Silicon on insulator null convention logic based asynchronous circuit design for high performance low power digital systems

Nguyen, H, Holland, A and Beckett, P 2018, 'Silicon on insulator null convention logic based asynchronous circuit design for high performance low power digital systems', in 2018 2nd International Conference on Recent Advances in Signal Processing, Telecommunications and Computing, Ho Chi Minh, Vietnam, 29-31 January 2019, pp. 111-115.


Document type: Conference Paper
Collection: Conference Papers

Title Silicon on insulator null convention logic based asynchronous circuit design for high performance low power digital systems
Author(s) Nguyen, H
Holland, A
Beckett, P
Year 2018
Conference name 2018 2nd International Conference on Recent Advances in Signal Processing, Telecommunications and Computing
Conference location Ho Chi Minh, Vietnam
Conference dates 29-31 January 2019
Proceedings title 2018 2nd International Conference on Recent Advances in Signal Processing, Telecommunications and Computing
Publisher IEEE
Place of publication Ho Chi Minh, Vietnam
Start page 111
End page 115
Total pages 5
Abstract Integrated Circuits developed for portable hardware systems are required to operate at ultra-low power supply levels with a considerable speed performance while occupying a relatively small circuit area. These circuit design and optimization constraints impose significant challenges to the whole semiconductor industry. Null Convention Logic based approach has evolved to a prominent clock-less circuit design and optimization technique due to its easiness and readiness in circuit design, implementation, and optimization with Electronic Design Automation tool support. This paper proposes and examines a novel Null Convention Logic gate architecture implemented in Fully-Depleted Silicon on Insulator 28 nanometer technology node targeting mobile systems. The newly-proposed gate architecture has outperformed its conventional NCL static and semi-static CMOS counterparts in terms of power consumption and operational speed and can be dynamically controlled to switch between high speed and ultra-low power low leakage operational modes.
Subjects Microelectronics and Integrated Circuits
Keyword(s) null convention logic
silicon on insulator
low power
asynchronous
DOI - identifier 10.1109/SIGTELCOM.2018.8325772
Copyright notice © 2018 IEEE
ISBN 9781538629765
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