International audienceHigh-fidelity nuclear power plant core simulations require solving the Boltzmann transport equation. In discrete ordinates methods, the most computationally demanding operation of this equation is the sweep operation. Considering the evolution of computer architectures, we propose in this paper, as a first step toward heterogeneous distributed architectures, a hybrid parallel implementation of the sweep operation on top of the generic task-based runtime system: PaRSEC. Such an implementation targets three nested levels of parallelism: message passing, multi-threading, and vectorization. The proposed parallel implementation of the Sweep achieves a sustained performance of 6.1 Tflop/s, corresponding to 33.9% of the peak ...
The Boltzmann transport equation is solved by means of a parallel explicit algorithm known as parall...
Abstract: The Boltzmann transport equation is solved by means of a parallel explicit algorithm known...
GDR-GPLWith the slowdown of Moore's law and the end of the frequency race, the performance comes fro...
International audienceHigh-fidelity nuclear power plant core simulations require solving the Boltzma...
High-fidelity nuclear reactor core simulations require a precise knowledge of the neutron flux insid...
International audienceThis paper describes the design and the performance of DOMINO, a 3D Cartesian ...
The Boltzmann Transport Equation is solved on unstructured meshes using the Discrete Ordinates Metho...
International audienceLarge applications for parallel computers and more specifically unstructured C...
In this study we present and analyze a formulation of the 3D Method of Characteristics (MOC) techniq...
In this work, we show how parallel applications can be implemented efficiently using task parallelis...
International audienceThis paper presents an efficient parallel method for the deterministic solutio...
The shift toward multicore architectures has ushered in a new era of shared memory parallelism for s...
Thesis: S.M., Massachusetts Institute of Technology, Department of Nuclear Science and Engineering, ...
Scalable parallel algorithm for particle transport is one of the main application fields in high-per...
In order to achieve field-scale reactive transport simulations in a reasonable CPU time, a parallel ...
The Boltzmann transport equation is solved by means of a parallel explicit algorithm known as parall...
Abstract: The Boltzmann transport equation is solved by means of a parallel explicit algorithm known...
GDR-GPLWith the slowdown of Moore's law and the end of the frequency race, the performance comes fro...
International audienceHigh-fidelity nuclear power plant core simulations require solving the Boltzma...
High-fidelity nuclear reactor core simulations require a precise knowledge of the neutron flux insid...
International audienceThis paper describes the design and the performance of DOMINO, a 3D Cartesian ...
The Boltzmann Transport Equation is solved on unstructured meshes using the Discrete Ordinates Metho...
International audienceLarge applications for parallel computers and more specifically unstructured C...
In this study we present and analyze a formulation of the 3D Method of Characteristics (MOC) techniq...
In this work, we show how parallel applications can be implemented efficiently using task parallelis...
International audienceThis paper presents an efficient parallel method for the deterministic solutio...
The shift toward multicore architectures has ushered in a new era of shared memory parallelism for s...
Thesis: S.M., Massachusetts Institute of Technology, Department of Nuclear Science and Engineering, ...
Scalable parallel algorithm for particle transport is one of the main application fields in high-per...
In order to achieve field-scale reactive transport simulations in a reasonable CPU time, a parallel ...
The Boltzmann transport equation is solved by means of a parallel explicit algorithm known as parall...
Abstract: The Boltzmann transport equation is solved by means of a parallel explicit algorithm known...
GDR-GPLWith the slowdown of Moore's law and the end of the frequency race, the performance comes fro...