The paper deals with handling multiple subdomains per computational core in the PERMON toolbox, namely in the PermonFLLOP module, to fully exploit the potential of the Total Finite Element Tearing and Interconnecting (TFETI) domain decomposition method (DDM). Most authors researching FETI methods present weak parallel scalability with one subdomain assigned to each computational core, and call it just parallel scalability. Here we present an extension showing the data of more than one subdomain being held by each MPI process. Numerical experiments demonstrate the theoretically supported fact that for the given problem size and number of processors, the increased number of subdomains leads to better conditioning of the system operator, and h...
The Finite Element Tearing and Interconnecting (FETI) and its variants are probably the most celebra...
Because of the exponential increase of computational resource requirement for numerical field simula...
summary:PERMON (Parallel, Efficient, Robust, Modular, Object-oriented, Numerical) is a newly emergin...
Most of computations (subdomain problems) appearing in FETI-type methods are purely local and theref...
International audienceSolving highly heterogeneous structural mechanic problems with a large number ...
We describe a hybrid FETI (Finite Element Tearing and Interconnecting) method based on our variant o...
We describe an efficient massively parallel implementation of our variant of the FETI type domain de...
AbstractWe describe an efficient massively parallel implementation of our variant of the FETI type d...
The bottlenecks related to the numerical solution of many engineering problems are very dependent on...
The domain decomposition method embodies large potentials for a parallelization of FEM methods. In t...
Our work has focused on the development and analysis of domain decomposition algorithms for a variet...
International audienceThis paper studies the influence of various parameters, in order to improve th...
We investigate a domain decomposition method (DDM) of finite element method (FEM) using Intel's...
This paper describes our new hybrid parallelization of the Finite Element Tearing and Interconnectin...
This work deals with the issues specific to the development of a massively parallel topology optimiz...
The Finite Element Tearing and Interconnecting (FETI) and its variants are probably the most celebra...
Because of the exponential increase of computational resource requirement for numerical field simula...
summary:PERMON (Parallel, Efficient, Robust, Modular, Object-oriented, Numerical) is a newly emergin...
Most of computations (subdomain problems) appearing in FETI-type methods are purely local and theref...
International audienceSolving highly heterogeneous structural mechanic problems with a large number ...
We describe a hybrid FETI (Finite Element Tearing and Interconnecting) method based on our variant o...
We describe an efficient massively parallel implementation of our variant of the FETI type domain de...
AbstractWe describe an efficient massively parallel implementation of our variant of the FETI type d...
The bottlenecks related to the numerical solution of many engineering problems are very dependent on...
The domain decomposition method embodies large potentials for a parallelization of FEM methods. In t...
Our work has focused on the development and analysis of domain decomposition algorithms for a variet...
International audienceThis paper studies the influence of various parameters, in order to improve th...
We investigate a domain decomposition method (DDM) of finite element method (FEM) using Intel's...
This paper describes our new hybrid parallelization of the Finite Element Tearing and Interconnectin...
This work deals with the issues specific to the development of a massively parallel topology optimiz...
The Finite Element Tearing and Interconnecting (FETI) and its variants are probably the most celebra...
Because of the exponential increase of computational resource requirement for numerical field simula...
summary:PERMON (Parallel, Efficient, Robust, Modular, Object-oriented, Numerical) is a newly emergin...