Energy Component Library for Power Consumption Analysis of Embedded Software

KIPS Journal D (2001 ~ 2012) , Vol. 16D, No.6, pp.871-880, June 2009
10.3745/KIPSTD.2009.16D.6.871, Full Text

Abstract

Along with the complexity and size growth of embedded software, it is critical to meet the nonfunctional requirements such as power consumption as well as functional requirements such as correctness. This paper, apart from the existing studies of source code-based power analysis, proposes an approach of model-based power analysis using UML 2.0. Specially, we focus on the development of energy library to analyze the power consumption of embedded software. Our energy library supports model-based power analysis, and also supports the easy adaption for the change of embedded application.


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Cite this paper

[KIPS Transactions Style]
D. H. Kim and J. E. Hong, "Energy Component Library for Power Consumption Analysis of Embedded Software," KIPS Journal D (2001 ~ 2012) , Vol.16D, No.6, pp.871-880, 2009, DOI: 10.3745/KIPSTD.2009.16D.6.871.

[IEEE Style]
Doo Hwan Kim and Jang Eui Hong, "Energy Component Library for Power Consumption Analysis of Embedded Software," KIPS Journal D (2001 ~ 2012) , vol. 16D, no. 6, pp. 871-880, 2009. DOI: 10.3745/KIPSTD.2009.16D.6.871.

[ACM Style]
Kim, D. H. and Hong, J. E. 2009. Energy Component Library for Power Consumption Analysis of Embedded Software. KIPS Journal D (2001 ~ 2012) , 16D, 6, (2009), 871-880. DOI: 10.3745/KIPSTD.2009.16D.6.871.