AbstractModel coupling is a method to simulate complex multiphysics and multiscale phenomena. Most approaches involve static data distribution among processes without the consideration of top-level dynamic load balancing. Malleability, the ability to change the number of processes during execution, allows applications to configure themselves to better utilize available system resources. To date, however, malleability has been applied primarily to monolithic applications. We have extended the Model Coupling Toolkit (MCT) to support processing element malleability for coupled models, resulting in the Malleable Model Coupling Toolkit (MMCT). MMCT consists of a load balance manager (LBM) implementing a practical dynamic load-balancing algorithm...
216 p.A print copy of this title is available through the UO Libraries under the call number: MATH L...
AbstractWe report on a demonstration of loose multiphysics coupling between a basin modeling code an...
AbstractA new challenge in scientific computing is to merge existing simulation models to create new...
AbstractModel coupling is a method to simulate complex multiphysics and multiscale phenomena. Most a...
Model coupling is a method to simulate complex multiphysics and multiscale phenomena. Most approache...
Dynamic load balancing both within and between constituent subsystems is required to achieve ultra s...
Achieving ultra scalability in coupled multiphysics and multiscale models requires dynamic load bala...
Many problems in science and engineering are best simu-lated as a set of mutually interacting models...
Many problems in science and engineering are best simu-lated as a set of mutually interacting models...
AbstractCoupled model development presents a set of challenges broadly called the coupling problem; ...
The Model Coupling Toolkit (MCT) is a software library for constructing parallel coupled models from...
Coupled model development presents a set of challenges broadly called the coupling problem; message-...
Computational science faces new challenges posed by multiphysics and multiscale, or more generally p...
Includes bibliographical references (p. 73-77).An increasing number of multi-physics modeling applic...
Coupled systems comprise multiple mutually interacting sub-systems, and are an increasingly common c...
216 p.A print copy of this title is available through the UO Libraries under the call number: MATH L...
AbstractWe report on a demonstration of loose multiphysics coupling between a basin modeling code an...
AbstractA new challenge in scientific computing is to merge existing simulation models to create new...
AbstractModel coupling is a method to simulate complex multiphysics and multiscale phenomena. Most a...
Model coupling is a method to simulate complex multiphysics and multiscale phenomena. Most approache...
Dynamic load balancing both within and between constituent subsystems is required to achieve ultra s...
Achieving ultra scalability in coupled multiphysics and multiscale models requires dynamic load bala...
Many problems in science and engineering are best simu-lated as a set of mutually interacting models...
Many problems in science and engineering are best simu-lated as a set of mutually interacting models...
AbstractCoupled model development presents a set of challenges broadly called the coupling problem; ...
The Model Coupling Toolkit (MCT) is a software library for constructing parallel coupled models from...
Coupled model development presents a set of challenges broadly called the coupling problem; message-...
Computational science faces new challenges posed by multiphysics and multiscale, or more generally p...
Includes bibliographical references (p. 73-77).An increasing number of multi-physics modeling applic...
Coupled systems comprise multiple mutually interacting sub-systems, and are an increasingly common c...
216 p.A print copy of this title is available through the UO Libraries under the call number: MATH L...
AbstractWe report on a demonstration of loose multiphysics coupling between a basin modeling code an...
AbstractA new challenge in scientific computing is to merge existing simulation models to create new...