International audienceThis paper studies the performance of different algorithms for solving a dense symmetric indefinite linear system of equations on multicore CPUs with a Graphics Processing Unit (GPU). To ensure the numerical stability of the factorization, pivoting is required. Obtaining high performance of such algorithms on the GPU is difficult because all the existing pivoting strategies lead to frequent synchronizations and irregular data accesses. Until recently, there has not been any implementation of these algorithms on a hybrid CPU/GPU architecture. To improve their performance on the hybrid architecture, we explore different techniques to reduce the expensive data transfer and synchronization between the CPU and GPU, or on th...
Ponència presentada al Euro-Par 2016: Parallel Processing Workshops pp 121–133.The solution of spars...
International audienceRandomized algorithms are gaining ground in high-performance computing applica...
Abstract. We present a new sparse linear solver for GPUs. It is designed to work with structured spa...
International audienceThis paper studies the performance of different algorithms for solving a dense...
International audienceWe study the performance of dense symmetric indefinite factorizations (Bunch-K...
AbstractWe study several solvers for the solution of general linear systems where the main objective...
We study several solvers for the solution of general linear systems where the main objective is to r...
Low-rank matrices arise in many scientific and engineering computations. Both computational and stor...
We describe an efficient and innovative parallel tiled algorithm for solving symmetric indefinite sy...
We present several algorithms to compute the solution of a linear system of equations on a graphics ...
International audienceWe present a fast hybrid solver for dense linear systems based on LU factoriza...
In this PhD thesis, we study algorithms and implementations to accelerate the solution of dense line...
AbstractOne-sided dense matrix factorizations are important computational kernels in many scientific...
International audienceThis paper focuses on the resolution of a large number of small symmetric line...
We present several algorithms to compute the solution of a linear system of equa-tions on a GPU, as ...
Ponència presentada al Euro-Par 2016: Parallel Processing Workshops pp 121–133.The solution of spars...
International audienceRandomized algorithms are gaining ground in high-performance computing applica...
Abstract. We present a new sparse linear solver for GPUs. It is designed to work with structured spa...
International audienceThis paper studies the performance of different algorithms for solving a dense...
International audienceWe study the performance of dense symmetric indefinite factorizations (Bunch-K...
AbstractWe study several solvers for the solution of general linear systems where the main objective...
We study several solvers for the solution of general linear systems where the main objective is to r...
Low-rank matrices arise in many scientific and engineering computations. Both computational and stor...
We describe an efficient and innovative parallel tiled algorithm for solving symmetric indefinite sy...
We present several algorithms to compute the solution of a linear system of equations on a graphics ...
International audienceWe present a fast hybrid solver for dense linear systems based on LU factoriza...
In this PhD thesis, we study algorithms and implementations to accelerate the solution of dense line...
AbstractOne-sided dense matrix factorizations are important computational kernels in many scientific...
International audienceThis paper focuses on the resolution of a large number of small symmetric line...
We present several algorithms to compute the solution of a linear system of equa-tions on a GPU, as ...
Ponència presentada al Euro-Par 2016: Parallel Processing Workshops pp 121–133.The solution of spars...
International audienceRandomized algorithms are gaining ground in high-performance computing applica...
Abstract. We present a new sparse linear solver for GPUs. It is designed to work with structured spa...