During the last 15 years, the supercomputing industry has been using mass-produced, off-the-shelf components to build cluster computers. Such components are not perfect for HPC purposes, but are cheap due to effect of scale in their production. The coming exa-scale era changes the land-scape: exa-scale computers will contain components in quan-tities large enough to justify their custom development and production. We propose a new heterogeneous processor, equipped with a network controller and designed specifically for HPC. We then show how it can be used for enterprise computing mar-ket, guaranteeing its widespread adoption and therefore low production costs
In this work, the concept of a network-attached accelerator was developed. This novel node type con...
This project aims to construct a non-dedicated, high performance PC cluster using an advanced networ...
High-performance computing (HPC) is recognized as one of the pillars for further progress in science...
With processor architecture evolution, the HPC market has undergone a paradigm shift. The adoption o...
The way in which HPC systems are built has changed over the decades. Originally, special purpose com...
Abstract—Most of today's important computational problems require hundreds of thousands of CPU ...
As commodity microprocessors and networks reach performance levels comparable to those used in massi...
The transition to Exascale computing is going to be characterised by an increased range of applicati...
High-performance computing (HPC) increasingly relies on heterogeneous architectures to achieve highe...
The US, Europe, Japan and China are racing to develop the next generation of supercomputers – exasca...
High-performance computing (HPC) increasingly relies on heterogeneous architectures to achieve highe...
Our long-term goal is to investigate the potential of multicomputers constructed of commercial, off-...
International audienceComputing systems with a large number of processing units are increasingly com...
Accelerators arrived to HPC when the power bill for achieving Flop performance with traditional, hom...
www.warftindia.org Abstract—Increasing computational demand has stirred node architectures to move t...
In this work, the concept of a network-attached accelerator was developed. This novel node type con...
This project aims to construct a non-dedicated, high performance PC cluster using an advanced networ...
High-performance computing (HPC) is recognized as one of the pillars for further progress in science...
With processor architecture evolution, the HPC market has undergone a paradigm shift. The adoption o...
The way in which HPC systems are built has changed over the decades. Originally, special purpose com...
Abstract—Most of today's important computational problems require hundreds of thousands of CPU ...
As commodity microprocessors and networks reach performance levels comparable to those used in massi...
The transition to Exascale computing is going to be characterised by an increased range of applicati...
High-performance computing (HPC) increasingly relies on heterogeneous architectures to achieve highe...
The US, Europe, Japan and China are racing to develop the next generation of supercomputers – exasca...
High-performance computing (HPC) increasingly relies on heterogeneous architectures to achieve highe...
Our long-term goal is to investigate the potential of multicomputers constructed of commercial, off-...
International audienceComputing systems with a large number of processing units are increasingly com...
Accelerators arrived to HPC when the power bill for achieving Flop performance with traditional, hom...
www.warftindia.org Abstract—Increasing computational demand has stirred node architectures to move t...
In this work, the concept of a network-attached accelerator was developed. This novel node type con...
This project aims to construct a non-dedicated, high performance PC cluster using an advanced networ...
High-performance computing (HPC) is recognized as one of the pillars for further progress in science...