a design technique for energy reduction in nora cmos logic konstantinos limniotis, yiorgos...

A Design Technique for Energy Reduction in NORA CMOS Logic

Konstantinos Limniotis, Yiorgos Tsiatouhas, Member, IEEE, Themistoklis Haniotakis, Member, IEEE, and Angela Arapoyanni, Member, IEEE

IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS page(s):2647 - 2655 , Dec. 2006

指導老師 : 魏凱城 老師

學 生 : 蕭荃泰

日 期 : 97 年 6 月 16 日

彰化師範大學積體電路設計研究所

Outline

Abstract Charge recycling concept in NORA logic Proposed charge recycling technique Case studies Conclusion

Abstract

In this work, a design technique to reduce the energy consumption in no race (NORA) circuits is presented.

The no race (NORA) circuits, which is based on the charge recycling concept to reduce dynamic energy dissipation.

Calculations proved that energy savings higher than 20% can be achieved.

Charge recycling concept in NORA logic

Fig. 1. NORA logic design technique.

pre-charge phaseVDD VDD

0CLK=

hold

evaluation phase

100

Fig. 2. Charge recycling concept in NORA circuits.

SW ON

when Cp=Cn

max=0.25

Proposed charge recycling technique

Fig.3 Proposed charge recycling switch.

VpVn

Vm

0.18um CMOS technology

VDD=1.8V and Vtn=0.35V

，

switching activity factor :

Case studies0.18-um CMOS technology ，，

Fig. 6. (b) Stage of the decoder after the insertion of the recycle

switch and the application of the modified clocks.

CLK=

CLKM=

hold

1/2 VDD1/2 VDD

01

10

1

0VDD VDD0

0

1.8% delay increase.

energy-delay product reduction is 5.9%.

silicon area cost is 5.7%.

Conclusion It is based on the charge recycling approach and

uses a unidirectional charge transfer topology and a new clocking scheme to allow charge recycling.

The proposed clocking scheme, the elimination of the short circuit current is achieved.

The proposed technique is characterized by insignificant delay penalty so that considerable reductions in the energy-delay product can be achieved.