Gate-diffusion input (GDI)-a novel power efficient method for digital circuits: a design methodology

A. Morgenshtein; A. Fish; A. Wagner

Gate-diffusion input (GDI)-a novel power efficient method for digital circuits: a design methodology

A. Morgenshtein, A. Fish, A. Wagner

Bar-Ilan University - The Alexander Kofkin Faculty of Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

GDI (gate diffusion input)-a new technique of low power digital combinatorial circuit design-is described. This technique allows reducing power consumption, delay and area of digital circuits, while maintaining low complexity of logic design. A detailed design methodology is described. Performance comparison with traditional CMOS and PTL design techniques is presented. The different methods are compared with respect to the layout area, number of devices, delay and power dissipation. Several logic circuits have been implemented in various design styles. Their properties are discussed, simulation results are reported

Original language	American English
Title of host publication	ASIC/SOC Conference, 2001. Proceedings. 14th Annual IEEE International
Publisher	IEEE
State	Published - 2001

Bibliographical note

Place of conference:USA

Cite this

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title = "Gate-diffusion input (GDI)-a novel power efficient method for digital circuits: a design methodology",

abstract = "GDI (gate diffusion input)-a new technique of low power digital combinatorial circuit design-is described. This technique allows reducing power consumption, delay and area of digital circuits, while maintaining low complexity of logic design. A detailed design methodology is described. Performance comparison with traditional CMOS and PTL design techniques is presented. The different methods are compared with respect to the layout area, number of devices, delay and power dissipation. Several logic circuits have been implemented in various design styles. Their properties are discussed, simulation results are reported",

author = "A. Morgenshtein and A. Fish and A. Wagner",

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AU - Fish, A.

AU - Wagner, A.

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PY - 2001

Y1 - 2001

N2 - GDI (gate diffusion input)-a new technique of low power digital combinatorial circuit design-is described. This technique allows reducing power consumption, delay and area of digital circuits, while maintaining low complexity of logic design. A detailed design methodology is described. Performance comparison with traditional CMOS and PTL design techniques is presented. The different methods are compared with respect to the layout area, number of devices, delay and power dissipation. Several logic circuits have been implemented in various design styles. Their properties are discussed, simulation results are reported

AB - GDI (gate diffusion input)-a new technique of low power digital combinatorial circuit design-is described. This technique allows reducing power consumption, delay and area of digital circuits, while maintaining low complexity of logic design. A detailed design methodology is described. Performance comparison with traditional CMOS and PTL design techniques is presented. The different methods are compared with respect to the layout area, number of devices, delay and power dissipation. Several logic circuits have been implemented in various design styles. Their properties are discussed, simulation results are reported

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M3 - Conference contribution

BT - ASIC/SOC Conference, 2001. Proceedings. 14th Annual IEEE International

PB - IEEE

ER -

Gate-diffusion input (GDI)-a novel power efficient method for digital circuits: a design methodology

Abstract

Bibliographical note

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