This paper presents an experience in use of a parallel mathematical library, ScaLAPACK, on a network composed by heterogeneous workstations. The good performance results have been obtained by means of a distributed programming environment which is able to dynamically evaluate available computing power at each workstation and to distribute accordingly the set of parallel processes
International audienceFuture computing platforms will be distributed and heterogeneous. Such platfor...
Parallel computing on networks of workstations are intensively used in some application areas such a...
This paper discusses some algorithmic issues when computing with a heterogeneous network of workstat...
Abstract. The paper presents a tool that ports ScaLAPACK programs designed to run on massively paral...
The paper is motivated by efficiency considerations about porting mathematical software from Massive...
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...
This paper outlines the content and performance of ScaLAPACK, a collection of mathematical software ...
Due to the character of the original source materials and the nature of batch digitization, quality ...
This paper outlines the content and performance of ScaLAPACK, a collection of mathematical software ...
International audienceThis paper discusses some algorithmic issues when computing with a heterogeneo...
Special challenges exist in writing reliable numerical library software for heterogeneous computing ...
Abstract — In this paper we present our joint efforts towards the development of a parallel version ...
The aim of this thesis is to study and develop efficient methods for parallelization of scientific a...
This paper describes the design of ScaLAPACK, a scalable software library for performing dense and b...
International audienceFuture computing platforms will be distributed and heterogeneous. Such platfor...
Parallel computing on networks of workstations are intensively used in some application areas such a...
This paper discusses some algorithmic issues when computing with a heterogeneous network of workstat...
Abstract. The paper presents a tool that ports ScaLAPACK programs designed to run on massively paral...
The paper is motivated by efficiency considerations about porting mathematical software from Massive...
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...
This paper outlines the content and performance of ScaLAPACK, a collection of mathematical software ...
Due to the character of the original source materials and the nature of batch digitization, quality ...
This paper outlines the content and performance of ScaLAPACK, a collection of mathematical software ...
International audienceThis paper discusses some algorithmic issues when computing with a heterogeneo...
Special challenges exist in writing reliable numerical library software for heterogeneous computing ...
Abstract — In this paper we present our joint efforts towards the development of a parallel version ...
The aim of this thesis is to study and develop efficient methods for parallelization of scientific a...
This paper describes the design of ScaLAPACK, a scalable software library for performing dense and b...
International audienceFuture computing platforms will be distributed and heterogeneous. Such platfor...
Parallel computing on networks of workstations are intensively used in some application areas such a...
This paper discusses some algorithmic issues when computing with a heterogeneous network of workstat...