The ExaNeSt project started on December 2015 and is funded by EU H2020 research framework (call H2020-FETHPC-2014, n. 671553) to study the adoption of low-cost, Linux-based power-efficient 64-bit ARM processors clusters for Exascale-class systems. The ExaNeSt consortium pools partners with industrial and academic research expertise in storage, interconnects and applications that share a vision of an European Exascale-class supercomputer. Their goal is designing and implementing a physical rack prototype together with its cooling system, the storage non-volatile memory (NVM) architecture and a low-latency interconnect able to test different options for interconnection and storage. Furthermore, the consortium is to provide real HPC applicatio...
International audienceExascale implies a major pre-requisite in terms of energy efficiency, as an im...
The first Exaflop-capable systems will be installed in the USA and China beginning in 2020. Europe i...
With more and more machines achieving petascale capabilities, the focus is shifting towards the next...
The ExaNeSt project started on December 2015 and is funded by EU H2020 research framework (call H202...
The ExaNeSt project started on December 2015 and is funded by EU H2020 research framework (call H202...
ExaNest is one of three European projects that support a ground-breaking computing architecture for ...
With processor architecture evolution, the HPC market has undergone a paradigm shift. The adoption o...
The deployment of the next generation computing platform at ExaFlops scale requires to solve new tec...
Power consumption and high compute density are the key factors to be considered when building a comp...
Developing a computer system that can deliver sustained Exaflop performance is an extremely difficul...
The ASC Exascale Hardware Architecture working group is challenged to provide input on the following...
EuroEXA is a major European FET research initiative that aims to deliver a proof-of-concept of a nex...
International audienceExascale implies a major pre-requisite in terms of energy efficiency, as an im...
The first Exaflop-capable systems will be installed in the USA and China beginning in 2020. Europe i...
With more and more machines achieving petascale capabilities, the focus is shifting towards the next...
The ExaNeSt project started on December 2015 and is funded by EU H2020 research framework (call H202...
The ExaNeSt project started on December 2015 and is funded by EU H2020 research framework (call H202...
ExaNest is one of three European projects that support a ground-breaking computing architecture for ...
With processor architecture evolution, the HPC market has undergone a paradigm shift. The adoption o...
The deployment of the next generation computing platform at ExaFlops scale requires to solve new tec...
Power consumption and high compute density are the key factors to be considered when building a comp...
Developing a computer system that can deliver sustained Exaflop performance is an extremely difficul...
The ASC Exascale Hardware Architecture working group is challenged to provide input on the following...
EuroEXA is a major European FET research initiative that aims to deliver a proof-of-concept of a nex...
International audienceExascale implies a major pre-requisite in terms of energy efficiency, as an im...
The first Exaflop-capable systems will be installed in the USA and China beginning in 2020. Europe i...
With more and more machines achieving petascale capabilities, the focus is shifting towards the next...