Annotation of /gpamela/inform/README

*
* $Id: README,v 3.7 2006/10/13 16:36:59 pam-ba Exp $
*
* $Log: README,v $
* Revision 3.7  2006/10/13 16:36:59  pam-ba
* Added a new material, the cadmium, for ND
*
* Revision 3.6  2006/10/02 11:17:30  pam-ba
* NDET 'SPHE' data card meaning changed. Now it eliminates the whole PAMELA container.
*
* Revision 3.5  2006/04/10 11:07:43  cafagna
* GEN data card updated, ZDGEN added
*
* Revision 3.4  2005/12/14 03:34:46  cafagna
* An update of the history and inform readme files.
*
* Revision 3.3  2005/07/25 11:53:21  cafagna
* Several updates. See history for details
*
* Revision 3.2  2002/12/05 10:17:42  pamela
* Update CAS and CALO geometries and positions. Makefile updated as well
*
* Revision 3.1.1.1  2002/07/11 16:01:59  cafagna
* First GPAMELA release on CVS
*
*
* This directory was created from gpamela.car patch _inform
*CMZ :  2.01/00 05/04/2000  14.35.18  by  Marialuigia Ambriola
*CMZ :  3.00/00 08/02/2002  17.33.00  by  Unknown
*CMZ :  2.03/00 06/11/2000  01.40.19  by  Francesco Cafagna
*CMZ :  2.02/00 12/10/2000  16.03.56  by  Francesco Cafagna
*CMZU:  2.01/00 05/04/2000  09.51.03  by  Unknown
*CMZ :  2.00/00 03/03/2000  15.33.44  by  Francesco Cafagna
*CMZ :  1.02/00 25/01/2000  18.22.29  by  Francesco Cafagna
*CMZ :  1.01/01 23/05/96  17.11.59  by  Francesco Cafagna
*CMZ :  1.01/00 22/05/96  09.46.03  by  Francesco Cafagna
*CMZ :  1.00/03 30/04/96  17.40.07  by  Francesco Cafagna
*CMZ :  1.00/02 03/04/96  18.23.50  by  Francesco Cafagna
*CMZ :  1.00/01 28/11/95  18.54.38  by  Francesco Cafagna
*-- Author :    Francesco Cafagna   28/11/95

 GPAMELA: A GEANT based montecarlo of PAMELA

   This CMZ file contains:
     A.patchy $VERSION  , with the version in use
     B.patchy $HISTORY  , general comments on changes and implementations
     C.patchy $INFORM   , infos on patchy and flag to be used in the program
     D.patchy $KUMACS   , collection of CMZ kumacs
     E.patchy $MANUAL   , LaTeX version of the program user guide
     E.patchy *GPAMELA  , pilot patchy with the +USE directives
     F.patchy GPCDES    , patchy with common definitions
     G.patchy GPAMELA   , main patchy with the general routines
     H.patchy GPTOF     , patchy with specific TOF routines
     I.patchy GPTRD     , patchy with specific TRD routines
     L.patchy GPCALO    , patchy with specific CALO routines
     M.patchy GPSPEC    , patchy with specific SPECTROMETER routines
     N.patchy GPFIELD   , patchy with specific MAGNETIC FIELD routines
     O.patchy GPHYS     , patchy with specific PHYSics routines
     P.patchy GPOBSOLETE, patchy with routines declared obsolete
     Q.patchy GPGAR     , patchy with GARFIELD interface routines

   Flags used:
     INTER   , To select interactive version option.
     DEB     , To select the same option of INTER in GUKINE without the full
               interactive version options.
     HIGZ    , To select HIGZ related code.
     X11     , To select X11 version
     PP      , To select ++ version
     MAGNET  , To select magnetic field correction in spectrometer digits.

     TYPE    , Used in GEANT GCDES to explicit declare the variable type.
     SINGLE  , Used in GEANT GCDES to select single precision
     INCLUDE , Used in GEANT GCDES
     NOGFLUCT, To select Gaussian straggling calculation inside the GPUCAL
               and GPUSPE routines instead that the GFLUCT one.
     GARFIELD, To select GARFIELD interface
     MANYWIRE, LONGLIST, BIGMAP, To be used with GARFIELD

   For the use of fluka as hadronic process simulation program the file
   FLUKAAF.DAT is necessary. For this reason the CERN_ROOT environment
   variable has to be added in the file .login with the value /cern/pro.


   DATA CARDS definition and usage. If not specified you can use DATA CARDS
   options in any order.

