Energy-efficiency bounds for noise-tolerant dynamic circuits

Author

Shanbhag, Naresh R. ; Wang, Lei

Author_Institution

Coordinated Sci. Lab., Illinois Univ., Urbana, IL, USA

Volume

4

fYear

2000

fDate

2000

Firstpage

273

Abstract

Presented in this paper are lower bounds on energy-efficiency of the mirror noise-tolerant dynamic circuit technique. These lower bounds are derived by solving an energy optimization problem subject to an information-theoretic constraint. Design overheads associated with the noise-tolerant circuit techniques are discussed and incorporated into the optimization problem. Simulation results for a 3-input OR gate transferring information at a rate R=150 M bit/s in 0.35 μm CMOS indicate that the lower bound on energy consumption of the noise-tolerant circuit is 25 f J/bit, which is 31% below that of the conventional domino circuit. This lower bound is achieved when the noise-immunity of the mirror technique is 1.64× more than that of the domino circuit technique

Keywords

CMOS logic circuits; circuit optimisation; integrated circuit modelling; integrated circuit noise; logic design; probability; 0.35 micron; 150 Mbit/s; 3-input OR gate; CMOS process; domino circuit; energy optimization problem; energy-efficiency bounds; information-theoretic constraint; mirror technique; noise immunity; noise-tolerant dynamic circuits; power model; speed model; Circuit noise; Clocks; Constraint optimization; Crosstalk; Design optimization; Energy dissipation; Energy efficiency; Integrated circuit noise; Mirrors; Semiconductor device noise;

fLanguage

English

Publisher

ieee

Conference_Titel

Circuits and Systems, 2000. Proceedings. ISCAS 2000 Geneva. The 2000 IEEE International Symposium on

Conference_Location

Geneva

Print_ISBN

0-7803-5482-6

Type

conf

DOI

10.1109/ISCAS.2000.858741

Filename

858741