Using matrices in post-processing phase of CFD simulations
Abstract
In this work I present a technique of construction and fast evaluation of a family of cubic polynomials for analytic smoothing and graphical rendering of particles trajectories for flows in a generic geometry. The principal result of the work was implementation and test of a method for interpolating 3D points by regular parametric curves and their fast and efficient evaluation for a good resolution of rendering. For the purpose I have used a parallel environment using a multiprocessor cluster architecture. The efficiency of the used method is good, mainly reducing the number of floating-points computations by caching the numerical values of some line-parameter's powers, and reducing the necessity of communication among processes. This work has been developed for the Research and Development Department of my company for planning advanced customized models of industrial burners.
Cite
@article{arxiv.cs/0404047,
title = {Using matrices in post-processing phase of CFD simulations},
author = {Gianluca Argentini},
journal= {arXiv preprint arXiv:cs/0404047},
year = {2025}
}
Comments
Paper based on presentation-talk at SCICOMP9, Bologna (Italy), March 23-26, 2004; workshop organized by IBM, CINECA (Italy) (dr. Sigismondo Boschi, dr. Giovanni Erbacci), NERSC-DOE (USA) (dr. David Skinner), web site: www.spscicomp.org ; main topics: Computational Fluid Dynamics