A fast algorithm for calculating particle interactions in smooth particle hydrodynamic simulations

We restrict our attention in this paper to the case where the potential (or force) at a point is a sum of pairwise An algorithm is presented for the rapid evaluation of the potential and force fields in systems involving large numbers of particles interactions. More specifically, we consider potenti

tions of all of these methods are certainly possible, ## Department of Electrical and Computer Engineering Greengard and Bill Gropp pointed out early on the suitabil-Duke University ity of the FMA for parallel processing [3].

Transient dynamics simulations are commonly used to model phenomena such as car crashes, underwater explosions, and the response of shipping containers to high-speed impacts. Physical objects in such a simulation are typically represented by Lagrangian meshes because the meshes can move and deform w

This paper describes the development and testing of a contact algorithm for SPH. The treatment of contact boundary conditions in SPH has not been adequately addressed, and the development of the normalised smoothing function approach has highlighted the need for correct treatment of boundary conditi

## Abstract This article presents the development and application of a corrected smooth particle hydrodynamics (CSPH) code to the simulation of debris flow and avalanches. The advantages of a mesh‐free method over other traditional numerical methods such as the finite element method are discussed.