Sparse solvers provide essential functionality for a wide variety of scientific applications. Highly parallel sparse solvers are essential for continuing advances in high-fidelity, multi-physics and multi-scale simulations, especially as we target exascale platforms. This paper describes the challenges, strategies and progress of the US Department of Energy Exascale Computing project towards providing sparse solvers for exascale computing platforms. We address the demands of systems with thousands of high-performance node devices where exposing concurrency, hiding latency and creating alternative algorithms become essential. The efforts described here are works in progress, highlighting current success and upcoming challenges. This article ...
International audienceExtreme scale parallel computing systems will have tens of thousands ...
Abstract Efficiently solving large sparse linear systems on loosely coupled net-works of computers i...
Many petascale and exascale scientific simulations involve the time evolution of systems modelled as...
Sparse solvers provide essential functionality for a wide variety of scientific applications. Highly...
As we approach the Exascale computing era, disruptive changes in the software landscape are required...
Nowadays, the most powerful supercomputers in the world, needed for solving complex models and simu...
The ESSEX project is funded by the German DFG priority programme 1648 Software for Exascale Computin...
From the Foreword: “The authors of the chapters in this book are the pioneers who will explore the e...
became operational in 1997, and it took more than 11 years for a Petaflop/s performance machine, the...
This book describes algorithmic methods and parallelization techniques to design a parallel sparse d...
The next generation of supercomputers will break the exascale barrier. Soon we will have systems cap...
TOPS is providing high-performance, scalable sparse direct solvers, which have had significant impac...
As simulation and analytics enter the exascale era, numerical algorithms, particularly implicit solv...
The Petascale Computing Enabling Technologies (PCET) project addressed challenges arising from curre...
c © The Authors 2015. This paper is published with open access at SuperFri.org Extreme scale paralle...
International audienceExtreme scale parallel computing systems will have tens of thousands ...
Abstract Efficiently solving large sparse linear systems on loosely coupled net-works of computers i...
Many petascale and exascale scientific simulations involve the time evolution of systems modelled as...
Sparse solvers provide essential functionality for a wide variety of scientific applications. Highly...
As we approach the Exascale computing era, disruptive changes in the software landscape are required...
Nowadays, the most powerful supercomputers in the world, needed for solving complex models and simu...
The ESSEX project is funded by the German DFG priority programme 1648 Software for Exascale Computin...
From the Foreword: “The authors of the chapters in this book are the pioneers who will explore the e...
became operational in 1997, and it took more than 11 years for a Petaflop/s performance machine, the...
This book describes algorithmic methods and parallelization techniques to design a parallel sparse d...
The next generation of supercomputers will break the exascale barrier. Soon we will have systems cap...
TOPS is providing high-performance, scalable sparse direct solvers, which have had significant impac...
As simulation and analytics enter the exascale era, numerical algorithms, particularly implicit solv...
The Petascale Computing Enabling Technologies (PCET) project addressed challenges arising from curre...
c © The Authors 2015. This paper is published with open access at SuperFri.org Extreme scale paralle...
International audienceExtreme scale parallel computing systems will have tens of thousands ...
Abstract Efficiently solving large sparse linear systems on loosely coupled net-works of computers i...
Many petascale and exascale scientific simulations involve the time evolution of systems modelled as...