We present advances concerning efficient finite element assembly and linear solvers on current and upcoming HPC architectures obtained in the frame of the EXA-DUNE project, part of the DFG priority program 1648 Software for Exascale Computing (SPPEXA). In this project, we aim at the development of both flexible and efficient hardware-aware software components for the solution of PDEs based on the DUNE platform and the FEAST library. In this contribution, we focus on node-level performance and accelerator integration, which will complement the provenMPI-level scalability of the framework. The higher-level aspects of the EXADUNE project, in particular multiscale methods and uncertainty quantification, are detailed in the companion paper (Bast...
Nowadays, the most powerful supercomputers in the world, needed for solving complex models and simu...
International audienceThe Japanese-french project FP3C targets the post-petascale and the next gener...
The objective of the PRACE-4IP Work Package 7 (WP7) ‘Application Enabling and Support’ is to provide...
In this contribution we present advances concerning efficient parallel multiscale methods and uncert...
© 2021 Elsevier B.V.In this paper we describe the research and development activities in the Center ...
© The Author(s) 2021.Efficient exploitation of exascale architectures requires rethinking of the num...
Abstract. A major challenge in PDE software is the balance between user-level flexibility and perfor...
In the EXA-DUNE project we strive to (i) develop and implement numerical algorithms for solving PDE ...
The aim of the EXA-DUNE project is to combine the expertise in hardware-oriented numerics acquired i...
Developing a computer system that can deliver sustained Exaflop performance is an extremely difficul...
Processor technology is still dramatically advancing and promises enormous improvements in processin...
became operational in 1997, and it took more than 11 years for a Petaflop/s performance machine, the...
Sparse solvers provide essential functionality for a wide variety of scientific applications. Highly...
One current trend in software development for PDEs, and here especially for FE approaches, clearly g...
This volume of the book series “Advances in Parallel Computing” contains the proceedings of ParCo201...
Nowadays, the most powerful supercomputers in the world, needed for solving complex models and simu...
International audienceThe Japanese-french project FP3C targets the post-petascale and the next gener...
The objective of the PRACE-4IP Work Package 7 (WP7) ‘Application Enabling and Support’ is to provide...
In this contribution we present advances concerning efficient parallel multiscale methods and uncert...
© 2021 Elsevier B.V.In this paper we describe the research and development activities in the Center ...
© The Author(s) 2021.Efficient exploitation of exascale architectures requires rethinking of the num...
Abstract. A major challenge in PDE software is the balance between user-level flexibility and perfor...
In the EXA-DUNE project we strive to (i) develop and implement numerical algorithms for solving PDE ...
The aim of the EXA-DUNE project is to combine the expertise in hardware-oriented numerics acquired i...
Developing a computer system that can deliver sustained Exaflop performance is an extremely difficul...
Processor technology is still dramatically advancing and promises enormous improvements in processin...
became operational in 1997, and it took more than 11 years for a Petaflop/s performance machine, the...
Sparse solvers provide essential functionality for a wide variety of scientific applications. Highly...
One current trend in software development for PDEs, and here especially for FE approaches, clearly g...
This volume of the book series “Advances in Parallel Computing” contains the proceedings of ParCo201...
Nowadays, the most powerful supercomputers in the world, needed for solving complex models and simu...
International audienceThe Japanese-french project FP3C targets the post-petascale and the next gener...
The objective of the PRACE-4IP Work Package 7 (WP7) ‘Application Enabling and Support’ is to provide...