+--------------+----------------------+---------------------------------------+
| DATA CARD    | USAGE                | ACTION                                |
+--------------+----------------------+---------------------------------------+
| MAGN         | 1 or 2 or 3          | Select magnetic field type. 1 is the  |
|              |                      | strongly inhomogeneus case,           |
|              |                      | GPFIELD.MAP is required               |
|              |                      |                                       |
| NDET         |        'TOF ' 'TRD ' | Do not simulate the selected          |
|              | 'SPE ' 'CAL ' 'CAT ' | detectors                             |
|              | 'CAS ' 'SPHE'        |                                       |
|              |                      |                                       |
| CAS          | 'NVOL' 'NPHY' 'NHBK' | Disable CAS volume simulation, as NDET|
|              |                      | or physics, i.e. SET DET or hits, or  |
|              |                      | n-tple definition.                    |
|              |                      |                                       |
| CAT          | 'NVOL' 'NPHY' 'NHBK' | Disable CAT volume simulation, as NDET|
|              |                      | or physics, i.e. SET DET or hits, or  |
|              |                      | n-tple definition.                    |
|              |                      |                                       |
| TOF          | 'NVOL' 'NPHY' 'NHBK' | Disable TOF volume simulation, as NDET|
|              |                      | or physics, i.e. SET DET or hits, or  |
|              |                      | n-tple definition.                    |
|              |                      |                                       |
| TRD          | 'NVOL' 'NPHY' 'NHBK' | Disable TRD volume simulation, as NDET|
|              |                      | or physics, i.e. SET DET or hits, or  |
|              |                      | n-tple definition.                    |
|              |                      |                                       |
| SPE          | 'NVOL' 'NPHY' 'NHBK' | Disable SPE volume simulation, as NDET|
|              |                      | or physics, i.e. SET DET or hits, or  |
|              |                      | n-tple definition.                    |
|              |                      |                                       |
| CAL          | 'NVOL' 'NPHY' 'NHBK' | Disable CAL volume simulation, as NDET|
|              |                      | or physics, i.e. SET DET or hits, or  |
|              |                      | n-tple definition.                    |
|              |                      |                                       |
| S4           | 'NVOL' 'NPHY' 'NHBK' | Disable S4  volume simulation, as NDET|
|              |                      | or physics, i.e. SET DET or hits, or  |
|              |                      | n-tple definition.                    |
| ND           | 'NVOL' 'NPHY' 'NHBK' | Disable ND  volume simulation, as NDET|
|              |                      | or physics, i.e. SET DET or hits, or  |
|              |                      | n-tple definition.                    |
|              |                      |                                       |
| HCWN         | 1                    | Enable CWN-tple                       |
|              |                      |                                       |
| HLON         | 1                    | Select CWN long format                |
|              |                      |                                       |
| NCPL         | 44 integers 1<=n<=44 | Exclude the listed calorimeter silicon|
|              | Ex.: 1 33 6 12 31=10 | plane from the simulation             |
|              |                      |                                       |
| NCSI         |  9 integers 1<=n<=9  | Exclude the listed calorimeter silicon|
|              | Ex.: 1 3=9 6 5=4     | detectors from any calorimeter plane  |
|              |                      |                                       |
|              |                      |                                       |
| NCAB         | 22 integers 1<=n<=22 | Exclude the listed calorimeter        |
|              | Ex.: 4=22 20 7 11=2  | absorber planes from the simulation   |
|              |                      |                                       |
| CALO         | 'NOWn'               | Use 'n' planes without tungsten       |
|              |                      |                                       |
| SPTM         | 'SICA' 'W   ' 'SITR' | Enable Special Tracking Parameter for |
|              | 'SITR' 'XE  ' 'SCIN' | selected tracking media               |
|              | 'TRAD' 'FE  ' 'KAP ' | To obtain the correct energy value for|
|              | 'N2G ' 'G10 ' 'AL  ' | the calorimeter, "SICA","G10C","W2  ' |
|              | 'AER ' 'ROA ' 'CE  ' | and "CE  " MUST be enabled.           |
|              | 'W2  ' 'G10C' 'CP  ' |
|              | 'MYL ' 'POL ' CAD '  |
|              |                      |                                       |
| HPAK         | 'FLUK' 'GCAL'        | To select FLUKA or GACLOR as hadronic |
|              |                      | process   simulation package.         |
|              |                      |                                       |
| AUTM         | 'TMAX' 'STMA' 'DEEM' | Force AUTO calculation for specified  |
|              | 'EPSI' 'STMI'        | parameters, regardless of AUTO data   |
|              |                      | card value                            |
|              |                      |                                       |
| TMAX         | Any real number      | Pass TMAXFD tracking parameter value  |
