Low-Power VLSI Techniques for Applications in Embedded Computing
W. Athas
University of Southern California - Information Sciences Institute
Marina del Rey, California 90292-6695
Abstract
Power dissipation is an important factor in the design of CMOS VLSI
circuits for battery and externally powered applications in embedded
computing. This paper presents an overview of a set of techniques that
are suitable for CMOS technology and are readily usable by the VLSI
system and circuit designer. Supply-voltage-scaled CMOS is presented
as a low-power approach for digital logic which offers a wide range of
design points for trading off energy (and power) for circuit
speed. Circuit and architecture techniques are presented, which were
originally developed for high performance, to sustain performance
levels when the supply voltage is reduced. Finally, reduced-swing
signalling, clock-powered logic, and stepwise charging are presented
as techniques that can outperform supply-voltage-scaled CMOS for
important design problems such as energy-efficient signalling.