Scalable parallel algorithm for particle transport is one of the main application fields in high-performance computing. Discrete ordinate method (Sn) is one of the most popular deterministic numerical methods for solving particle transport equations. In this paper, we introduce a new method of large-scale heterogeneous computing of one energy group time-independent deterministic discrete ordinates neutron transport in 3D Cartesian geometry (Sweep3D) on Tianhe-2A supercomputer. In heterogeneous programming, we use customized Basic Communication Library (BCL) and Accelerated Computing Library (ACL) to control and communicate between CPU and the Matrix2000 accelerator. We use OpenMP instructions to exploit the parallelism of threads based on M...
The past few years have been marked by a noticeable increase in the interest in 3D whole-core hetero...
The computing power available nowadays to the average Monte-Carlo-code user is sufficient to perform...
The Boltzmann Transport Equation is solved on unstructured meshes using the Discrete Ordinates Metho...
Thesis: S.M., Massachusetts Institute of Technology, Department of Nuclear Science and Engineering, ...
International audienceHigh-fidelity nuclear power plant core simulations require solving the Boltzma...
We present performance results obtained on a 128-node Cray Research T3D computer by a neutron transp...
The main goal of this work is to examine efficient methods for solving neutron transport and diffusi...
This final report discusses major accomplishments of a 3-year project under the DOE's NEER Program. ...
This paper describes the design and the performance of DOMINO, a 3D Cartesian SN solver that impleme...
The spatial heterogeneity of the next generation Gen-IV nuclear reactor core designs brings challeng...
There is a growing need to accurately simulate physical systems whose evolutions depend on the trans...
APOLLO3® and TRIPOLI-4® are registered trademark of CEAInternational audienceIn this paper we analyz...
High-fidelity nuclear reactor core simulations require a precise knowledge of the neutron flux insid...
We consider the solution of time-dependent, energy-dependent, discrete ordinates, and nonlinear radi...
The focus of the research was on developing parallel computing algorithm for solving eigen-values of...
The past few years have been marked by a noticeable increase in the interest in 3D whole-core hetero...
The computing power available nowadays to the average Monte-Carlo-code user is sufficient to perform...
The Boltzmann Transport Equation is solved on unstructured meshes using the Discrete Ordinates Metho...
Thesis: S.M., Massachusetts Institute of Technology, Department of Nuclear Science and Engineering, ...
International audienceHigh-fidelity nuclear power plant core simulations require solving the Boltzma...
We present performance results obtained on a 128-node Cray Research T3D computer by a neutron transp...
The main goal of this work is to examine efficient methods for solving neutron transport and diffusi...
This final report discusses major accomplishments of a 3-year project under the DOE's NEER Program. ...
This paper describes the design and the performance of DOMINO, a 3D Cartesian SN solver that impleme...
The spatial heterogeneity of the next generation Gen-IV nuclear reactor core designs brings challeng...
There is a growing need to accurately simulate physical systems whose evolutions depend on the trans...
APOLLO3® and TRIPOLI-4® are registered trademark of CEAInternational audienceIn this paper we analyz...
High-fidelity nuclear reactor core simulations require a precise knowledge of the neutron flux insid...
We consider the solution of time-dependent, energy-dependent, discrete ordinates, and nonlinear radi...
The focus of the research was on developing parallel computing algorithm for solving eigen-values of...
The past few years have been marked by a noticeable increase in the interest in 3D whole-core hetero...
The computing power available nowadays to the average Monte-Carlo-code user is sufficient to perform...
The Boltzmann Transport Equation is solved on unstructured meshes using the Discrete Ordinates Metho...