Low-power VLSI techniques for applications in embedded computing

Author

Athas, William

Author_Institution

Inf. Sci. Inst., Univ. of Southern California, Marina del Rey, CA, USA

fYear

1999

fDate

4-5 Mar 1999

Firstpage

14

Lastpage

22

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

Keywords

CMOS digital integrated circuits; VLSI; embedded systems; low-power electronics; microprocessor chips; CMOS; clock-powered logic; digital logic; embedded computing; energy-efficient signalling; externally powered applications; low-power VLSI techniques; power dissipation; reduced-swing signalling; stepwise charging; supply-voltage-scaled circuits; Batteries; CMOS digital integrated circuits; CMOS logic circuits; CMOS technology; Clocks; Embedded computing; Logic design; Power dissipation; Very large scale integration; Voltage;

fLanguage

English

Publisher

ieee

Conference_Titel

Low-Power Design, 1999. Proceedings. IEEE Alessandro Volta Memorial Workshop on

Conference_Location

Como

Print_ISBN

0-7695-0019-6

Type

conf

DOI

10.1109/LPD.1999.750383

Filename

750383