CCC-0730: MCNP/MCNPX, Monte Carlo Particle Transport Code System Including MCNP5 1.40, MCNPX 2.5.0, VISED19L and Data Libraries

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CCC-0730 MCNP/MCNPX. (Abstract last modified 08-MAR-2007)

MCNP/MCNPX, Monte Carlo Particle Transport Code System Including MCNP5 1.40, MCNPX 2.5.0, VISED19L and Data Libraries

Abstract Table of Contents:

1. NAME OR DESIGNATION - MCNP/MCNPX. This package contains MCNP5 1.4.0, MCNPX 2.5.0, MCNPDATA, and VISED 19L.

2. COMPUTER FOR WHICH PROGRAM IS DESIGNED AND OTHER MACHINE VERSION PACKAGES AVAILABLE -

To request or retrieve programs click on the one of the active versions below. A password and special authorization is required.

Explanation of the status codes.

Program-name Package-ID Status MCNP/MCNPX CCC-0730/01 Arrived

Machines used: Package-ID Orig.Computer Test Computer CCC-0730/01 POWER MAC,Linux-based PC,PC Windows,UNIX gen. W.S.

4. METHODS -

MCNP5 1.40
==========
The MCNP5 code treats an arbitrary three-dimensional configuration of materials in geometric cells bounded by first- and second-degree surfaces and fourth-degree elliptical tori. Pointwise cross-section data are used. For neutrons, all reactions given in a particular cross-section evaluation (such as ENDF/B-VI) are accounted for. Thermal neutrons are described by both the free gas and S(alpha, beta) models. For photons, the code accounts for incoherent and coherent scattering, the possibility of fluorescent emission after photoelectric absorption, and absorption in electron-positron pair production. Electron/positron transport processes account for angular deflection through multiple Coulomb scattering, collisional energy loss with optional straggling, and the production of secondary particles including K x-rays, knock-on and Auger electrons, bremsstrahlung, and annihilation gamma rays from positron annihilation at rest. Electron transport does not include the effects of external or self-induced electromagnetic fields. Photonuclear physics is available for a limited number of isotopes. Important standard features that make MCNP very versatile and easy to use include a powerful general source, criticality source, and surface source; both geometry and output tally plotters; a rich collection of variance reduction techniques; a flexible tally structure; and an extensive collection of cross-section data. Energy ranges are from 10e-11 to 20 MeV for neutrons with data up to 150 MeV for some nuclides, 1 keV to 1 GeV for electrons, and 1 keV to 100 GeV for photons.

MCNPX 2.5.0
===========
MCNPX treats an arbitrary three-dimensional configuration of materials in geometric cells bounded by first- and second-degree surfaces and some special fourth-degree surfaces. Pointwise continuous-energy cross section data are used, although multigroup data may also be used. Fixed-source adjoint calculations may be made with the multigroup data option. For neutrons, all reactions in a particular cross-section evaluation are accounted for. Both free gas and S(alpha, beta) thermal treatments are used. Criticality sources as well as fixed and surface sources are available. For photons, the code takes account of incoherent and coherent scattering with and without electron binding effects, the possibility of fluorescent emission following photoelectric absorption, and absorption in pair production with local emission of annihilation radiation. A very general source and tally structure is available. The tallies have extensive statistical analysis of convergence. Rapid convergence is enabled by a wide variety of variance reduction methods. Energy ranges are 0-60 MeV for neutrons (data generally only available up to 20 MeV) and 1 keV - 1 GeV for photons and electrons.

MCNPDATA
========
The continuous energy libraries were generated by using the NJOY (Data Processing System of Evaluated Nuclear Data Files ENDF Format) ACER module.

5. RESTRICTIONS ON THE COMPLEXITY OF THE PROBLEM -
MCNP5 1.4.0: None noted.

MCNPX 2.5.0
===========
All standard MCNP neutron libraries over their stated ranges.
Neutrons in the LA150 library from 0.0 - 150.0 MeV in tabular range for 42 isotopes
(except for 9Be to 100 MeV).
Neutrons from 1.0 MeV in physics model regime.
Protons from 1.0 to 150.0 MeV in tabular range for 41 isotopes.
Protons from 1.0 MeV in physics model regime.
Pions, muons, and kaons are treated only by physics models.
Photons from 1 keV - 100 GeV.
Electrons from 1 keV - 1 GeV.
Neutrons do not create delayed photons.
Photonuclear interactions from 1.0 to 150.0 MeV in tabular range for 12 isotopes.
Photonuclear interactions from 1.0 MeV in the CEM physics model.

