Sinop, A.Abacı, T.Akkuş Ü.Gürsoy, A.Güdükbay, Uğur2016-02-082016-02-0820051573-04840920-8542http://hdl.handle.net/11693/24099In this paper, we present a parallel system called PHR for computing hierarchical radiosity solutions of complex scenes. The system is targeted for multi-processor architectures with distributed memory. The system evaluates and subdivides the interactions level by level in a breadth first fashion, and the interactions are redistributed at the end of each level to keep load balanced. In order to allow interactions freely travel across processors, all the patch data is replicated on all the processors. Hence, the system favors load balancing at the expense of increased communication volume. However, the results show that the overhead of communication is negligible compared with total execution time. We obtained a speed-up of 25 for 32 processors in our test scenes. © 2005 Springer Science + Business Media, Inc.EnglishDistributed memory architecturesHierarchical radiosityLoad balancingAlgorithmsComputer graphicsDistributed computer systemsDynamic loadsHeat transferHierarchical systemsIntegrationMultiprocessing systemsDistributed memory architecturesHierarchical radiosityLoad balancingPhoto-realistic image generatorsParallel processing systemsPHR: A parallel hierarchical radiosity system with dynamic load balancingArticle10.1007/s11227-005-0107-4