|              |                      |                                       |
| STMA         | Any real number      | Pass STEMAX tracking parameter value  |
|              |                      |                                       |
| DEEM         | Any real number      | Pass DEEMAX tracking parameter value  |
|              |                      |                                       |
| EPSI         | Any real number      | Pass EPSIL  tracking parameter value  |
|              |                      |                                       |
| STMI         | Any real number      | Pass STMIN  tracking parameter value  |
|              |                      |                                       |
| TPAL         | 1=TMAXFD 2=STEMAX    | Pass TMAXFD, STEMAX,DEEMAX, EPSIL and |
|              | 3=DEEMAX 4=STMIN     | STMIN for aluminum                    |
|              | 5=EPSIL              |                                       |
|              |                      |                                       |
| TG10         | 1=TMAXFD 2=STEMAX    | Pass TMAXFD, STEMAX,DEEMAX, EPSIL and |
|              | 3=DEEMAX 4=STMIN     | STMIN for G10                         |
|              | 5=EPSIL              |                                       |
|              |                      |                                       |
| T10C         | 1=TMAXFD 2=STEMAX    | Pass TMAXFD, STEMAX,DEEMAX, EPSIL and |
|              | 3=DEEMAX 4=STMIN     | STMIN for calorimeter G10C            |
|              | 5=EPSIL              |                                       |
|              |                      |                                       |
| TPN2         | 1=TMAXFD 2=STEMAX    | Pass TMAXFD, STEMAX,DEEMAX, EPSIL and |
|              | 3=DEEMAX 4=STMIN     | STMIN for nitrogen gas                |
|              | 5=EPSIL              |                                       |
|              |                      |                                       |
| TPW          | 1=TMAXFD 2=STEMAX    | Pass TMAXFD, STEMAX,DEEMAX, EPSIL and |
|              | 3=DEEMAX 4=STMIN     | STMIN for tungsten                    |
|              | 5=EPSIL              |                                       |
|              |                      |                                       |
| TPW2         | 1=TMAXFD 2=STEMAX    | Pass TMAXFD, STEMAX,DEEMAX, EPSIL and |
|              | 3=DEEMAX 4=STMIN     | STMIN for calorimeter tungsten mix    |
|              | 5=EPSIL              |                                       |
|              |                      |                                       |
| TPKA         | 1=TMAXFD 2=STEMAX    | Pass TMAXFD, STEMAX,DEEMAX, EPSIL and |
|              | 3=DEEMAX 4=STMIN     | STMIN for kapton                      |
|              | 5=EPSIL              |                                       |
|              |                      |                                       |
| TPFE         | 1=TMAXFD 2=STEMAX    | Pass TMAXFD, STEMAX,DEEMAX, EPSIL and |
|              | 3=DEEMAX 4=STMIN     | STMIN for iron                        |
|              | 5=EPSIL              |                                       |
|              |                      |                                       |
| TRAD         | 1=TMAXFD 2=STEMAX    | Pass TMAXFD, STEMAX,DEEMAX, EPSIL and |
|              | 3=DEEMAX 4=STMIN     | STMIN for TRD radiator                |
|              | 5=EPSIL              |                                       |
|              |                      |                                       |
| TPRO         | 1=TMAXFD 2=STEMAX    | Pass TMAXFD, STEMAX,DEEMAX, EPSIL and |
|              | 3=DEEMAX 4=STMIN     | STMIN for roacell                     |
|              | 5=EPSIL              |                                       |
|              |                      |                                       |
| TPCF         | 1=TMAXFD 2=STEMAX    | Pass TMAXFD, STEMAX,DEEMAX, EPSIL and |
|              | 3=DEEMAX 4=STMIN     | STMIN for carbon fibers               |
|              | 5=EPSIL              |                                       |
|              |                      |                                       |
| TPSC         | 1=TMAXFD 2=STEMAX    | Pass TMAXFD, STEMAX,DEEMAX, EPSIL and |
|              | 3=DEEMAX 4=STMIN     | STMIN for scintillator                |
|              | 5=EPSIL              |                                       |
|              |                      |                                       |
| TSCA         | 1=TMAXFD 2=STEMAX    | Pass TMAXFD, STEMAX,DEEMAX, EPSIL and |
|              | 3=DEEMAX 4=STMIN     | STMIN for silicon (calorimeter)       |
|              | 5=EPSIL              |                                       |
|              |                      |                                       |
| TSTR         | 1=TMAXFD 2=STEMAX    | Pass TMAXFD, STEMAX,DEEMAX, EPSIL and |
|              | 3=DEEMAX 4=STMIN     | STMIN for silicon (tracker)           |
|              | 5=EPSIL              |                                       |
|              |                      |                                       |
| TPXE         | 1=TMAXFD 2=STEMAX    | Pass TMAXFD, STEMAX,DEEMAX, EPSIL and |
|              | 3=DEEMAX 4=STMIN     | STMIN for Xenon                       |
|              | 5=EPSIL              |                                       |
|              |                      |                                       |
| TPAE         | 1=TMAXFD 2=STEMAX    | Pass TMAXFD, STEMAX,DEEMAX, EPSIL and |
|              | 3=DEEMAX 4=STMIN     | STMIN for aerogel                     |
|              | 5=EPSIL              |                                       |
|              |                      |                                       |
