# ## Howto generate a digipar file form a .root geometry # # created new official ROOT TRD geomtries (21.03.2013) - v13c - as v13i, compressed, without 25 cm gaps between stations, z = 4.5m to 9.5m - v13d - as v13s - 2 layers, SIS100 - v13e - as v13r - 3 layers, SIS100 - v13f - as v13t - 4 layers, SIS100 # develloper's versions v13c - like v13b, but reduced FEBs: 10 FEBs for 1 cm2 and 5 FEBs for 2 cm2 pad size v13d - like v13b, but FEB 0 degree inclination v13e - like v13b, but FEB 30 degree inclination v13f - like v13b, but FEB 60 degree inclination v13g - like v13b, but FEB 80 degree inclination v13h - like v13b, but no radiator material v13i - like v13c, but FEB thickness reduced from 5.0 to 2.5 mm v13j - like v13b, but no FEBs at all v13k - like v13b, but no FEBs at all and no lattice grid v13l - like v13b, full FEBs, reduced FEB thickness (2.5mm) v13r - like v13a, SIS100 TRD, 3 layers (x,y,x), reduced number of FEBs, reduced FEB thickness v13s - like v13a, SIS100 TRD, 2 layers, reduced number of FEBs, reduced FEB thickness v13t - like v13s, SIS100 TRD, 4 layers, reduced number of FEBs, reduced FEB thickness v13u - like v13s, SIS100 TRD, 2 layers, with 6 mm gas gap v13v - like v13t, SIS100 TRD, 4 layers, with 6 mm gas gap # DE, January 2013 # take the short geometry file (not containing the master volume) root -l -b -q create_geometry_file_root.C\(\"geometry/trd_v13d.root\"\) root -l -b -q create_digipar_root.C\(\"geometry/trd_v13d.root\"\) gcc -o cut_digipar_lf cut_digipar_lf.c ./cut_digipar_lf trd_v13d.digi.par.long trd_v13d.digi.par