Full-chip analysis of leakage power under process variations, including spatial correlations

Hongliang Chang; Sachin S Sapatnekar

Full-chip analysis of leakage power under process variations, including spatial correlations

Hongliang Chang, Sachin S Sapatnekar

Electrical and Computer Engineering

Research output: Contribution to journal › Conference article › peer-review

175 Scopus citations

Abstract

In this paper, we present a method for analyzing the leakage current, and hence the leakage power, of a circuit under process parameter variations that can include spatial correlations due to intra-chip variation. A lognormal distribution is used to approximate the leakage current of each gate and the total chip leakage is determined by summing up the lognormals. In this work, Both subthreshold leakage and gate tunneling leakage are considered. The proposed method is shown to be effective in predicting the CDF/PDF of the total chip leakage. The average errors for mean and sigma values are -1.3% and -4.1%.

Original language	English (US)
Article number	32.1
Pages (from-to)	523-528
Number of pages	6
Journal	Proceedings - Design Automation Conference
State	Published - Dec 1 2005
Event	42nd Design Automation Conference, DAC 2005 - Anaheim, CA, United States Duration: Jun 13 2005 → Jun 17 2005

Keywords

Algorithm
Design
Performance
Reliability

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abstract = "In this paper, we present a method for analyzing the leakage current, and hence the leakage power, of a circuit under process parameter variations that can include spatial correlations due to intra-chip variation. A lognormal distribution is used to approximate the leakage current of each gate and the total chip leakage is determined by summing up the lognormals. In this work, Both subthreshold leakage and gate tunneling leakage are considered. The proposed method is shown to be effective in predicting the CDF/PDF of the total chip leakage. The average errors for mean and sigma values are -1.3% and -4.1%.",

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AU - Sapatnekar, Sachin S

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N2 - In this paper, we present a method for analyzing the leakage current, and hence the leakage power, of a circuit under process parameter variations that can include spatial correlations due to intra-chip variation. A lognormal distribution is used to approximate the leakage current of each gate and the total chip leakage is determined by summing up the lognormals. In this work, Both subthreshold leakage and gate tunneling leakage are considered. The proposed method is shown to be effective in predicting the CDF/PDF of the total chip leakage. The average errors for mean and sigma values are -1.3% and -4.1%.

AB - In this paper, we present a method for analyzing the leakage current, and hence the leakage power, of a circuit under process parameter variations that can include spatial correlations due to intra-chip variation. A lognormal distribution is used to approximate the leakage current of each gate and the total chip leakage is determined by summing up the lognormals. In this work, Both subthreshold leakage and gate tunneling leakage are considered. The proposed method is shown to be effective in predicting the CDF/PDF of the total chip leakage. The average errors for mean and sigma values are -1.3% and -4.1%.

KW - Algorithm

KW - Design

KW - Performance

KW - Reliability

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M3 - Conference article

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SN - 0738-100X

SP - 523

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JO - Proceedings - Design Automation Conference

JF - Proceedings - Design Automation Conference

M1 - 32.1

T2 - 42nd Design Automation Conference, DAC 2005

Y2 - 13 June 2005 through 17 June 2005

ER -

Full-chip analysis of leakage power under process variations, including spatial correlations

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Keywords

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