:llel computing resents the only:usible way to continue to in-crease the computational power available to scientists and engineers. Parallel com-puters, however, are not likely to be widely successful ntil they are easy to program. A major component in the success of vector supercomputers is the ability of scientists to write Fortran programs in a "'vec-torizable' " style and expec
Abstract While some proposals for supercomputers increase the powers of existing machines like the C...
Ever-growing computational demands, along with the need for efficient utilization of existing superc...
To run a software application on a large number of parallel processors, N, and expect to obtain spee...
A vast array of new, highly parallel machines are opening up new opportunities for new applications ...
Computers based on vector processors have been dominating the super computing scene till the last de...
What particle accelerators mean to experimental physics, supercomputers mean to Computational Scienc...
In the continuing pursuit of the highest performance, many parallel computer manufacturers are tryin...
Today, the field of high-speed computers and supercomputing applications is dominated by the vector-...
Vector architectures have long been the architecture of choice for numerical high performance comput...
To date, programming language research has made several major contributions to the support of high s...
Since the first vector supercomputers in the mid-1970’s, the largest scale applications have traditi...
We present an overview of research at the Center for Research on Parallel Computation designed to pr...
With the increased complexity of applications, parallel computing has proved to be an alternative to...
Computational Science and Engineering is being established as a third category of scientific methodo...
Some fundamental principles for developing computer programs which are compatible with array-oriente...
Abstract While some proposals for supercomputers increase the powers of existing machines like the C...
Ever-growing computational demands, along with the need for efficient utilization of existing superc...
To run a software application on a large number of parallel processors, N, and expect to obtain spee...
A vast array of new, highly parallel machines are opening up new opportunities for new applications ...
Computers based on vector processors have been dominating the super computing scene till the last de...
What particle accelerators mean to experimental physics, supercomputers mean to Computational Scienc...
In the continuing pursuit of the highest performance, many parallel computer manufacturers are tryin...
Today, the field of high-speed computers and supercomputing applications is dominated by the vector-...
Vector architectures have long been the architecture of choice for numerical high performance comput...
To date, programming language research has made several major contributions to the support of high s...
Since the first vector supercomputers in the mid-1970’s, the largest scale applications have traditi...
We present an overview of research at the Center for Research on Parallel Computation designed to pr...
With the increased complexity of applications, parallel computing has proved to be an alternative to...
Computational Science and Engineering is being established as a third category of scientific methodo...
Some fundamental principles for developing computer programs which are compatible with array-oriente...
Abstract While some proposals for supercomputers increase the powers of existing machines like the C...
Ever-growing computational demands, along with the need for efficient utilization of existing superc...
To run a software application on a large number of parallel processors, N, and expect to obtain spee...