This is an introduction to numerical Particle-Mesh techniques, which are commonly used to model plasmas, gravitational N-body systems, and both compressible and incompressible fluids. The theory behind this approach is presented, and its practical implementation, both for serial and parallel machines, is discussed. This document is based on a four-hour lecture course presented by the author at the NASA Summer School for High Performance Computational Physics, held at Goddard Space Flight Center
We present a particle method for the simulation of three dimensional compressible hydrodynamics base...
26th World Conference on Boundary Elements and Other Mesh Reduction Methods, BEM26, Bolonia, Italia[...
Continuum methods have been used for numerical simulation of solid and fluid for a long time but the...
Particle methods in Computational Fluid Dynamics (CFD) are numerical tools for the solution of the e...
We describe a nested-grid particle-mesh (NGPM) code designed to study gravitational instability in t...
Hybrid particle-mesh numerical approaches are proposed to solve incompressible fluid flows. The meth...
We present a particle method for the simulation of three dimensional compressible hydrodynamics base...
International audienceThe simulation of fluid flows using particles is becoming increasingly popular...
In the present work a new approach to solve fluid-structure interaction problems is described. Both,...
Introduction: Two basic types of simulations exist for modeling systems of many particles: grid-base...
International audienceWe present a particle method for the simulation of three dimensional compressi...
The N-Body plasma simulation consists in calculating the Coulomb interaction between N charged parti...
Particle methods were first developed to handle the advection term in the equations of motion of flu...
In both nature and technology, we commonly encounter solid particles being carried within fluid flow...
The Smoothed Particle Hydrodynamics (?) method, being Lagrangian in nature, provides advantages in m...
We present a particle method for the simulation of three dimensional compressible hydrodynamics base...
26th World Conference on Boundary Elements and Other Mesh Reduction Methods, BEM26, Bolonia, Italia[...
Continuum methods have been used for numerical simulation of solid and fluid for a long time but the...
Particle methods in Computational Fluid Dynamics (CFD) are numerical tools for the solution of the e...
We describe a nested-grid particle-mesh (NGPM) code designed to study gravitational instability in t...
Hybrid particle-mesh numerical approaches are proposed to solve incompressible fluid flows. The meth...
We present a particle method for the simulation of three dimensional compressible hydrodynamics base...
International audienceThe simulation of fluid flows using particles is becoming increasingly popular...
In the present work a new approach to solve fluid-structure interaction problems is described. Both,...
Introduction: Two basic types of simulations exist for modeling systems of many particles: grid-base...
International audienceWe present a particle method for the simulation of three dimensional compressi...
The N-Body plasma simulation consists in calculating the Coulomb interaction between N charged parti...
Particle methods were first developed to handle the advection term in the equations of motion of flu...
In both nature and technology, we commonly encounter solid particles being carried within fluid flow...
The Smoothed Particle Hydrodynamics (?) method, being Lagrangian in nature, provides advantages in m...
We present a particle method for the simulation of three dimensional compressible hydrodynamics base...
26th World Conference on Boundary Elements and Other Mesh Reduction Methods, BEM26, Bolonia, Italia[...
Continuum methods have been used for numerical simulation of solid and fluid for a long time but the...