To handle the stringent performance requirements of future exascale-class applications, High Performance Computing (HPC) systems need ultra-efficient heterogeneous compute nodes. To reduce power and increase performance, such compute nodes will require hardware accelerators with a high degree of specialization. Ideally, dynamic reconfiguration will be an intrinsic feature, so that specific HPC application features can be optimally accelerated, even if they regularly change over time. In the EXTRA project, we create a new and flexible exploration platform for developing reconfigurable architectures, design tools and HPC applications with run-time reconfiguration built-in as a core fundamental feature instead of an add-on. EXTRA covers the en...
The FASTER project aims to ease the definition, implementation and use of dynamically changing hardw...
Abstract—The FASTER project aims to ease the definition, implementation and use of dynamically chang...
In order to reach exascale performance, current HPC systems need to be improved. Simple hardware sca...
To handle the stringent performance requirements of future exascale-class applications, High Perform...
To handle the stringent performance requirements of future exascale-class applications, High Perform...
To handle the stringent performance requirements of future exascale-class applications, High Perform...
As the power wall has become one of the main limiting factors for the performance of general purpose...
Reconfigurable hardware is becoming increasingly mainstream, evolving to a valid alternative to Grap...
Exascale computation is the next target of high performance computing. In the push to create exascal...
Developing a computer system that can deliver sustained Exaflop performance is an extremely difficul...
The transition to Exascale computing is going to be characterised by an increased range of applicati...
The FASTER project aims to ease the definition, implementation and use of dynamically changing hardw...
Abstract—The FASTER project aims to ease the definition, implementation and use of dynamically chang...
In order to reach exascale performance, current HPC systems need to be improved. Simple hardware sca...
To handle the stringent performance requirements of future exascale-class applications, High Perform...
To handle the stringent performance requirements of future exascale-class applications, High Perform...
To handle the stringent performance requirements of future exascale-class applications, High Perform...
As the power wall has become one of the main limiting factors for the performance of general purpose...
Reconfigurable hardware is becoming increasingly mainstream, evolving to a valid alternative to Grap...
Exascale computation is the next target of high performance computing. In the push to create exascal...
Developing a computer system that can deliver sustained Exaflop performance is an extremely difficul...
The transition to Exascale computing is going to be characterised by an increased range of applicati...
The FASTER project aims to ease the definition, implementation and use of dynamically changing hardw...
Abstract—The FASTER project aims to ease the definition, implementation and use of dynamically chang...
In order to reach exascale performance, current HPC systems need to be improved. Simple hardware sca...