To achieve high performance and high energy efficiency on near-future exascale computing systems, three key technology gaps needs to be bridged. These gaps include: energy efficiency and thermal control; extreme computation efficiency via HW acceleration and new arithmetics; methods and tools for seamless integration of reconfigurable accelerators in heterogeneous HPC multi-node platforms. TEXTAROSSA aims at tackling this gap through a co-design approach to heterogeneous HPC solutions, supported by the integration and extension of HW and SW IPs, programming models and tools derived from European research
The US, Europe, Japan and China are racing to develop the next generation of supercomputers – exasca...
The transition to Exascale computing is going to be characterised by an increased range of applicati...
International audienceExascale implies a major pre-requisite in terms of energy efficiency, as an im...
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...
The US, Europe, Japan and China are racing to develop the next generation of supercomputers – exasca...
The transition to Exascale computing is going to be characterised by an increased range of applicati...
International audienceExascale implies a major pre-requisite in terms of energy efficiency, as an im...
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...
The US, Europe, Japan and China are racing to develop the next generation of supercomputers – exasca...
The transition to Exascale computing is going to be characterised by an increased range of applicati...
International audienceExascale implies a major pre-requisite in terms of energy efficiency, as an im...