeyboardInterrupt ygh@ygh:~/program/MG5_aMC_v3_0_0$ ./bin/maddm.py Plugin PLUGIN.maddm has marked as NOT being validated with this version. It has been validated for the last time with version: 2.6.3 ==================================================== | MadDM v3.0 | ==================================================== ######### ###\\####//##### Launchpad: launchpad.net/maddm ######\\##//######## ########\\//########### #########//\\############ arXiv:1308.4955 #########//##\\############ arXiv:1505.04190 ########//#####\\########### arXiv:1804.00444 ######################### ## ___________________________________________ ####################### 0 # _ _ _ _____ _ _ ############# 0 ### ## | \ / | ___ ___|| | ___ \ | \ / | ############## ######### ||\\ //|| / __ | / __ | || || ||\\ //|| ########################## || V || ||__|| ||__|| ||___|| || V || ################### ## || || \_____\ \____| |_____/ || || ############ ### ___________________________________________ ########## ###### ################ ######## Need to learn? -> type tutorial ==================================================== | A MadGraph5_aMC@NLO plugin. | ==================================================== * VERSION 3.0.0 2018-05-01 * load MG5 configuration from input/mg5_configuration.txt set ninja to /home/ygh/program/MG5_aMC_v3_0_0/HEPTools/lib set collier to /home/ygh/program/MG5_aMC_v3_0_0/HEPTools/lib None does not seem to correspond to a valid fastjet-config executable (v3+). We will use fjcore instead. Please set the 'fastjet'variable to the full (absolute) /PATH/TO/fastjet-config (including fastjet-config). MG5_aMC> set fastjet /PATH/TO/fastjet-config /home/ygh/program/MG5_aMC_v3_0_0/HEPTools/lhapdf5/bin/lhapdf-config does not seem to correspond to a valid lhapdf-config executable. Please set the 'lhapdf' variable to the (absolute) /PATH/TO/lhapdf-config (including lhapdf-config). Note that you can still compile and run aMC@NLO with the built-in PDFs MG5_aMC> set lhapdf /PATH/TO/lhapdf-config Using default text editor "vi". Set another one in ./input/mg5_configuration.txt Using default eps viewer "evince". Set another one in ./input/mg5_configuration.txt No valid web browser found. Please set in ./input/mg5_configuration.txt Loading default model: sm INFO: Restrict model sm with file models/sm/restrict_default.dat . INFO: Run "set stdout_level DEBUG" before import for more information. INFO: Change particles name to pass to MG5 convention Defined multiparticle p = g u c d s u~ c~ d~ s~ Defined multiparticle j = g u c d s u~ c~ d~ s~ Defined multiparticle l+ = e+ mu+ Defined multiparticle l- = e- mu- Defined multiparticle vl = ve vm vt Defined multiparticle vl~ = ve~ vm~ vt~ Defined multiparticle all = g u c d s u~ c~ d~ s~ a ve vm vt e- mu- ve~ vm~ vt~ e+ mu+ t b t~ b~ z w+ h w- ta- ta+ MadDM>writting history and quit on KeyboardInterrupt ygh@ygh:~/program/MG5_aMC_v3_0_0$ cd .. ygh@ygh:~/program$ ls alterbbn_v2.0 MadDM_v3.0.beta MG5_aMC_v2.6.1.tar.gz alterbbn_v2.0.tgz MadDM_v3.0.beta.tar.gz MG5_aMC_v3_0_0 check MG5_aMC_v2_3_3 MG5_aMC_v3.0.0.beta.tar.gz ma5_v1.6.tgz MG5_aMC_v2.3.3.tar.gz root madanalysis5 MG5_aMC_v2_6_1 root_v6.12.04.Linux-ubuntu16-x86_64-gcc5.4.tar.gz ygh@ygh:~/program$ cd MadDM_v3.0.beta ygh@ygh:~/program/MadDM_v3.0.beta$ ./bin/maddm WARNING: Multinest module not found! All multinest parameter scanning features will be disabled. Plugin PLUGIN.maddm has marked as NOT being validated with this version. It has been validated for the last time with version: 2.6.2 ==================================================== | MadDM v3.0 | ==================================================== ######### ###\\####//##### Launchpad: launchpad.net/maddm ######\\##//######## ########\\//########### #########//\\############ #########//##\\############ arXiv:1308.4955 ########//#####\\########### arXiv:1505.04190 ######################### ## ___________________________________________ ####################### 0 # _ _ _ _____ _ _ ############# 0 ### ## | \ / | ___ ___|| | ___ \ | \ / | ############## ######### ||\\ //|| / __ | / __ | || || ||\\ //|| ########################## || V || ||__|| ||__|| ||___|| || V || ################### ## || || \_____\ \____| |_____/ || || ############ ### ___________________________________________ ########## ###### ################ ######## Need to learn? -> type tutorial ==================================================== | A MadGraph5_aMC@NLO plugin. | ==================================================== * VERSION 2.6.2.beta 2018-04-02 * load MG5 configuration from input/mg5_configuration.txt set ninja