From: Jason Crawford (jaycrawf@triumf.ca)
Date: Tue Aug 07 2007 - 19:15:24 CEST
Hello,
I am a Canadian Student working at TRIUMF. I am a new FLUKA/FLAIR user,
and after much trouble shooting and repetition, have had some trouble
getting started. There is no one capable of helping me learn the initial
steps here at TRIUMF. I have been working through the FLAIR "Quick
Start" example available from the FLUKA home page. I believe my input to
match that of the example, and the FLUKA run finishes "OK". When I
process my five cycles for usrbin "tutorial00?_fort.50" files, FLAIR
generates the one file tutorial_usrbin_50, which I assume to be correct,
although I did expect a "sum.lis" and a "tab.lis" file. When I attempt
to plot my results for deposited energy (usrbin), I notice that my
"usrbin plot" window (where I input the details for plotting) appears
different than the example, notably it doesn't have a CPD entry. When I
press "PLOT", I get a gnuplot error which state: "Can't read data file
'enedep.dat'." I fear that the fluka run did not produce the desired
results in the first place. Despite not yet having a successful FLUKA
run, I feel I could adequately perform these calculations if I had just
the slightest guidance. I have attached my input file
Thank you
Jay
TITLE
n_TOF lead target
GLOBAL 1.0 1.0
DEFAULTS NEW-DEFA
BEAM -20.0 -0.082425 -1.7 1.0PROTON
BEAMPOS 2.2632 -0.5 -10.0 -0.17365 0.0
GEOBEGIN COMBNAME
0 0
* Black body
SPH blkbody 0.0 0.0 0.0 10000000.0
* Void sphere
SPH void 0.0 0.0 0.0 1000000.0
* Water Container
RPP watercnt -43.0 43.0 -53.6 53.6 -32.5 35.0
* Lead Target
RPP pbtarget -40.0 40.0 -40.0 40.0 -30.0 30.0
RPP niche -15.0 15.0 -40.1 15.0 -30.1 -10.0
END
* Black hole
BLKBODY 5 +blkbody -void
* Void around
VOID 5 +void -watercnt
* Water Container
WATERCNT 5 +watercnt -( +pbtarget -niche )
* Lead Target
TARGET 5 +pbtarget -niche
END
GEOEND
* 276 Water liquid H2_O
* Chemical Formula: H -- O -- H
MATERIAL 1.0 WATER
COMPOUND 2.0 HYDROGEN 1.0 OXYGEN WATER
LOW-MAT LEAD 82.0 -4.0 293.0 LEAD
MAT-PROP 75.0 WATER
STERNHEI 3.5017 0.24 2.8004 0.09116 3.4773 WATER
ASSIGNMA BLCKHOLE BLKBODY
ASSIGNMA VACUUM VOID
ASSIGNMA WATER WATERCNT
ASSIGNMA LEAD TARGET
USRBIN ENERGY -50.0 45.0 54.0 36.0enedep
USRBIN -45.0 -54.0 -33.0 100.0 100.0 100.0&
USRCOLL -1.0 PROTON -51.0 TARGET 1.0 100.0Proton
USRCOLL 20.0 0.001 &
USRCOLL -1.0 NEUTRON -51.0 TARGET 1.0 100.0Neutron
USRCOLL 20.0 1D-09 &
RESNUCLE 3.0 -52.0 TARGET 1.0Target
RANDOMIZ 1.0
START 100.0 0.0
STOP
# FLUKA Project file
Title: n_TOF lead target
Input: tutorial.inp
Notes:
n_TOF lead target simulation example
Debug: "Target Area" -45 -55 -40 45 55 40 51 51 51
LinkPrg: lfluka
F77bound: True
F77dline: False
FlukaVar: FLUPRO
# Run information
Run: <default>
Prev: 0
Last: 3
Status: 3
Pid: 0
StartRun: 1186488504
# USRxxx data file
Data: tutorial_usrcoll_0
Unit: 0
Type: c
Rule: +,^tutorial\d\d\d_fort.0$
Rule: +,^tutorial\d\d\d_ftn.0$
EndData
# USRxxx data file
Data: tutorial_usrbin_50
Unit: 50
Type: b
Rule: +,^tutorial\d\d\d_fort.50$
Rule: +,^tutorial\d\d\d_ftn.50$
Rule: -,tutorial003_fort.50
Rule: -,tutorial004_fort.50
Rule: -,tutorial005_fort.50
Rule: -,tutorial002_fort.50
Rule: +,tutorial002_fort.50
Rule: +,tutorial003_fort.50
Rule: +,tutorial004_fort.50
Rule: +,tutorial005_fort.50
Rule: -,tutorial004_fort.50
Rule: -,tutorial005_fort.50
EndData
# USRxxx data file
Data: tutorial_usrcoll_51
Unit: 51
Type: b
Rule: +,^tutorial\d\d\d_fort.51$
Rule: +,^tutorial\d\d\d_ftn.51$
Rule: -,tutorial005_fort.51
Rule: -,tutorial004_fort.51
EndData
# USRxxx data file
Data: tutorial_resnuclei_52
Unit: 52
Type: r
Rule: +,^tutorial\d\d\d_fort.52$
Rule: +,^tutorial\d\d\d_ftn.52$
Rule: -,tutorial003_fort.52
Rule: +,tutorial003_fort.52
Rule: -,tutorial005_fort.52
Rule: -,tutorial004_fort.52
EndData
EndRun
# Geometry plot "n_TOF Target Geometry"
Plot: geometry
Title: n_TOF Target Geometry
Format: .eps
Type: Geometry
Keys: 1
AutoAspect: 1
TitleOpts: font 'Times,20'
XLabel: Z (cm)
YLabel: Y (cm)
XLabelOpts: font 'Times,12'
YLabelOpts: font 'Times,12'
origin: 0 0 0
vectscale: 0.1
coord: Z-Y
boundaries: 0
subtype: Material
extends: 50 50
basisu: 0 0 1
basisv: 0 1 0
nu: 200
nv: 200
EndPlot
# USRBIN plot "Deposited Energy"
Plot: enedep
Title: Deposited Energy
Format: .eps
Type: USRBIN
Grid: 1
Keys: 1
AutoAspect: 1
XLabel: X (cm)
YLabel: Y (cm)
CBLabel: Energy density
XLabelOpts: font 'Helvetica,14'
YLabelOpts: font 'Helvetica,14'
CBLabelOpts: font 'Helvetica,14'
origin: 0 0 0
geopos: -15
vectscale: 0.1
basisu: 1 0 0
basisv: 0 1 0
cbcolors: 30
axes: Auto
boundaries: 0
extends: 100 100
swap: 0
nu: 200
norm: 7e12*1.6e-10*x
proj: Z
cbmin: 1e-9
geo: -Auto-
datafile: tutorial_usrbin_50
det: 1
cbpalette: FLUKA
coord: X-Y
subtype: Geometry
cbmax: 100
nv: 200
EndPlot
# RESNUCLE plot "Residual Nuclei"
Plot: resnuc
Title: Residual Nuclei
Format: .eps
Type: RESNUCLE
Keys: 1
AutoAspect: 1
EndPlot
# USR-1D plot "Particle Fluence"
Plot: fluence
Title: Particle Fluence
Format: .eps
Type: USR-1D
Keys: 1
AutoAspect: 1
EndPlot
This archive was generated by hypermail 2.1.6 : Wed Aug 08 2007 - 18:22:53 CEST