We present a flexible and fully adaptive dynamic load-balancing scheme, which is designed for particle simulations of three-dimensional systems with short ranged interactions. The method is based on domain decomposition with non-orthogonal non-convex domains, which are constructed based on a local repartitioning of computational work between neighbouring processors. Domains are dynamically adjusted in a flexible way under the condition that the original topology is not changed, i.e. neighbour relations between domains are retained, which guarantees a fixed communication pattern for each domain during a simulation. Extensions of this scheme are discussed and illustrated with examples, which generalise the communication patterns and do not fu...
International audienceThe computation of long-range potentials is one of the demanding tasks in Mole...
We discuss the simulation of granular materials and the problems encountered when parallelizing thes...
We discuss the simulation of granular materials and the problems encountered when parallelizing thes...
The simulation of large particle systems with the Discrete Element Method can be very time consuming...
Materials science simulations often require large scale particle simulations for taking into account...
In heterogeneous distributed environments such as the Grid, the available resources, namely the netw...
To maintain load balance among processes in parallel calculation, we introduced a dynamic load balan...
In short-range molecular dynamics (MD) simulations, inhomogeneous particle distributions that dynami...
The problem of load balancing for parallelized particle simulations implemented on MIMD machines is ...
N-body methods simulate the evolution of systems of particles (or bodies). They are critical for sci...
The objective of this study is to apply a domain decomposition algorithm to the La- grangian based ...
International audienceAs a multi-purpose Particle-In-Cell (PIC) code, SMILEI gathers many different ...
The iterative Multilevel Averaging Weight (MAW) algorithm presented in paper [1] is modified to solv...
The most widely used technique to allow for parallel simulations in molecular dynamics is spatial do...
A new method of load balancing is introduced based on the idea of dynamically relocating virtual pro...
International audienceThe computation of long-range potentials is one of the demanding tasks in Mole...
We discuss the simulation of granular materials and the problems encountered when parallelizing thes...
We discuss the simulation of granular materials and the problems encountered when parallelizing thes...
The simulation of large particle systems with the Discrete Element Method can be very time consuming...
Materials science simulations often require large scale particle simulations for taking into account...
In heterogeneous distributed environments such as the Grid, the available resources, namely the netw...
To maintain load balance among processes in parallel calculation, we introduced a dynamic load balan...
In short-range molecular dynamics (MD) simulations, inhomogeneous particle distributions that dynami...
The problem of load balancing for parallelized particle simulations implemented on MIMD machines is ...
N-body methods simulate the evolution of systems of particles (or bodies). They are critical for sci...
The objective of this study is to apply a domain decomposition algorithm to the La- grangian based ...
International audienceAs a multi-purpose Particle-In-Cell (PIC) code, SMILEI gathers many different ...
The iterative Multilevel Averaging Weight (MAW) algorithm presented in paper [1] is modified to solv...
The most widely used technique to allow for parallel simulations in molecular dynamics is spatial do...
A new method of load balancing is introduced based on the idea of dynamically relocating virtual pro...
International audienceThe computation of long-range potentials is one of the demanding tasks in Mole...
We discuss the simulation of granular materials and the problems encountered when parallelizing thes...
We discuss the simulation of granular materials and the problems encountered when parallelizing thes...