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Research Article |

Performance Evaluation of Low Power Hybrid Combinational Circuits using Memristor

Author(s): Jyoti Garg1 and Subodh Wairya2

Published In : International Journal of Electrical and Electronics Research (IJEER)        Volume 10, Issue 4

Publisher : FOREX Publication

Published : 12 November 2022

e-ISSN : 2347-470X

Page(s) : 988-993

DOI: https://doi.org/10.37391/IJEER.100439

Abstract

Recently, extending the use of memristor technology from memory to computing has received a lot of attention. Memristor-based logic design is a new concept that aims to make computing systems more efficient. Several logic families have emerged, each with its own set of characteristics. In this paper, CMOS-based hybrid memristor-based combinational circuits are designed. Many computational devices require combinational circuits. All of the proposed designs were analysed for power, latency, and transistor count. Cadence Virtuoso is used for simulation of circuits. In this study, we used the VTEAM model to describe the simulated memristor because it is easy to understand and gives accurate results.

Keywords: Memristor, Combinational Logic, Decoder, Encoder, Multiplexer .




Jyoti Garg*, Research Scholar, Department of Electronics Engineering, Dr. A.P.J. Abdul Kalam Technical University, UP, India; Email: jyotigarg16@gmail.com

Subodh Wairya, Professor, Department of Electronics and Communication Engineering, IET, Lucknow, UP, India; Email: subodh.wariya@ietlucknow.ac.in

