The partial differential equations describing compressible fluid flows can be notoriously difficult to resolve on a pragmatic scale and often require the use of high-performance computing systems and/or accelerators. However, these systems face scaling issues such as latency, the fixed cost of communicating information between devices in the system. The swept rule is a technique designed to minimize these costs by obtaining a solution to unsteady equations at as many possible spatial locations and times prior to communicating. In this study, we implemented and tested the swept rule for solving two-dimensional problems on heterogeneous computing systems across two distinct systems and three key parameters: problem size, GPU block size, and w...
In this paper, the performance of the Cyclic Reduction (CR) algorithm for solving tridiagonal system...
Abstract. Finite volume numerical methods have been widely stud-ied, implemented and parallelized on...
We explore the possibilities to accelerate simulations in computational fluid dynamics by additional...
The use of graphics hardware for general purpose computations allows scientists to enormously speed ...
Key words: graphics processing units, unstructured finite volume method, computational fluid dynam...
In recent years, there has been a growing focus on how GPUs can be utilized for general purpose comp...
This report presents steps towards accelerating Fluidity, a general-purpose com-putational fluid dyn...
Physics-based simulation, Computational Fluid Dynamics (CFD) in particular, has substantially reshap...
A one-step conservative level set method, combined with a global mass correction method, is develope...
This article investigates the swept rule of space–time domain decomposition, an idea to break the la...
This paper discusses the main performance barriers for solving a large number of independent ordinar...
In this paper we use the multigrid algorithm - commonly used to improve the efficiency of the flow s...
In this work we present an efficient implementation of Eulerian TVD methods. We apply parallelizatio...
Parabolic partial differential equations are often used to model systems involving heat transfer, ac...
In this paper we propose and evaluate a set of new strategies for the solution of three dimensional ...
In this paper, the performance of the Cyclic Reduction (CR) algorithm for solving tridiagonal system...
Abstract. Finite volume numerical methods have been widely stud-ied, implemented and parallelized on...
We explore the possibilities to accelerate simulations in computational fluid dynamics by additional...
The use of graphics hardware for general purpose computations allows scientists to enormously speed ...
Key words: graphics processing units, unstructured finite volume method, computational fluid dynam...
In recent years, there has been a growing focus on how GPUs can be utilized for general purpose comp...
This report presents steps towards accelerating Fluidity, a general-purpose com-putational fluid dyn...
Physics-based simulation, Computational Fluid Dynamics (CFD) in particular, has substantially reshap...
A one-step conservative level set method, combined with a global mass correction method, is develope...
This article investigates the swept rule of space–time domain decomposition, an idea to break the la...
This paper discusses the main performance barriers for solving a large number of independent ordinar...
In this paper we use the multigrid algorithm - commonly used to improve the efficiency of the flow s...
In this work we present an efficient implementation of Eulerian TVD methods. We apply parallelizatio...
Parabolic partial differential equations are often used to model systems involving heat transfer, ac...
In this paper we propose and evaluate a set of new strategies for the solution of three dimensional ...
In this paper, the performance of the Cyclic Reduction (CR) algorithm for solving tridiagonal system...
Abstract. Finite volume numerical methods have been widely stud-ied, implemented and parallelized on...
We explore the possibilities to accelerate simulations in computational fluid dynamics by additional...