It is shown that the 21264 Alpha processor can reach about 20% sustained efficiency for the inversion of the Wilson-Dirac operator. Since fast ethernet is not sufficient to get balancing between computation and communication on reasonable lattice- and system-sizes, an interconnection using Myrinet is discussed. We find a price/performance ratio comparable with state-of-the-art SIMD-systems for lattice QCD
Developed by the APE group, APENet is a new high speed, low latency, 3-dimensional interconnect arch...
We compare the performance of a simulation code for lattice quantum electrodynamics, running on the ...
This paper is a slightly modified and reduced version of the proposal of the {\bf apeNEXT} project, ...
Using commodity component personal computers based on Alpha processor and commodity network devices ...
Lattice Gauge Theory is an integral part of particle physics that requires high performance computin...
A status report is given of the QCDOC project, a massively parallel computer optimized for lattice Q...
Current PC processors are equipped with vector processing units and have other advanced features tha...
Motivated by the computational demands of our research and budgetary constraints which are common to...
Abstract. Lattice QuantumChromodynamics (LQCD) is currently the only known model independent, non pe...
This paper describes a state-of-the-art parallel Lattice QCD Monte Carlo code for staggered fermions...
A PC-based parallel computer for medium/large scale lattice QCD simulations is suggested. The Eoetvo...
The study and design of a very ambitious petaflop cluster exclusively dedicated to Lattice QCD simul...
Numerical simulations in theoretical high-energy physics (Lattice QCD) require huge computing resour...
I highlight recent progress in cluster computer technology and assess status and prospects of cluste...
The theory of the strong nuclear force, Quantum Chromodynamics (QCD), can be numerically simulated f...
Developed by the APE group, APENet is a new high speed, low latency, 3-dimensional interconnect arch...
We compare the performance of a simulation code for lattice quantum electrodynamics, running on the ...
This paper is a slightly modified and reduced version of the proposal of the {\bf apeNEXT} project, ...
Using commodity component personal computers based on Alpha processor and commodity network devices ...
Lattice Gauge Theory is an integral part of particle physics that requires high performance computin...
A status report is given of the QCDOC project, a massively parallel computer optimized for lattice Q...
Current PC processors are equipped with vector processing units and have other advanced features tha...
Motivated by the computational demands of our research and budgetary constraints which are common to...
Abstract. Lattice QuantumChromodynamics (LQCD) is currently the only known model independent, non pe...
This paper describes a state-of-the-art parallel Lattice QCD Monte Carlo code for staggered fermions...
A PC-based parallel computer for medium/large scale lattice QCD simulations is suggested. The Eoetvo...
The study and design of a very ambitious petaflop cluster exclusively dedicated to Lattice QCD simul...
Numerical simulations in theoretical high-energy physics (Lattice QCD) require huge computing resour...
I highlight recent progress in cluster computer technology and assess status and prospects of cluste...
The theory of the strong nuclear force, Quantum Chromodynamics (QCD), can be numerically simulated f...
Developed by the APE group, APENet is a new high speed, low latency, 3-dimensional interconnect arch...
We compare the performance of a simulation code for lattice quantum electrodynamics, running on the ...
This paper is a slightly modified and reduced version of the proposal of the {\bf apeNEXT} project, ...