A Low-Cost Mixed Clock Generator for High Speed Adiabatic Logic | IEEE Conference Publication | IEEE Xplore
Access provided by:
MIT Libraries
Sign Out
Access provided by:
MIT Libraries
Sign Out
ADVANCED SEARCH
Conferences >2016 IEEE Computer Society An...

A Low-Cost Mixed Clock Generator for High Speed Adiabatic Logic

PDF
Zhou Zhao; Ashok Srivastava; Lu Peng; Saraju P. Mohanty
All Authors

Abstract:

Low power and robust circuitry are permanent hotspots in VLSI design. Adiabatic logic is one of potential breakthroughs for these goals. Especially, designing reliable cl...Show More

Metadata

Abstract:

Low power and robust circuitry are permanent hotspots in VLSI design. Adiabatic logic is one of potential breakthroughs for these goals. Especially, designing reliable clock tree is very significant for adiabatic logic due to four-phase clocked power required for pipelined data transmission in adiabatic system. In this paper, we present analysis of charging speed and clock types that influence power dissipation in adiabatic logic and comparison of current mainstream clock generators suitable for adiabatic system. Based on the characteristics of current designs, using TSMC 180nm fabrication process, we propose a novel mixed clock generator, including four-phase source, switch controller and clock MUX to build a robust clock using only one reference clock. The test shows that below 600MHz, the proposed design has negligible signal attenuation with low power dissipation. We have also compared our work and current designs in device cost, and suitable work frequency based on circuit structure.
Published in: 2016 IEEE Computer Society Annual Symposium on VLSI (ISVLSI)
Date of Conference: 11-13 July 2016
Date Added to IEEE Xplore: 08 September 2016
ISBN Information:
Electronic ISSN: 2159-3477
DOI: 10.1109/ISVLSI.2016.44
Conference Location: Pittsburgh, PA, USA
References is not available for this document.
Contents

I. Introduction

Adiabatic logic is one of effective methods of low power VLSI design [1]. The essence of adiabatic logic includes lowering charging speed and clocked power supply, both of which can reduce power dissipation to a large degree. Lots of work [2]–[5] proposed the optimization of adiabatic circuitry, and reported the breakthrough in the view of system using adiabatic logic [6], [7]. Besides, how to drive adiabatic logic using clocked power decides the performance of following system. Currently mainstream adiabatic systems need four-phase clocked power to achieve energy recovery and correct data flow, and most of well used designs are built by integrating passive devices to clock block [8]–[10], which occupies more chip area. This paper presents a low cost clocked power driving adiabatic system without passive devices. The main work is described as follows: 1) We mathematically analyzed the slow charge and three types of clocked powers used for adiabatic logic in the view of power dissipation; and 2) Based on the mainstream designs of clocked power, we proposed a novel mixed clock generator without passive devices, driven by a single sinusoidal signal. We used SPICE simulation to demonstrate the feasibility of our design.

Select All
1.
P. Teichmann, Adiabatic Logic: Future Trend and System Level Perspective, NY:Springer Science Business Media, 2011.
Google Scholar
2.
Y. Xu and A. Srivastava, "New energy recovery CMOS XNOR/XOR gates", Proc. of 50th Midwest Symposium on Circuits and Systems, pp. 948-951, 2007.
View Article
Google Scholar
3.
C. Kim, S.-M Yoo and S.-M. Kang, "Low-power adiabatic computing with NMOS energy recovery logic", Electronics Letters, vol. 36, pp. 1349-1350, Aug. 2000.
CrossRef Google Scholar
4.
Y. Moon and D.-K. Jeong, "An efficient charge recovery logic circuit", IEEE Journal of So lid-State Circuits, vol. 31, pp. 514-522, Apr. 1996.
View Article
Google Scholar
5.
A. Srivastava, Y. Xu and R. Soundararajan, "Energy recovery techniques for CNT-FET circuits", Proc. of International Symposium on Electronic System Design, pp. 81-84, 2010.
View Article
Google Scholar
6.
M. Morrison and N. Ranganathan, "Synthesis of dual-rail adiabatic logic for low power security applications", IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems, vol. 33, pp. 975-988, Jul. 2014.
Google Scholar
7.
C. Monteiro, Y. Takahashi and T. Sekine, "Low-power secure S-box circuit using charge-sharing symmetric adiabatic logic for advanced encryption standard hardware design", IET Circuits Devices Systems, vol. 9, pp. 362-369, Sep. 2015.
CrossRef Google Scholar
8.
L. J. Svensson and J. G. Koller, " Driving a capacitive load without dissipating fCV 2 ", Proc. of IEEE Symposium on Low Power Electronics Digest Technical Papers, pp. 100-101, 1994.
View Article
Google Scholar
9.
M. Arsalan and M. Shams, "Charge-recovery power clock generators for adiabatic logic circuits", Proc. of 18th International Conference on VLSI Design, pp. 171-174, 2005.
View Article
Google Scholar
10.
A. B. Stoffi, E. Amirante, J. Fischer, G. Innaccone and D. Landsiedel, "Resonant 90 degree shifter generator for 4-phase trapezoidal adiabatic logic", Advcanced Radio Science, vol. 1, pp. 243-246, 2003.
CrossRef Google Scholar
11.
S. P. Mohanty, Nanoelectronic Mixed-Signal System Design, OH:McGraw-Hill, 2015.
Google Scholar
12.
C. Eichenberger and W. Guggenbuhl, "On charge injection in analog MOS switches and dummy switch compensation techniques", IEEE Transactions on Circuits and Systems, vol. 37, pp. 256-264, Feb. 1990.
View Article
Google Scholar
13.
J. Rabaey, A. Chandrakasan and B. Nikolić, Digital Integrated Circuits, NJ: Upper Saddle River, 2003.
Google Scholar

Contact IEEE to Subscribe
More Like This
Power clock generator design using delay locked loop for adiabatic logic

2017 Second International Conference on Electrical, Computer and Communication Technologies (ICECCT)

Published: 2017

Reducing Power Dissipation in Adiabatic ECRL Inverter Based on All-NMOS Transistors

2024 International Conference on Green Energy, Computing and Sustainable Technology (GECOST)

Published: 2024

Show More

References

References is not available for this document.

IEEE Account

Purchase Details

Profile Information

Need Help?

A not-for-profit organization, IEEE is the world's largest technical professional organization dedicated to advancing technology for the benefit of humanity.
© Copyright 2025 IEEE - All rights reserved. Use of this web site signifies your agreement to the terms and conditions.