Title :
A 9-kbit associative memory for high-speed parallel processing applications
Author :
Jones, Simon R. ; Jalowiecki, Ian P. ; Hedge, Stephen J. ; Lea, R.M.
Author_Institution :
Dept. of Electr. Eng. & Electron., Brunel Univ., Uxbridge, UK
fDate :
4/1/1988 12:00:00 AM
Abstract :
The authors discuss the design, development and implementation of the 9-kb (256-word×37-bit) associative memory used in the single-chip array processing element (SCAPE) chip, a CMOS VLSI associative parallel processor (APP) that integrates 256 associative processing elements (APEs) on a single 68-pad chip to achieve high-speed, cost-effective image and signal processing. It is shown that a static CMOS content-addressable memory (CAM) design is unsuited to the constraints of the SCAPE chip architecture and that a purely nMOS CAM cell provides the best compromise between the conflicting area, speed, power, and control requirements. Comprehensive details of this design are given together with an evaluation of its performance. Finally, a description of the design methodology used in the construction of the SCAPE chip is presented with a breakdown of circuit areas and operational data
Keywords :
VLSI; computerised picture processing; content-addressable storage; field effect integrated circuits; parallel architectures; 9 kbit; CMOS; SCAPE chip; VLSI; associative memory; associative parallel processor; constraints; content-addressable memory; design methodology; high-speed parallel processing applications; image processing; nMOS; performance; signal processing; single-chip array processing element; Array signal processing; Associative memory; Associative processing; CADCAM; CMOS process; Computer aided manufacturing; MOS devices; Parallel processing; Signal design; Very large scale integration;
Journal_Title :
Solid-State Circuits, IEEE Journal of
