In the last decade, two distinct directions have emerged in the way Ordinary Differential Equation (ODE) solver software is being used (Enright[1]). These include Large Scale Scientific Computation and Problem Solving Environments (PSE). Most practicing engineers an
We presenL an architecture for high level systems for solving partial differential equations. The so...
Ordinary differential equations (ODEs) are often used to model the behavior of physical phenomena an...
AbstractWe discuss the design of software that is easy to use for simple problems, but still capable...
Many scientific processes can be modeled by a solution of partial differential equations. The increa...
88 p.Ordinary differential equation (ODE) is a powerful mathematical tool. ODE arises in many differ...
AbstractA problem solving environment (pse) can be defined as a human interface to hardware and soft...
Problem solving environments represent the next generation of scientific computing software. This th...
Several methods for solving ordinary differential equations (ODE) and partial differential equations...
The present study aims to identify the types of software used to solve ordinary differential equatio...
This paper describes the functionality and architecture of a Grid-enabled partial differential equat...
AbstractAn extremely simple change to existing software for the solution of ordinary differential eq...
Nearly 20 years ago we produced a treatise (of about the same length as this book) entitled Computin...
During the last three decades, a vast variety of methods to numerically solve ordinary differential ...
Many beginning courses on ordinary differential equations have a computer laboratory component in wh...
The purpose of this research project is to study performance of mathematical operations in software ...
We presenL an architecture for high level systems for solving partial differential equations. The so...
Ordinary differential equations (ODEs) are often used to model the behavior of physical phenomena an...
AbstractWe discuss the design of software that is easy to use for simple problems, but still capable...
Many scientific processes can be modeled by a solution of partial differential equations. The increa...
88 p.Ordinary differential equation (ODE) is a powerful mathematical tool. ODE arises in many differ...
AbstractA problem solving environment (pse) can be defined as a human interface to hardware and soft...
Problem solving environments represent the next generation of scientific computing software. This th...
Several methods for solving ordinary differential equations (ODE) and partial differential equations...
The present study aims to identify the types of software used to solve ordinary differential equatio...
This paper describes the functionality and architecture of a Grid-enabled partial differential equat...
AbstractAn extremely simple change to existing software for the solution of ordinary differential eq...
Nearly 20 years ago we produced a treatise (of about the same length as this book) entitled Computin...
During the last three decades, a vast variety of methods to numerically solve ordinary differential ...
Many beginning courses on ordinary differential equations have a computer laboratory component in wh...
The purpose of this research project is to study performance of mathematical operations in software ...
We presenL an architecture for high level systems for solving partial differential equations. The so...
Ordinary differential equations (ODEs) are often used to model the behavior of physical phenomena an...
AbstractWe discuss the design of software that is easy to use for simple problems, but still capable...