Abstract: In order to propose a framework and programming paradigms for post-petascale computing, on the road to exascale computing and beyond, we introduced new languages, associated with a hierarchical multi-level programming paradigm, allowing scientific end-users and developers to program highly hierarchical architectures designed for extreme computing. In this paper, we explain the interest of such hierarchical multi-level programming paradigm for extreme computing and its well adaptation to several large computational science applications, such as for linear algebra solvers used for reactor core physic. We describe the YML language and framework allowing describing graphs of parallel components, which may be developed using PGAS-like ...
We expect that multiscale simulations will be one of the main high performance computing workloads i...
Since the middle of the 1990s, message passing libraries are the most used technology to implement p...
The US, Europe, Japan and China are racing to develop the next generation of supercomputers – exasca...
International audienceIn this paper, we focus on a distributed and parallel programming paradigm for...
L'arrivée des supercalculateurs post-petascales and exascales offre la perspective d'accélérer la ré...
High Performance Computing (HPC) aims at providing reasonably fast computing solutions to both scien...
Nowadays, the most powerful supercomputers in the world, needed for solving complex models and simu...
This paper presents a new software framework for solving large and sparse linear systems on current ...
Sparse matrices are first class objects in many VHLLs (very high level languages) used for scientifi...
Ever since computers were first used for scientific and numerical work, there has existed an "arms r...
This paper presents a new software framework for solving large and sparse linear systems on current ...
We develop scalable algorithms and object-oriented code frameworks for terascale scientific simulati...
It is important to have a fast, robust and scalable algorithm to solve a sparse linear system AX=B. ...
Until recently, performance gains in processors were achieved largely by improvements in clock speed...
Depuis le milieu des années 1990, les bibliothèques de transmission de messages sont les technologie...
We expect that multiscale simulations will be one of the main high performance computing workloads i...
Since the middle of the 1990s, message passing libraries are the most used technology to implement p...
The US, Europe, Japan and China are racing to develop the next generation of supercomputers – exasca...
International audienceIn this paper, we focus on a distributed and parallel programming paradigm for...
L'arrivée des supercalculateurs post-petascales and exascales offre la perspective d'accélérer la ré...
High Performance Computing (HPC) aims at providing reasonably fast computing solutions to both scien...
Nowadays, the most powerful supercomputers in the world, needed for solving complex models and simu...
This paper presents a new software framework for solving large and sparse linear systems on current ...
Sparse matrices are first class objects in many VHLLs (very high level languages) used for scientifi...
Ever since computers were first used for scientific and numerical work, there has existed an "arms r...
This paper presents a new software framework for solving large and sparse linear systems on current ...
We develop scalable algorithms and object-oriented code frameworks for terascale scientific simulati...
It is important to have a fast, robust and scalable algorithm to solve a sparse linear system AX=B. ...
Until recently, performance gains in processors were achieved largely by improvements in clock speed...
Depuis le milieu des années 1990, les bibliothèques de transmission de messages sont les technologie...
We expect that multiscale simulations will be one of the main high performance computing workloads i...
Since the middle of the 1990s, message passing libraries are the most used technology to implement p...
The US, Europe, Japan and China are racing to develop the next generation of supercomputers – exasca...