to /home/ygh/program/MadDM_v3.0.beta/HEPTools/lib set collier to /home/ygh/program/MadDM_v3.0.beta/HEPTools/lib None does not seem to correspond to a valid fastjet-config executable (v3+). We will use fjcore instead. Please set the 'fastjet'variable to the full (absolute) /PATH/TO/fastjet-config (including fastjet-config). MG5_aMC> set fastjet /PATH/TO/fastjet-config set lhapdf to /home/ygh/program/MadDM_v3.0.beta/HEPTools/lhapdf6/bin/lhapdf-config Using default text editor "vi". Set another one in ./input/mg5_configuration.txt Using default eps viewer "evince". Set another one in ./input/mg5_configuration.txt No valid web browser found. Please set in ./input/mg5_configuration.txt Loading default model: sm INFO: Restrict model sm with file models/sm/restrict_default.dat . INFO: Run "set stdout_level DEBUG" before import for more information. INFO: Change particles name to pass to MG5 convention Defined multiparticle p = g u c d s u~ c~ d~ s~ Defined multiparticle j = g u c d s u~ c~ d~ s~ Defined multiparticle l+ = e+ mu+ Defined multiparticle l- = e- mu- Defined multiparticle vl = ve vm vt Defined multiparticle vl~ = ve~ vm~ vt~ Defined multiparticle all = g u c d s u~ c~ d~ s~ a ve vm vt e- mu- ve~ vm~ vt~ e+ mu+ t b t~ b~ z w+ h w- ta- ta+ MadDM>import model InertDoublet_UFO/ INFO: Change particles name to pass to MG5 convention Kept definitions of multiparticles l- / j / vl / l+ / p / vl~ unchanged Defined multiparticle all = g a u c t d s b u~ c~ t~ d~ s~ b~ z w+ h h2 h3 h+ w- h- ve vm vt e- mu- ta- ve~ vm~ vt~ e+ mu+ ta+ MadDM>generate relic_density Do you want to edit the benchmark (press enter to bypass editing)? - Press 1 or param to open an editor and edit the file - You can specify a path to a valid card (and potentially edit it afterwards) - You can use the 'set' command to edit the card [0, done, 1, param, enter path] > INFO: Found Dark Matter candidate: h2 add model /home/ygh/program/MadDM_v3.0.beta/PLUGIN/maddm/EffOperators/REAL ~sdm=h2 --recreate --keep_decay WARNING: The parameter %s is actually an internal parameter of the base model. his value is given by %s. If those two parameters are expected to be identical, you need to provide the value in the param_card according to this formula. WARNING: The parameter %s is actually an internal parameter of the base model. his value is given by %s. If those two parameters are expected to be identical, you need to provide the value in the param_card according to this formula. WARNING: The parameter %s is actually an internal parameter of the base model. his value is given by %s. If those two parameters are expected to be identical, you need to provide the value in the param_card according to this formula. Command "generate relic_density " interrupted in sub-command: "generate relic_density" with error: USRMODERROR : Some inconsistency in the mass assignment in the model Mass: MC and MC__1 conflict name {'MC': 'MC__1', 'MB': 'MB__1', 'MT': 'MT__1', 'aS': 'aS__1', 'Gf': 'Gf__1', 'aEWM1': 'aEWM1__1', 'Wsdm': 'WH0', 'sdmm': 'MH0'} pdg_code: 4 4 Please report this bug on https://bugs.launchpad.net/mg5amcnlo More information is found in 'MG5_debug'. Please attach this file to your report. MadDM>generate relic_density INFO: DM is allowed to annihilate into the following BSM particles: h3 h+ INFO: use generate relic_density / X to forbid the decay the annihilation to X INFO: if you want to forbid DM to annihilate into BSM particles do relic_density / bsm Multiparticle labels: all = g a u c t d s b u~ c~ t~ d~ s~ b~ z w+ h h2 h3 h+ w- h- ve vm vt e- mu- ta- ve~ vm~ vt~ e+ mu+ ta+ l- = e- mu- dm_particle_0 = h2 bsm = h2 h3 h+ h- dm_particles = h2 j = g u c d s u~ c~ d~ s~ vl = ve vm vt l+ = e+ mu+ p = g u c d s u~ c~ d~ s~ vl~ = ve~ vm~ vt~ INFO: Trying process: h2 h2 > g g QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 1 diagrams INFO: Trying process: h2 h2 > g a QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > g z QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > g h QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > g h3 QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > a a QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > a z QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > a h QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > a h3 QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > d d~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 1 diagrams INFO: Trying process: h2 h2 > d s~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > d b~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > u u~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 1 diagrams INFO: Trying process: h2 h2 > u c~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > u t~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > s d~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > s s~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 1 diagrams INFO: Trying process: h2 h2 > s b~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > c u~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > c c~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 1 diagrams INFO: Trying process: h2 h2 > c t~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > b d~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > b s~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > b b~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 1 diagrams INFO: Trying process: h2 h2 > t u~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > t c~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > t t~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 1 diagrams INFO: Trying process: h2 h2 > z z QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 4 diagrams INFO: Trying process: h2 h2 > z h QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > z h3 QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > w+ w- QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 4 diagrams INFO: Trying process: h2 h2 > w+ h- QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > h h QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 4 diagrams INFO: Trying process: h2 h2 > h h3 QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > h3 h3 QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 4 diagrams INFO: Trying process: h2 h2 > h+ w- QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > h+ h- QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 4 diagrams INFO: Trying process: h2 h2 > e- e+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 1 diagrams INFO: Trying process: h2 h2 > e- mu+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > e- ta+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > ve ve~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > ve vm~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > ve vt~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > mu- e+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > mu- mu+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 1 diagrams INFO: Trying process: h2 h2 > mu- ta+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > vm ve~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > vm vm~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > vm vt~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > ta- e+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > ta- mu+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > ta- ta+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Process has 1 diagrams INFO: Trying process: h2 h2 > vt ve~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > vt vm~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Trying process: h2 h2 > vt vt~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 15 processes with 30 diagrams generated in 0.147 s Total: 15 processes with 30 diagrams MadDM>output dark Output will be done with PLUGIN: maddm INFO: Initializing project directory: dark /home/ygh/program/MadDM_v3.0.beta/Template/LO/Source/make_opts INFO: Organizing processes into subprocess groups INFO: Generating Helas calls for process: h2 h2 > z z QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > z z QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > w+ w- QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > w+ w- QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > h h QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > h h QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > h3 h3 QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > h3 h3 QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > h+ h- QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > h+ h- QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > g g QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > g g QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > d d~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > d d~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > u u~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > u u~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > s s~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > s s~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > c c~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > c c~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > b b~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > b b~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > t t~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > t t~ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > e- e+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > e- e+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > mu- mu+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > mu- mu+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Generating Helas calls for process: h2 h2 > ta- ta+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 INFO: Processing color information for process: h2 h2 > ta- ta+ QED<=4 SDEFFF=0 SDEFFV=0 SIEFFF=0 SIEFFS=0 SIEFFV=0 @1999 Generated helas calls for 0 subprocesses (30 diagrams) in 0.046 s ALOHA: aloha creates SSSS1 routines ALOHA: aloha creates VVSS1 routines ALOHA: aloha creates VVS1 routines ALOHA: aloha creates SSS1 routines ALOHA: aloha creates VSS1 routines ALOHA: aloha creates FFS1 routines ALOHA: aloha creates VVS2 routines MadDM>launch INFO: Loaded experimental constraints. To change, use the set command INFO: Omega h^2 = 1.1980e-01 +- 1.5000e-03 INFO: Spin Independent cross section: /home/ygh/program/MadDM_v3.0.beta/PLUGIN/maddm/ExpData/Xenont1T_data_2017.dat INFO: Spin Dependent cross section (p): /home/ygh/program/MadDM_v3.0.beta/PLUGIN/maddm/ExpData/Pico60_sd_proton.dat INFO: Spin Dependent cross section (n): /home/ygh/program/MadDM_v3.0.beta/PLUGIN/maddm/ExpData/Lux_2017_sd_neutron.dat launch The following switches determine which programs are run: /============== Description ==============|========= values ==========|======== other options ========\ | 1. Compute the Relic Density | relic = ON | OFF | | 2. Compute direct(ional) detection | direct = OFF | Please install module | | 3. Compute indirect detection/flux | indirect = OFF | Please install module | | 4. Run Multinest scan | nestscan = OFF | Please install module | \=====================================================================================================/ You can also edit the various input card: * Enter the name/number to open the editor * Enter a path to a file to replace the card * Enter set NAME value to change any parameter to the requested value /=============================================================================\ | 5. Edit the model parameters [param] | | 6. Edit the MadDM options [maddm] | \=============================================================================/ [60s to answer] >set mmA0 scan:[10,20,30,40] INFO: modify param_card information BLOCK frblock with id (14,) set to scan:[10,20,30,40] The following switches determine which programs are run: /============== Description ==============|========= values ==========|======== other options ========\ | 1. Compute the Relic Density | relic = ON | OFF | | 2. Compute direct(ional) detection | direct = OFF | Please install module | | 3. Compute indirect detection/flux | indirect = OFF | Please install module | | 4. Run Multinest scan | nestscan = OFF | Please install module | \=====================================================================================================/ You can also edit the various input card: * Enter the name/number to open the editor * Enter a path to a file to replace the card * Enter set NAME value to change any parameter to the requested value /=============================================================================\ | 5. Edit the model parameters [param] | | 6. Edit the MadDM options [maddm] | \=============================================================================/ > INFO: Create the next param_card in the scan definition INFO: change parameter frblock with code (14,) to 10 INFO: Start computing relic maddm_card missed argument print_sigmas. Takes default: False INFO: compilation done INFO: MadDM Results INFO: Define xsi = Relic density/Planck measurement for thermal scenarios. INFO: Rescaling theory prediction for xsi(direct det.) and xsi^2(indirect det.) for thermal scenarios. INFO: ***** Relic Density INFO: Relic Density = 1.55e-09 ALLOWED INFO: x_f = 4.40e+01 INFO: sigmav(xf) = 1.24e-01 INFO: xsi = 1.30e-08 quit Command "launch " interrupted in sub-command: "launch" with error: OSError : [Errno 2] No such file or directory: '/home/ygh/program/MadDM_v3.0.beta/dark/Indirect/Events/run_01_01' Please report this bug on https://bugs.launchpad.net/mg5amcnlo More information is found in 'MG5_debug'. Please attach this file to your report. MadDM>