The Lightweight Integrating Multi-physics Environment (LIME) is a software package for creating multi-physics simulation codes. Its primary application space is when computer codes are currently available to solve different parts of a multi-physics problem and now need to be coupled with other such codes. In this report we define a common domain language for discussing multi-physics coupling and describe the basic theory associated with multiphysics coupling algorithms that are to be supported in LIME. We provide an assessment of coupling techniques for both steady-state and time dependent coupled systems. Example couplings are also demonstrated
preCICE is a free/open-source coupling library. It enables creating partitioned multi-physics simula...
Many problems in science and engineering are best simu-lated as a set of mutually interacting models...
The purpose of the software EMPIRE is to perform n-code co-simulation for solving multiphysics ...
LIME is a small software package for creating multiphysics simulation codes. The name was formed as ...
AbstractAn efficient way to simulate multi-physics scenarios is given by the partitioned coupling ap...
AbstractA new challenge in scientific computing is to merge existing simulation models to create new...
This paper describes a coupling framework for parallel execution of different solvers for multi-phys...
Many current and future modeling applications at Sandia including ASC milestones will critically dep...
Abstract. Multiphysics and multiscale simulation systems are emerg-ing as a new grand challenge in c...
Multiphysics and multiscale simulation systems share a common software requirement-infrastructure to...
Abstract. Multiphysics and multiscale simulation systems are emerg-ing as a new grand challenge in c...
In computational models, there is an increasing need for coupling: ranging from coupling at the equa...
Many problems in science and engineering are best simu-lated as a set of mutually interacting models...
Partitioned multi-physics simulations allow to reuse existing solvers and to combine them to multi-p...
We consider multiphysics applications from algorithmic and architectural perspectives, where “algori...
preCICE is a free/open-source coupling library. It enables creating partitioned multi-physics simula...
Many problems in science and engineering are best simu-lated as a set of mutually interacting models...
The purpose of the software EMPIRE is to perform n-code co-simulation for solving multiphysics ...
LIME is a small software package for creating multiphysics simulation codes. The name was formed as ...
AbstractAn efficient way to simulate multi-physics scenarios is given by the partitioned coupling ap...
AbstractA new challenge in scientific computing is to merge existing simulation models to create new...
This paper describes a coupling framework for parallel execution of different solvers for multi-phys...
Many current and future modeling applications at Sandia including ASC milestones will critically dep...
Abstract. Multiphysics and multiscale simulation systems are emerg-ing as a new grand challenge in c...
Multiphysics and multiscale simulation systems share a common software requirement-infrastructure to...
Abstract. Multiphysics and multiscale simulation systems are emerg-ing as a new grand challenge in c...
In computational models, there is an increasing need for coupling: ranging from coupling at the equa...
Many problems in science and engineering are best simu-lated as a set of mutually interacting models...
Partitioned multi-physics simulations allow to reuse existing solvers and to combine them to multi-p...
We consider multiphysics applications from algorithmic and architectural perspectives, where “algori...
preCICE is a free/open-source coupling library. It enables creating partitioned multi-physics simula...
Many problems in science and engineering are best simu-lated as a set of mutually interacting models...
The purpose of the software EMPIRE is to perform n-code co-simulation for solving multiphysics ...