AbstractThe combined finite–discrete element method (FDEM) belongs to a family of methods of computational mechanics of discontinua. The method is suitable for problems of discontinua, where particles are deformable and can fracture or fragment. The applications of FDEM have spread over a number of disciplines including rock mechanics, where problems like mining, mineral processing or rock blasting can be solved by employing FDEM. In this work, a novel approach for the parallelization of two-dimensional (2D) FDEM aiming at clusters and desktop computers is developed. Dynamic domain decomposition based parallelization solvers covering all aspects of FDEM have been developed. These have been implemented into the open source Y2D software packa...
International audienceIn this document, we present a parallel implementation in Freefem++ of scalabl...
Finite element programs with explicit time integration for nonlinear structural dynamics are getting...
Parallel computational homogenization using the well-known FE2 approach is described and combined wi...
AbstractThe combined finite–discrete element method (FDEM) belongs to a family of methods of computa...
International audienceThis paper discusses the issues involved in the development of combined finite...
As a state-of-the-art computational method for simulating rock fracturing and fragmentation, the com...
This paper introduces the Y-HFDEM code based on two-dimensional combinedfinite-discrete-element meth...
The realization of the finite element method on parallel computers is usually based on a domain deco...
Multi-physics problems containing discrete particles interacting with fluid phases are widely used i...
The paper summarizes progress we have made since PPAM 2001 [1] in the parallel solution of large-sca...
The study deals with the parallelization of finite element based Navier-Stokes codes using domain de...
ABSTRACT: Described here is the Plastic Domain Decomposition (PDD) Method for par-allel elastic-plas...
Explicit finite-element methods are widely used for problems of non-linear structural mechanics. Bec...
In this talk, we will give an overview of the main techniques used for the parallelization of numeri...
We investigate a domain decomposition method (DDM) of finite element method (FEM) using Intel's...
International audienceIn this document, we present a parallel implementation in Freefem++ of scalabl...
Finite element programs with explicit time integration for nonlinear structural dynamics are getting...
Parallel computational homogenization using the well-known FE2 approach is described and combined wi...
AbstractThe combined finite–discrete element method (FDEM) belongs to a family of methods of computa...
International audienceThis paper discusses the issues involved in the development of combined finite...
As a state-of-the-art computational method for simulating rock fracturing and fragmentation, the com...
This paper introduces the Y-HFDEM code based on two-dimensional combinedfinite-discrete-element meth...
The realization of the finite element method on parallel computers is usually based on a domain deco...
Multi-physics problems containing discrete particles interacting with fluid phases are widely used i...
The paper summarizes progress we have made since PPAM 2001 [1] in the parallel solution of large-sca...
The study deals with the parallelization of finite element based Navier-Stokes codes using domain de...
ABSTRACT: Described here is the Plastic Domain Decomposition (PDD) Method for par-allel elastic-plas...
Explicit finite-element methods are widely used for problems of non-linear structural mechanics. Bec...
In this talk, we will give an overview of the main techniques used for the parallelization of numeri...
We investigate a domain decomposition method (DDM) of finite element method (FEM) using Intel's...
International audienceIn this document, we present a parallel implementation in Freefem++ of scalabl...
Finite element programs with explicit time integration for nonlinear structural dynamics are getting...
Parallel computational homogenization using the well-known FE2 approach is described and combined wi...