In this paper, we deal with redistribution issues for dense linear algebra kernels on heterogeneous platforms. In this context, processors speeds may well vary during the execution of a large kernel, which requires efficient strategies for redistributing the data along the computations. The strategy that we propose is to redistribute data after some well identified static phases and therefore, it is neither fully static nor fully dynamic. We present an optimal algorithm (under some assumptions) for redistributing data when performing matrix matrix multiplication
(eng) Future computing platforms will be distributed and heterogeneous. Such platforms range from he...
International audienceFuture computing platforms will be distributed and heterogeneous. Such platfor...
National audienceIn this paper, we deal with algorithmic issues on heterogeneous platforms. We conce...
In this paper, we deal with redistribution issues for dense linear algebra kernels on heterogeneous ...
(eng) In this paper, we deal with redistribution issues for dense linear algebra kernels on heteroge...
(eng) We study the implementation of dense linear algebra computations, such as matrix multiplicatio...
(eng) In this paper, we study the implementation of dense linear algebra kernels, such as matrix mul...
International audienceWe study the implementation of dense linear algebra computations, such as matr...
International audienceThis paper discusses some algorithmic issues when computing with a heterogeneo...
International audienceThe classical redistribution problem aims at optimally scheduling communicatio...
(eng) In this paper, we deal with algorithmic issues on heterogeneous platforms. We concentrate on d...
The classical redistribution problem aims at optimally scheduling communications when moving from an...
This paper discusses some algorithmic issues when computing with a heterogeneous network of workstat...
(eng) Future computing platforms will be distributed and heterogeneous. Such platforms range from he...
International audienceFuture computing platforms will be distributed and heterogeneous. Such platfor...
National audienceIn this paper, we deal with algorithmic issues on heterogeneous platforms. We conce...
In this paper, we deal with redistribution issues for dense linear algebra kernels on heterogeneous ...
(eng) In this paper, we deal with redistribution issues for dense linear algebra kernels on heteroge...
(eng) We study the implementation of dense linear algebra computations, such as matrix multiplicatio...
(eng) In this paper, we study the implementation of dense linear algebra kernels, such as matrix mul...
International audienceWe study the implementation of dense linear algebra computations, such as matr...
International audienceThis paper discusses some algorithmic issues when computing with a heterogeneo...
International audienceThe classical redistribution problem aims at optimally scheduling communicatio...
(eng) In this paper, we deal with algorithmic issues on heterogeneous platforms. We concentrate on d...
The classical redistribution problem aims at optimally scheduling communications when moving from an...
This paper discusses some algorithmic issues when computing with a heterogeneous network of workstat...
(eng) Future computing platforms will be distributed and heterogeneous. Such platforms range from he...
International audienceFuture computing platforms will be distributed and heterogeneous. Such platfor...
National audienceIn this paper, we deal with algorithmic issues on heterogeneous platforms. We conce...