Next message: Vasilis Vlachoudis: "Re: about BXDRAW or region problem"
Dear Santosa
please find attached the correct version of the input file and flair.
The problem was that your input file was containing the GLOBAL card, so
flair was not introducing one to specify that the geometry should be
name based. This can be done either with the GLOBAL or with the GEOBEGIN
setting SDUM=COMBNAME I removed the global card from your input, and
changed the COMBINAT from GEOBEGIN to COMBNAME and it works perfectly.
Just a small note. In the geometry free format with names, the OR is
defined as | (vertical bar above the \ on the keyboard).
Regards
Vasilis
santosa@batan.go.id wrote:
> Dear FLUKA users,
>
> I am learning FLUKA to simulate subcritical assembly of ADS.
> I have downloaded and installed flair then follow the
> step-by-step of n_TOF simulation, seem all are works fine.
>
> Now, I am trying EURISOL example, transferring from
> non flair input into flair, but it doesent work. Herewith
> I attach the files to get some helps from you so that
> I know exactly what I did wrong in conversion.
>
>
> Please give me some pointers.
> (Note that I can not put END before GEOEND).
>
> I am looking forward to hearing your helps.
> Thank you very much.
>
> Sincerely,
> Santosa Slamet.-
>
> ------------------------------------------------------------------------
>
> # FLUKA Project file
> Title: Eurisol Multi MW Target
> Input: eurisol.inp
> Notes:
> Eurisol Multi MW Target
> Spalasi menggunakan Proton pada target Mercury�
> LinkPrg: lfluka
> F77bound: True
> F77dline: False
> FlukaVar: FLUPRO
>
> # Run information
> Run: <default>
> Prev: 0
> Last: 5
> Status: 3
> Pid: 0
> StartRun: 1178866397
> EndRun
>
> # Geometry plot "eurisolgeom"
> Plot: eugeom
> Title: eurisolgeom
> Format: .eps
> Type: Geometry
> Keys: 1
> Ratio: 1
> TitleOpts: font 'Times,20'
> XLabelOpts: font 'Times,12'
> YLabelOpts: font 'Times,12'
> origin: 0 0 0
> coord: Z-Y
> subtype: Material
> extends: 50 50
> basisu: 0 0 1
> basisv: 0 1 0
> nu: 200
> nv: 200
> EndPlot
> ------------------------------------------------------------------------
>
> TITLE
> Eurisol Multi MW Target
> GLOBAL 1.0 1.0
> DEFAULTS NEW-DEFA
> BEAM -1.0 -2.35 -2.35 1.0PROTON
> BEAMPOS -50.0
> GEOBEGIN COMBNAME
> 0 0 Eurisol Multi MW Target
> * Black hole
> SPH a 0.0 0.0 0.0 340.0
> * Black hole
> SPH b 0.0 0.0 0.0 330.0
> * Cylindrical target
> ZCC c 0.0 0.0 2.0
> * Cylindrical target
> ZCC d 0.0 0.0 20.0
> * Plane for delimiting the Regions
> XYP e 0.0
> * Plane for delimiting the Regions
> XYP f 20.0
> * Plane for delimiting the Regions
> XYP g 80.0
> END
> * Black hole
> BLKBODY 5 +a -b
> * Black hole
> GENVACC 5 +b -d
> * Mercury Target
> TARGET 5 OR +d -c +f -e
> * Mercury Target
> TARGET 5 OR +d +g -f
> * Beam Vaccum
> BEAMVACC 5 +c +f -e
> * Front End Vaccum
> FEVACC 5 +d +e +b
> * Back End Vaccum
> BEVACC 5 +d -g +b
> END
> GEOEND
> MATERIAL 82.0 207.2 11.35 3.0 LEAD
> MATERIAL 80.0 200.59 13.546 11.0 MERCURY
> MAT-PROP 800.0 MERCURY
> STERNHEI 5.9605 0.2756 3.7275 0.11014 3.0519 0.14MERCURY
> MAT-PROP 823.0 LEAD
> STERNHEI 6.2018 0.3776 3.8073 0.09359 3.1608 0.14LEAD
> * ..+....1....+....2....+....3....+....4....+....5....+....6....+....7..
