IPC-driven energy reduction for low-power design

Author

Xin, Xia Xiao ; Tiow, Tay Teng

Author_Institution

Dept. of ECE, National Univ. of Singapore

fYear

2006

fDate

21-24 May 2006

Abstract

Energy consumption is one of the most important design constraints for modern microprocessors, and designers have proposed many energy-saving techniques. This paper describes an interval-based identification and prediction mechanism for microprocessors energy reduction. Our mechanism employs a statistical sampling method during current interval run to identify its performance activity level in term of IPC (instruction per cycle) values and predict the future interval that could make contributions to processor runtime energy reduction by dynamically scaling the microprocessor voltage and frequency accordingly. In simulation, our approach achieves energy savings by an average of 29% with minor performance degradation, compared to a processor running at a fixed voltage and speed

Keywords

identification; integrated circuit design; low-power electronics; microprocessor chips; sampling methods; design constraints; energy-saving techniques; interval-based identification; low-power design; modern microprocessors; prediction mechanism; runtime energy reduction; statistical sampling; CMOS technology; Degradation; Dynamic voltage scaling; Energy consumption; Frequency; Microprocessors; Processor scheduling; Runtime; Scheduling algorithm; Voltage control;

fLanguage

English

Publisher

ieee

Conference_Titel

Circuits and Systems, 2006. ISCAS 2006. Proceedings. 2006 IEEE International Symposium on

Conference_Location

Island of Kos

Print_ISBN

0-7803-9389-9

Type

conf

DOI

10.1109/ISCAS.2006.1693417

Filename

1693417