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Scalable nanocomposite parylene-based memristors:Multifilamentary resistive switching and neuromorphic applications
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作者 Anna N.Matsukatova Artem Yu.Vdovichenko +4 位作者 Timofey D.Patsaev Pavel A.Forsh Pavel K.Kashkarov vyacheslav a.demin Andrey V.Emelyanov 《Nano Research》 SCIE EI CSCD 2023年第2期3207-3214,共8页
Memristors are promising candidates for synapse emulation in brain-inspired neuromorphic computing systems.The main obstacle to their usage in such systems is high variability of memristive characteristics and its sev... Memristors are promising candidates for synapse emulation in brain-inspired neuromorphic computing systems.The main obstacle to their usage in such systems is high variability of memristive characteristics and its severe negative effect on the neural network training.This paper addresses the issue from two points of view on the example of the parylene-based memristors:(i)the methods of the memristor internal stochasticity decrease and(ii)the methods of the memristive neural network architecture simplification.The introduction of an optimal Ag nanoparticle concentration(3 vol.%–6 vol.%)to the memristive structure leads to a statistically significant decrease in the switching voltage variation and endurance increase.Moreover,it is shown that post-fabrication annealing improves memristive characteristics,e.g.,resistive switching window increases by an order of magnitude and exceeds 106,the switching voltage variation decreases by a factor of 2(down to 7%for the set and 17%for the reset voltage),and thermostability is improved.Additional transmission electron microscopy and impedance spectroscopy analysis allowed establishing a multifilamentary resistive switching mechanism for nanocomposite parylene-based memristors.The simulation of the formal neural network based on these memristors demonstrates high classification accuracy with low variation for an important biomedical task,heart disease prediction,after careful feature selection and network architecture simplification.Future prospects of the controlled incorporation of the nanocomposite parylene-based memristors in neural networks are brightened by their scaling possibility in crossbar geometry. 展开更多
关键词 MEMRISTOR resistive switching neuromorphic computing PARYLENE NANOCOMPOSITE
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