We define a benchmark suite for lattice QCD and report on benchmark results from several computer platforms. The platforms considered are apeNEXT, CRAY T3E, Hitachi SR8000, IBM p690, PC-Clusters, and QCDOC. (orig.)Available from TIB Hannover: RA 2999(03-145) / FIZ - Fachinformationszzentrum Karlsruhe / TIB - Technische InformationsbibliothekSIGLEDEGerman
We present the APE (Array Processor Experiment) project for the development of dedicated parallel co...
An overview is given of the QCDOC architecture, a massively parallel and highly scalable computer op...
Jegerlehner F, Kenway RD, Martinelli G, et al. Requirements for high performance computing for latti...
We define a benchmark suite for lattice QCD and report on benchmark results from several computer pl...
I highlight recent progress in cluster computer technology and assess status and prospects of cluste...
We review the architecture of massively parallel machines used for lattice QCD simulations and prese...
Lattice Gauge Theory is an integral part of particle physics that requires high performance computin...
Large scale QCD Monte Carlo calculations have typically been performed on either commercial supercom...
A PC-based parallel computer for medium/large scale lattice QCD simulations is suggested. The Eoetvo...
As the Lattice QCD develops improved techniques to shed light; on new physics, it demands increa...
Benchmarking plays a central role in the evaluation of High Performance Computing architectures. Sev...
In this document we describe work done under the SciDAC-1 Project National Computerational Infrastru...
Abstract—Computing platforms equipped with accelerators like GPUs have proven to provide great compu...
operates production clusters for lattice QCD simulations. This paper will describe these clusters. T...
In October, 2016, the US Department of Energy launched the Exascale Computing Project, which aims to...
We present the APE (Array Processor Experiment) project for the development of dedicated parallel co...
An overview is given of the QCDOC architecture, a massively parallel and highly scalable computer op...
Jegerlehner F, Kenway RD, Martinelli G, et al. Requirements for high performance computing for latti...
We define a benchmark suite for lattice QCD and report on benchmark results from several computer pl...
I highlight recent progress in cluster computer technology and assess status and prospects of cluste...
We review the architecture of massively parallel machines used for lattice QCD simulations and prese...
Lattice Gauge Theory is an integral part of particle physics that requires high performance computin...
Large scale QCD Monte Carlo calculations have typically been performed on either commercial supercom...
A PC-based parallel computer for medium/large scale lattice QCD simulations is suggested. The Eoetvo...
As the Lattice QCD develops improved techniques to shed light; on new physics, it demands increa...
Benchmarking plays a central role in the evaluation of High Performance Computing architectures. Sev...
In this document we describe work done under the SciDAC-1 Project National Computerational Infrastru...
Abstract—Computing platforms equipped with accelerators like GPUs have proven to provide great compu...
operates production clusters for lattice QCD simulations. This paper will describe these clusters. T...
In October, 2016, the US Department of Energy launched the Exascale Computing Project, which aims to...
We present the APE (Array Processor Experiment) project for the development of dedicated parallel co...
An overview is given of the QCDOC architecture, a massively parallel and highly scalable computer op...
Jegerlehner F, Kenway RD, Martinelli G, et al. Requirements for high performance computing for latti...