The DEEP projects have developed a variety of hardware and software technologies aiming at improving the efficiency and usability of next generation high-performance computers. They evolve around an innovative concept for heterogeneous systems: the Cluster-Booster architecture. In it, a general purpose cluster is tightly coupled to a many-core system (the Booster). This modular way of integrating heterogeneous components enables applications to freely choose the kind of computing resources on which it runs most efficiently. Codes might even be partitioned to map specific requirements of codeparts onto the best suited hardware. This paper presents for the first time measurements done by a real world scientific application demonstrating the p...
Heterogeneous clusters that include accelerators have become more common in the realm of high perfor...
There are a number of challenges facing the High Performance Computing (HPC) community, including in...
The current state and foreseeable future of high performance scientific computing (HPC) can be descr...
Striving at pushing the applications scalability to the limits, the DEEP project proposed an alterna...
Homogeneous cluster architectures dominating high-performance computing (HPC) today are challenged, ...
Homogeneous cluster architectures, which used to dominate high-performance computing (HPC), are chal...
Cluster computers are dominating high-performance computing (HPC) today. The success of this archite...
On the way to explore the path to Exascale, the DEEP/-ER projects take a radically different approac...
Cluster computers are dominating high performance computing (HPC) today. The success of this archite...
The recently completed research project DEEP-ER has developed a variety of hardware and software tec...
The way in which HPC systems are built has changed over the decades. Originally, special purpose com...
The European Dynamical Exascale Entry Platform (DEEP) is an example of a new type of heterogeneous s...
On the way towards Exascale the needed hardware for supercomputing is struggling to keep delivering ...
The DEEP (Dynamical Exascale Entry Platform) project aims to provide a first implementation of a nov...
Accelerators arrived to HPC when the power bill for achieving Flop performance with traditional, hom...
Heterogeneous clusters that include accelerators have become more common in the realm of high perfor...
There are a number of challenges facing the High Performance Computing (HPC) community, including in...
The current state and foreseeable future of high performance scientific computing (HPC) can be descr...
Striving at pushing the applications scalability to the limits, the DEEP project proposed an alterna...
Homogeneous cluster architectures dominating high-performance computing (HPC) today are challenged, ...
Homogeneous cluster architectures, which used to dominate high-performance computing (HPC), are chal...
Cluster computers are dominating high-performance computing (HPC) today. The success of this archite...
On the way to explore the path to Exascale, the DEEP/-ER projects take a radically different approac...
Cluster computers are dominating high performance computing (HPC) today. The success of this archite...
The recently completed research project DEEP-ER has developed a variety of hardware and software tec...
The way in which HPC systems are built has changed over the decades. Originally, special purpose com...
The European Dynamical Exascale Entry Platform (DEEP) is an example of a new type of heterogeneous s...
On the way towards Exascale the needed hardware for supercomputing is struggling to keep delivering ...
The DEEP (Dynamical Exascale Entry Platform) project aims to provide a first implementation of a nov...
Accelerators arrived to HPC when the power bill for achieving Flop performance with traditional, hom...
Heterogeneous clusters that include accelerators have become more common in the realm of high perfor...
There are a number of challenges facing the High Performance Computing (HPC) community, including in...
The current state and foreseeable future of high performance scientific computing (HPC) can be descr...