Title :
A Pipelined Pseudoparallel System Architecture for Real-Time Dynamic Scene Analysis
Author :
Agrawal, Dharma P. ; Jain, Ramesh
Author_Institution :
Department of Electrical Engineering, North Carolina State University
Abstract :
In this paper we introduce the concept of pseudoparallelism, in which the serial algorithm is partitioned into several noninteractive independent subtasks so that parallelism can be used within each subtask level. This approach is illustrated by applying it to a real-time dynamic scene analysis. Complete details of such a pseudoparallel architecture with an emphasis to avoid interprocessor communications have been worked out. Problems encountered in the course of designing such a system with a distributed operating system (no master control) have been outlined and necessary justifications have been provided. A scheme indicating various memory modules, processing elements, and their data-path requirements is included and ways to provide continuous flow of partitioned information in the form of a synchronized pipeline are described.
Keywords :
Algorithmic steps; SIMD and MIMD; distributed control; dynamic scene analysis; interconnection networks; interprocessor communication; pipelining; problem partitioning; pseudoparallelism; real-time computation; Application software; Computer architecture; Computer vision; DH-HEMTs; Decision making; Digital images; Image analysis; Parallel processing; Pipeline processing; Real time systems; Algorithmic steps; SIMD and MIMD; distributed control; dynamic scene analysis; interconnection networks; interprocessor communication; pipelining; problem partitioning; pseudoparallelism; real-time computation;
Journal_Title :
Computers, IEEE Transactions on
DOI :
10.1109/TC.1982.1675904
