EuroEXA is a major European FET research initiative that aims to deliver a proof-of-concept of a next generation Exa-scalable HPC platform. EuroEXA leverages on previous projects results (ExaNeSt, ExaNoDe and ECOSCALE) to design a medium scale but scalable, fully working HPC system prototype exploiting state-of-the-art FPGA devices that integrate compute accelerators and low-latency high-throughputnetwork. Exascale-class systems are expected to host a very large number of computing nodes, from 104 up to 105, so that capability and performances of the interconnect architecture are critical to achieve high computing efficiency at this scale. In this perspective, EuroEXA enhances the ExaNet architecture, inherited by the ExaNeSt project, and i...
Abstract. Modern Graphics Processing Units (GPUs) are now considered accelerators for general purpos...
To achieve high performance and high energy efficiency on near-future exascale computing systems, th...
In the near future, Exascale systems will need to bridge three technology gaps to achieve high perfo...
EuroEXA is a major European FET research initiative that aims to deliver a proof-of-concept of a nex...
Nowadays, a number of technology R&D activities has been launched in Europe trying to close the gap ...
The deployment of the next generation computing platform at ExaFlops scale requires to solve new tec...
EuroEXA targets to provide the template for an upcoming exascale system by co-designing and implemen...
EuroEXA targets to provide the template for an upcoming exascale system by co-designing and implemen...
Performance of HPC systems has risen steadily. While the 10 Petaflop/s barrier has been breached in ...
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 ...
The ExaNeSt project started on December 2015 and is funded by EU H2020 research framework (call H202...
Reconfigurable computing platforms are emerging as the most promising architectures to design genera...
To handle the stringent performance requirements of future exascale-class applications, High Perform...
Abstract. Modern Graphics Processing Units (GPUs) are now considered accelerators for general purpos...
To achieve high performance and high energy efficiency on near-future exascale computing systems, th...
In the near future, Exascale systems will need to bridge three technology gaps to achieve high perfo...
EuroEXA is a major European FET research initiative that aims to deliver a proof-of-concept of a nex...
Nowadays, a number of technology R&D activities has been launched in Europe trying to close the gap ...
The deployment of the next generation computing platform at ExaFlops scale requires to solve new tec...
EuroEXA targets to provide the template for an upcoming exascale system by co-designing and implemen...
EuroEXA targets to provide the template for an upcoming exascale system by co-designing and implemen...
Performance of HPC systems has risen steadily. While the 10 Petaflop/s barrier has been breached in ...
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 ...
The ExaNeSt project started on December 2015 and is funded by EU H2020 research framework (call H202...
Reconfigurable computing platforms are emerging as the most promising architectures to design genera...
To handle the stringent performance requirements of future exascale-class applications, High Perform...
Abstract. Modern Graphics Processing Units (GPUs) are now considered accelerators for general purpos...
To achieve high performance and high energy efficiency on near-future exascale computing systems, th...
In the near future, Exascale systems will need to bridge three technology gaps to achieve high perfo...