We try to establish some elementary scaling laws of performance and price-performance ratio, in order to shed some light on the long-term sustainability of purpose-developed massively-parallel LGT processors
Large scale QCD Monte Carlo calculations have typically been performed on either commercial supercom...
I introduce the BlueGene/Q supercomputer design, with an emphasis on features that enhance QCD perfo...
We give an overview of the QPACE project, which is pursuing the development of a massively parallel,...
We explore the opportunities offered by current and forthcoming VLSI technologies to on-chip multipr...
We review the architecture of massively parallel machines used for lattice QCD simulations and prese...
This paper is a slightly modified and reduced version of the proposal of the {\bf apeNEXT} project, ...
Numerical simulations of theories describing the interaction of elementary particles are a key appr...
I am going to highlight recent progress in cluster computer technology and to assess status and pros...
The study and design of a very ambitious petaflop cluster exclusively dedicated to Lattice QCD simul...
Over the last 20 years, the computing revolution has created many social benefits. The computing ene...
Large-scale simulations of Quantum Chromodynamics (QCD) which were performed on different parallel h...
The study of Quantum Chromodynamics (QCD) remains one of the most challenging topics in elementary p...
6 pages, 5 figures; version as presented at High Performance Computing and Simulation, HPCS 2016Latt...
The theory of the strong nuclear force, Quantum Chromodynamics (QCD), can be numerically simulated f...
COKA plans to study possible ways to efficiently use up-coming Intel many-core MIC architectures for...
Large scale QCD Monte Carlo calculations have typically been performed on either commercial supercom...
I introduce the BlueGene/Q supercomputer design, with an emphasis on features that enhance QCD perfo...
We give an overview of the QPACE project, which is pursuing the development of a massively parallel,...
We explore the opportunities offered by current and forthcoming VLSI technologies to on-chip multipr...
We review the architecture of massively parallel machines used for lattice QCD simulations and prese...
This paper is a slightly modified and reduced version of the proposal of the {\bf apeNEXT} project, ...
Numerical simulations of theories describing the interaction of elementary particles are a key appr...
I am going to highlight recent progress in cluster computer technology and to assess status and pros...
The study and design of a very ambitious petaflop cluster exclusively dedicated to Lattice QCD simul...
Over the last 20 years, the computing revolution has created many social benefits. The computing ene...
Large-scale simulations of Quantum Chromodynamics (QCD) which were performed on different parallel h...
The study of Quantum Chromodynamics (QCD) remains one of the most challenging topics in elementary p...
6 pages, 5 figures; version as presented at High Performance Computing and Simulation, HPCS 2016Latt...
The theory of the strong nuclear force, Quantum Chromodynamics (QCD), can be numerically simulated f...
COKA plans to study possible ways to efficiently use up-coming Intel many-core MIC architectures for...
Large scale QCD Monte Carlo calculations have typically been performed on either commercial supercom...
I introduce the BlueGene/Q supercomputer design, with an emphasis on features that enhance QCD perfo...
We give an overview of the QPACE project, which is pursuing the development of a massively parallel,...