Title :
Interactive ray tracing for isosurface rendering
Author :
Parker, Steven ; Shirley, Peter ; Livnat, Yarden ; Hansen, Charles ; Sloan, Peter-Pike
Author_Institution :
Dept. of Comput. Sci., Utah Univ., Salt Lake City, UT, USA
Abstract :
We show that it is feasible to perform interactive isosurfacing of very large rectilinear datasets with brute-force ray tracing on a conventional (distributed) shared-memory multiprocessor machine. Rather than generate geometry representing the isosurface and render with a z-buffer, for each pixel we trace a ray through a volume and do an analytic isosurface intersection computation. Although this method has a high intrinsic computational cost, its simplicity and scalability make it ideal for large datasets on current high-end systems. Incorporating simple optimizations, such as volume bricking and a shallow hierarchy, enables interactive rendering (i.e. 10 frames per second) of the 1 GByte full resolution Visible Woman dataset on an SGI Reality Monster. The graphics capabilities of the Reality Monster are used only for display of the final color image.
Keywords :
colour graphics; computational geometry; distributed shared memory systems; interactive systems; optimisation; ray tracing; rendering (computer graphics); very large databases; SGI Reality Monster; Visible Woman dataset; analytic isosurface intersection computation; color image; computational cost; distributed shared-memory multiprocessor; geometry; interactive isosurfacing; interactive ray tracing; isosurface rendering; optimization; pixel; scalability; shallow hierarchy; very large rectilinear datasets; volume bricking; z-buffer; Computational efficiency; Computational geometry; Computer graphics; Computer science; Displays; Hardware; Isosurfaces; Ray tracing; Rendering (computer graphics); Scalability;
Conference_Titel :
Visualization '98. Proceedings
Conference_Location :
Research Triangle Park, NC, USA
Print_ISBN :
0-8186-9176-X
DOI :
10.1109/VISUAL.1998.745713
