Add to ORKGWe describe the Kull IMC package, and Implicit Monte Carlo Program written for use in A and X division radiation hydro codes. The Kull IMC has been extensively tested. Written in C++ and using genericity via the template feature to allow easy integration into different codes, the Kull IMC currently runs coupled radiation hydrodynamic problems in 2 different 3D codes. A stand-alone version also exists, which has been parallelized with mesh replication. This version has been run on up to 384 processors on ASCI Blue Pacific
We describe a parallel, 3D, unstructured grid finite element, hydrodynamic diffusion code for inerti...
The Eolus ASCI project includes parallel, 3-D transport simulation for various nuclear applications....
A binary format with lists of particle state information, for interchanging particles between variou...
Milagro is a stand-alone, radiation-only, code that performs nonlinear radiative transfer cal-culati...
provides parallel, three-dimensional XYZ, one-group radiative transfer capability. It is writ-ten in...
KULL is a three dimensional, time dependent radiation hydrodynamics simulation code under developmen...
We consider two existing asynchronous parallel algorithms for Implicit Monte Carlo (IMC) thermal rad...
This program has been imported from the CPC Program Library held at Queen's University Belfast (1969...
We have released Version 2 of Milagro, an object-oriented, C++ code that performs radiative transfer...
The Implicit Monte Carlo (IMC) method has been a standard method for thermal radiative transfer for ...
The program McCad provides a CAD interface for the Monte Carlo transport code MCNP. It is able to co...
We explore the application of Monte Carlo transport methods to solving coupled radiation-hydrodynami...
This paper gives an overview of OpenMC, an open source Monte Carlo particle transport code recently ...
A code package consisting of the Monte Carlo Library MCLIB, the executing code MC{_}RUN, the web app...
This talk summarizes the main aspects of the LANL ASCI Eolus project and its major unclassified code...
We describe a parallel, 3D, unstructured grid finite element, hydrodynamic diffusion code for inerti...
The Eolus ASCI project includes parallel, 3-D transport simulation for various nuclear applications....
A binary format with lists of particle state information, for interchanging particles between variou...
Milagro is a stand-alone, radiation-only, code that performs nonlinear radiative transfer cal-culati...
provides parallel, three-dimensional XYZ, one-group radiative transfer capability. It is writ-ten in...
KULL is a three dimensional, time dependent radiation hydrodynamics simulation code under developmen...
We consider two existing asynchronous parallel algorithms for Implicit Monte Carlo (IMC) thermal rad...
This program has been imported from the CPC Program Library held at Queen's University Belfast (1969...
We have released Version 2 of Milagro, an object-oriented, C++ code that performs radiative transfer...
The Implicit Monte Carlo (IMC) method has been a standard method for thermal radiative transfer for ...
The program McCad provides a CAD interface for the Monte Carlo transport code MCNP. It is able to co...
We explore the application of Monte Carlo transport methods to solving coupled radiation-hydrodynami...
This paper gives an overview of OpenMC, an open source Monte Carlo particle transport code recently ...
A code package consisting of the Monte Carlo Library MCLIB, the executing code MC{_}RUN, the web app...
This talk summarizes the main aspects of the LANL ASCI Eolus project and its major unclassified code...
We describe a parallel, 3D, unstructured grid finite element, hydrodynamic diffusion code for inerti...
The Eolus ASCI project includes parallel, 3-D transport simulation for various nuclear applications....
A binary format with lists of particle state information, for interchanging particles between variou...