| TPCE         | 1=TMAXFD 2=STEMAX    | Pass TMAXFD, STEMAX,DEEMAX, EPSIL and |
|              | 3=DEEMAX 4=STMIN     | STMIN for kaolinite (calorimeter      |
|              | 5=EPSIL              | insulator)                            |
|              |                      |                                       |
| *HBFI        | 11 'HB$REF:GP.HIS'   | To define user LUNIT and name         |
|              |                      | HBOOK file. (Max 80 characters )      |
|              |                      |                                       |
| *GAFI        | 12 'FILENAME.GAR'    | To define user LUNIT and name         |
|              |                      | for GARFIELD file.(Max 80 characters) |
|              |                      |                                       |
| STTR         | 1=1 2=D2SICA 3=D2SITR| Force gussian straggling just for     |
|              |                      | silicon in GFLUCT. D2SICA & D2SITR are|
|              |                      | the parameter to be passed to the     |
|              |                      | gaussian generator.                   |
|              |                      |                                       |
| DZSH         | Any real number with | Height adjustment for external shell  |
|              | Sign                 |                                       |
|              |                      |                                       |
| GEN          | XGEN, YGEN, ZGEN,    | Pass the coordinates of the origin and|
|              | XDGEN, YDGEN, ZDGEN  | the dimensions of the generation      |
|              |                      | surface.                              |
|              |                      |                                       |
| PHI          | PHGEN(1), PHGEN(2)   | Define the minimum and the maximum    |
|              |                      | azimuth. Default values are:          |
|              |                      | 0., 360.                              |
|              |                      |                                       |
| THET         | THGEN(1), THGEN(2)   | Define the minimum and the maximum    |
|              |                      | zenith. Default values are:           |
|              |                      | 0., 90.                               |
|              |                      |                                       |
| PLAW         | PLAW(1), PLAW(2),    | Generates particle kinetic energies   |
|              | PLAW(3)              | distributed as a power-law y=AE^gamma |
|              |                      | where:                                |
|              |                      | PLAW(1)=spectral index (gamma)        |
|              |                      | PLAW(2)=mimimum kinetic energy        |
|              |                      | PLAW(3)=maximum kinetic energy        |
|              |                      |                                       |
|              |                      | If PLAW datacard is used, KINE(2)     |
|              |                      | parameter (particle momentum) is      |
|              |                      | overridden                            |
|              |                      |                                       |
| HFSF         | 1 or 2               | Define the random number seed policy  |
|              |                      | 1= Repeat the run, i.e. reads from    |
|              |                      |    the file specified in *FSFI        |
|              |                      |    intial seeds used in a previous run|
|              |                      | 2= Continue the random chain. Reads   |
|              |                      |    from the file specified in *FSFI   |
|              |                      |    the last seeds used in a previous  |
|              |                      |    run.                               |
|              |                      |                                       |
| *FSFI        | 14 'FILENAME.DAT'    | To define user LUNIT and name of the  |
|              |                      | file storing the initial and final    |
|              |                      | seeds to be used according to the     |
|              |                      | policy selected via the HFSF card     |
|              |                      |                                       |
| *LSFI        | 15 'FILENAME.DAT'    | To define user LUNIT and name of the  |
|              |                      | file storing the initial and final    |
|              |                      | seeds used in the actual run. This    |
|              |                      | file can be used as input using the   |
|              |                      | *FSFI card.                           |
|              |                      |                                       |
+--------------+----------------------+---------------------------------------+

NOTE: To process a large number of events in batch mode, on Linux
   system, the Geant data card TIME must be used. It is necessary to set
   ITIME < 0.  This will force no check on the CPU time left to end the
   program. For some reason it terminates the program also if no TIME
   card is used.
1	cafagna	3.1	*
2	cafagna	3.8	* $Id: README,v 3.7 2006/10/13 16:36:59 pam-ba Exp $
3	pamela	3.2	*
4			* $Log: README,v $
5	cafagna	3.8	* Revision 3.7 2006/10/13 16:36:59 pam-ba
6			* Added a new material, the cadmium, for ND
7			*
8	pam-ba	3.7	* Revision 3.6 2006/10/02 11:17:30 pam-ba
9			* NDET 'SPHE' data card meaning changed. Now it eliminates the whole PAMELA container.
10			*
11	pam-ba	3.6	* Revision 3.5 2006/04/10 11:07:43 cafagna
12			* GEN data card updated, ZDGEN added
13			*
14	cafagna	3.5	* Revision 3.4 2005/12/14 03:34:46 cafagna
15			* An update of the history and inform readme files.
