Thermal-Aware Methodology for Repeater Insertion in Low-Power VLSI Circuits

Author

Ku, Ja Chun ; Ismail, Yehea

Author_Institution

Northwestern Univ., Evanston

Volume

15

Issue

8

fYear

2007

Firstpage

963

Lastpage

970

Abstract

In this paper, the impact of thermal effects on low-power repeater insertion methodology is studied. An analytical methodology for thermal-aware repeater insertion that includes the electrothermal coupling between power, delay, and temperature is presented, and simulation results with global interconnect repeaters are discussed for 90- and 65-nm technology. Simulation results show that the proposed thermal-aware methodology can save 17.5% more power consumed by the repeaters compared to a thermal-unaware methodology for a given allowed delay penalty. In addition, the proposed methodology also results in a lower chip temperature, and thus, extra leakage power savings from other logic blocks.

Keywords

VLSI; integrated circuit interconnections; low-power electronics; thermal analysis; electrothermal coupling; low-power VLSI circuit; thermal-aware repeater insertion; Analytical models; Circuit simulation; Coupling circuits; Delay; Electrothermal effects; Integrated circuit interconnections; Logic; Repeaters; Temperature; Very large scale integration; Low-power; repeater insertion; temperature;

fLanguage

English

Journal_Title

Very Large Scale Integration (VLSI) Systems, IEEE Transactions on

Publisher

ieee

ISSN

1063-8210

Type

jour

DOI

10.1109/TVLSI.2007.900749

Filename

4276782