Moment-based power estimation in very deep submicron technologies

Author

Garcia-Ortiz, A. ; Kabulepa, Lukusa ; Murgan, Tudor ; Glesner, Manfred

Author_Institution

Inst. of Microelectron. Syst., Darmstadt Univ. of Technol., Germany

fYear

2003

fDate

9-13 Nov. 2003

Firstpage

107

Lastpage

112

Abstract

The significant power optimization possibilities in the early stages of the design flow advice the use of energy evaluation techniques at high levels of abstraction. With this aim, the present work addresses the estimation of the energy consumption in very deep submicron technologies. Using the characterization of the probability density function with a projection in an orthogonal polynomial base, and a symbolic propagation mechanism, a technique is presented to estimate the dynamic and static power consumption in digital systems. The proposed approach has been validated with circuits and excitations from realistic applications. Comparisons with reference transistor and bit level simulations are reported in order to asses the the accuracy of the technique.

Keywords

digital systems; polynomials; power consumption; probability; bit level simulation; deep submicron technologies; digital systems; dynamic power consumption; energy consumption; energy evaluation techniques; moment based power estimation; orthogonal polynomial base; power optimization; probability density function; reference transistor; static power consumption; symbolic propagation mechanism; Capacitance; Density functional theory; Design optimization; Digital systems; Energy consumption; Leakage current; Microelectronics; Permission; Polynomials; Wires;

fLanguage

English

Publisher

ieee

Conference_Titel

Computer Aided Design, 2003. ICCAD-2003. International Conference on

Conference_Location

San Jose, CA, USA

Print_ISBN

1-58113-762-1

Type

conf

DOI

10.1109/ICCAD.2003.159678

Filename

1257599