16			*
17	cafagna	3.4	* Revision 3.3 2005/07/25 11:53:21 cafagna
18			* Several updates. See history for details
19			*
20	cafagna	3.3	* Revision 3.2 2002/12/05 10:17:42 pamela
21			* Update CAS and CALO geometries and positions. Makefile updated as well
22			*
23	pamela	3.2	* Revision 3.1.1.1 2002/07/11 16:01:59 cafagna
24			* First GPAMELA release on CVS
25	cafagna	3.1	*
26			*
27			* This directory was created from gpamela.car patch _inform
28			*CMZ : 2.01/00 05/04/2000 14.35.18 by Marialuigia Ambriola
29			*CMZ : 3.00/00 08/02/2002 17.33.00 by Unknown
30			*CMZ : 2.03/00 06/11/2000 01.40.19 by Francesco Cafagna
31			*CMZ : 2.02/00 12/10/2000 16.03.56 by Francesco Cafagna
32			*CMZU: 2.01/00 05/04/2000 09.51.03 by Unknown
33			*CMZ : 2.00/00 03/03/2000 15.33.44 by Francesco Cafagna
34			*CMZ : 1.02/00 25/01/2000 18.22.29 by Francesco Cafagna
35			*CMZ : 1.01/01 23/05/96 17.11.59 by Francesco Cafagna
36			*CMZ : 1.01/00 22/05/96 09.46.03 by Francesco Cafagna
37			*CMZ : 1.00/03 30/04/96 17.40.07 by Francesco Cafagna
38			*CMZ : 1.00/02 03/04/96 18.23.50 by Francesco Cafagna
39			*CMZ : 1.00/01 28/11/95 18.54.38 by Francesco Cafagna
40			*-- Author : Francesco Cafagna 28/11/95
41
42			GPAMELA: A GEANT based montecarlo of PAMELA
43
44			This CMZ file contains:
45			A.patchy $VERSION , with the version in use
46			B.patchy $HISTORY , general comments on changes and implementations
47			C.patchy $INFORM , infos on patchy and flag to be used in the program
48			D.patchy $KUMACS , collection of CMZ kumacs
49			E.patchy $MANUAL , LaTeX version of the program user guide
50			E.patchy *GPAMELA , pilot patchy with the +USE directives
51			F.patchy GPCDES , patchy with common definitions
52			G.patchy GPAMELA , main patchy with the general routines
53			H.patchy GPTOF , patchy with specific TOF routines
54			I.patchy GPTRD , patchy with specific TRD routines
55			L.patchy GPCALO , patchy with specific CALO routines
56			M.patchy GPSPEC , patchy with specific SPECTROMETER routines
57			N.patchy GPFIELD , patchy with specific MAGNETIC FIELD routines
58			O.patchy GPHYS , patchy with specific PHYSics routines
59			P.patchy GPOBSOLETE, patchy with routines declared obsolete
60			Q.patchy GPGAR , patchy with GARFIELD interface routines
61
62			Flags used:
63			INTER , To select interactive version option.
64			DEB , To select the same option of INTER in GUKINE without the full
65			interactive version options.
66			HIGZ , To select HIGZ related code.
67			X11 , To select X11 version
68			PP , To select ++ version
69			MAGNET , To select magnetic field correction in spectrometer digits.
70
71			TYPE , Used in GEANT GCDES to explicit declare the variable type.
72			SINGLE , Used in GEANT GCDES to select single precision
73			INCLUDE , Used in GEANT GCDES
74			NOGFLUCT, To select Gaussian straggling calculation inside the GPUCAL
75			and GPUSPE routines instead that the GFLUCT one.
76			GARFIELD, To select GARFIELD interface
77			MANYWIRE, LONGLIST, BIGMAP, To be used with GARFIELD
78
79			For the use of fluka as hadronic process simulation program the file
80			FLUKAAF.DAT is necessary. For this reason the CERN_ROOT environment
81			variable has to be added in the file .login with the value /cern/pro.
82
83
84			DATA CARDS definition and usage. If not specified you can use DATA CARDS
85			options in any order.
