International audienceThis paper is focused on designing efficient parallel matrix-product algorithms for heterogeneous master-worker platforms. While matrix-product is well-understood for homogeneous 2D-arrays of processors (e.g., Cannon algorithm and ScaLAPACK outer product algorithm), there are three key hypotheses that render our work original and innovative:-Centralized data. We assume that all matrix files originate from, and must be returned to, the master. The master distributes data and computations to the workers (while in ScaLAPACK, input and output matrices are supposed to be equally distributed among participating resources beforehand). Typically, our approach is useful in the context of speeding up MATLAB or SCILAB clients run...
Introduction We describe a novel architecture for a "linear algebra server" that operates...
Abstract. The paper presents a tool that ports ScaLAPACK programs designed to run on massively paral...
International audienceThis paper discusses some algorithmic issues when computing with a heterogeneo...
International audienceThis paper is focused on designing efficient parallel matrix-product algorithm...
This paper is aimed at designing efficient parallel matrix-product algorithms for heterogeneous mast...
International audienceThis paper is aimed at designing efficient parallel matrix-product algorithms ...
This paper is aimed at designing efficient parallel matrix-product algorithms for homogeneous master...
The results summarized in this document deal with the scheduling of independent tasks on large scale...
The multiplication of a vector by a matrix is the kernel operation in many algorithms used in scient...
International audienceIn this paper, we address the issue of implementing matrix-matrix multiplicati...
(eng) In this paper, we address the issue of implementing matrix-matrix multiplication on heterogene...
In this document, we describe two strategies of distribution of computations that can be used to imp...
The computing and communication resources of high performance computing systems are becoming heterog...
This paper describes the design and the implementation of parallel routines in the Heterogeneous Sca...
Proceedings of: Third International Workshop on Sustainable Ultrascale Computing Systems (NESUS 2016...
Introduction We describe a novel architecture for a "linear algebra server" that operates...
Abstract. The paper presents a tool that ports ScaLAPACK programs designed to run on massively paral...
International audienceThis paper discusses some algorithmic issues when computing with a heterogeneo...
International audienceThis paper is focused on designing efficient parallel matrix-product algorithm...
This paper is aimed at designing efficient parallel matrix-product algorithms for heterogeneous mast...
International audienceThis paper is aimed at designing efficient parallel matrix-product algorithms ...
This paper is aimed at designing efficient parallel matrix-product algorithms for homogeneous master...
The results summarized in this document deal with the scheduling of independent tasks on large scale...
The multiplication of a vector by a matrix is the kernel operation in many algorithms used in scient...
International audienceIn this paper, we address the issue of implementing matrix-matrix multiplicati...
(eng) In this paper, we address the issue of implementing matrix-matrix multiplication on heterogene...
In this document, we describe two strategies of distribution of computations that can be used to imp...
The computing and communication resources of high performance computing systems are becoming heterog...
This paper describes the design and the implementation of parallel routines in the Heterogeneous Sca...
Proceedings of: Third International Workshop on Sustainable Ultrascale Computing Systems (NESUS 2016...
Introduction We describe a novel architecture for a "linear algebra server" that operates...
Abstract. The paper presents a tool that ports ScaLAPACK programs designed to run on massively paral...
International audienceThis paper discusses some algorithmic issues when computing with a heterogeneo...