Many problems in several fields like physics, chemistry, biology and engineering lack an analytical solution able to provide a satisfactory phenomena description. Then a numerical solution becomes the only viable alternative. The use of massively parallel architectures often allows one to obtain in an easy way a comprehensive picture of the behaviour of the solution. We present here a computational model applied to two different physical problems; our work demonstrates the effectiveness of the approach and its extensibility to many classes of problems in different fields
In the numerical treatment of population dynamic models a great number of large linear systems must ...
The n ed for effective parallel methods for solving problems in science and engineering well recogni...
174 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1985.As the cost of hardware compo...
International audienceScientific computing has become an indispensable tool in numerous fields, such...
SIGLEAvailable from British Library Document Supply Centre- DSC:D96853 / BLDSC - British Library Doc...
This paper describes the use of a parallel computer system in applying a finite difference method to...
'Evolutionary algorithms' is the collective name for a group of relatively new stochastic search alg...
The idea is considered that architectures for massively parallel computers must be designed to go be...
The operation of a sequential electrochemical microscope is described using partial differential equ...
The multigrid method has been shown to be the most effective general method for solving the multi-di...
Research has continued with excellent progress and new results on methodology and algorithms. We hav...
This paper explores the possibility of using a parallel, special-purpose-processor to solve diffusio...
This paper examines the potential of parallel computation methods for partial differential equations...
The paper maps the possibilities of exploitation of the massive parallel computational hardware (na...
Our aim in this book is to present and enlarge upon those aspects of parallel computing that are nee...
In the numerical treatment of population dynamic models a great number of large linear systems must ...
The n ed for effective parallel methods for solving problems in science and engineering well recogni...
174 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1985.As the cost of hardware compo...
International audienceScientific computing has become an indispensable tool in numerous fields, such...
SIGLEAvailable from British Library Document Supply Centre- DSC:D96853 / BLDSC - British Library Doc...
This paper describes the use of a parallel computer system in applying a finite difference method to...
'Evolutionary algorithms' is the collective name for a group of relatively new stochastic search alg...
The idea is considered that architectures for massively parallel computers must be designed to go be...
The operation of a sequential electrochemical microscope is described using partial differential equ...
The multigrid method has been shown to be the most effective general method for solving the multi-di...
Research has continued with excellent progress and new results on methodology and algorithms. We hav...
This paper explores the possibility of using a parallel, special-purpose-processor to solve diffusio...
This paper examines the potential of parallel computation methods for partial differential equations...
The paper maps the possibilities of exploitation of the massive parallel computational hardware (na...
Our aim in this book is to present and enlarge upon those aspects of parallel computing that are nee...
In the numerical treatment of population dynamic models a great number of large linear systems must ...
The n ed for effective parallel methods for solving problems in science and engineering well recogni...
174 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1985.As the cost of hardware compo...