6. TYPICAL RUNNING TIME -
MCNP5 1.4.0: On a 2 GHz Pentium 4, compilation of MCNP5 takes about 3 minutes, and the 42 test cases run in about 2 minutes.

MCNPX 2.5.0: Runtime for the test cases was 17 minutes for the test cases on a Dell PowerEdge6400 running Linux, 37 minutes on an IBM RS/6000 Model 270, and 43 minutes on a HP B1000 (PA 8500).

7. UNUSUAL FEATURES -

9. STATUS
CCC-0730/01: 08-MAR-2007 Masterfiled Arrived

10. REFERENCES -
MCNPX 2.5.0
===========
Background references:
- L. S. Waters, Ed.: MCNPX User's Manual, Version 2.4.0, LA-CP-02-408 (Sept. 2002).
- L. S. Waters, Ed.: MCNPX User's Manual, Version 2.3.0, LA-UR-02-2607 (April
2002).
- J. F. Briesmeister, Ed.: MCNP - A General Monte Carlo N-Particle Transport Code, Version 4C, LA-13709-M (April 2000).
- M. B. Chadwick, P. G. Young, S. Chiba, S. C. Frankle, G. M. Hale, H. G. Hughes, A. J. Koning, R. C. Little, R. E. MacFarlane, R. E. Prael, and L. S. Waters: Cross Section Evaluations to 150 MeV for Accelerator-Driven Systems and Implementation in MCNPX, (Nuclear Science and Engineering 131, Number 3 (March 1999) 293).
- M. B. Chadwick, P. G. Young, R. E. MacFarlane, P. Moller, G. M. Hale, R. C. Little, A. J. Koning and S. Chiba: LA150 Documentation of Cross Sections, Heating, and Damage: Part A (Incident Neutrons) and Part B (Incident Protons), LA-UR-99-1222 (1999).
- S. G. Mashnik, A. J. Sierk, O. Bersillon, and T. A. Gabriel: Cascade-Exciton Model Detailed Analysis of Proton Spallation at Energies from 10 MeV to 5 GeV, (Nucl. Instr. Meth. A414 (1998) 68) (Los Alamos National Laboratory Report LA-UR-97-2905).
- R. E. Prael and H.Lichtenstein: User Guide to LCS: The LAHET Code System, LA-UR-89-3014, Revised (September 15, 1989).
CCC-0730/01:
MCNP5 1.4.0
===========
a. Included documentation in electronic format on the CD:
- X-5 Monte Carlo Team, README.txt, Install_readme.txt &
MCNP5_Install_Guide.pdf, 'Installing and Running MCNP on Various Systems,' Ap.
C of LA-CP-03-0284 (April 24, 2003 Revised Oct. 3, 2005).
- MCNP Team, 'MCNP 5.1.40 RSICC Release Notes,' LA-UR-05-8617 (Nov. 10, 2005).
b. Included in electronic format; expand to MCNP5/Manual or Documents
subdirectories:
- X-5 Monte Carlo Team, 'MCNP¿A General Monte Carlo N-Particle Transport Code,
Version 5 - Vol. I: Overview and Theory,' LA-UR-03-1987 [file
MCNP5_manual_VOL_I.pdf] (April 2003 revised Revised Oct. 3, 2005).
- X-5 Monte Carlo Team, 'MCNP-A General Monte Carlo N-Particle Transport Code,
Version 5 - Volume II: Users Guide,' LA-CP-03-0245 [file
MCNP5_manual_VOL_II.pdf] (April 2003 revised Revised Oct. 3, 2005).
- X-5 Monte Carlo Team, 'MCNP-A General Monte Carlo N-Particle Transport Code,
Version 5 - Volume III: Developers Guide,' LA-CP-03-0284 [file
MCNP5_manual_VOL_III.pdf] (April 2003 revised Revised Oct. 3, 2005).
- J.T. Goorley, F.B. Brown, L. J. Cox, 'MCNP5 Improvements for Windows PCs,'
LA-UR-02-7162 [file MCNP5PCs.pdf in the Windows distribution only] (April 2003).
- L.L. Carter and R.A. Schwarz, 'MCNP Visual Editor Computer Code Manual for
Vised Version 19K,' [file vised_manual.pdf] (November 2005).
- Editor Tim Goorley, 'Criticality Calculations with MCNP5: A Primer, 2nd
Edition,' LA-04-0294 (2004).
- R. D. Mosteller, 'Bibliography of MCNP Verification and Validation:
1990-2003,' LAUR-03-9032.
- Tim Goorley, 'MCNP5 Tally Enhancements for Lattices,' LA-UR-04-3400 (May
2004).
MCNPX 2.5.0
===========
- D. B. Pelowitz, ed., 'MCNPX User's Manual, Version 2.5.0,' LA-CP-05-0369
(April
2005).
- J. S. Hendricks et al., 'MCNPX Extensions, Version 2.5.0,' LA-UR-05-2675
(April
2005).

