International audienceThis paper describes a hybrid multicore/GPU solver for the incompressible Navier-Stokes equations with constant coefficients, discretized by the finite difference method. By applying the prediction-projection method, the Navier-Stokes equations are transformed into a combination of Helmholtz- like and Poisson equations for which we describe efficient solvers. As an extension of a previous paper, this paper proposes a new implementation that takes advantage of GPU accelerators. We present numerical experiments on a current hybrid machine
A GPU-accelerated high-order massively-parallel 3D Navier-Stokes solver has been developed for heart...
Summarization: An efficient parallel multigrid pressure correction algorithm is proposed for the sol...
This thesis explores the possibility of using graphics processing units (GPUs) to compute approximat...
International audienceThis paper describes a hybrid multicore/GPU solver for the incompressible Navi...
The use of graphics hardware for general purpose computations allows scientists to enormously speed ...
AbstractThe Navier-Stokes equations describe a large class of fluid flows but are difficult to solve...
International audienceThe Navier-Stokes equations describe a large class of fluid flows but are diff...
DoctorComputational methods for GPU-accelerated solutions of incompressible and compressible Navier-...
In this PhD thesis, we present our research in the domain of high performance software for computati...
We present a fully multi-GPU-based double-precision solver for the three-dimensional two-phase incom...
The Navier-Stokes equations describe a large class of fluid flows but are difficult to solve analyti...
A GPU-accelerated high-order massively-parallel 3D Navier-Stokes solver has been developed for heart...
Summarization: An efficient parallel multigrid pressure correction algorithm is proposed for the sol...
This thesis explores the possibility of using graphics processing units (GPUs) to compute approximat...
International audienceThis paper describes a hybrid multicore/GPU solver for the incompressible Navi...
The use of graphics hardware for general purpose computations allows scientists to enormously speed ...
AbstractThe Navier-Stokes equations describe a large class of fluid flows but are difficult to solve...
International audienceThe Navier-Stokes equations describe a large class of fluid flows but are diff...
DoctorComputational methods for GPU-accelerated solutions of incompressible and compressible Navier-...
In this PhD thesis, we present our research in the domain of high performance software for computati...
We present a fully multi-GPU-based double-precision solver for the three-dimensional two-phase incom...
The Navier-Stokes equations describe a large class of fluid flows but are difficult to solve analyti...
A GPU-accelerated high-order massively-parallel 3D Navier-Stokes solver has been developed for heart...
Summarization: An efficient parallel multigrid pressure correction algorithm is proposed for the sol...
This thesis explores the possibility of using graphics processing units (GPUs) to compute approximat...