International audienceThe present paper studies two particle management strategies for dynamically adaptive Cartesian grids at hands of a particle-in-cell code. One holds the particles within the grid cells, the other within the grid vertices. The fundamental challenge for the algorithmic strategies results from the fact that particles may run through the grid without velocity constraints. To facilitate this, we rely on multiscale grid representations. They allow us to lift and drop particles between different spatial resolutions. We call this cell-based strategy particle in tree (PIT). Our second approach assigns particles to vertices describing a dual grid (PIDT) and augments the lifts and drops with multiscale linked cells.Our experiment...
In particle simulations, the weights of particles determine how many physical particles they represe...
In particle simulations, the weights of particles determine how many physical particles they represe...
We perform a scaling and performance portability study of the particle-in-cell scheme for plasma phy...
The present paper studies two particle management strategies for dynamically adaptive Cartesian grid...
The present paper studies two particle management strategies for dynamically adaptive Cartesian grid...
In this tutorial review paper, we present our minimally invasive approach for integrating dynamicall...
We provide a guide to implementing the particle-in-cell algorithm, which is useful for simulating di...
International audienceParticle-In-Cell (PIC) codes are broadly applied to the kinetic simulation of ...
We present 'jasmine', an implementation of a fully relativistic, 3D, electromagnetic Particle-In-Cel...
Kinetic Particle In Cell (PIC) methods can extend greatly their range of applica-bility if implicit ...
A novel adaptive technique for electromagnetic Particle In Cell (PIC) plasma simulations is presente...
In particle simulations, the weights of particles determine how many physical particles they represe...
In particle simulations, the weights of particles determine how many physical particles they represe...
We perform a scaling and performance portability study of the particle-in-cell scheme for plasma phy...
The present paper studies two particle management strategies for dynamically adaptive Cartesian grid...
The present paper studies two particle management strategies for dynamically adaptive Cartesian grid...
In this tutorial review paper, we present our minimally invasive approach for integrating dynamicall...
We provide a guide to implementing the particle-in-cell algorithm, which is useful for simulating di...
International audienceParticle-In-Cell (PIC) codes are broadly applied to the kinetic simulation of ...
We present 'jasmine', an implementation of a fully relativistic, 3D, electromagnetic Particle-In-Cel...
Kinetic Particle In Cell (PIC) methods can extend greatly their range of applica-bility if implicit ...
A novel adaptive technique for electromagnetic Particle In Cell (PIC) plasma simulations is presente...
In particle simulations, the weights of particles determine how many physical particles they represe...
In particle simulations, the weights of particles determine how many physical particles they represe...
We perform a scaling and performance portability study of the particle-in-cell scheme for plasma phy...