11. HARDWARE REQUIREMENTS -
MCNP is operable on workstations or PC's running Windows or Linux, Unix workstations (Sun, IBM, and Alpha), Macintosh computers with MacOSX, and Itanium computers. Expanding and compiling the code system requires 270 MB, and the ASCII cross sections require 2.6 GB of hard disk space.

MCNPX runs under Unix, Linux, OS X, and Windows operating systems and has been implemented on various 32-bit and 64-bit workstations and personal computers. The compiled version of the code tends to run approx. 8 Mbytes. Dynamic allocation makes memory demands variable on all platforms.

MCNPDATA: At least 3.5 Gigabytes of free hard drive space is needed to uncompress and install the entire library.

12. PROGRAMMING LANGUAGE -CCC-0730/01: C-LANGUAGE FORTRAN-90

13. SOFTWARE REQUIREMENTS -
MCNP5 1.4.0
===========
MCNP 5 1.40 has improved support for newer Fortran 90 compilers. The compilers
supported are listed below. The c compilers listed are those used in making the executables for
distribution.
- Fortran 90 compilers supported for Linux: Absoft 9.0 (seq, mpi) ; Intel 9.0 (seq, mpi) ; Lahey 6.2c (seq, mpi, omp) Pathscale 2.1 (64-b Opteron) (seq, mpi) ; Portland Group 6.0 (seq, mpi, omp)
- C compilers used for Linux executable: Intel compiler executable: gcc version 3.2.3 20030502 (Red Hat Linux 3.2.3-53); Opteron executable: gcc version 3.4.4 20050721 (Red Hat 3.4.4-2) iii
- Fortran 90 compilers supported for Mac OSX: Absoft Pro 9.0 (seq, mpi) ; IBM XL 8.1 (seq, mpi)
- C compilers used for Mac OSX executable: gcc 3.3
- Fortran 90 compilers supported for Windows 2000/XP: Absoft 9.0 (seq) ; Compaq 6.6b (seq, mpi) ; Intel 9.0 (seq,mpi) ; Lahey 7.1 (seq) -MPI Parallel versions can be built using cygwin: For PCs, parallel versions of MCNP5 can be built from the cygwin command line with the Intel and Compaq fortran compilers. Add 'mpi' to the config options or use the install script.
- C compilers used for Windows 2000/XP executable:
gcc compiler on cygwin, version 3.4.4; Microsoft Visual Studio .NET 2003 C/C++ compiler (with Compaq and Intel Fortran compilers)

Filenames of the distributed executables reflect the compilers used to create them:
mcnp5_rsicc_1.40_linux_intel.exe
mcnp5_rsicc_1.40_linux_pathscale32bit_omp.exe
mcnp5_rsicc_1.40_linux_pathscale64bit_omp.exe
mcnp5_rsicc_1.40_osf_cpq.exe [runs on HP/Compaq Alpha OSF1]
mcnp5_rsicc_1.40_osx_xlf.exe [runs on Mac OSX]
mcnp5_rsicc_1.40_sun_sun.exe [runs under Solaris 9]
MCNP5_rsicc_1.40_Windows_CVF_mpi.exe [Windows XP with MPI]
mcnp5_rsicc_1.40_Windows_Intel.exe [Windows XP]

Compilation of the MCNP5 source code in the C00730MNYCP00 distribution requires both Fortran 90 and ANSI C standard compilers. Dynamic storage allocation is available on all supported systems. MCNP5 has also run on SGI IRIX64 and IBM AIX. Additional information may be posted to the MCNP Forum archives in the electronic notebook on the RSICC website.

