The investigation of strongly interacting matter and its implications is one of the big challenges in modern physics. It is also a big challenge for computational science and for supercomputers especially, because many of very interesting aspects can only be studied numerically, using time consuming Monte Carlo simulations with large memory requirements. At KFA we supported a QCD-project of the Höchstleistungsrechenzentrum (HLRZ), an institution founded by the three german research centers KFA, GMD and DESY. In May 1989 the scientific council of the HLRZ decided to grant this QCD-project, called MTc-project, and to make about 20,000 CPU-hours on the CRAY Y-MP8/832 available to their investigations in one year. This project size makes it nec...
KNECHT S, Laermann E, NAGEL WE. PARALLELIZING QCD WITH DYNAMIC FERMIONS ON A CRAY MULTIPROCESSOR SYS...
Recently a number of advanced architecture machines have become commercially available. These new ma...
Determining the subset of points (particles) in a problem domain that are contained within certain s...
Quantum Chromodynamics, the theory of the nuclear forces, is simulated on a space-time lattice by me...
KFA Jülich is one of the largest big-science research centers in Europe. At KFA, computational scien...
At KFA - and in particular enforced by ZAM - supercomputing and parallel processing for computationa...
The standardized-maximalist approach to supercom-puter benchmarking consists in optimizing a standar...
International audienceThe study and design of a very ambitious petaflop cluster exclusively dedicate...
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...
In June 1996 the Leibniz Computing Center (LRZ) installed a new Cray T90 parallel vector computer. L...
We estimate that a novel architecture massively parallel computer, the QCDOC, can integrate molecula...
Large scale QCD Monte Carlo calculations have typically been performed on either commercial supercom...
On August 15, 2002 the Department of Energy (DOE) selected the Center for Computational Sciences (C...
KNECHT S, Laermann E, NAGEL WE. PARALLELIZING QCD WITH DYNAMIC FERMIONS ON A CRAY MULTIPROCESSOR SYS...
Recently a number of advanced architecture machines have become commercially available. These new ma...
Determining the subset of points (particles) in a problem domain that are contained within certain s...
Quantum Chromodynamics, the theory of the nuclear forces, is simulated on a space-time lattice by me...
KFA Jülich is one of the largest big-science research centers in Europe. At KFA, computational scien...
At KFA - and in particular enforced by ZAM - supercomputing and parallel processing for computationa...
The standardized-maximalist approach to supercom-puter benchmarking consists in optimizing a standar...
International audienceThe study and design of a very ambitious petaflop cluster exclusively dedicate...
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...
In June 1996 the Leibniz Computing Center (LRZ) installed a new Cray T90 parallel vector computer. L...
We estimate that a novel architecture massively parallel computer, the QCDOC, can integrate molecula...
Large scale QCD Monte Carlo calculations have typically been performed on either commercial supercom...
On August 15, 2002 the Department of Energy (DOE) selected the Center for Computational Sciences (C...
KNECHT S, Laermann E, NAGEL WE. PARALLELIZING QCD WITH DYNAMIC FERMIONS ON A CRAY MULTIPROCESSOR SYS...
Recently a number of advanced architecture machines have become commercially available. These new ma...
Determining the subset of points (particles) in a problem domain that are contained within certain s...