Low-Power Digital Systems Based on Adiabatic-Switching Principles
W.C. Athas, L."J." Svensson, J.G. Koller, N. Tzartzanis, E. Chou
USC/ISI, 4676 Admiralty Way, Marina del Rey, CA 90292, USA
{athas,svensson,koller,tzartzanis,echou}@isi.edu
Abstract
Adiabatic switching is an approach to low-power digital circuits that
differs fundamentally from other practical low-power techniques.
When adiabatic switching is used, the signal energies stored on circuit
capacitances may be recycled instead of dissipated as heat.
We describe the fundamental adiabatic amplifier
circuit and analyze its performance.
The dissipation of the adiabatic amplifier is compared to that
of conventional switching circuits,
both for the case of a fixed voltage swing and
the case when the voltage swing can be scaled to reduce power dissipation.
We show how combinational and sequential adiabatic-switching
logic circuits may be constructed and describe the timing
restrictions required for adiabatic operation.
Small chip-building experiments have been performed
to validate the techniques and to analyze the associated circuit overhead.