MPI, OpenMP or PVM based parallelism has been tested on some systems, using the vendor-supplied MPI, MPICH (on Linux and Windows), or PVM 3.4.3. It should be noted that while the developers still support PVM, using MPI is highly recommended. Applications on the LANL parallel computers use MPI, and that is the basis for nearly all parallel development and testing for MCNP5; PVM is tested only sporadically.

For compiling MCNP5 on Windows PCs, the Cygwin environment must first be installed. The Cygwin environment is a collection of GNU-based Unix utilities which have been ported to the Windows environment. The Cygwin environment may be obtained at no cost from the web site http://www.cygwin.com.

For plotting geometry, cross-sections, or results, X11 must be installed on your PC. An X-windows server is required to display the X11 graphics. Suggested servers include ReflectionX, Exceed, and XFree86.
MCNPX 2.5.0
===========
C and Fortran 90 compilers are required to compile. The GNU make utility is required to build the system on Unix and Linux platforms. The GNU make.exe utility is included for vii Windows users. The only graphics support for this release is X11 http://www.x.org/. This is a Fortran 90 version of MCNPX which uses standard F90 allocation schemes for dynamic variables on all platforms. The LANL developers ran MCNPX 2.5.0 on the systems listed below. Their executables are included in the distribution. Installation may fail with different compilers.

Sun-Solaris (5.8 & 5.9) with WorkShop Pro F95 6.2
HP-HPUX (10.20) with HP F90 2.4.10
IBM-AIX (4.3) with XL Fortran 7.1
Intel-Linux RedHat Enterprise (3.2) with Portland Group 5.2
Intel-Linux RedHat Enterprise (3.2) with Intel Fortran 8.0
Intel-Linux RedHat (7.2) with Portland Group 3.3
Intel-Windows XP with Intel Fortran 8.1 and MS VC++ 7.1
Intel-Windows XP with Compaq Visual Studio 6.6 and MS VC++ 7.1

The developers also tested MCNPX on Mac-OS X (Darwin 7.8) with XL Fortran 8.1, but this executable is not included in the package. RSICC tested this release on the following systems:

AIX 4.3.3 (IBM 43P-260) with XL C/C++ 4.4; XL Fortran 6.1.
Dell PowerEdge6400 running RedHat Linux 7.0 with PGF90 4.0-2 & gcc.
Intel Pentium running RedHat Linux 6.1 with PGF90 3.3-2 and pgcc.
Sun UltraSparc 60 under SunOS5.6 with F90 2.0 and C++ 5.0.
Pentium 4 running Windows2000 SP4 with CVF 6.6B

14. OTHER PROGRAMMING OR OPERATING INFORMATION OR RESTRICTIONS - WinZIP 8.0 is required to expand the GNU compressed Unix tar files under Windows.

Parallel Processing
- Distributed memory multiprocessing for all particles and energies,
- Message passing interface (MPI) multiprocessing,
- Significant speedup of criticality problems run with MPI.

Compiling, Configuration, and Installation
- FORTRAN90 modularity and dynamic memory allocation,
- 64-bit integer support,
- NAG/IBM/INTEL compiler extensions for Unix, Linux, and Windows.

15. NAME AND ESTABLISHMENT OF AUTHORS -
Contributed by:
                Radiation Safety Information Computational Center
                Oak Ridge National Laboratory
                Oak Ridge, Tennessee, U. S. A.
Developed by:   Los Alamos National Laboratory,
                Los Alamos, New Mexico, U.S.A.

16. MATERIAL AVAILABLE -CCC-0730/01:
MCNP5 1.4.0 Unix/Linux and Windows Executables, source codes, makefiles, build
scripts, test problems (including several Medical Physics Sample Problems)
Data libraries in Windows and UNIX formats
Visual Editor material
Electronic documentation

17. CATEGORIES  -

- C.  Static Design Studies
- J.  Gamma Heating and Shield Design

Keywords: CHARGED PARTICLES, COMPLEX GEOMETRY, COUPLED NEUTRON GAMMA CROSS SECTIONS, CRITICALITY, ELECTRONS, GAMMA RAY, HIGH ENERGY, MONTE CARLO METHOD, NEUTRON, PROTONS, SHIELDING, VARIANCE REDUCTION