The Advanced Scientific Computers Project of Argonne's Applied Mathematics Division has two objectives: to evaluate supercomputers and to determine their effect on Argonne's computing workload. Initial efforts have focused on the CRAY-1, which is the only advanced computer currently available. Users from seven Argonne divisions executed test programs on the CRAY and made performance comparisons with the IBM 370/195 at Argonne. This report describes these experiences and discusses various techniques for improving run times on the CRAY. Direct translations of code from scalar to vector processor reduced running times as much as two-fold, and this reduction will become more pronounced as the CRAY compiler is developed. Further improvement (two...
Problems which can arise with vector and parallel computers are discussed in a user oriented context...
Argonne National Laboratory founded the Laboratory Computing Resource Center in the spring of 2002 t...
Today, most of the Cray multiprocessor systems are still used within a multiprogramming environment....
Argonne National Laboratory (ANL) is engaged in a project to determine the impact of advanced scient...
This paper will discuss one of these automatic tools that has been developed recently by Cray Resear...
This report compares the performance of Control Data Corporation's newest supercomputer, the Cyber-2...
On August 15, 2002 the Department of Energy (DOE) selected the Center for Computational Sciences (C...
Recently a number of advanced architecture machines have become commercially available. These new ma...
Modern supercomputers like the CRAY Y-MP achieve their high computing speed by using both vector and...
THE THERMOHYDRAULIC REACTOR SAFETY CODE DRUFAN HAS BEEN CONVERTED TO RUN ON A CRAY COMPUTER. IT W...
A suite of thirteen large Fortran benchmark codes were run on Cray-2 and Cray X-MP supercomputers. T...
ABSTRACT: In this paper, we describe how to write efficient, parallel codes for the Cray XMTTM syste...
We carry out a performance study using the Cray T3D parallel supercomputer to illustrate some import...
The standardized-maximalist approach to supercom-puter benchmarking consists in optimizing a standar...
Argonne National Laboratory founded the Laboratory Computing Resource Center (LCRC) in the spring of...
Problems which can arise with vector and parallel computers are discussed in a user oriented context...
Argonne National Laboratory founded the Laboratory Computing Resource Center in the spring of 2002 t...
Today, most of the Cray multiprocessor systems are still used within a multiprogramming environment....
Argonne National Laboratory (ANL) is engaged in a project to determine the impact of advanced scient...
This paper will discuss one of these automatic tools that has been developed recently by Cray Resear...
This report compares the performance of Control Data Corporation's newest supercomputer, the Cyber-2...
On August 15, 2002 the Department of Energy (DOE) selected the Center for Computational Sciences (C...
Recently a number of advanced architecture machines have become commercially available. These new ma...
Modern supercomputers like the CRAY Y-MP achieve their high computing speed by using both vector and...
THE THERMOHYDRAULIC REACTOR SAFETY CODE DRUFAN HAS BEEN CONVERTED TO RUN ON A CRAY COMPUTER. IT W...
A suite of thirteen large Fortran benchmark codes were run on Cray-2 and Cray X-MP supercomputers. T...
ABSTRACT: In this paper, we describe how to write efficient, parallel codes for the Cray XMTTM syste...
We carry out a performance study using the Cray T3D parallel supercomputer to illustrate some import...
The standardized-maximalist approach to supercom-puter benchmarking consists in optimizing a standar...
Argonne National Laboratory founded the Laboratory Computing Resource Center (LCRC) in the spring of...
Problems which can arise with vector and parallel computers are discussed in a user oriented context...
Argonne National Laboratory founded the Laboratory Computing Resource Center in the spring of 2002 t...
Today, most of the Cray multiprocessor systems are still used within a multiprogramming environment....