Asynchronous design and the pursuit of low power

Author

Athas, Bill

Author_Institution

VLSI Syst., Apple Comput. Inc., Cupertino, CA, USA

fYear

2001

fDate

2001

Firstpage

2

Abstract

Summary form only give, as follows. Two often cited arguments for the inherent low-power benefit of asynchronous or self-timed design is that the clock signals cause unnecessary switching activity and that the clock signals themselves dissipate a large portion of the total chip power. However, the careful and explicit application of conditional clocking and the use of novel clock driver circuits in synchronous designs rival the asynchronous approaches without incurring the typical circuitry overhead of asynchronous design. There are still though some avenues to pursue in exploiting the low-power advantages of asynchronous and self-timed circuit concepts. One promising avenue is the use of self-timed postcharged logic, sometimes called self-resetting logic, which has proven to be highly effective in RAM design and could possibly extend to other kinds of computing structures

Keywords

asynchronous circuits; clocks; driver circuits; logic CAD; low-power electronics; asynchronous design; clock driver circuits; clock signals; computing structures; conditional clocking; low power; postcharged logic; self-resetting logic; self-timed circuit; switching activity; total chip power; Application software; Clocks; Driver circuits; Logic design; Read-write memory; Signal design; Very large scale integration;

fLanguage

English

Publisher

ieee

Conference_Titel

Asynchronus Circuits and Systems, 2001. ASYNC 2001. Seventh International Symposium on

Conference_Location

Salt Lake City, UT

ISSN

1522-8681

Print_ISBN

0-7695-1034-5

Type

conf

DOI

10.1109/ASYNC.2001.914063

Filename

914063