A computational method for GPU-accelerated fractional-step integration of incompressible Navier-Stokes equations based on the Alternating Direction Implicit (ADI) method is presented. Non-iterative, direct solution methods used in the semi-implicit fractional-step method take advantage of tridiagonal systems and Fourier transform whose solution can be computed using fast algorithms on a single GPU. However, when data is distributed to multiple GPUs, all-to-all matrix transposition is required, which increases computational cost significantly. In this work, a new strategy that does not require all-to-all transposition is proposed. The computational domain is divided in the wall-normal direction, and decoupled tridiagonal systems are obtained...
Real-time fluid engineering simulations require significant computational power and high-resolution ...
AbstractThe Navier-Stokes equations describe a large class of fluid flows but are difficult to solve...
This paper presents the development and implementation of a Meshless two-phase incompressible fluid ...
DoctorComputational methods for GPU-accelerated solutions of incompressible and compressible Navier-...
Utility of the computational power of Graphics Processing Units (GPUs) is elaborated for solutions o...
The accuracy and the applicability of the parallel diagonal dominant (PDD) algorithm are explored fo...
The use of graphics hardware for general purpose computations allows scientists to enormously speed ...
Guermond and Minev proposed a directional splitting algorithm to solve the incompressible Stokes equ...
The fractional step method is a technique that results in a computationally-efficient implementation...
The fractional step method is a technique that results in a computationally-efficient implementation...
A new high-performance general-purpose graphics processing unit (GPGPU) computational fluid dynamics...
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...
Extrait de : First European Computational Fluid Dynamics Conference, First European Conference on Nu...
This work presents a parallel Navier-Stokes solver for the large-scale direct numerical simulation (...
Real-time fluid engineering simulations require significant computational power and high-resolution ...
AbstractThe Navier-Stokes equations describe a large class of fluid flows but are difficult to solve...
This paper presents the development and implementation of a Meshless two-phase incompressible fluid ...
DoctorComputational methods for GPU-accelerated solutions of incompressible and compressible Navier-...
Utility of the computational power of Graphics Processing Units (GPUs) is elaborated for solutions o...
The accuracy and the applicability of the parallel diagonal dominant (PDD) algorithm are explored fo...
The use of graphics hardware for general purpose computations allows scientists to enormously speed ...
Guermond and Minev proposed a directional splitting algorithm to solve the incompressible Stokes equ...
The fractional step method is a technique that results in a computationally-efficient implementation...
The fractional step method is a technique that results in a computationally-efficient implementation...
A new high-performance general-purpose graphics processing unit (GPGPU) computational fluid dynamics...
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...
Extrait de : First European Computational Fluid Dynamics Conference, First European Conference on Nu...
This work presents a parallel Navier-Stokes solver for the large-scale direct numerical simulation (...
Real-time fluid engineering simulations require significant computational power and high-resolution ...
AbstractThe Navier-Stokes equations describe a large class of fluid flows but are difficult to solve...
This paper presents the development and implementation of a Meshless two-phase incompressible fluid ...