A combined finite-discrete element method, adapted for the analysis of a parallel cable element model using graphic cards, is presented in the paper. The basic objective is to speed up sequential computation time by one or two orders of magnitude. The developed solution is implemented in the open-source FDEM Y code. Performance measurements for this solution are conducted on simple examples, and relevant discussions are made
A parallel computation approach based on the properties of the Graphics Processor Units (GPU) is her...
The hybrid finite‐discrete element method (FDEM) is widely used for engineering applications, which,...
Abstract: The paper presents a highly efficient way of simulating the dynamic behavior of deformable...
U radu je prikazana adaptacija kombinirane metode konačno diskretnih elemenata za paralelni model ka...
This study reports the GPU parallelization of complex three-dimensional software for nonlinear analy...
This paper discusses a new parallelization approach of the dynamic relaxation method, which is progr...
In this paper a parallel computing algorithm for discrete element systems is presented. The discrete...
A finite element code is developed in which all computational expensive steps are performed on a gra...
In this dissertation, the hardware and API architectures of GPUs are investigated, and the correspon...
[[abstract]]The finite element method is widely used to model physical systems in various engineerin...
This paper introduces the Y-HFDEM code based on two-dimensional combinedfinite-discrete-element meth...
AbstractThe combined finite–discrete element method (FDEM) belongs to a family of methods of computa...
The Explicit Finite Element Method is a powerful tool in nonlinear dynamic finite element analysis. ...
We describe a C++ library for electromagnetics based on the Finite-Difference Time-Domain method for...
Finite element analysis used for detailed electromagnetic analysis and design of electric machines i...
A parallel computation approach based on the properties of the Graphics Processor Units (GPU) is her...
The hybrid finite‐discrete element method (FDEM) is widely used for engineering applications, which,...
Abstract: The paper presents a highly efficient way of simulating the dynamic behavior of deformable...
U radu je prikazana adaptacija kombinirane metode konačno diskretnih elemenata za paralelni model ka...
This study reports the GPU parallelization of complex three-dimensional software for nonlinear analy...
This paper discusses a new parallelization approach of the dynamic relaxation method, which is progr...
In this paper a parallel computing algorithm for discrete element systems is presented. The discrete...
A finite element code is developed in which all computational expensive steps are performed on a gra...
In this dissertation, the hardware and API architectures of GPUs are investigated, and the correspon...
[[abstract]]The finite element method is widely used to model physical systems in various engineerin...
This paper introduces the Y-HFDEM code based on two-dimensional combinedfinite-discrete-element meth...
AbstractThe combined finite–discrete element method (FDEM) belongs to a family of methods of computa...
The Explicit Finite Element Method is a powerful tool in nonlinear dynamic finite element analysis. ...
We describe a C++ library for electromagnetics based on the Finite-Difference Time-Domain method for...
Finite element analysis used for detailed electromagnetic analysis and design of electric machines i...
A parallel computation approach based on the properties of the Graphics Processor Units (GPU) is her...
The hybrid finite‐discrete element method (FDEM) is widely used for engineering applications, which,...
Abstract: The paper presents a highly efficient way of simulating the dynamic behavior of deformable...