RSICC CODE PACKAGE CCC-638
1. NAME AND TITLE
TART2005: Coupled Neutron-Photon, 3-D, Combinatorial Geometry, Time Dependent, Monte Carlo Transport Code System.
Auxiliary Codes
TARTCHEK: Check TART input and Display TART Results.
TARTAID: Create TART input.
EPICSHOW: Display Atomic and Nuclear data used by TART.
PLOTTAB: General Plotting Code to Display TART output.
EDITOR: Text editor for use with TART.
UTILITY: A collection of useful codes.
Data Libraries
TARTND: Neutron interaction data
TARTPPD: Neutron induced photon production data
GAMDAT: Photon interaction data
NEWCROSS: Neutron self-shielding, multi-band parameter data
NEUTRON Neutron continuous energy cross sections
2. CONTRIBUTOR
Lawrence Livermore National Laboratory, Livermore, California.
3. CODING LANGUAGE AND COMPUTER
Fortran and C; IBM-PC (Windows or Linux), CRAY, UNIX workstations (Sun, IBM RS/6000, DEC-Alpha, etc.) and Power MAC (C00638/MNYCP/06).
4. NATURE OF PROBLEM SOLVED
TART2005 is a coupled neutron-photon Monte Carlo transport code designed to use three dimensional (3-D) combinatorial geometry. Neutron and/or photon sources as well as neutron induced photon production can be tracked. It is a complete system to assist you with input preparation, running Monte Carlo calculations, and analysis of output results. TART2005 is also incredibly FAST; if you have used similar codes, you will be amazed at how fast this code is compared to other similar codes. Use of the entire system can save you a great deal of time and energy.
TART2005 extends the general utility of the code to even more areas of application than available in previous releases by concentrating on improving the physics, particularly with regard to improved treatment of neutron fission, resonance self-shielding, molecular binding, and extending input options used by the code. Several utilities are included for creating input files and displaying TART results and data.
TART2005 uses the latest ENDF/B-VI, Release 8, data. New for TART2005 is the use of continuous energy neutron cross sections, in addition to its traditional multigroup cross sections. For neutron interaction, the data are derived using ENDF-ENDL2005 and include both continuous energy cross sections and 700 group neutron data derived using a combination of ENDF/B-VI, Release 8, and ENDL data. The 700 group structure extends from 10-5 eV up to 1 GeV. Presently nuclear data are only available up to 20 MeV, so that only 616 of the groups are currently used. For photon interaction, 701 point photon data were derived using the Livermore EPDL97 file. The new 701 point structure extends from 100 eV up to 1 GeV, and is currently used over this entire energy range.
TART2005 completely supersedes all older versions of TART, and it is strongly recommended that one use only the most recent version of TART2005 and its data files. Check authorfs homepage for related information: http://www.llnl.gov/cullen1/.
5. METHOD OF SOLUTION
Monte Carlo radiation transport of neutrons and/or photons.
6. RESTRICTIONS OR LIMITATIONS
None noted.
7. TYPICAL RUNNING TIME
TART is very fast. The TART2005 example of 68 problems required a total of 47 seconds (less than one seconds per problem) on an AMD 3500+ running Windows. For a complete list of running times on a variety of computers, see the TART documentation as well as the website,
http://www.llnl.gov/cullen1/speed.htm
8. COMPUTER HARDWARE REQUIREMENTS
TART2005 runs on IBM-PC (Windows and Linux), Cray, Unix workstations (Sun, IBM RS/6000, DEC-Alpha, etc.), and Power MAC. It is written in such standard Fortran that it should be relatively easy to implement and use on any computer.
9. COMPUTER SOFTWARE REQUIREMENTS
TART2005 is designed to run on any computer. It is presently implemented various Unix workstations, IBM-PC (Windows and Linux), Cray, and Power MAC. For use on IBM-PC and Power MAC, the entire system is distributed in executable form, so that no compiler or loader is required on these systems. Since executables are distributed for these computers, Fortran source code is not included. The ABSOFT Fortran compiler was used to create included executables for Windows, which run under 32-bit systems. The Intel 9.1 compiler was used to create executables on a 32-bit Red Hat Linux system; these executables were also tested on 64-bit Opterons running RHEL 4. On all other computers, a Fortran compiler which supports Cray-like pointers is required. In addition, on Unix workstations the graphics portion of the system requires a C compiler.
10. REFERENCES
a) distributed as electronic files:
D. E. Cullen, gTART2005 - A Coupled Neutron-Photon 3-D, Combinatorial Geometry, Time Dependent Monte Carlo Transport Code,h UCRL-SM-218009 (Nov.22, 2005).
D.E. Cullen, A.L. Edwards and E.F. Plechaty, "TART95: A Coupled Neutron-Photon Monte Carlo Transport Code," Lawrence Livermore National Laboratory, UCRL-MA-121319 (July 4, 1995) on CD in the TART2005\DOCUMENT\TART95 subdirectory.
b) references for data in this package are available on the authorfs website:
D.E. Cullen., gA Temperature Dependent ENDF/B-VI, Release 8 Cross Section Library,h UCRL-ID-127776, Rev. 2 (May 22, 2003). This document is distributed with the DLC-218/POINT2003 package.
D.E.Cullen, gPOINT 2004: A Temperature Dependent ENDF/B-VI, Release 8 Cross Section Libraryh, Lawrence Livermore National Laboratory, UCRL-TR-202284, April 2004.
11. CONTENTS OF CODE PACKAGE
The package is distributed on CD in MAC, Windows and Unix formats. The CD contains the source codes for Unix, executables for MAC and IBMPC, data files and test cases for use on a variety of computers. Installation and verification instructions for each type of computer are included.
12. DATE OF ABSTRACT
December 1995, revised May 1997, March 1998, April 1999, September 2001, September 2003, November 2005, August 2006.
KEYWORDS: COMPLEX GEOMETRY; MONTE CARLO; GAMMA-RAY; MICROCOMPUTER; WORKSTATION; CROSS SECTIONS; COUPLED; NEUTRON