Distributed systems such as networks of workstations are becoming an increasingly viable alternative to traditional supercomputer systems for running complex scientific applications. A large number of these applications require solving sets of partial differential equations (PDEs), In this paper, we describe the implementation and performance of SPEED (Scalable Partial differential Equation Environment on Distributed systems), a parallel platform which provides an efficient solution for time-dependent PDEs, SPEED allows the inclusion of a wide range of parameters and programming aids. PVM is employed as the underlying message-passing system, The parallel implementation has been performed using two algorithms, The first algorithm is a two-ph...
This thesis encompasses studies on recent advances in the development of parallel algorithmic techni...
Parabolic Partial Differential Equations (PDE) are well suited to multiprocessor implementation. How...
In this paper, we describe a parallel algorithm for solving large systems of first order delay diffe...
The use of a network of workstations as a single unit for speeding up computationally intensive appl...
MATLAB Distributed Computing Server (MDCS) and Parallel Virtual Machine (PVM) software are two types...
This paper examines the potential of parallel computation methods for partial differential equations...
This paper describes the use of a parallel computer system in applying a finite difference method to...
This paper examines the potential of parallel computation methods for pamal differential equations (...
Parabolic Partial Differential Equations (PDE) are well suited to multiprocessor implementation. How...
Indian Institute of ScienceA large number of mathematical models in engineering and physical science...
Many applications from scientific computing and physical simulations can benefit from a mixed task a...
International audienceThis paper introduces a parallel algorithm to solve large stiff ODE systems on...
Three paradigms for distributed-memory parallel computation that free the application programmer fro...
[[abstract]]The finite element method is widely applied to many domains, such as engineering, atmolo...
This paper discusses the implementation of a numerical algorithm for simulating incompressible fluid...
This thesis encompasses studies on recent advances in the development of parallel algorithmic techni...
Parabolic Partial Differential Equations (PDE) are well suited to multiprocessor implementation. How...
In this paper, we describe a parallel algorithm for solving large systems of first order delay diffe...
The use of a network of workstations as a single unit for speeding up computationally intensive appl...
MATLAB Distributed Computing Server (MDCS) and Parallel Virtual Machine (PVM) software are two types...
This paper examines the potential of parallel computation methods for partial differential equations...
This paper describes the use of a parallel computer system in applying a finite difference method to...
This paper examines the potential of parallel computation methods for pamal differential equations (...
Parabolic Partial Differential Equations (PDE) are well suited to multiprocessor implementation. How...
Indian Institute of ScienceA large number of mathematical models in engineering and physical science...
Many applications from scientific computing and physical simulations can benefit from a mixed task a...
International audienceThis paper introduces a parallel algorithm to solve large stiff ODE systems on...
Three paradigms for distributed-memory parallel computation that free the application programmer fro...
[[abstract]]The finite element method is widely applied to many domains, such as engineering, atmolo...
This paper discusses the implementation of a numerical algorithm for simulating incompressible fluid...
This thesis encompasses studies on recent advances in the development of parallel algorithmic techni...
Parabolic Partial Differential Equations (PDE) are well suited to multiprocessor implementation. How...
In this paper, we describe a parallel algorithm for solving large systems of first order delay diffe...