Diving deep: data-management and visualization strategies for adaptive mesh refinement simulations

Author

Norman, Michael L. ; Shalf, John ; Levy, Stuart ; Daues, Greg

Author_Institution

Nat. Center for Supercomput. Applications, Urbana, IL, USA

Volume

1

Issue

4

fYear

1999

Firstpage

36

Lastpage

47

Abstract

The authors´ cosmological applications illustrate problems and solutions in storing, handling, visualizing, virtually navigating, and remote serving data produced by large scale adaptive mesh refinement simulations. The authors describe their cosmological AMR algorithm and how they applied it to star, galaxy, and galaxy cluster formation. Basically, the algorithm allows them to place very high resolution grids precisely where they are needed-where stars and galaxies condense out of diffuse gas. In these applications, AMR allows the authors to achieve a local mesh refinement, relative to the global coarse grid, of more than a factor of 10⁶. Such resolution would be totally impossible to achieve with a global, uniform fine grid. Thus, AMR allows them to simulate multiscale phenomena that are out of reach with fixed grid methods

Keywords

astronomy computing; cosmology; data visualisation; digital simulation; mesh generation; tree data structures; adaptive mesh refinement simulations; cosmological AMR algorithm; cosmological applications; data management; diffuse gas; galaxy cluster formation; global coarse grid; high resolution grids; local mesh refinement; multiscale phenomena; remote serving data; stars; visualization strategies; Adaptive mesh refinement; Animation; Clustering algorithms; Computational modeling; Data structures; Data visualization; Multidimensional systems; Navigation; Numerical simulation; Spatial resolution;

fLanguage

English

Journal_Title

Computing in Science & Engineering

Publisher

ieee

ISSN

1521-9615

Type

jour

DOI

10.1109/5992.774839

Filename

774839