Title :
Design and characterization of convention self-timed multipliers
Author :
Bandapati, Satish K. ; Smith, Scott C. ; Choi, Minsu
Author_Institution :
Missouri Univ., Rolla, MO, USA
Abstract :
We present various 4-bit × 4-bit unsigned multipliers designed using the delay-insensitive convention logic (NCL) paradigm. They represent bit-serial, iterative, and fully parallel multiplication architectures. NCL is a self-timed logic paradigm in which control is inherent in each datum. NCL follows the so-called weak conditions of Seitz´s delay-insensitive signaling scheme. Like other delay-insensitive logic methods, the NCL paradigm assumes that forks in wires are isochronic. NCL uses symbolic completeness of expression to achieve delay-insensitive behavior. Simulation results show a large variance in circuit performance in terms of power, area, and speed. This study serve as a good reference for designers who wish to accomplish high-performance, low-power implementations of clockless digital VLSI circuits.
Keywords :
VLSI; asynchronous circuits; circuit simulation; digital arithmetic; logic design; multiplying circuits; parallel architectures; bit-serial architecture; circuit performance; clockless digital VLSI circuit; convention logic; delay-insensitive method; delay-insensitive signaling scheme; iterative architecture; parallel multiplication architecture; self-timed multiplier design; Adders; Circuit optimization; Circuit simulation; Clocks; Delay; Hysteresis; Logic design; Registers; Signal design; Very large scale integration;
Journal_Title :
Design & Test of Computers, IEEE
DOI :
10.1109/MDT.2003.1246161
