Memristor-A Promising Candidate for Neural Circuits in Neuromorphic Computing Systems
References:
[1] Leon Chua. Memristor-the missing circuit element. IEEE Transactions on circuit theory, 18(5): 507-519, 1971.
[2] D. B. Strukov, G. S. Snider, D. R. Stewart, and R Stanley Williams. The missing Memristor found. Nature, 453(7191):80-83, 2008.
[3] Makoto Itoh and Leon O. Chua. Memristor oscillators. International Journal of Bifurcation and Chaos,18(11):3183-3206, 2008.
[4] Qiangfei Xia, Warren Robinett, Michael W. Cumbie, Neel Banerjee, Thomas J. Cardinali, Joshua Yang, Wei Wu, Xuema Li, William M Tong, Dmitri B Strukov, et al. Memristor- CMOS hybrid integrated circuits for reconfigurable logic. Nano letters, 9(10):3640-3645, 2009
[5] M. Di Ventra, Y. V. Pershin, and Leon O. Chua. Circuit elements with memory: memristors, memcapacitors, and meminductors. Proceedings of the IEEE, 97(10):1717-1724, 2009.
[6] Yenpo Ho, Garng M Huang, and Peng Li. Nonvolatile memristor memory: device characteristics and design implications. In Proceedings of the International Conference on Computer-Aided Design, pages 485-490. ACM, 2009.
[7] Yogesh N Joglekar and Stephen J Wolf. The elusive memristor: properties of basic electrical circuits. European Journal of Physics, 30(4):661, 2009.
[8] Sung Hyun Jo, Kuk-Hwan Kim, Ting Chang, Siddharth Gaba, and Wei Lu. Si memristive devices applied to memory and neuromorphic circuits. in Circuits and Systems, Proceedings of IEEE International Symposium on, pages 13-16. IEEE, 2010.
[9] Bharathwaj Muthuswamy and Leon O. Chua. Simplest chaotic circuit. International Journal of Bifurcation and Chaos, 20(05):1567-1580, 2010.
[10] Adam Rak and Gyorgy Cserey. Macromodeling of the memristor in spice. IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems, 29(4):632-636, 2010.
[11] Sangho Shin, Kyungmin Kim, and Sung-Mo Kang. Compact models for memristors based on charge-flux constitutive relationships in the IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems, 29(4):590-598, 2010.
[12] Mohammad Javad Shari and Yasser Mohammadi Banadaki. General spice models for memristor and application to circuit simulation of memristor-based synapses and memory cells in the Journal of Circuits, Systems, and Computers, 19(02):407-424, 2010.
[13] Mohammad Mahvash and Alice C Parker. A memristor spice model for designing memristor circuits. In Circuits and Systems (MWSCAS), 2010 53rd IEEE International Midwest Symposium on, pages 989-992. IEEE, 2010.
[14] Y. V. Pershin and M. Di Ventra. Practical approach to programmable analog circuits with memristors in the IEEE Transactions on Circuits and Systems I: Regular Papers, 57(8):1857-1864, 2010.
[15] Sangho Shin, Kyungmin Kim, and Sung-Mo Kang. Memristor applications for programmable analog ics. IEEE Transactions on Nanotechnology, 10(2):266-274, 2011.
[16] Yenpo Ho, Garng M. Huang, and Peng Li. Dynamical properties and design analysis for nonvolatile Memristor Regular Papers, 58(4):724-736, 2011 memories. IEEE Transactions on Circuits and Systems I.
[17] Tsung-Wen Lee and Janice H Nickel. Memristor resistance modulation for analog applications. IEEE electron device letters, 33(10):1456-1458, 2012.
[18] Ioannis Vourkas and Georgios Ch Sirakoulis. A novel design and modeling paradigm for memristor-based crossbar circuits in the IEEE Transactions on Nanotechnology, 11(6):1151-1159, 2012.
[19] Ella Gale, Ben de Lacy Costello, and Andrew Adamatzky. Boolean logic gates from a single Memristor via low-level sequential logic in International Conference on Unconventional Computing and Natural Computation, pages 79{89. Springer, 2013.
[20] J. Joshua Yang, Dmitri B. Strukov, and Duncan R. Stewart. Memristive devices for computing in the Nature nanotechnology, 8(1):13-24, 2013.
[21] Dalibor Biolek, Massimiliano Di Ventra, and Yuriy V Pershin. Reliable spice simulations of memristors, memcapacitors and meminductors. arXiv preprint arXiv:1307.2717, 2013.
[22] Suayb Cagri Yener, Resat Mutlu, and H Hakan Kuntman. Frequency and time domain characteristics of memristor-based filters. In Signal Processing and Communications Applications Conference (SIU), 2014 22nd, pages 2027-2030. IEEE, 2014.
[23] Suayb Cagri Yener, Resat Mutlu, and Hakan Kuntman. A new memristor-based high-pass filter/amplifier: Its analytical and dynamical models in Radioelektronika , 24th International Conference, pages 1-4. IEEE, 2014.
[24] Juhi Faridi., Mohd. Samar Ansari and Syed Atiqur Rehman, A Neuromorphic Majority Function Circuit with O(n) Area Complexity in 180 nm CMOS, Proceedings of the International Conference on Data Engineering and Communication Technology: ICDECT 2016, Volume 1 (pp.473-480).
[25] Carver Mead, “Neuromorphic electronic systems” Proceedings of the IEEE, vol.78, no.10. pp. 1629-1636. 1990.
[26] Saber Moradi and Rajit Manohar. The Impact of On-chip Communication on Memory Technologies for Neuromorphic Systems, in Journal of Physics D: Applied Physics, Volume 52, Number 1 Special issue on brain-inspired pervasive computing: from materials engineering to neuromorphic architectures.: IOP Publishing Ltd. 2018.
[27] Xinjiang Zhang, Anping Huang,Qi Hu, Zhisong Xiao, and Paul K. Chu. Neuromorphic Computing with Memristor Crossbar, Verlag GmbH & Co. KGaA, Weinheim edn., physica status solidi (a) / Volume 215, Issue 13: Wiley Online Library. 2018.