A suite of thirteen large Fortran benchmark codes were run on Cray-2 and Cray X-MP supercomputers. These codes were a mix of compute-intensive scientific application programs (mostly Computational Fluid Dynamics) and some special vectorized computation exercise programs. For the general class of programs tested on the Cray-2, most of which were not specially tuned for speed, the floating point operation rates varied under a variety of system load configurations from 40 percent up to 125 percent of X-MP performance rates. It is concluded that the Cray-2, in the original system configuration studied (without memory pseudo-banking) will run untuned Fortran code, on average, about 70 percent of X-MP speeds
This paper describes investigations on the memory performance of the shared memory systems Cray X-MP...
The growing gap between sustained and peak performance for full-scale complex scientific applicatio...
A considerable volume of large computational computer codes were developed for NASA over the past tw...
A suite of 13 large Fortran benchmark codes were run on a Cray-2 configured with memory pseudo-banki...
The fast Fourier transform (FFT) kernel of the NAS benchmark program has been utilized to experiment...
The methodology is described for converting a large, long-running applications code that executed on...
Five benchmark programs were obtained and run on the NASA Lewis CRAY X-MP/24. A comparison was made ...
This report compares the performance of Control Data Corporation's newest supercomputer, the Cyber-2...
This paper will discuss one of these automatic tools that has been developed recently by Cray Resear...
The Advanced Scientific Computers Project of Argonne's Applied Mathematics Division has two objectiv...
In this whitepaper we report work that was done to investigate and improve the performance of a mixe...
A series of experiments has been run to examine the floating-point performance of FORTRAN programs o...
We describe our experiences in repeated cycles of performance optimization, benchmarking, and perfor...
We present a new scheme for evaluating the performance of multithreaded computers and demonstrate it...
During the last decade the scientific computing community has optimized many applications for execu...
This paper describes investigations on the memory performance of the shared memory systems Cray X-MP...
The growing gap between sustained and peak performance for full-scale complex scientific applicatio...
A considerable volume of large computational computer codes were developed for NASA over the past tw...
A suite of 13 large Fortran benchmark codes were run on a Cray-2 configured with memory pseudo-banki...
The fast Fourier transform (FFT) kernel of the NAS benchmark program has been utilized to experiment...
The methodology is described for converting a large, long-running applications code that executed on...
Five benchmark programs were obtained and run on the NASA Lewis CRAY X-MP/24. A comparison was made ...
This report compares the performance of Control Data Corporation's newest supercomputer, the Cyber-2...
This paper will discuss one of these automatic tools that has been developed recently by Cray Resear...
The Advanced Scientific Computers Project of Argonne's Applied Mathematics Division has two objectiv...
In this whitepaper we report work that was done to investigate and improve the performance of a mixe...
A series of experiments has been run to examine the floating-point performance of FORTRAN programs o...
We describe our experiences in repeated cycles of performance optimization, benchmarking, and perfor...
We present a new scheme for evaluating the performance of multithreaded computers and demonstrate it...
During the last decade the scientific computing community has optimized many applications for execu...
This paper describes investigations on the memory performance of the shared memory systems Cray X-MP...
The growing gap between sustained and peak performance for full-scale complex scientific applicatio...
A considerable volume of large computational computer codes were developed for NASA over the past tw...