Abstract. We compare the capabilities of several commercially available, vectorizing Fortran compilers using a test suite of Fortran loops. We present the results of compiling and executing these loops on a variety of supercomputers, mini-supercomputers, and mainframes.
Vector machines are well known for their high-peak performance, but the delivered performance varies...
Vectorization support in hardware continues to expand and grow as well we still continue on supersca...
With advances in VLSI technology, it is now possible to implement vector processors on a single chip...
Report describing a collection of 100 Fortran loops used to test the effectiveness of an automatic v...
[[abstract]]In this paper, we present the design and implementation of a source-to-source High Perfo...
The need for compilers to generate highly vectorized code is at an all-time high with the increasing...
Recent extensions to the Intel ® Architecture feature the SIMD technique to enhance the performance ...
The need for compilers to generate highly vectorized code is at an all-time high with the increasing...
ABSTRACT Several multiprocessor systems are now commercially available, and advances in com-piler te...
We carried out a series of benchmark tests to know the ability of automatic parallelization of four ...
To date, programming language research has made several major contributions to the support of high s...
The recent success of vector computers like the Cray-1 and array processors such as those manufactur...
grantor: University of TorontoDesktop computers are increasingly used for DSP, multi-media...
This paper discusses the optimization and efficiency of FORTRAN programs. Efficiency and opJmization...
Newer architectures continue to expand vector sizes and increase the different number of vec-tor ins...
Vector machines are well known for their high-peak performance, but the delivered performance varies...
Vectorization support in hardware continues to expand and grow as well we still continue on supersca...
With advances in VLSI technology, it is now possible to implement vector processors on a single chip...
Report describing a collection of 100 Fortran loops used to test the effectiveness of an automatic v...
[[abstract]]In this paper, we present the design and implementation of a source-to-source High Perfo...
The need for compilers to generate highly vectorized code is at an all-time high with the increasing...
Recent extensions to the Intel ® Architecture feature the SIMD technique to enhance the performance ...
The need for compilers to generate highly vectorized code is at an all-time high with the increasing...
ABSTRACT Several multiprocessor systems are now commercially available, and advances in com-piler te...
We carried out a series of benchmark tests to know the ability of automatic parallelization of four ...
To date, programming language research has made several major contributions to the support of high s...
The recent success of vector computers like the Cray-1 and array processors such as those manufactur...
grantor: University of TorontoDesktop computers are increasingly used for DSP, multi-media...
This paper discusses the optimization and efficiency of FORTRAN programs. Efficiency and opJmization...
Newer architectures continue to expand vector sizes and increase the different number of vec-tor ins...
Vector machines are well known for their high-peak performance, but the delivered performance varies...
Vectorization support in hardware continues to expand and grow as well we still continue on supersca...
With advances in VLSI technology, it is now possible to implement vector processors on a single chip...