86
87			+--------------+----------------------+---------------------------------------+
88			\| DATA CARD \| USAGE \| ACTION \|
89			+--------------+----------------------+---------------------------------------+
90			\| MAGN \| 1 or 2 or 3 \| Select magnetic field type. 1 is the \|
91			\| \| \| strongly inhomogeneus case, \|
92			\| \| \| GPFIELD.MAP is required \|
93			\| \| \| \|
94			\| NDET \| 'TOF ' 'TRD ' \| Do not simulate the selected \|
95			\| \| 'SPE ' 'CAL ' 'CAT ' \| detectors \|
96			\| \| 'CAS ' 'SPHE' \| \|
97			\| \| \| \|
98			\| CAS \| 'NVOL' 'NPHY' 'NHBK' \| Disable CAS volume simulation, as NDET\|
99			\| \| \| or physics, i.e. SET DET or hits, or \|
100			\| \| \| n-tple definition. \|
101			\| \| \| \|
102			\| CAT \| 'NVOL' 'NPHY' 'NHBK' \| Disable CAT volume simulation, as NDET\|
103			\| \| \| or physics, i.e. SET DET or hits, or \|
104			\| \| \| n-tple definition. \|
105			\| \| \| \|
106			\| TOF \| 'NVOL' 'NPHY' 'NHBK' \| Disable TOF volume simulation, as NDET\|
107			\| \| \| or physics, i.e. SET DET or hits, or \|
108			\| \| \| n-tple definition. \|
109			\| \| \| \|
110			\| TRD \| 'NVOL' 'NPHY' 'NHBK' \| Disable TRD volume simulation, as NDET\|
111			\| \| \| or physics, i.e. SET DET or hits, or \|
112			\| \| \| n-tple definition. \|
113			\| \| \| \|
114			\| SPE \| 'NVOL' 'NPHY' 'NHBK' \| Disable SPE volume simulation, as NDET\|
115			\| \| \| or physics, i.e. SET DET or hits, or \|
116			\| \| \| n-tple definition. \|
117			\| \| \| \|
118			\| CAL \| 'NVOL' 'NPHY' 'NHBK' \| Disable CAL volume simulation, as NDET\|
119			\| \| \| or physics, i.e. SET DET or hits, or \|
120			\| \| \| n-tple definition. \|
121			\| \| \| \|
122			\| S4 \| 'NVOL' 'NPHY' 'NHBK' \| Disable S4 volume simulation, as NDET\|
123			\| \| \| or physics, i.e. SET DET or hits, or \|
124			\| \| \| n-tple definition. \|
125	pam-ba	3.6	\| ND \| 'NVOL' 'NPHY' 'NHBK' \| Disable ND volume simulation, as NDET\|
126			\| \| \| or physics, i.e. SET DET or hits, or \|
127			\| \| \| n-tple definition. \|
128	cafagna	3.1	\| \| \| \|
129			\| HCWN \| 1 \| Enable CWN-tple \|
130			\| \| \| \|
131			\| HLON \| 1 \| Select CWN long format \|
132			\| \| \| \|
133			\| NCPL \| 44 integers 1<=n<=44 \| Exclude the listed calorimeter silicon\|
134			\| \| Ex.: 1 33 6 12 31=10 \| plane from the simulation \|
135			\| \| \| \|
136			\| NCSI \| 9 integers 1<=n<=9 \| Exclude the listed calorimeter silicon\|
137			\| \| Ex.: 1 3=9 6 5=4 \| detectors from any calorimeter plane \|
138			\| \| \| \|
139			\| \| \| \|
140			\| NCAB \| 22 integers 1<=n<=22 \| Exclude the listed calorimeter \|
141			\| \| Ex.: 4=22 20 7 11=2 \| absorber planes from the simulation \|
142			\| \| \| \|
143			\| CALO \| 'NOWn' \| Use 'n' planes without tungsten \|
144			\| \| \| \|
145			\| SPTM \| 'SICA' 'W ' 'SITR' \| Enable Special Tracking Parameter for \|
146			\| \| 'SITR' 'XE ' 'SCIN' \| selected tracking media \|
147			\| \| 'TRAD' 'FE ' 'KAP ' \| To obtain the correct energy value for\|
148			\| \| 'N2G ' 'G10 ' 'AL ' \| the calorimeter, "SICA","G10C","W2 ' \|
149			\| \| 'AER ' 'ROA ' 'CE ' \| and "CE " MUST be enabled. \|
150	cafagna	3.8	\| \| 'W2 ' 'G10C' 'CP ' \|
151	pam-ba	3.7	\| \| 'MYL ' 'POL ' CAD ' \|
152	cafagna	3.1	\| \| \| \|
153	cafagna	3.4	\| HPAK \| 'FLUK' 'GCAL' \| To select FLUKA or GACLOR as hadronic \|
154			\| \| \| process simulation package. \|
155	cafagna	3.1	\| \| \| \|
156			\| AUTM \| 'TMAX' 'STMA' 'DEEM' \| Force AUTO calculation for specified \|
