While the HPC community is working towards the development of the first Exaflop computer (expected around 2020), after reaching the Petaflop milestone in 2008 still only few HPC applications are able to fully exploit the capabilities of Petaflop systems. In this paper we argue that efforts for preparing HPC applications for Exascale should start before such systems become available. We identify challenges that need to be addressed and recommend solutions in key areas of interest, including formal modeling, static analysis and optimization, runtime analysis and optimization, and autonomic computing. Furthermore, we outline a conceptual framework for porting HPC applications to future Exascale computing systems and propose steps for its imple...
Resilience is a major roadblock for HPC executions on future exascale systems. These systems will ty...
A continuation of Contemporary High Performance Computing: From Petascale toward Exascale, this seco...
In the near future, Exascale systems will need to bridge three technology gaps to achieve high perfo...
Abstract—While the HPC community is working towards the development of the first Exaflop computer (e...
Developing a computer system that can deliver sustained Exaflop performance is an extremely difficul...
Simulations on HPC systems have become an indispensable key technology in modern science and enginee...
HPC systems have seen impressive growth in terms of performance over a period of many years. Soon th...
Programming models bridge the gap between the underlying hardware architecture and the supporting la...
The transition to Exascale computing is going to be characterised by an increased range of applicati...
International audienceProgramming upcoming exascale computing systems is expected to be a major chal...
With more and more machines achieving petascale capabilities, the focus is shifting towards the next...
Programming upcoming exascale computing systems is expected to be a major challenge. New programming...
From the Foreword: “The authors of the chapters in this book are the pioneers who will explore the e...
International audienceThe Japanese-french project FP3C targets the post-petascale and the next gener...
PRACE-5IP Work Package 7 (WP7) ‘Applications Enabling and Support’ enables support for High Performa...
Resilience is a major roadblock for HPC executions on future exascale systems. These systems will ty...
A continuation of Contemporary High Performance Computing: From Petascale toward Exascale, this seco...
In the near future, Exascale systems will need to bridge three technology gaps to achieve high perfo...
Abstract—While the HPC community is working towards the development of the first Exaflop computer (e...
Developing a computer system that can deliver sustained Exaflop performance is an extremely difficul...
Simulations on HPC systems have become an indispensable key technology in modern science and enginee...
HPC systems have seen impressive growth in terms of performance over a period of many years. Soon th...
Programming models bridge the gap between the underlying hardware architecture and the supporting la...
The transition to Exascale computing is going to be characterised by an increased range of applicati...
International audienceProgramming upcoming exascale computing systems is expected to be a major chal...
With more and more machines achieving petascale capabilities, the focus is shifting towards the next...
Programming upcoming exascale computing systems is expected to be a major challenge. New programming...
From the Foreword: “The authors of the chapters in this book are the pioneers who will explore the e...
International audienceThe Japanese-french project FP3C targets the post-petascale and the next gener...
PRACE-5IP Work Package 7 (WP7) ‘Applications Enabling and Support’ enables support for High Performa...
Resilience is a major roadblock for HPC executions on future exascale systems. These systems will ty...
A continuation of Contemporary High Performance Computing: From Petascale toward Exascale, this seco...
In the near future, Exascale systems will need to bridge three technology gaps to achieve high perfo...