The recently completed research project DEEP-ER has developed a variety of hardware and software technologies to improve the I/O capabilities of next generation high-performance computers, and to enable applications recovering from the larger hardware failure rates expected on these machines.The heterogeneous Cluster-Booster architecture – first introduced in the predecessor DEEP project – has been extended by a multi-level memory hierarchy employing non-volatile and network-attached memory devices. Based on this hardware infrastructure, an I/O and resiliency software stack has been implemented combining and extending well established libraries and software tools, and sticking to standard user-interfaces. Realworld scientific codes have tes...
On the way towards Exascale the needed hardware for supercomputing is struggling to keep delivering ...
Cluster computers are dominating high-performance computing (HPC) today. The success of this archite...
International audienceIn this paper, we report on our recent efforts towards adapting a Discon-tinuo...
The recently completed research project DEEP-ER has developed a variety of hardware and software tec...
Resiliency and I/O are two major challenges faced in High Performance Computing when considering bui...
Striving at pushing the applications scalability to the limits, the DEEP project proposed an alterna...
On the way to explore the path to Exascale, the DEEP/-ER projects take a radically different approac...
The DEEP projects have developed a variety of hardware and software technologies aiming at improving...
Accelerators arrived to HPC when the power bill for achieving Flop performance with traditional, hom...
Homogeneous cluster architectures, which used to dominate high-performance computing (HPC), are chal...
Homogeneous cluster architectures dominating high-performance computing (HPC) today are challenged, ...
The European Dynamical Exascale Entry Platform (DEEP) is an example of a new type of heterogeneous s...
The way in which HPC systems are built has changed over the decades. Originally, special purpose com...
This work was supported in part by the U.S. Department of Energy, Office of Science, Advanced Scient...
Cluster computers are dominating high performance computing (HPC) today. The success of this archite...
On the way towards Exascale the needed hardware for supercomputing is struggling to keep delivering ...
Cluster computers are dominating high-performance computing (HPC) today. The success of this archite...
International audienceIn this paper, we report on our recent efforts towards adapting a Discon-tinuo...
The recently completed research project DEEP-ER has developed a variety of hardware and software tec...
Resiliency and I/O are two major challenges faced in High Performance Computing when considering bui...
Striving at pushing the applications scalability to the limits, the DEEP project proposed an alterna...
On the way to explore the path to Exascale, the DEEP/-ER projects take a radically different approac...
The DEEP projects have developed a variety of hardware and software technologies aiming at improving...
Accelerators arrived to HPC when the power bill for achieving Flop performance with traditional, hom...
Homogeneous cluster architectures, which used to dominate high-performance computing (HPC), are chal...
Homogeneous cluster architectures dominating high-performance computing (HPC) today are challenged, ...
The European Dynamical Exascale Entry Platform (DEEP) is an example of a new type of heterogeneous s...
The way in which HPC systems are built has changed over the decades. Originally, special purpose com...
This work was supported in part by the U.S. Department of Energy, Office of Science, Advanced Scient...
Cluster computers are dominating high performance computing (HPC) today. The success of this archite...
On the way towards Exascale the needed hardware for supercomputing is struggling to keep delivering ...
Cluster computers are dominating high-performance computing (HPC) today. The success of this archite...
International audienceIn this paper, we report on our recent efforts towards adapting a Discon-tinuo...