Comparison of Different Window Functions with Threshold Logic

N. Khadar Basha*, T. Ramashri**
* Research Scholar, Department of Electronics and Communication Engineering, S.V University, Tirupati, A.P, India.
** Professor, Department of Electronics and Communication Engineering, S.V University, Tirupati, A.P, India.
Periodicity:December - February'2017
DOI : https://doi.org/10.26634/jele.7.2.11412

Abstract

Memristor is a novel two-port circuit element with a memory, as device that can be used in many applications, such as memory, logic, and neuromorphic systems. As a passive circuit element, the memristor would be a useful tool to analyse circuit behavior via simulation. SPICE model is an appropriate way to describe the real device operation. In this paper, a SPICE model of memristor is incorporated with threshold logic circuit for nonlinear dopant drift. Various window functions have been proposed in nonlinear ion drift memristor devices. The circuit analysis of the proposed memristor models are studied by investigating and characterizing the physical electronic and behavioral properties of memristor device. The simulation output should have a current voltage hysteresis curve, which looks like a bow tie. The loop, maps the switching behavior of the device and makes comparison of these memristor implemented circuit design between different types of memristor window models. The research verifies the proposed threshold memristor model and the possibilities of implementing memristor model in practical analog circuit.

Keywords

Memristor, Memristor SPICE Model, Nonlinear, Window Functions

How to Cite this Article?

Basha, N.K., and Ramashri, T. (2017). Comparison of Different Window Functions with Threshold Logic. i-manager’s Journal on Electronics Engineering, 7(2), 26-36. https://doi.org/10.26634/jele.7.2.11412

References

[1]. R. Stanley Williams, (2008). “How we found the missing memristor”. IEEE Spectrum, Vol. 45, No. 12, pp. 28-35.
[2]. L.O. Chua, (1971). “Memristor – The missing circuit element”. IEEE Transactions on Circuit Theory, Vol.18, No.5, pp.507-519.
[3]. D.B. Strukov, G.S. Snider, D.R. Stewart, and R.S. Williams, (2008). “The missing memristor found”. Nature, Vol.453, No.7191, pp.80-83.
[4]. Rak, A., and Cserey, G, (2010). “Macromodeling of the Memristor in SPICE”. Computer-aided Design of Integrated Circuits and Systems, IEEE Transactions, Vol.29, No.4, pp.632-636.
[5]. Abdalla, H., and Pickett, M.D. (2011). “SPICE modeling of memristors”. Circuits and Systems (ISCAS), IEEE International Symposium, Rio de Janeiro, pp.1832- 1835.
[6]. Z. Biolek, D. Biolek, and V. Biolkov . (2009). “SPICE model of memristor with nonlinear dopant drift”. Radio Engineering J., Vol.18, No.2, pp.210-214.
[7]. J. Joshua Yang, Matthew D. Pickett, Xuema Li, Douglas A.A. Ohlberg, Duncan R. Stewart, and R. Stanley Williams K., (2008). “Memristive Switching Mechanism for Metal/Oxide/Metal Nanodevices”. Vol. 3, pp. 429-433. doi:10.1038/nnano.2008.160
[8]. T. Prodromakis, B.P. Peh, C. Papavassiliou, and C. Toumazou, (2011). “A versatile memristor model with nonlinear dopant kinetics”. IEEE Trans. on Electron. Devices, Vol.58, No.9, pp.3099-3105.
[9]. M. Di Ventra, Y.V. Pershin, and L.O. Chua, (2009). “ C i r c u i t e l e m e n t s w i t h m e m o r y : M e m r i s t o r s, memcapacitors, and meminductors”. Proc. IEEE, Vol.97, No.10, pp.1717-1724.
[10]. F. Alibart, S. Pleutin, D. Guerin, C. Novembre, S. Lenfant, K. Lmimouni, C. Gamrat, and D. Vuillaume, (2010). “An organic nanoparticle transistor behaving as a biological spiking synapse”. Adv. Funct. Mat., Vol.20, No.2, pp.330-337.
[11]. Joglekar, Y.N., and Wolf, S.J. (2009). “The elusive memristor: Properties of basic electrical circuits”. European Journal of Physics, Vol. 30, No. 4, pp. 661-675.
[12]. S. Benderli, and T. Wey, (2009). “On SPICE macromodelling of TiO memristors”. Electronics Letters, 2 Vol.45, No.7, pp.377-379.
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