Title :
A reconfigurable fault-tolerant signal processor
Author :
Shively, Richard R. ; Gorin, Allen L.
Author_Institution :
AT&T Bell Labs., Murray Hill, NJ, USA
Abstract :
Describes a parallel computer architecture targeted at signal pattern analysis applications, scalable to configurations capable of TeraFLOP (1012 floating point operations per second) throughput. An important attribute of the architecture is its low interconnection overhead, making it well suited to miniaturization using advanced packaging. Preliminary design and thermal tests project a computing density of 300 GigaFLOPS per cubit foot. The architecture is reconfigurable as a tree machine, one or more rings, or a set of linear systolic arrays. Fault tolerance is achieved by embedding these topologies within a four-connected lattice, growing around any faults. A performance model is derived and used to analyze the impact of skewness of the embedded trees on the execution time of parallel recognition algorithms
Keywords :
computerised pattern recognition; digital signal processing chips; fault tolerant computing; parallel algorithms; parallel architectures; 300 GFLOPS; TeraFLOP throughput; VLSI; execution time; fault-tolerant signal processor; linear systolic arrays; low interconnection overhead; miniaturization; packaging; parallel computer architecture; parallel recognition algorithms; performance model; reconfigurable architecture; signal pattern analysis applications; thermal tests; tree machine; Application software; Computer architecture; Fault tolerance; Foot; Packaging machines; Pattern analysis; Signal processing; Systolic arrays; Testing; Throughput;
Conference_Titel :
Acoustics, Speech, and Signal Processing, 1989. ICASSP-89., 1989 International Conference on
Conference_Location :
Glasgow
DOI :
10.1109/ICASSP.1989.266950
