High performance computing is approaching a potentially significant change in architectural design. With pressures on the cost and sheer amount of power, additional architectural features are emerging which require a re-think to the programming models deployed over the last two decades. Today's emerging high performance computing (HPC) systems are maximising performance per unit of power consumed resulting in the constituent parts of the system to be made up of a range of different specialised building blocks, each with their own purpose. This heterogeneity is not just limited to the hardware components but also in the mechanisms that exploit the hardware components. These multiple levels of parallelism, instruction sets and memory hier...
Preprint arXiv:1603.01407The paper is concerned with the issue of how software systems actually use ...
Over the last several decades we have witnessed tremendous change in the landscape of computer archi...
The increasing heterogeneity of computing systems enables higher performance and power efficiency. H...
Accelerator-enhanced computing platforms have drawn a lot of attention due to their massive peak com...
Modern HPC systems are becoming increasingly heterogeneous, affecting all components of HPC systems,...
The Transparent heterogeneous hardware Architecture deployment for eNergy Gain in Operation (TANGO) ...
Current supercomputer development trends present severe challenges for scientific codebases. Moore’s...
We review possible and probable industrial applications of HPCC focusing on the software and hardwar...
White paperInternational audienceAs HPC hardware continues to evolve and diversify and workloads bec...
International audienceComputing systems with a large number of processing units are increasingly com...
The computational resources required in scientific research for key areas, such as medicine, physics...
Moore’s Law, which stated that “the complexity for minimum component costs has increased at a rate o...
While architectures and programming models have remained relatively stable for almost two decades, n...
Since 2006, we have been experiencing two very important developments in computing. One is that trem...
Heterogeneous many-cores are now an integral part of modern computing systems ranging from embedding...
Preprint arXiv:1603.01407The paper is concerned with the issue of how software systems actually use ...
Over the last several decades we have witnessed tremendous change in the landscape of computer archi...
The increasing heterogeneity of computing systems enables higher performance and power efficiency. H...
Accelerator-enhanced computing platforms have drawn a lot of attention due to their massive peak com...
Modern HPC systems are becoming increasingly heterogeneous, affecting all components of HPC systems,...
The Transparent heterogeneous hardware Architecture deployment for eNergy Gain in Operation (TANGO) ...
Current supercomputer development trends present severe challenges for scientific codebases. Moore’s...
We review possible and probable industrial applications of HPCC focusing on the software and hardwar...
White paperInternational audienceAs HPC hardware continues to evolve and diversify and workloads bec...
International audienceComputing systems with a large number of processing units are increasingly com...
The computational resources required in scientific research for key areas, such as medicine, physics...
Moore’s Law, which stated that “the complexity for minimum component costs has increased at a rate o...
While architectures and programming models have remained relatively stable for almost two decades, n...
Since 2006, we have been experiencing two very important developments in computing. One is that trem...
Heterogeneous many-cores are now an integral part of modern computing systems ranging from embedding...
Preprint arXiv:1603.01407The paper is concerned with the issue of how software systems actually use ...
Over the last several decades we have witnessed tremendous change in the landscape of computer archi...
The increasing heterogeneity of computing systems enables higher performance and power efficiency. H...