FIDISOL: A ‘black box’ solver for partial differential equations☆
Dedicated to the 60th birthday of Prof. William F. Ames
References (26)
- W. Schönauer and E. Schnepf, Software considerations for the ‘black box solver’ FIDISOL for partial differential...
- et al.
Numerical engineering: Experiences in designing PDE software with selfadaptive variable step size/variable order difference methods
- et al.
Modularization of PDE software for vector computers
Z. Angew. Math. Mech.
(1984)et al.Sonderheft der GAMM-Tagung
(1983) Data flow supercomputers
Computer
(1980)- et al.
A portable vector code for autonomous multigrid modules
- et al.
Design considerations for the linear solver LINSOL on a CYBER 205
- et al.
Vergleich verschiedener Lösungsverfahren für lineare Gleichungen mit Diagonalenspeicherung auf der CYBER 205
- et al.
Parallelization of PDE software
- et al.
Performance of the PDE black box solverFIDISOL on a CYBER 205
- et al.
Applications of the PDE solver FIDISOL on different vector computers
Supercomputer
(1985)
Numerical experiments with instationary Jacobi-OR methods for the iterative solution of linear equations
Z. Angew. Math. Mech.
(1983)
Sonderheft der GAMM-Tagung
(1982)
The efficient solution of large linear systems, resulting from the FDM for 3-D PDE's on vector computers
Cited by (3)
Concepts of TRIFIT, a flexible software environment for problems in two space dimensions
1994, Mathematics and Computers in SimulationVectorization of the SIMPLE solution procedure for CFD problems-Part I: A basic assessment
1989, Applied Mathematical ModellingSphalerons at finite mixing angle
1992, Physical Review D
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This research was supported by a grant from the Deutsche Forschungsgemeinschaft.
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Present address: Siemens AG, P.O. Box 830951, D-8000 München 83, Fed. Rep. Germany.
Copyright © 1988 Published by Elsevier B.V.