[PDF][PDF] Future research directions in problem solving environments for computational science
S Gallopoulos, EN Houstis, JR Rice - 1992 - docs.lib.purdue.edu
Future Research Directions in Problem Solving Environments for Computational Science Page
1 Purdue University Purdue e-Pubs Department of Computer Science Technical Reports …
1 Purdue University Purdue e-Pubs Department of Computer Science Technical Reports …
[图书][B] Enabling Technologies for Computational Science: Frameworks, Middleware and Environments
EN Houstis, JR Rice, E Gallopoulos, R Bramley - 2000 - books.google.com
Enabling Technologies for Computational Science assesses future application computing
needs, identifies research directions in problem-solving environments (PSEs), addresses …
needs, identifies research directions in problem-solving environments (PSEs), addresses …
Future problem solving environments for computational science
EN Houstis, JR Rice - Mathematics and Computers in Simulation, 2000 - Elsevier
In this paper we review the current state of the problem solving environment (PSE) field and
make projections for the future. First we describe the computing context, the definition of a …
make projections for the future. First we describe the computing context, the definition of a …
Implementing an irregular application on a distributed memory multiprocessor
S Chakrabarti, K Yelick - ACM SIGPLAN Notices, 1993 - dl.acm.org
Parallelism with irregular patterns of data, communication and computation is hard to
manage efficiently. In this paper we present a case study of the Gröbner basis problem, a …
manage efficiently. In this paper we present a case study of the Gröbner basis problem, a …
[HTML][HTML] Distributed Maple: parallel computer algebra in networked environments
W Schreiner, C Mittermaier, K Bosa - Journal of Symbolic Computation, 2003 - Elsevier
We describe the design and use of Distributed Maple, an environment for executing parallel
computer algebra programs on multiprocessors and heterogeneous clusters. The system …
computer algebra programs on multiprocessors and heterogeneous clusters. The system …
Parallelizing algorithms for symbolic computation using Maple
K Siegl - Proceedings of the fourth ACM SIGPLAN symposium …, 1993 - dl.acm.org
|| MAPLE||(speak: parallel Maple) is a portable system for parallel symbolic computation.
The system is built as an interface between the parallel declarative programming language …
The system is built as an interface between the parallel declarative programming language …
[PDF][PDF] DSC: A system for distributed symbolic computation
A Diaz, E Kaltofen, K Schmitz, T Valente - Proceedings of the 1991 …, 1991 - dl.acm.org
DSC is a general purpose tool that allows the distribution of a computation over a network of
Unix workstations. Its control mechanisms automatically start up daemon processes on the …
Unix workstations. Its control mechanisms automatically start up daemon processes on the …
HPC‐GAP: engineering a 21st‐century high‐performance computer algebra system
Symbolic computation has underpinned a number of key advances in Mathematics and
Computer Science. Applications are typically large and potentially highly parallel, making …
Computer Science. Applications are typically large and potentially highly parallel, making …
[PDF][PDF] Maple on a massively parallel, distributed memory machine
L Bernardin - Proceedings of the second international symposium on …, 1997 - dl.acm.org
We ported the computer algebra system Maple V to the Intel Paragon, a massively parallel,
distributed memory machine. In order to take advantage of the parallel architecture, we …
distributed memory machine. In order to take advantage of the parallel architecture, we …
Parallel computation of modular multivariate polynomial resultants on a shared memory machine
This paper reports our experience in parallelizing a modular algorithm for computing
multivariate polynomial resultants over ℤ p. The modular algorithm has the well-known …
multivariate polynomial resultants over ℤ p. The modular algorithm has the well-known …