A task adaptive parallel graphics renderer

Author

Whitman, Scott

Author_Institution

Lawrence Livermore Nat. Lab., Livermore, CA, USA

fYear

1993

fDate

25-26 Oct 1993

Firstpage

27

Abstract

This paper presents a graphics renderer which incorporates new partitioning methodologies of memory and work for efficient execution on a parallel computer. The task adaptive domain decomposition scheme is an image space method involving dynamic partitioning of rectangular pixel area tasks. We show that this method requires little overhead, allows coherence within a parallel context, handles worst case scenarios with reasonable speedup, executes efficiently, and requires minimal processor synchronization. The implementation analysis indicates that load imbalance is the major cause of performance degradation at the higher processor counts. Even so, on a variety of test scenes, an average rendering speedup of 79 was achieved utilizing 96 processors on the BBN TC2000 multiprocessor with processor efficiency ranging from 66% to 94%

Keywords

resource allocation; BBN TC2000 multiprocessor; dynamic partitioning; graphics renderer; image space method; implementation analysis; load imbalance; partitioning methodologies; performance degradation; rectangular pixel area tasks; task adaptive domain decomposition scheme; task adaptive parallel graphics renderer; Computer graphics; Concurrent computing; Degradation; Dynamic programming; Layout; Parallel processing; Parallel programming; Performance analysis; Rendering (computer graphics); Testing;

fLanguage

English

Publisher

ieee

Conference_Titel

Parallel Rendering Symposium, 1993

Conference_Location

San Jose, CA

Print_ISBN

0-8186-4920-8

Type

conf

DOI

10.1109/PRS.1993.586082

Filename

586082