Title :
VLSI implementation of adaptors using systolic arrays
Author :
Lawson, Stuart ; Summerfield, Steve
Author_Institution :
Dept. of Eng., Warwick Univ., Coventry, UK
Abstract :
The use of systolic and wavefront arrays to increase throughput in digital signal processors has been increasing over recent years. A bit-level systolic structure is developed which realises the basic building block of two important classes of wave digital filters, the 2-port adaptor. This structure is fully pipelined and is thus capable of use in high sampling rate applications. A Hilo model is described which has been used in design verification. The VLSI design of a prototype adaptor using ES2´s 2 μm double metal CMOS process is also presented together with the results from a circuit simulation. Details of the number of transistors, chip area, power dissipation, etc., both for the prototype design and more realistic designs are included
Keywords :
CMOS integrated circuits; VLSI; cellular arrays; digital signal processing chips; pipeline processing; wave digital filters; 2 micron; 2-port adaptor; ES2; Hilo model; VLSI design; bit-level systolic structure; chip area; circuit simulation; design verification; digital signal processors; double metal CMOS process; high sampling rate applications; pipeline structure; power dissipation; prototype adaptor; systolic arrays; throughput; transistors; wave digital filters; wavefront arrays;
Conference_Titel :
Digital Signal Processing for VLSI, IEE Colloquium on
Conference_Location :
London
