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Comparative Analysis of Low Leakage SRAM Cell at 32nm Technology

by Jaspreet Kaur, Candy Goyal
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International Journal of Computer Applications
Foundation of Computer Science (FCS), NY, USA
Volume 133 - Number 12
Year of Publication: 2016
Authors: Jaspreet Kaur, Candy Goyal
10.5120/ijca2016908081

Jaspreet Kaur, Candy Goyal . Comparative Analysis of Low Leakage SRAM Cell at 32nm Technology. International Journal of Computer Applications. 133, 12 ( January 2016), 50-56. DOI=10.5120/ijca2016908081

@article{ 10.5120/ijca2016908081,
author = { Jaspreet Kaur, Candy Goyal },
title = { Comparative Analysis of Low Leakage SRAM Cell at 32nm Technology },
journal = { International Journal of Computer Applications },
issue_date = { January 2016 },
volume = { 133 },
number = { 12 },
month = { January },
year = { 2016 },
issn = { 0975-8887 },
pages = { 50-56 },
numpages = {9},
url = { https://ijcaonline.org/archives/volume133/number12/23842-2016908081/ },
doi = { 10.5120/ijca2016908081 },
publisher = {Foundation of Computer Science (FCS), NY, USA},
address = {New York, USA}
}
%0 Journal Article
%1 2024-02-06T23:31:02.495306+05:30
%A Jaspreet Kaur
%A Candy Goyal
%T Comparative Analysis of Low Leakage SRAM Cell at 32nm Technology
%J International Journal of Computer Applications
%@ 0975-8887
%V 133
%N 12
%P 50-56
%D 2016
%I Foundation of Computer Science (FCS), NY, USA
Abstract

Continuous scaling of the transistor size and reduction of the operating voltage has led to a significant performance improvement of integrated circuits. Low power consumption and smaller area are the most important criteria for the fabrication of DSP systems. Static random access memories (SRAMs) consist of almost 90% of very large scale integrated (VLSI) circuits. The ever-increasing demand for larger data storage capacity has driven the fabrication technology and memory development toward more compact design rules and, consequently, toward higher storage densities. This paper deals with design of low power static random-access memory (RAM) cells and peripheral circuits for standalone RAMs, in 32nm focusing on stable operation and reduced leakage power dissipation. The work is carried out on Tanner Tool version 13 at 32nm technology.

References
  1. Singhal S., Gaur N., Mehra A. and Kumar P., "Analysis and comparison of leakage power reduction techniques in CMOS circuits," Signal Processing and Integrated Networks (SPIN), pp.936, 944, 19-20 Feb. 2015.
  2. Upadhyay P., Kundu P., Kar R., Mandal D. and Ghoshal S.P., "A novel 10T SRAM cell with low power dissipation in active and sleep mode for write operation," Computer Science and Software Engineering (JCSSE), pp.206,211, 14-16 May 2014.
  3. Leochico K. and John E., "Data retention voltage analysis of various low-power SRAM topologies," Circuits and Systems (MWSCAS), 2014 IEEE 57th International Midwest Symposium, pp.913,916, 3-6 Aug. 2014.
  4. Dhindsa, A.S and Saini S. "A novel differential 9t cell SRAM with reduced sub threshold leakage power," Advances in Engineering and Technology Research (ICAETR), pp.1, 5, 1-2 Aug. 2014.
  5. Sharma C.K. and Chandel R., "Analysis of SRAM cell designs for low power applications," Convergence of Technology (I2CT), pp.1, 4, 6-8 April 2014.
  6. Vanama K., Gunnuthula R. and Prasad G., "Design of low power stable SRAM cell," Circuit, Power and Computing Technologies (ICCPCT), pp.1263, 1267, 20-21 March 2014.
  7. Singh C., Grover A. and Grover N., "Implementation of a Modified Model-SRAM Using Tanner EDA," Computational Intelligence, Modelling and Simulation (CIMSim), pp.390, 393, 24-25 Sept. 2013.
  8. Grover A. "Low Power 7-T SRAM Using 90 nm Technology with Tanner Tool," Artificial Intelligence, Modelling and Simulation (AIMS), pp.467, 470, 3-5 Dec. 2013.
  9. Narayan S.L., Korah R. and Kumar N.K., "A novel sleepy stack 6-T SRAM cell design for reducing leakage power in submicron technologies," Communications and Signal Processing (ICCSP), 2013 International Conference , pp.753,757, 3-5 April 2013.
  10. Akashe. S, Mishra. M and Sharma. S, "Self-controllable voltage level circuit for low power, high speed 7T SRAM cell at 45 nm technology," Engineering and Systems (SCES), 2012 Students Conference on , pp.1,5, 16-18, 2012.
  11. Jain A. and Sharma S., "Optimization of Low Power 7T SRAM Cell in 45nm Technology," Advanced Computing & Communication Technologies (ACCT), pp.324, 327, 7-8 Jan. 2012.
  12. Yuan-yuan Wang, Zi-Ou Wang and Li-Jun Zhang, "A new 6-transistor SRAM cell for low power cache design," Solid-State and Integrated Circuit Technology (ICSICT), pp.1,3, Oct. 29 2012-Nov. 1 2012.
  13. Upadhyay P., Kar R., Mandal D. and Ghoshal S.P., "A low power CMOS voltage mode SRAM cell for high speed VLSI design," Microelectronics and Electronics (PrimeAsia), pp.25,28, 5-7 Dec. 2012.
  14. Teman A. and Fish, A., "Sub-threshold and near-threshold SRAM design," Electrical and Electronics Engineers in Israel (IEEEI), pp.608,612, 17-20 Nov. 2010.
  15. Neil H. E. Weste, David Harris, Ayan Bannerjee ,CMOS VLSI Design – A Circuits and Systems Perspective, Pearson Education, 3rd Edition 2009.
  16. Keejong Kim, Mahmoodi H. and Roy K., "A Low-Power SRAM Using Bit-Line Charge-Recycling," Solid-State Circuits IEEE Journal, vol.43, no.2, pp.446, 459, Feb. 2008.
  17. Sheng Lin, Yong-Bin Kim and Lombardi, Fabrizio, "A 32nm SRAM design for low power and high stability," Circuits and Systems, pp.422, 425, 10-13 Aug. 2008.
  18. Park J.C. and Mooney V.J., "Sleepy Stack Leakage Reduction," Very Large Scale Integration (VLSI) Systems, IEEE Transactions, vol.14, no.11, pp.1250, 1263, Nov. 2006.
  19. Yen-Jen Chang, Feipei Lai and Chia-Lin Yang, "Zero-aware asymmetric SRAM cell for reducing cache power in writing zero," Very Large Scale Integration (VLSI) Systems, vol.12, no.8, pp.827,836, Aug. 2004.
  20. Sung-Mo Kang, Yusuf Leblebici, CMOS Integrated Circuits-Analysis and design, Tata McGraw-hill Edition, 3rd Edition 2005.
Index Terms

Computer Science
Information Sciences

Keywords

SRAM VLSI Leakage Power Dissipation Static Power Dynamic Power.

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