Paper Info
Title
Statistical Modeling and Analysis of Static Leakage and Dynamic Switching Power
Abstract
As the device size continues to shrink and circuit complexity continues to grow, power has become the limiting factor in today's microprocessor design. Since the power dissipation is a function of many variables with uncertainty, the most accurate representation of chip power or macro power is a statistical distribution subject to process and workload variation, instead of a single number for the average or worst-case power. Unlike statistical timing models that can be represented as a linear canonical form of Gaussian distributions, the exponential dependency of leakage power on process variables, as well as the complex relationship between switching power and workload fluctuations, present unique challenges in statistical power analysis. This paper presents a comprehensive case study on the statistical distribution of dynamic switching power and static leakage power to demonstrate the characterization and correlation methods for macro-level and chip-level power analysis.
Year
DOI
Venue
2008
10.1007/978-3-540-95948-9_18
PATMOS
Keywords
Field
DocType
statistical modeling,dynamic switching power,static leakage,power dissipation,worst-case power,statistical power analysis,chip power,macro power,leakage power,chip-level power analysis,statistical distribution,static leakage power,statistical power,circuit complexity,canonical form,chip,power analysis,limiting factor,gaussian distribution,statistical model
Power analysis,Power-flow study,Exponential function,Leakage (electronics),Circuit complexity,Computer science,Electronic engineering,Statistical model,Macro,Statistical power
Conference
Volume
ISSN
Citations 
5349
0302-9743
2
PageRank 
References 
Authors
0.40
8
5
Name
Order
Citations
PageRank
Howard Chen1183.54
Scott Neely251.08
Xiong Jinjun380186.79
Vladimir Zolotov41367109.07
Chandu Visweswariah561560.90