Abstract. The paper presents a tool that ports ScaLAPACK programs designed to run on massively parallel processors to Heterogeneous Networks of Computers. The tool converts ScaLAPACK programs to HeteroMPI programs. The resulting HeteroMPI programs do not aim to extract the maximum performance from a Heterogeneous Networks of Computers but provide an easy and simple way to execute the ScaLAPACK programs on such networks with good performance improvements. We demonstrate the efficiency of the resulting HeteroMPI programs by performing experiments with a matrix multiplication application on a local network of heterogeneous computers.
In this document, we describe two strategies of distribution of computations that can be used to imp...
This article outlines the content and performance of some of the ScaLAPACK software. ScaLAPACK is a ...
This paper outlines the content and performance of ScaLAPACK, a collection of mathematical software ...
This paper presents an experience in use of a parallel mathematical library, ScaLAPACK, on a network...
This paper describes the design and the implementation of parallel routines in the Heterogeneous Sca...
This paper presents and analyzes two different strategies of heterogeneous distribution of computati...
International audienceThis paper discusses some algorithmic issues when computing with a heterogeneo...
This paper discusses some algorithmic issues when computing with a heterogeneous network of workstat...
The paper is motivated by efficiency considerations about porting mathematical software from Massive...
International audienceFuture computing platforms will be distributed and heterogeneous. Such platfor...
(eng) In this paper, we address the issue of implementing matrix-matrix multiplication on heterogene...
This paper outlines the content and performance of ScaLAPACK, a collection of mathematical software ...
AbstractÐIn this paper, we address the issue of implementing matrix multiplication on heterogeneous ...
Future computing platforms will be distributed and heterogeneous. Such platforms range from heteroge...
Abstract—Two strategies of distribution of computations can be used to implement parallel solvers fo...
In this document, we describe two strategies of distribution of computations that can be used to imp...
This article outlines the content and performance of some of the ScaLAPACK software. ScaLAPACK is a ...
This paper outlines the content and performance of ScaLAPACK, a collection of mathematical software ...
This paper presents an experience in use of a parallel mathematical library, ScaLAPACK, on a network...
This paper describes the design and the implementation of parallel routines in the Heterogeneous Sca...
This paper presents and analyzes two different strategies of heterogeneous distribution of computati...
International audienceThis paper discusses some algorithmic issues when computing with a heterogeneo...
This paper discusses some algorithmic issues when computing with a heterogeneous network of workstat...
The paper is motivated by efficiency considerations about porting mathematical software from Massive...
International audienceFuture computing platforms will be distributed and heterogeneous. Such platfor...
(eng) In this paper, we address the issue of implementing matrix-matrix multiplication on heterogene...
This paper outlines the content and performance of ScaLAPACK, a collection of mathematical software ...
AbstractÐIn this paper, we address the issue of implementing matrix multiplication on heterogeneous ...
Future computing platforms will be distributed and heterogeneous. Such platforms range from heteroge...
Abstract—Two strategies of distribution of computations can be used to implement parallel solvers fo...
In this document, we describe two strategies of distribution of computations that can be used to imp...
This article outlines the content and performance of some of the ScaLAPACK software. ScaLAPACK is a ...
This paper outlines the content and performance of ScaLAPACK, a collection of mathematical software ...