157			\| \| 'EPSI' 'STMI' \| parameters, regardless of AUTO data \|
158			\| \| \| card value \|
159			\| \| \| \|
160			\| TMAX \| Any real number \| Pass TMAXFD tracking parameter value \|
161			\| \| \| \|
162			\| STMA \| Any real number \| Pass STEMAX tracking parameter value \|
163			\| \| \| \|
164			\| DEEM \| Any real number \| Pass DEEMAX tracking parameter value \|
165			\| \| \| \|
166			\| EPSI \| Any real number \| Pass EPSIL tracking parameter value \|
167			\| \| \| \|
168			\| STMI \| Any real number \| Pass STMIN tracking parameter value \|
169			\| \| \| \|
170			\| TPAL \| 1=TMAXFD 2=STEMAX \| Pass TMAXFD, STEMAX,DEEMAX, EPSIL and \|
171	pamela	3.2	\| \| 3=DEEMAX 4=STMIN \| STMIN for aluminum \|
172			\| \| 5=EPSIL \| \|
173	cafagna	3.1	\| \| \| \|
174			\| TG10 \| 1=TMAXFD 2=STEMAX \| Pass TMAXFD, STEMAX,DEEMAX, EPSIL and \|
175	pamela	3.2	\| \| 3=DEEMAX 4=STMIN \| STMIN for G10 \|
176			\| \| 5=EPSIL \| \|
177	cafagna	3.1	\| \| \| \|
178			\| T10C \| 1=TMAXFD 2=STEMAX \| Pass TMAXFD, STEMAX,DEEMAX, EPSIL and \|
179	pamela	3.2	\| \| 3=DEEMAX 4=STMIN \| STMIN for calorimeter G10C \|
180			\| \| 5=EPSIL \| \|
181	cafagna	3.1	\| \| \| \|
182			\| TPN2 \| 1=TMAXFD 2=STEMAX \| Pass TMAXFD, STEMAX,DEEMAX, EPSIL and \|
183	pamela	3.2	\| \| 3=DEEMAX 4=STMIN \| STMIN for nitrogen gas \|
184			\| \| 5=EPSIL \| \|
185	cafagna	3.1	\| \| \| \|
186			\| TPW \| 1=TMAXFD 2=STEMAX \| Pass TMAXFD, STEMAX,DEEMAX, EPSIL and \|
187	pamela	3.2	\| \| 3=DEEMAX 4=STMIN \| STMIN for tungsten \|
188			\| \| 5=EPSIL \| \|
189	cafagna	3.1	\| \| \| \|
190			\| TPW2 \| 1=TMAXFD 2=STEMAX \| Pass TMAXFD, STEMAX,DEEMAX, EPSIL and \|
191	pamela	3.2	\| \| 3=DEEMAX 4=STMIN \| STMIN for calorimeter tungsten mix \|
192			\| \| 5=EPSIL \| \|
193	cafagna	3.1	\| \| \| \|
194			\| TPKA \| 1=TMAXFD 2=STEMAX \| Pass TMAXFD, STEMAX,DEEMAX, EPSIL and \|
195	pamela	3.2	\| \| 3=DEEMAX 4=STMIN \| STMIN for kapton \|
196			\| \| 5=EPSIL \| \|
197	cafagna	3.1	\| \| \| \|
198			\| TPFE \| 1=TMAXFD 2=STEMAX \| Pass TMAXFD, STEMAX,DEEMAX, EPSIL and \|
199	pamela	3.2	\| \| 3=DEEMAX 4=STMIN \| STMIN for iron \|
200			\| \| 5=EPSIL \| \|
201	cafagna	3.1	\| \| \| \|
202			\| TRAD \| 1=TMAXFD 2=STEMAX \| Pass TMAXFD, STEMAX,DEEMAX, EPSIL and \|
203	pamela	3.2	\| \| 3=DEEMAX 4=STMIN \| STMIN for TRD radiator \|
204			\| \| 5=EPSIL \| \|
205	cafagna	3.1	\| \| \| \|
206			\| TPRO \| 1=TMAXFD 2=STEMAX \| Pass TMAXFD, STEMAX,DEEMAX, EPSIL and \|
207	pamela	3.2	\| \| 3=DEEMAX 4=STMIN \| STMIN for roacell \|
208			\| \| 5=EPSIL \| \|
209	cafagna	3.1	\| \| \| \|
210			\| TPCF \| 1=TMAXFD 2=STEMAX \| Pass TMAXFD, STEMAX,DEEMAX, EPSIL and \|
211	pamela	3.2	\| \| 3=DEEMAX 4=STMIN \| STMIN for carbon fibers \|
212			\| \| 5=EPSIL \| \|
213	cafagna	3.1	\| \| \| \|
214			\| TPSC \| 1=TMAXFD 2=STEMAX \| Pass TMAXFD, STEMAX,DEEMAX, EPSIL and \|
215	pamela	3.2	\| \| 3=DEEMAX 4=STMIN \| STMIN for scintillator \|
216			\| \| 5=EPSIL \| \|
217	cafagna	3.1	\| \| \| \|
218			\| TSCA \| 1=TMAXFD 2=STEMAX \| Pass TMAXFD, STEMAX,DEEMAX, EPSIL and \|
219	pamela	3.2	\| \| 3=DEEMAX 4=STMIN \| STMIN for silicon (calorimeter) \|
220			\| \| 5=EPSIL \| \|
221	cafagna	3.1	\| \| \| \|
222			\| TSTR \| 1=TMAXFD 2=STEMAX \| Pass TMAXFD, STEMAX,DEEMAX, EPSIL and \|
223	pamela	3.2	\| \| 3=DEEMAX 4=STMIN \| STMIN for silicon (tracker) \|
224			\| \| 5=EPSIL \| \|
225	cafagna	3.1	\| \| \| \|
226			\| TPXE \| 1=TMAXFD 2=STEMAX \| Pass TMAXFD, STEMAX,DEEMAX, EPSIL and \|
227	pamela	3.2	\| \| 3=DEEMAX 4=STMIN \| STMIN for Xenon \|
228			\| \| 5=EPSIL \| \|
229	cafagna	3.1	\| \| \| \|
