Parallel ELLPACK(ID:6931/par044)

Country: us
- languages for us
- us/1983
Began: 1983

Parallel ELLPACK

Extension of

References:

HOUSTIS, E. N., MITCHELL, W. F., AND RICE, J.R. Collocation software for second order elliptic partial differential equations. CSD Tech. Rep. 466. Department of Computer Science. Purdue University, West Lafayette, IN. 1983. view details

Houstis, E.N., T.S. Papatheodorou, and J.R. Rice, Parallel ELLPA CK: An Expert System for the Parallel Processing of Partial Differential Equations, Math. Comp. Simul., 31, 1989, pp. 497-508. view details

Houstis , E. N. ; J. R. Rice , N. P. Chrisochoides , H. C. Karathanasis , P. N. Papachiou , M. K. Samartzis , E. A. Vavalis , Ko Yang Wang , S. Weerawarana, //ELLPACK: a numerical simulation programming environment for parallel MIMD machines, Proceedings of the 4th international conference on Supercomputing, p.96-107, June 11-15, 1990, Amsterdam, The Netherlands view details

Houstis, E.N., T.S. Papatheodorou, and J.R. Rice, Parallel ELLPACK: An expert system for the parallel processing of partial differential equations. In Intelligent Mathematical Software Systems. North-Holland Publishing Co., Amsterdam, The Netherlands, 63-73. 1990 view details

HOUSTIS, E. N. AND RICE, J.R. Parallel Ellpack: A development and problem solving environment for high performance computing machines. In Programming Environments for High-Level Scientific Problem Solving, P. W. Gaffney, Ed. North-Holland Publishing Co., Amsterdam, The Netherlands, 229-241. 1992. view details

Ribbens, Calvin J.; Watson, Layne T.; Desa, Colin "Toward parallel mathematical software for elliptic partial differential equations" pp457-473 view details Abstract: Three approaches to parallelizing important components of the mathematical software package ELLPACK are considered: an explicit approach using compiler directives available only on the target machine, an automatic approach using an optimizing and parallelizing precompiler, and a two-level approach based on extensive use of a set of low level computational kernels. The focus is on shared memory architectures. Each approach to parallelization is described in detail, along with a discussion of the effort involved. Performance on a test problem, using up to sixteen processors of a Sequent Symmetry S81, is reported and discussed. Implications for the parallelization of a broad class of mathematical software are drawn. DOI
in ACM Transactions on Mathematical Software (TOMS) 19(04) (December 1993) view details

HOUSTIS, E. N., KIM, S. B., MARKUS, S., WU, P., HOUSTIS, N. E., CATLIN, A. C., WEERAWARANA, S., AND PAPATHEODOROU, T.S. 1995. Parallel ELLPACK PDE solvers. In Proceedings of the 2nd Annual Intel Supercomputer User's Group Conference. Intel Corporation, Santa Clara, CA. view details
in ACM Transactions on Mathematical Software (TOMS) 19(04) (December 1993) view details