Parallel Processing of Progressive Refinement Radiosity Methods

Abstract

Radiosity methods for accurately modelling the interaction of light within complex environments require very large amounts of computing and memory resources. Parallel processing offers one approach for solving these methods in acceptable times. To reduce the communication overheads inherent in the radiosity methods and thus improve the overall system performance of the parallel solution the processors are arranged in minimum path (AMP) configurations. AMP configurations are irregular configurations in which the distance between any two processors is minimised. This paper examines a parallel solution of the progressive refinement radiosity method on AMP configurations.