International audienceThe ever growing complexity and scale of parallel architectures imposes to rewrite classical monolithic HPC scientific applications and libraries as their portability and performance optimization only comes at a prohibitive cost. There is thus a recent and general trend in using instead a modular approach where numerical algorithms are written at a high level independently of the hardware architecture as Directed Acyclic Graphs (DAG) of tasks. A task-based runtime system then dynamically schedules the resulting DAG on the different computing resources, automatically taking care of data movement and taking into account the possible speed heterogeneity and variability. Evaluating the performance of such complex and dynam...
Les méthodes en simulation numérique dans le domaine de l’ingénierie pétrolière nécessitent la résol...
Recent years have witnessed a tremendous surge of interest in accelerating sparse linear algebra app...
While many of the architectural details of future exascale-class high performance computer systems ...
International audienceThe ever growing complexity and scale of parallel architectures imposes to rew...
International audienceTo face the advent of multicore processors and the ever increasing complexity ...
To face the advent of multicore processors and the ever increasing complexity of hardware architectu...
International audienceThe advent of multicore processors requires to reconsider the design of high p...
The fast and accurate solution of large size sparse systems of linear equations is at the heart of n...
We analyze the efficiency of servers equipped with state-of-the-art general-purpose multicore proces...
La résolution de grands systèmes linéaires creux est un élément essentiel des simulations numériques...
The evolution of High-Performance Computing systems has taken asharp turn in the last decade. Due to...
In this "Habilitation à Diriger des Recherches" (HDR), we present our research in high-performance s...
AbstractWe examine the computational efficiency of linear algebra components in iterative solvers fo...
This paper addresses the efficient exploitation of task-level parallelism, present in many dense lin...
We present a performance model to analyze a parallel sparseLU factorization algorithm on modern cach...
Les méthodes en simulation numérique dans le domaine de l’ingénierie pétrolière nécessitent la résol...
Recent years have witnessed a tremendous surge of interest in accelerating sparse linear algebra app...
While many of the architectural details of future exascale-class high performance computer systems ...
International audienceThe ever growing complexity and scale of parallel architectures imposes to rew...
International audienceTo face the advent of multicore processors and the ever increasing complexity ...
To face the advent of multicore processors and the ever increasing complexity of hardware architectu...
International audienceThe advent of multicore processors requires to reconsider the design of high p...
The fast and accurate solution of large size sparse systems of linear equations is at the heart of n...
We analyze the efficiency of servers equipped with state-of-the-art general-purpose multicore proces...
La résolution de grands systèmes linéaires creux est un élément essentiel des simulations numériques...
The evolution of High-Performance Computing systems has taken asharp turn in the last decade. Due to...
In this "Habilitation à Diriger des Recherches" (HDR), we present our research in high-performance s...
AbstractWe examine the computational efficiency of linear algebra components in iterative solvers fo...
This paper addresses the efficient exploitation of task-level parallelism, present in many dense lin...
We present a performance model to analyze a parallel sparseLU factorization algorithm on modern cach...
Les méthodes en simulation numérique dans le domaine de l’ingénierie pétrolière nécessitent la résol...
Recent years have witnessed a tremendous surge of interest in accelerating sparse linear algebra app...
While many of the architectural details of future exascale-class high performance computer systems ...