Energy-efficient dynamic circuit design in the presence of crosstalk noise

Ganesh Balamurugan; Naresh R. Shanbhag

doi:10.1145/313817.313833

Energy-efficient dynamic circuit design in the presence of crosstalk noise

Research output: Contribution to conference › Paper › peer-review

Abstract

This paper describes the impact of crosstalk noise on low power design techniques based on voltage scaling. It is shown that this power saving strategy aggravates the crosstalk noise problem and reduces circuit noise immunity. A new energy-efficient, noise-tolerant dynamic circuit technique is presented to address this problem. In a 0.35 μm CMOS technology and at a given supply voltage, the proposed technique provides an improvement in noise-immunity of 1.8X(for an AND gate) and 2.5X(for an adder carry chain) over domino at the same speed. We use this fact to operate the noise-tolerant circuit at a lower supply voltage to obtain energy savings of about 30%, while expending 30% more area. Also, to achieve a given noise immunity, the proposed technique consumes 40% less energy compared to existing noise-tolerance techniques.

Original language	English (US)
Pages	24-29
Number of pages	6
DOIs	https://doi.org/10.1145/313817.313833
State	Published - 1999
Event	Proceedings of the 1999 International Conference on Low Power Electronics and Design (ISLPED) - San Diego, CA, USA Duration: Aug 16 1999 → Aug 17 1999

Conference

Conference	Proceedings of the 1999 International Conference on Low Power Electronics and Design (ISLPED)
City	San Diego, CA, USA
Period	8/16/99 → 8/17/99

ASJC Scopus subject areas

General Engineering

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10.1145/313817.313833

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title = "Energy-efficient dynamic circuit design in the presence of crosstalk noise",

abstract = "This paper describes the impact of crosstalk noise on low power design techniques based on voltage scaling. It is shown that this power saving strategy aggravates the crosstalk noise problem and reduces circuit noise immunity. A new energy-efficient, noise-tolerant dynamic circuit technique is presented to address this problem. In a 0.35 μm CMOS technology and at a given supply voltage, the proposed technique provides an improvement in noise-immunity of 1.8X(for an AND gate) and 2.5X(for an adder carry chain) over domino at the same speed. We use this fact to operate the noise-tolerant circuit at a lower supply voltage to obtain energy savings of about 30%, while expending 30% more area. Also, to achieve a given noise immunity, the proposed technique consumes 40% less energy compared to existing noise-tolerance techniques.",

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AB - This paper describes the impact of crosstalk noise on low power design techniques based on voltage scaling. It is shown that this power saving strategy aggravates the crosstalk noise problem and reduces circuit noise immunity. A new energy-efficient, noise-tolerant dynamic circuit technique is presented to address this problem. In a 0.35 μm CMOS technology and at a given supply voltage, the proposed technique provides an improvement in noise-immunity of 1.8X(for an AND gate) and 2.5X(for an adder carry chain) over domino at the same speed. We use this fact to operate the noise-tolerant circuit at a lower supply voltage to obtain energy savings of about 30%, while expending 30% more area. Also, to achieve a given noise immunity, the proposed technique consumes 40% less energy compared to existing noise-tolerance techniques.

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Energy-efficient dynamic circuit design in the presence of crosstalk noise

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