We implemented a fast Reciprocal Monte Carlo algorithm to accurately solve radiative heat transfer in turbulent flows of non-grey participating media that can be coupled to fully resolved turbulent flows, namely to Direct Numerical Simulation (DNS). The spectrally varying absorption coefficient is treated in a narrow-band fashion with a correlated-k distribution. The implementation is verified with analytical solutions and validated with results from literature and line-by-line Monte Carlo computations. The method is implemented on GPU with a thorough attention to memory transfer and computational efficiency. The bottlenecks that dominate the computational expenses are addressed, and several techniques are proposed to optimize the GPU execu...
In this article we present a high-order-accurate solver for the radiative transfer equation (RTE) wh...
L'apparition de CUDA en 2007 a rendu les GPU hautement programmables permettant ainsi aux applicatio...
The transfer of energy by thermal radiation represents an important component in many reacting flows...
We implemented a fast Reciprocal Monte Carlo algorithm to accurately solve radiative heat transfer i...
International audienceThe present work assesses different Monte Carlo methods in radiative heat tran...
Monte Carlo simulation is often used to solve radiative transfer problems where complex physical phe...
International audienceThe present work assesses different Monte Carlo methods in radiative heat tran...
International audienceRadiation can play a central role in turbulent reactive flows where heat trans...
The work presented in this thesis focus on the development of scalable parallel radiative heat trans...
Radiative heating can play an important role during atmospheric re-entry, combustion processes, and ...
The purpose of the work is twofold. Firstly, it is devoted to the development of efficient parallel ...
Abstract. The computation of radiative effects by the Photon Monte Carlo method is computationally d...
International audienceModeling radiative heat transfer in combustion applications involving complex ...
Modern graphics cards, commonly used in desktop computers, have evolved beyond a simple interface be...
The release of CUDA by NVIDIA in 2007 has tremendously increased GPU programmability, thus allowing ...
In this article we present a high-order-accurate solver for the radiative transfer equation (RTE) wh...
L'apparition de CUDA en 2007 a rendu les GPU hautement programmables permettant ainsi aux applicatio...
The transfer of energy by thermal radiation represents an important component in many reacting flows...
We implemented a fast Reciprocal Monte Carlo algorithm to accurately solve radiative heat transfer i...
International audienceThe present work assesses different Monte Carlo methods in radiative heat tran...
Monte Carlo simulation is often used to solve radiative transfer problems where complex physical phe...
International audienceThe present work assesses different Monte Carlo methods in radiative heat tran...
International audienceRadiation can play a central role in turbulent reactive flows where heat trans...
The work presented in this thesis focus on the development of scalable parallel radiative heat trans...
Radiative heating can play an important role during atmospheric re-entry, combustion processes, and ...
The purpose of the work is twofold. Firstly, it is devoted to the development of efficient parallel ...
Abstract. The computation of radiative effects by the Photon Monte Carlo method is computationally d...
International audienceModeling radiative heat transfer in combustion applications involving complex ...
Modern graphics cards, commonly used in desktop computers, have evolved beyond a simple interface be...
The release of CUDA by NVIDIA in 2007 has tremendously increased GPU programmability, thus allowing ...
In this article we present a high-order-accurate solver for the radiative transfer equation (RTE) wh...
L'apparition de CUDA en 2007 a rendu les GPU hautement programmables permettant ainsi aux applicatio...
The transfer of energy by thermal radiation represents an important component in many reacting flows...