source: snovis/trunk/scripts/snova/snova.par @ 204

Last change on this file since 204 was 145, checked in by barrand, 17 years ago
File size: 4.6 KB
Line 
1#//////////////////////////////////////////////////////////
2#/////  File containing snova implementation options  /////
3#//////////////////////////////////////////////////////////
4
5
6#/////////////////////////////////
7# This is group GLOBAL variables
8#/////////////////////////////////
9
10# Simulation data verbosity (MUTE, CONCISE, NORMAL, DETAILED, VERBOSE, VVERBOSE)
11GLOBAL simulation_verbosity S NORMAL
12
13# G4 Tracking verbosity ("0", "1", "2", "3", ...)
14GLOBAL G4Tracking_verbosity S 0
15
16# Output dst file name
17# Allowed extensions: '.txt' for text files
18#                     '.gz'  for gziped text files
19#                     '.h5' for HDF5 files
20GLOBAL dst_fname S data/dst_test_random_Nd150_Bon.txt
21
22######### VERTEX GENERATOR SECTION ########
23
24#/////////////////////////////////
25# This is group VERTEX variables
26#/////////////////////////////////
27
28# Type of vertex generator: identified by unique 'name' registred
29# in the Vertex Generator Factory:
30# Options: "source_simple"
31#          "CALO_basic"
32#          "from_file"
33#          "spot"
34VERTEX VG.type S source_simple
35
36# the label of the vertex generator:
37VERTEX VG.label S source_simple_bluk
38
39# definition of a list of properties to configure the vertex generator:
40# here this is vertex randomized from the bulk volume of the source foil:
41VERTEX VG.configuration.source_simple_bluk SV 3
42locate=bulk
43save-file=Yes
44save-filename=source_simple_bluk.vtx
45
46# here this is vertex randomized from the front surface of the source foil:
47VERTEX VG.configuration.source_simple_sf SV 4
48locate=surf
49side=front
50save-file=Yes
51save-filename=source_simple_sf.vtx
52
53# here this is vertex randomized from the back surface of the source foil:
54VERTEX VG.configuration.source_simple_sb SV 4
55locate=surf
56side=back
57save-file=Yes
58save-filename=source_simple_sb.vtx
59
60# here this is vertex randomized from the both front/back surfaces of the source foil:
61VERTEX VG.configuration.source_simple_sa SV 4
62locate=surf
63side=all
64save-file=Yes
65save-filename=source_simple_sa.vtx
66
67# here this is vertex randomized from CALO blocks on wrapper front surfaces
68# from all walls
69VERTEX VG.configuration.CALO_basic_wsaf SV 5
70locate=wrapper_surf
71wall=all
72side=front
73save-file=Yes
74save-filename=CALO_basic_wsaf.vtx
75
76# here this is vertex randomized from CALO blocks on wrapper back surfaces
77# from all walls
78VERTEX VG.configuration.CALO_basic_wsab SV 5
79locate=wrapper_surf
80wall=all
81side=back
82save-file=Yes
83save-filename=CALO_basic_wsab.vtx
84
85# here this is vertex randomized from CALO blocks in wrapper volume (bulk)
86# from all walls
87VERTEX VG.configuration.CALO_basic_wbaa SV 5
88locate=wrapper_bulk
89wall=all
90side=all
91save-file=Yes
92save-filename=CALO_basic_wbaa.vtx
93
94######### PRIMARY PARTICLES GENERATOR SECTION ########
95
96# this is for randomize direction of the primary event:
97EVGEN EG.randomize_dir I 1
98
99# (E)vent (G)enerator type:
100# Options (hardcoded generators):
101# "from_genbb_file" : uses an input file from GENBB-like program
102# "single_particle" : shoot single particle in energy range
103EVGEN EG.type S from_genbb_file
104#EVGEN EG.type S single_particle
105
106# this is the input file used by the 'from_genbb_file' EG:
107EVGEN EG.from_genbb_file.source S example_Mo100.txt
108
109# this is the input parameters for used by the 'single_particle' EG:
110EVGEN EG.single_particle.name S electron
111
112# minimal kinetic energy in keV:
113EVGEN EG.single_particle.min_energy D 500.
114
115# maximal kinetic energy in keV:
116EVGEN EG.single_particle.max_energy D 3000.
117
118######### SIM. NUMBER OF EVENTS ########
119
120# Number of events
121GLOBAL num_events I 10
122
123
124######### GEOMETRY SECTION ########
125
126# GEOMETRY parameters file
127GLOBAL geom_file S snemo.geom
128
129######### MISC SECTION ########
130
131# In case of visual run, display a complete view (1) or just the shape (0)
132GLOBAL DISPLAY_ALL I 0
133
134
135######### PHYSICS SECTION ########
136
137#///////////////////////////////////
138# This is group PHYSICS variables
139#///////////////////////////////////
140
141# Energy Loss Enabled for electrons (0=OFF 1=ON)
142PHYSICS energy_loss I 1
143
144# Multiple Scattering Enabled for electrons (0=OFF 1=ON)
145PHYSICS mult_scattering I 1
146
147# Maximum Step Length inside the SOURCE (mm)
148PHYSICS SOURCE_max_step D 0.01
149
150# Maximum Step Length inside the GEIGER CELLS (mm)
151PHYSICS GG_CELL_max_step D 5.
152
153# Cut (mm) for Calorimeter region
154PHYSICS calo_cut D 5.
155
156# Cut (mm) for Tracking region
157PHYSICS tracking_cut D .5
158
159# Cut (mm) for Source region
160PHYSICS source_cut D .05
161
162
163#///////////////////////////////////
164# This is group CHECK variables
165#///////////////////////////////////
166
167# Store meaning-less particles generated at the Calorimeter: YES (1) or NO (0)
168CHECK store_all I 0
169
170# Print BHEP Stored particles at the end: YES (1) or NO (0)
171CHECK print_parts I 0
172
173# end of parameters file
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