230			\| TPAE \| 1=TMAXFD 2=STEMAX \| Pass TMAXFD, STEMAX,DEEMAX, EPSIL and \|
231	pamela	3.2	\| \| 3=DEEMAX 4=STMIN \| STMIN for aerogel \|
232			\| \| 5=EPSIL \| \|
233	cafagna	3.1	\| \| \| \|
234			\| TPCE \| 1=TMAXFD 2=STEMAX \| Pass TMAXFD, STEMAX,DEEMAX, EPSIL and \|
235	pamela	3.2	\| \| 3=DEEMAX 4=STMIN \| STMIN for kaolinite (calorimeter \|
236			\| \| 5=EPSIL \| insulator) \|
237	cafagna	3.1	\| \| \| \|
238			\| *HBFI \| 11 'HB$REF:GP.HIS' \| To define user LUNIT and name \|
239			\| \| \| HBOOK file. (Max 80 characters ) \|
240			\| \| \| \|
241			\| *GAFI \| 12 'FILENAME.GAR' \| To define user LUNIT and name \|
242			\| \| \| for GARFIELD file.(Max 80 characters) \|
243			\| \| \| \|
244			\| STTR \| 1=1 2=D2SICA 3=D2SITR\| Force gussian straggling just for \|
245			\| \| \| silicon in GFLUCT. D2SICA & D2SITR are\|
246			\| \| \| the parameter to be passed to the \|
247			\| \| \| gaussian generator. \|
248			\| \| \| \|
249			\| DZSH \| Any real number with \| Height adjustment for external shell \|
250			\| \| Sign \| \|
251			\| \| \| \|
252			\| GEN \| XGEN, YGEN, ZGEN, \| Pass the coordinates of the origin and\|
253	cafagna	3.5	\| \| XDGEN, YDGEN, ZDGEN \| the dimensions of the generation \|
254	cafagna	3.1	\| \| \| surface. \|
255			\| \| \| \|
256			\| PHI \| PHGEN(1), PHGEN(2) \| Define the minimum and the maximum \|
257			\| \| \| azimuth. Default values are: \|
258			\| \| \| 0., 360. \|
259			\| \| \| \|
260			\| THET \| THGEN(1), THGEN(2) \| Define the minimum and the maximum \|
261			\| \| \| zenith. Default values are: \|
262			\| \| \| 0., 90. \|
263	cafagna	3.8	\| \| \| \|
264			\| PLAW \| PLAW(1), PLAW(2), \| Generates particle kinetic energies \|
265			\| \| PLAW(3) \| distributed as a power-law y=AE^gamma \|
266			\| \| \| where: \|
267			\| \| \| PLAW(1)=spectral index (gamma) \|
268			\| \| \| PLAW(2)=mimimum kinetic energy \|
269			\| \| \| PLAW(3)=maximum kinetic energy \|
270			\| \| \| \|
271			\| \| \| If PLAW datacard is used, KINE(2) \|
272			\| \| \| parameter (particle momentum) is \|
273			\| \| \| overridden \|
274			\| \| \| \|
275	cafagna	3.3	\| HFSF \| 1 or 2 \| Define the random number seed policy \|
276			\| \| \| 1= Repeat the run, i.e. reads from \|
277			\| \| \| the file specified in *FSFI \|
278			\| \| \| intial seeds used in a previous run\|
279			\| \| \| 2= Continue the random chain. Reads \|
280			\| \| \| from the file specified in *FSFI \|
281			\| \| \| the last seeds used in a previous \|
282			\| \| \| run. \|
283			\| \| \| \|
284			\| *FSFI \| 14 'FILENAME.DAT' \| To define user LUNIT and name of the \|
285	cafagna	3.8	\| \| \| file storing the initial and final \|
286	cafagna	3.3	\| \| \| seeds to be used according to the \|
287			\| \| \| policy selected via the HFSF card \|
288			\| \| \| \|
289			\| *LSFI \| 15 'FILENAME.DAT' \| To define user LUNIT and name of the \|
290	cafagna	3.8	\| \| \| file storing the initial and final \|
291	cafagna	3.3	\| \| \| seeds used in the actual run. This \|
292			\| \| \| file can be used as input using the \|
293			\| \| \| *FSFI card. \|
294	cafagna	3.8	\| \| \| \|
295	cafagna	3.1	+--------------+----------------------+---------------------------------------+
296
297			NOTE: To process a large number of events in batch mode, on Linux
298			system, the Geant data card TIME must be used. It is necessary to set
299			ITIME < 0. This will force no check on the CPU time left to end the
300			program. For some reason it terminates the program also if no TIME
301			card is used.