Title :
Memory-Efficient Order-Independent Transparency with Dynamic Fragment Buffer
Author :
Maule, Marilena ; Comba, João L D ; Torchelsen, Rafael ; Bastos, Rui
Abstract :
Order-independent transparency (OIT) rendering is computationally intensive due to required sorting and sufficient memory to store fragments before sorting. We present Dynamic Fragment Buffer, a revamped two-pass OIT rendering technique, which performs correct blending of a large number of transparent layers at interactive frame rates. Our approach self-adjusts memory allocation to handle a variable number of fragments per pixel without wasting memory. In this paper we perform a detailed analysis of several design decisions which lead to this technique. We present a collection of experiments that illustrate the advantages of our technique with respect to others OIT algorithms in the literature.
Keywords :
rendering (computer graphics); sorting; OIT rendering technique; dynamic fragment buffer; interactive frame rates; memory allocation; memory efficient order independent transparency; transparent layers; Buffer storage; Geometry; Graphics processing units; Indexes; Memory management; Rendering (computer graphics); Sorting; Order-Independent Transparency;
Conference_Titel :
Graphics, Patterns and Images (SIBGRAPI), 2012 25th SIBGRAPI Conference on
Conference_Location :
Ouro Preto
Print_ISBN :
978-1-4673-2802-9
DOI :
10.1109/SIBGRAPI.2012.27