> ASSIGNMA BLCKHOLE BLKBODY BLKBODY
> ASSIGNMA VACUUM GENVACC GENVACC
> ASSIGNMA MERCURY TARGET TARGET
> ASSIGNMA VACUUM TARGET FEVACC 1.0
> RESNUCLE 3.0 -50.0 TARGET 100279.63TarResNuc
> USRBIN 11.0 NEUTRON -41.0 100.0 110.0Neutrons
> USRBIN -50.0 200.0 320.0&
> USRTRACK 1.0 NEUTRON 71.0 TARGET 100279.63 120.0Tar-N-Flux
> USRTRACK 1.0 1D-09 &
> USRBDX 99.0 NEUTRON -21.0 TARGET FEVACC 10053.096Rad-N-Flux
> USRBDX 1.0 1D-09 120.0 &
> RANDOMIZ 1.0
> START
> STOP
> ------------------------------------------------------------------------
>
> TITLE
> EURISOL Multi-MW TARGET
> DEFAULTS PRECISIO
> *23456789 123456789 123456789 123456789 123456789 123456789 123456789 123456789
> BEAM -1.0000 0.0 0.0 -2.35000 -2.35000 1.000 PROTON
> BEAMPOS 0.0 0.0 -50.0 0.0 0.0
> EMF
> *PHOTONUC 1.0 3.0 50.0
> *GLOBAL 100.0 0.0 0.0 0.0 1.0
> GEOBEGIN COMBINAT
> MERCURY TARGET AND FISSILE ENVELOPE FOR HEAVY ION PRODUTION
> **AAA*IIII---------+---------+---------+---------+---------+---------+
> * Black hole
> SPH 1 0.0 0.0 0.0 340.
> SPH 2 0.0 0.0 0.0 330.
> * Target Cylinders
> ZCC 3 0.0 0.0 2.
> ZCC 4 0.0 0.0 20.00
> *
> * Planes for delimiting the Regions
> XYP 5 0.0
> XYP 6 20.0
> XYP 7 80.0
> END
> * REGIONS
> * Black Hole & General Vacuum
> 001 0 +1 -2
> 002 1 +2 -4
> * Mercury Target
> 003 OR +4 -3 +6 -5
> OR +4 +7 -6
> * Beam Vacuum
> 004 5 +3 +6 -5
> * Front-End Vacuum
> 005 5 +4 +5 +2
> * Back-End Vac
> 006 5 +4 -7 +2
> END
> GEOEND
> *GEOEND 50.0 400.0 300.0 - 50.0 -400.0 -300.0 DEBUG
> *GEOEND 50.0 300.0 300.0 &
> *STOP
> * Materials cards
> *...+....1....+....2....+....3....+....4....+....5....+....6....+....7..
> MATERIAL 82.000 207.138 11.340 3.000 .000 .000 LEAD
> MATERIAL 83.000 208.9804 9.780 4.000 .000 .000 BISMUTH
> MATERIAL 6.000 12.006 2.250 5.000 .000 .000 CARBON
> MATERIAL 13.000 26.971 2.700 6.000 .000 .000 ALUMINUM
> MATERIAL 92.000 235.0439 1.000 7.000 .000 235.000 235-U
> MATERIAL 92.000 238.0508 1.000 8.000 .000 238.000 238-U
> MATERIAL 92.000 234.0410 1.000 9.000 .000 234.000 234-U
> MATERIAL 26.000 55.826 7.874 10.000 .000 .000 IRON
> MATERIAL 80.000 200.592 13.550 11.000 .000 .000 MERCURY
> MATERIAL 73.000 180.9479 16.650 12.000 .000 .000 TANTALUM
> *
> * COMPOUND MATERIALS
> *
> MATERIAL .000 .000 19.050 13.000 .000 .000 Nat-Uran
> COMPOUND .992742 8.00000 .007204 7.00000 .000054 9.00000 Nat-Uran
> *
> MATERIAL .000 .000 10.500 14.000 .000 .000 PbBi
> COMPOUND 0.550 4.0000 0.4500 3.00000 .0000 0.00000 PbBi
> *
> * Assign materials cards
> *...+....1....+....2....+....3....+....4....+....5....+....6....+....7..