    [1] Chua, L. 1971. Memristor-the missing circuit element. IEEE Transactions on circuit theory, 18(5), 507-519.[Cross Ref]
    [2] Strukov, D. B., Snider, G. S., Stewart, D. R., & Williams, R. S. 2008. The missing memristor found. nature, 453(7191), 80-83.[Cross Ref]
    [3] MGSP, R., V. Ravi.2018. Nondestructive Read Circuit for Memristor-Based Memories. Nanoelectron. Mater. Devices, Springer, 123–31.[Cross Ref]
    [4] Adhikari, S. P., Sah, M. P., Kim, H., & Chua, L. O. 2013. Three fingerprints of memristor. IEEE Transactions on Circuits and Systems I: Regular Papers, 60(11), 3008-3021.[Cross Ref]
    [5] Vourkas, I., Sirakoulis, G.C. 2014. Memristor-based combinational circuits: A design methodology for encoders/decoders. Microelectronics J ,45:59–70. [Cross Ref]
    [6] Anshul Gupta, Shireesh Kumar Rai and Maneesha Gupta. 2022. Grounded Meminductor Emulator Using Operational Amplifier-Based Generalized Impedance Converter and Its Application in High Pass Filter. IJEER 10(3), 496-500. [Cross Ref]
    [7] Shirinzadeh, S., Datta K., Drechsler, R. 2018. Logic Design Using Memristors: An Emerging Technology, IEEE 48th International Symposium on Multiple-Valued Logic (ISMVL),121-126.[Cross Ref]
    [8] Vista, J., & Ranjan, A. 2019. Design of memcapacitor emulator using DVCCTA. In Journal of Physics: Conference Series, Vol. 1172, No. 1, p. 012104. IOP Publishing.[Cross Ref]
    [9] Hsieh,P., Tang,M., Hsu,S., Lin,M., Chen, Y.2019. Design and Implementation of a Memristor-Based Oscillator, IEEE International Symposium on Circuits and Systems (ISCAS), 1-4.[Cross Ref]
    [10] Yang X, Taylor, B., Wu, A., Chen, Y., Chua, L. O. 2022. Research Progress on Memristor: From Synapses to Computing Systems. IEEE Transactions on Circuits and Systems I: Regular Papers, vol. 69, no. 5, 1845-1857.[Cross Ref]
    [11] Cao, G., Gao, C., Wang, J.2022. Memristor based on two-dimensional titania nanosheets for multi-level storage and information processing. Nano Res. 15, 8419–8427.[Cross Ref]
    [12] Viswakumar, A., Ganganaik, P.B., Preetam Raj,P.M., Rao, BVVSN P., Kundu, S. 2021. Memristor-based in-memory processor for high precision semantic text classification, Computers & Electrical Engineering, Volume 92, 107160, ISSN 0045-7906.[Cross Ref]
    [13] Raj, N., Ranjan, R. K., Khateb, F., & Kumngern, M. 2021. Mem-elements emulator design with experimental validation and its application. IEEE Access, 9, 69860-69875.[Cross Ref]
    [14] Ali, M., Mohamed, S., Elshafey, M., Mostafa, H. 2019. Comparative Study for Some Memristor models in Different Circuit Applications, 31st International Conference on Microelectronics (ICM), 262-266.[Cross Ref]
    [15] Kvatinsky, S.,Friedman, E.G., Kolodny, A., Weiser, U.C. 2013. TEAM: Threshold adaptive memristor model. IEEE Trans. Circuits Syst. I Regul. Pap., 60, 211–221.[Cross Ref]
    [16] Amarnath, N., Ramakrishnan, V.N. 2020. Modeling and Simulation of Gated Memristor,Materials Today: Proceedings, Volume 24, Part 3,Pages 1777-1787,ISSN 2214-7853.[Cross Ref]
    [17] Jang, Y.H., Kim, W., Kim, J. 2021. Time-varying data processing with nonvolatile memristor-based temporal kernel. Nat Commun 12, 5727.[Cross Ref]
    [18] Singh,A., Rai,S.K. 2021. VDCC-Based Memcapacitor/Meminductor Emulator and Its Application in Adaptive Learning Circuit. Iranian Journal of Science and Technology, Transactions of Electrical Engineering 45:4, 1151-1163.[Cross Ref]
    [19] Ma, X., Mou,J., Xiong,L., Banerjee, S., Cao,Y., Wang,J. 2021. A novel chaotic circuit with coexistence of multiple attractors and state transition based on two memristors. Chaos, Solitons & Fractals 152, 111363.[Cross Ref]
    [20] Barboni, L. 2021. A Novel Passive Circuit Emulator for a Current-Controlled Memristor, Active and Passive Electronic Components, vol. 2021, Article ID 5582774, 8 pages.[Cross Ref]
    [21] Zhou, G. D., Wang, Z. R., Sun, B., Zhou, F. C., Sun, L. F., Zhao, H. B., Hu, X., Peng, X., Yan, J., Wang, H., Wang, W., Li, J., Yan, B., Kuang, D., Wang, Y., Wang, L., Duan, S. K. 2022. Volatile and Nonvolatile Memristive Devices for Neuromorphic Computing. Adv. Electron. Mater. 2022, 0, 2101127.[Cross Ref]
    [22] Tang,K., Wang,Y., Gong,C.,Yin,C., Zhang,M., Wang,X., Xiong,J. 2022. Electronic and Photoelectronic Memristors Based on 2D Materials, Advanced Electronic Materials, 10.1002/aelm.202101099, 8, 4.[Cross Ref]
    [23] Singroha,V., Aggarwal.B., Rai,S.K. 2022. Voltage Differencing Buffered Amplifier (VDBA) Based Grounded Meminductor Emulator. IJEER 10(3), 487-491. [Cross Ref]
    [24] Rashad, S. H., Hamed, E. M, Fouda, M. E, AbdelAty, A. M., Said, L. A., Radwan, A. G. 2017. On the analysis of current-controlled fractional-order memristor emulator. i6th International Conference on Modern Circuits and Systems Technologies (MOCAST), (2017), 1-4.[Cross Ref]
    [25] Zhang, H., Liu, R., Zhao, H., Sun, Z., Liu, Z., He, L., Li, Y.2022. Research Progress of Biomimetic Memristor Flexible Synapse. Coatings 2022, 12, 21. [Cross Ref]
    [26] Xu, Weilin, Wang, Jingjuan, Yan, Xiaobing. 2021. Advances in Memristor-Based Neural Networks. Frontiers in Nanotechnology. 3. 10.3389/fnano.2021.645995.[Cross Ref]
    [27] Sozen, H., & Cam, U. (2020). A novel floating/grounded meminductor emulator. Journal of Circuits, Systems and Computers, 29(15), 2050247.[Cross Ref]
    [28] Sinha, A., Aggarwal, B., Rai, S.K., Gautam, S. 2022, Current Conveyor Transconductance Amplifier (CCTA) based Grounded Memcapacitor Emulator. IJEER 10(3), 442-446.[Cross Ref]
    [29] Singh, A. 2018, Design and analysis of Memristor-based Combinational Circuits.IETE Journal of Research,66(2),182-191.[Cross Ref]

Jyoti Garg and Subodh Wairya (2022), Performance Evaluation of Low Power Hybrid Combinational Circuits using Memristor. IJEER 10(4), 988-993. DOI: 10.37391/IJEER.100439.