We present a fully multi-GPU-based double-precision solver for the three-dimensional two-phase incompressible Navier-Stokes equations. It is able to simulate the interaction of two fluids like air and water based on a level-set approach. High-order finite difference schemes and Chorin's projection approach for space and time discretization are applied. An in-depth performance analysis shows a realistic speed-up of the order of three by comparing equally priced GPUs and CPUs and more than a doubling in energy efficiency for GPUs. We observe profound strong and weak scaling on two different multi-GPU clusters
DoctorComputational methods for GPU-accelerated solutions of incompressible and compressible Navier-...
In this work we propose an efficient finite volume approximation of two-fluid flows. Our s...
International audienceDirect numerical simulation of high-density ratio multiphase flows requires a ...
We present a fully multi-GPU-based double-precision solver for the three-dimensional two-phase incom...
The use of graphics hardware for general purpose computations allows scientists to enormously speed ...
This paper presents the development and implementation of a Meshless two-phase incompressible fluid ...
This paper presents the development and implementation of a Meshless two-phase incompressible fluid ...
A one-step conservative level set method, combined with a global mass correction method, is develope...
International audienceThis paper describes a hybrid multicore/GPU solver for the incompressible Navi...
This project presents the development and implementation of a GPU-accelerated meshless two-phase inc...
Graphics processor units (GPU) that are originally designed for graphics rendering have emerged as m...
This paper presents the development and implementation of a Meshless twophase incompressible fluid f...
We present parallelization of single and two phase flow CFD solvers on a graphics processing unit (G...
Computational fluid dynamics has seen a surge of popularity as a tool for visual effects animators o...
Modern hardware architectures such as GPUs and manycore processors are characterised by an abundance...
DoctorComputational methods for GPU-accelerated solutions of incompressible and compressible Navier-...
In this work we propose an efficient finite volume approximation of two-fluid flows. Our s...
International audienceDirect numerical simulation of high-density ratio multiphase flows requires a ...
We present a fully multi-GPU-based double-precision solver for the three-dimensional two-phase incom...
The use of graphics hardware for general purpose computations allows scientists to enormously speed ...
This paper presents the development and implementation of a Meshless two-phase incompressible fluid ...
This paper presents the development and implementation of a Meshless two-phase incompressible fluid ...
A one-step conservative level set method, combined with a global mass correction method, is develope...
International audienceThis paper describes a hybrid multicore/GPU solver for the incompressible Navi...
This project presents the development and implementation of a GPU-accelerated meshless two-phase inc...
Graphics processor units (GPU) that are originally designed for graphics rendering have emerged as m...
This paper presents the development and implementation of a Meshless twophase incompressible fluid f...
We present parallelization of single and two phase flow CFD solvers on a graphics processing unit (G...
Computational fluid dynamics has seen a surge of popularity as a tool for visual effects animators o...
Modern hardware architectures such as GPUs and manycore processors are characterised by an abundance...
DoctorComputational methods for GPU-accelerated solutions of incompressible and compressible Navier-...
In this work we propose an efficient finite volume approximation of two-fluid flows. Our s...
International audienceDirect numerical simulation of high-density ratio multiphase flows requires a ...