AbstractMultiprocessor systems offer large gains in performance if algorithms for real problems can be found. We show how one algorithm for solving time dependent partial differential equations, local uniform mesh refinement, can be implemented on a multiprocessor system. Care is taken to insure that communications costs are kept under control, and an estimate of the performance of this algorithm for a range of configurations is presented. Experiments on a multiprocessor system are compared with the theory
Apree for pub~le NI easoe; dLstrlbutiom =inlt.*4. We discuss mesh-moving, static mesh-regeneration, ...
This paper describes an approach for the numerical solution of time-dependent partial dierential equ...
Abstract: Making multigrid algorithms run efficiently on large parallel computers is a challenge. Wi...
AbstractMultiprocessor systems offer large gains in performance if algorithms for real problems can ...
This paper describes the use of a parallel computer system in applying a finite difference method to...
The use of a network of workstations as a single unit for speeding up computationally intensive appl...
. Time dependent partial differential equations are often solved using algorithms which parallelize ...
Efficient solution of partial differential equations require a match between the algorithm and the t...
Efficient solution of partial differential equations require a match between the algorithm and the t...
We present an implementation of a finite-difference approximation for the solution of partial differ...
Computational methods based on the use of adaptively constructed nonuniform meshes reduce the amount...
Distributed systems such as networks of workstations are becoming an increasingly viable alternative...
Abstract. With the continued evolution of computing architectures towards many-core com-puting, algo...
In this paper, we discuss some of the issues in obtaining high performance for block-structured adap...
A parallel multigrid method for the resolution of elliptic partial differential equations has been i...
Apree for pub~le NI easoe; dLstrlbutiom =inlt.*4. We discuss mesh-moving, static mesh-regeneration, ...
This paper describes an approach for the numerical solution of time-dependent partial dierential equ...
Abstract: Making multigrid algorithms run efficiently on large parallel computers is a challenge. Wi...
AbstractMultiprocessor systems offer large gains in performance if algorithms for real problems can ...
This paper describes the use of a parallel computer system in applying a finite difference method to...
The use of a network of workstations as a single unit for speeding up computationally intensive appl...
. Time dependent partial differential equations are often solved using algorithms which parallelize ...
Efficient solution of partial differential equations require a match between the algorithm and the t...
Efficient solution of partial differential equations require a match between the algorithm and the t...
We present an implementation of a finite-difference approximation for the solution of partial differ...
Computational methods based on the use of adaptively constructed nonuniform meshes reduce the amount...
Distributed systems such as networks of workstations are becoming an increasingly viable alternative...
Abstract. With the continued evolution of computing architectures towards many-core com-puting, algo...
In this paper, we discuss some of the issues in obtaining high performance for block-structured adap...
A parallel multigrid method for the resolution of elliptic partial differential equations has been i...
Apree for pub~le NI easoe; dLstrlbutiom =inlt.*4. We discuss mesh-moving, static mesh-regeneration, ...
This paper describes an approach for the numerical solution of time-dependent partial dierential equ...
Abstract: Making multigrid algorithms run efficiently on large parallel computers is a challenge. Wi...