Add to ORKGIn this talk, we will give an overview of the main techniques used for the parallelization of numerical simulations on High-Performance Computing platforms, and provide a particular focus on the Discrete Element Method (DEM), a numerical method for the simulation of the motion of granular materials. We will cover the main parallelization paradigms and their implementations (shared memory with OpenMP and distributed memory with MPI), present the performance bottlenecks and introduce load-balancing techniques
International audienceIn [1] we suggested an original Discrete Element Method that offers the capabi...
peer reviewedThis paper presents the enhanced design of the Discrete Particle Method (DPM), a simul...
peer reviewedThis paper presents the enhanced design of the Discrete Particle Method (DPM), a simul...
In this talk, we will give an overview of the main techniques used for the parallelization of numeri...
In this talk, we will give an overview of the main techniques used for the parallelization of numeri...
In this talk, we will give an overview of the main techniques used for the parallelization of numeri...
Abstract. The paper describes the development and performance of parallel algorithms for the discret...
The paper describes the development and performance of parallel algorithms for the discrete element ...
The Extended Discrete Element Method (XDEM) is a novel and innovative numerical simulation technique...
Every year, parallel computing has becoming cheaper and more accessible. As consequence, application...
Every year, parallel computing has becoming cheaper and more accessible. As consequence, application...
peer reviewedThe Extended Discrete Element Method (XDEM) is a novel and innovative numerical simulat...
The simulation of large particle systems with the Discrete Element Method can be very time consuming...
Granular materials are important for many different disciplines, e.g. geomechanics, civil engineerin...
This paper presents the enhanced design of the Discrete Particle Method (DPM), a simulation tool whi...
International audienceIn [1] we suggested an original Discrete Element Method that offers the capabi...
peer reviewedThis paper presents the enhanced design of the Discrete Particle Method (DPM), a simul...
peer reviewedThis paper presents the enhanced design of the Discrete Particle Method (DPM), a simul...
In this talk, we will give an overview of the main techniques used for the parallelization of numeri...
In this talk, we will give an overview of the main techniques used for the parallelization of numeri...
In this talk, we will give an overview of the main techniques used for the parallelization of numeri...
Abstract. The paper describes the development and performance of parallel algorithms for the discret...
The paper describes the development and performance of parallel algorithms for the discrete element ...
The Extended Discrete Element Method (XDEM) is a novel and innovative numerical simulation technique...
Every year, parallel computing has becoming cheaper and more accessible. As consequence, application...
Every year, parallel computing has becoming cheaper and more accessible. As consequence, application...
peer reviewedThe Extended Discrete Element Method (XDEM) is a novel and innovative numerical simulat...
The simulation of large particle systems with the Discrete Element Method can be very time consuming...
Granular materials are important for many different disciplines, e.g. geomechanics, civil engineerin...
This paper presents the enhanced design of the Discrete Particle Method (DPM), a simulation tool whi...
International audienceIn [1] we suggested an original Discrete Element Method that offers the capabi...
peer reviewedThis paper presents the enhanced design of the Discrete Particle Method (DPM), a simul...
peer reviewedThis paper presents the enhanced design of the Discrete Particle Method (DPM), a simul...