Title :
Massively parallel software rendering for visualizing large-scale data sets
Author :
Ma, Kwan-Liu ; Parker, Steven
Author_Institution :
Dept. of Comput. Sci., California Univ., Davis, CA, USA
Abstract :
We describe two highly scalable, parallel software volume-rendering algorithms - one renders unstructured grid volume data and the other renders isosurfaces. We designed one algorithm for distributed-memory parallel architectures to render unstructured grid volume data. We designed the other for shared-memory parallel architectures to directly render isosurfaces. Through the discussion of these two algorithms, we address the most relevant issues when using massively parallel computers to render large-scale volumetric data. The focus of our discussion is direct rendering of volumetric data
Keywords :
data visualisation; distributed memory systems; parallel programming; rendering (computer graphics); shared memory systems; PC clusters; data visualization; direct rendering; distributed-memory parallel architectures; isosurfaces; large-scale computing; large-scale data sets; massively parallel software rendering; shared-memory parallel architectures; unstructured grid volume data; Computational modeling; Concurrent computing; Data visualization; Displays; Hardware; Isosurfaces; Large-scale systems; Partitioning algorithms; Rendering (computer graphics); Shape;
Journal_Title :
Computer Graphics and Applications, IEEE
