AbstractMassively parallel computers have become widely available for the solution of a wide range of numerical problems. However, methods that work well on single processor architectures are often not the best algorithms when multiple processors are available. In this paper, we present a dynamic programming approach to the numerical solution of elliptic partial differential equations. This method, based upon the earlier work of Angel and others, indicates that reconsideration of direct (noniterative) approaches to the numerical solution of partial differential equations can lead to competitive algorithms
...-I I for public release and 'sa le;its " La _ L ditribution is unlimited. DEPARMENTOF C...
The use of a network of workstations as a single unit for speeding up computationally intensive appl...
The availability of high-performance computing tools gives the opportunity of solving mathematical r...
AbstractMassively parallel computers have become widely available for the solution of a wide range o...
This paper describes the use of a parallel computer system in applying a finite difference method to...
The present status of numerical methods for partial differential equations on vector and parallel co...
AbstractAntonio, Tsai, and Huang proposed a scheme in 1991 to parallelize the standard dynamic progr...
This paper examines the potential of parallel computation methods for partial differential equations...
This paper examines the potential of parallel computation methods for pamal differential equations (...
A general method for parallelism of some dynamic programming algorithms on VLSI was presented in [6]...
In this paper we review the present status of numerical methods for partial differential equations o...
AbstractA general method for parallelization of some dynamic programming algorithms on VLSI was pres...
Manyscientific problems are posed as Ordinary Differential Equations (ODEs). A large subset of these...
The efficient solution of large-scale systems resulting from the discretization of partial different...
The communication and synchronization overhead inherent in parallel processing can lead to situation...
...-I I for public release and 'sa le;its " La _ L ditribution is unlimited. DEPARMENTOF C...
The use of a network of workstations as a single unit for speeding up computationally intensive appl...
The availability of high-performance computing tools gives the opportunity of solving mathematical r...
AbstractMassively parallel computers have become widely available for the solution of a wide range o...
This paper describes the use of a parallel computer system in applying a finite difference method to...
The present status of numerical methods for partial differential equations on vector and parallel co...
AbstractAntonio, Tsai, and Huang proposed a scheme in 1991 to parallelize the standard dynamic progr...
This paper examines the potential of parallel computation methods for partial differential equations...
This paper examines the potential of parallel computation methods for pamal differential equations (...
A general method for parallelism of some dynamic programming algorithms on VLSI was presented in [6]...
In this paper we review the present status of numerical methods for partial differential equations o...
AbstractA general method for parallelization of some dynamic programming algorithms on VLSI was pres...
Manyscientific problems are posed as Ordinary Differential Equations (ODEs). A large subset of these...
The efficient solution of large-scale systems resulting from the discretization of partial different...
The communication and synchronization overhead inherent in parallel processing can lead to situation...
...-I I for public release and 'sa le;its " La _ L ditribution is unlimited. DEPARMENTOF C...
The use of a network of workstations as a single unit for speeding up computationally intensive appl...
The availability of high-performance computing tools gives the opportunity of solving mathematical r...