> ASSIGNMAT 1.000 1.000 1.000 .000 .000 .000
> ASSIGNMAT 2.000 2.000 2.000 .000 .000 .000
> ASSIGNMAT 11.000 3.000 3.000 .000 .000 .000
> ASSIGNMAT 2.000 4.000 6.000 1.000 .000 .000
> *
> * Biasing cards
> *...+....1....+....2....+....3....+....4....+....5....+....6....+....7..
> BIASING -1.0 1.0 NOPRIMAR
> BIASING 0.0 1.0 1.0 2.0 6.0 1.0
> *
> * Here we define the low energy neutron transport
> *23456789 123456789 123456789 123456789 123456789 123456789 123456789 123456789
> LOW-NEUT 72.00 22.00 .1960E-01 1.0 1.0
> LOW-BIAS 0.000 73.00 .9500 1.000 1000.0
> *
> * Here we define the particle thresholds. Note that the neutron threshold HAS to be
> * 19.6 MeV because this is the energy at which the low energy transport is activated.
> * The real threshold for the neutron is defined by the group number which is the
> * first argument of the LOW-BIAS card. Group 1 means the most energetic one, i.e.
> * low energy neutrons are never transported!
> *
> *23456789 123456789 123456789 123456789 123456789 123456789 123456789 123456789
> PART-THR -1.000E-05 1.000 39.00
> PART-THR -.1960E-01 8.000
> * Use new nuclear model (should be the default)
> EVENTYPE EVAP
> *
> * RESIDUAL NUCLEI
> *
> RESNUCLE 3.0 -50.0 3.0 100279.63 TarResNuc
> *
> *23456789 123456789 123456789 123456789 123456789 123456789 123456789 123456789
> *
> USRBIN 11.00 8.0 -41.00 100.0 110.0 Neutrons
> USRBIN -50.00 200.0 320.0 &
> *
> USRBIN 11.00 210.0 -42.00 100.0 110.0 Primary
> USRBIN -50.00 200.0 320.0 &
> *
> USRBIN 11.00 208.0 -43.00 100.0 110.0 Edeposit
> USRBIN -50.00 200.0 320.0 &
> *
> USRBIN 1.00 222.0 -44.00 100.0 110.0 NeutBal
> USRBIN -50.00 200.0 320.0 &
> *
> USRBIN 11.00 1.0 -45.00 100.0 110.0 Protons
> USRBIN -50.00 200.0 320.0 &
> *
> USRBIN 11.00 7.0 -46.00 100.0 110.0 Photons
> USRBIN -50.00 200.0 320.0 &
> *
> USRBIN 1.00 219.0 -47.00 100.0 110.0 FissDens
> USRBIN -50.00 200.0 320.0 &
> *
> USRBIN 1.00 220.0 -48.00 100.0 110.0 HE-FissD
> USRBIN -50.00 200.0 320.0 &
> *
> USRBIN 1.00 221.0 -49.00 100.0 110.0 LE-FissD
> USRBIN -50.00 200.0 320.0 &
> *
> **23456789 123456789 123456789 123456789 123456789 123456789 123456789 123456789
> *
> * USRBDX: Boundary Crossings; Radial Neutron flux
> USRBDX 99.0 8.0 -21.000 3.0 6.0 10053.096 Rad-N-Flux
> USRBDX 1.0000 1.E-9 120.0 &
> *
> * End Cap Particle Flux
> USRBDX 99.0 8.0 -22.000 3.0 5.0 1256.6370 EC-N-Flux
> USRBDX 1.0000 1.E-9 120.0 &
> *
> * USRTRACK: Fluence Estimators; Neutron flux
> USRTRACK -1.0 8.0 -71.0 3.0 100279.63 120.0 Tar-N-Flux
> USRTRACK 1.0000 1.E-9 &
> *
> * Score energy and nuclear stars, do not touch this line !
> SCORE 208. 210. 201.
> * Use initial random number in random.dat file
> RANDOMIZ 1.000
> * The first number is the number of events to be processed
> *23456789 123456789 123456789 123456789 123456789 123456789 123456789 123456789
> START 1.000E+03 1.0000E+9 1.000E+07
> * End the run
> STOP