AbstractAn extremely simple change to existing software for the solution of ordinary differential equations (ODEs) provides the information needed to use the codes more reliably and efficiently. A very common way of estimating the accuracy of results is made more reliable. Output inefficiently often and its numerical effects are detected
In this paper, we propose a new algorithm for solving ordinary differential equations. We show the s...
Choosing the optimal solver for systems of ordinary differential equations (ODEs) is a critical step...
International audienceVarious open problems have been recently solved using Ordinary Differential Eq...
Part 4: UQ PracticeInternational audienceOne can reduce the uncertainty in the quality of an approxi...
Many beginning courses on ordinary differential equations have a computer laboratory component in wh...
In the last decade, two distinct directions have emerged in the way Ordinary Differential Equation (...
AbstractWe discuss the design of software that is easy to use for simple problems, but still capable...
Ordinary differential equations (ODEs) are often used to model the behavior of physical phenomena an...
The purpose of this research project is to study performance of mathematical operations in software ...
Ordinary differential equations (ODEs), and the systems of such equations, are used for describing m...
Ordinary differential equations (ODEs) are widely used in the modeling of physical systems. However,...
Until recently, the testing of ODE/DAE software has been limited to simple comparisons and benchmark...
Benchmarking of ODE methods has a long tradition. Several sets of test problems have been developed ...
We discuss a collection of commonly-accepted goals for future education in the field of ordinary dif...
AbstractUntil recently, the testing of ODE/DAE software has been limited to simple comparisons and b...
In this paper, we propose a new algorithm for solving ordinary differential equations. We show the s...
Choosing the optimal solver for systems of ordinary differential equations (ODEs) is a critical step...
International audienceVarious open problems have been recently solved using Ordinary Differential Eq...
Part 4: UQ PracticeInternational audienceOne can reduce the uncertainty in the quality of an approxi...
Many beginning courses on ordinary differential equations have a computer laboratory component in wh...
In the last decade, two distinct directions have emerged in the way Ordinary Differential Equation (...
AbstractWe discuss the design of software that is easy to use for simple problems, but still capable...
Ordinary differential equations (ODEs) are often used to model the behavior of physical phenomena an...
The purpose of this research project is to study performance of mathematical operations in software ...
Ordinary differential equations (ODEs), and the systems of such equations, are used for describing m...
Ordinary differential equations (ODEs) are widely used in the modeling of physical systems. However,...
Until recently, the testing of ODE/DAE software has been limited to simple comparisons and benchmark...
Benchmarking of ODE methods has a long tradition. Several sets of test problems have been developed ...
We discuss a collection of commonly-accepted goals for future education in the field of ordinary dif...
AbstractUntil recently, the testing of ODE/DAE software has been limited to simple comparisons and b...
In this paper, we propose a new algorithm for solving ordinary differential equations. We show the s...
Choosing the optimal solver for systems of ordinary differential equations (ODEs) is a critical step...
International audienceVarious open problems have been recently solved using Ordinary Differential Eq...