Title :
Design for Parallel Interactive Ray Tracing Systems
Author :
Bigler, James ; Stephens, Abe ; Parker, Steven G.
Author_Institution :
Sci. Comput. & Imaging Inst., Utah Univ., Salt Lake City, UT
Abstract :
We describe the software architecture of the Manta interactive ray tracer and describe its application in engineering and scientific visualization. Although numerous ray tracing software packages have been developed, much of the traditional design wisdom needs to be updated to provide support for interactivity, high degrees of parallelism, and modern packet-based acceleration structures. We discuss situations that are normally not considered when designing a batch ray tracer and present methods to overcome those challenges. This paper advocates a forward looking programming model for interactive ray tracing that uses reconfigurable components to achieve flexibility while achieving scalability on large numbers of processors. Manta employs data structures motivated by modern microprocessor design that can exploit instruction-level parallelism. We discuss the design tradeoffs and the performance achieved for this system
Keywords :
data structures; data visualisation; parallel processing; ray tracing; software architecture; Manta interactive ray tracer; data structure; forward looking programming model; instruction-level parallelism; microprocessor design; reconfigurable component; scientific visualization; software architecture; software package; Application software; Computational modeling; Computer graphics; Data structures; Hardware; Parallel processing; Process design; Ray tracing; Rendering (computer graphics); Software architecture; interactive ray tracing; ray tracing; software architecture;
Conference_Titel :
Interactive Ray Tracing 2006, IEEE Symposium on
Conference_Location :
Salt Lake City, UT
Print_ISBN :
1-4244-0693-5
DOI :
10.1109/RT.2006.280230
