The hybrid finite‐discrete element method (FDEM) is widely used for engineering applications, which, however, is computationally expensive and needs further development, especially when rock fracture process is modeled. This study aims to further develop a sequential hybrid FDEM code formerly proposed by the authors and parallelize it using compute unified device architecture (CUDA) C/C++ on the basis of a general‐purpose graphics processing unit (GPGPU) for rock engineering applications. Because the contact detection algorithm in the sequential code is not suitable for GPGPU parallelization, a different contact detection algorithm is implemented in the GPGPU‐parallelized hybrid FDEM. Moreover, a number of new features are implemented in th...
Combined finite-discrete element method has become one of the most powerful numericalmethods for mod...
As the presence of finite element implementations on General Purpose Graphics Processing Units (GPGP...
International audienceThe benefit of using the discrete element method (DEM) for simulations of frac...
The hybrid finite‐discrete element method (FDEM) is widely used for engineering applications, which,...
As a state-of-the-art computational method for simulating rock fracturing and fragmentation, the com...
Throughout the years, rock fracture mechanism has been studied extensively experimentally, analytica...
In the field of geotechnical engineering, the number of applications of combined/hybrid finite-discr...
This paper introduces the Y-HFDEM code based on two-dimensional combinedfinite-discrete-element meth...
The combined finite–discrete element (FDEM) has become a well-accepted numerical technique to simula...
Mechanical cutting provides one of the most flexible and environmentally friendly excavation methods...
Discrete element method or extended finite element method is often adopted to simulate crack initiat...
Within the framework of combined finite-discrete element method (FDEM), we propose a novel and effic...
Combined finite-discrete element method has become one of the most powerful numericalmethods for mod...
As the presence of finite element implementations on General Purpose Graphics Processing Units (GPGP...
International audienceThe benefit of using the discrete element method (DEM) for simulations of frac...
The hybrid finite‐discrete element method (FDEM) is widely used for engineering applications, which,...
As a state-of-the-art computational method for simulating rock fracturing and fragmentation, the com...
Throughout the years, rock fracture mechanism has been studied extensively experimentally, analytica...
In the field of geotechnical engineering, the number of applications of combined/hybrid finite-discr...
This paper introduces the Y-HFDEM code based on two-dimensional combinedfinite-discrete-element meth...
The combined finite–discrete element (FDEM) has become a well-accepted numerical technique to simula...
Mechanical cutting provides one of the most flexible and environmentally friendly excavation methods...
Discrete element method or extended finite element method is often adopted to simulate crack initiat...
Within the framework of combined finite-discrete element method (FDEM), we propose a novel and effic...
Combined finite-discrete element method has become one of the most powerful numericalmethods for mod...
As the presence of finite element implementations on General Purpose Graphics Processing Units (GPGP...
International audienceThe benefit of using the discrete element method (DEM) for simulations of frac...