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Low Power Stochastic Neurons From SiO2-Based Bilayer Conductive Bridge Memristors for Probabilistic Spiking Neural Network Applications—Part I: Experimental Characterization | IEEE Journals & Magazine | IEEE Xplore

Low Power Stochastic Neurons From SiO2-Based Bilayer Conductive Bridge Memristors for Probabilistic Spiking Neural Network Applications—Part I: Experimental Characterization


Abstract:

The development of low-power neurons with an intrinsic degree of stochasticity is considered quite important for the emulation of the respective probabilistic procedures ...Show More

Abstract:

The development of low-power neurons with an intrinsic degree of stochasticity is considered quite important for the emulation of the respective probabilistic procedures that take place within the biological neural networks. While the majority of the reported artificial neuronal configurations relies on the demonstration of well-defined spiking patterns or the realization of complicated neuromorphic properties, there is an urgent need to devise biological-like neurons with arbitrary firing capabilities. Along these lines, we present a novel threshold switching memristor from SiO2-based bilayer conductive-bridge resistive switching memory (CBRAM) and Pt nanoparticles (NPs) used as a bottom electrode (BE) in order to implement robust stochastic neuron activity accompanied with steep transition slope [~0.75 mV/dec(A)], large OFF-state (~ 10^{11} \Omega ), low switching voltage (~200 mV), and ultrafast turn-on speed (~50 ns). Moreover, probabilistic leaky-integrate-and-fire (LIF) neuron properties were attained by employing a simple RC circuit as well as tunable integrate-and-fire (IF) properties from stand-alone threshold switching elements, which are of great significance for the development of artificial spiking neuromorphic networks.
Published in: IEEE Transactions on Electron Devices ( Volume: 69, Issue: 5, May 2022)
Page(s): 2360 - 2367
Date of Publication: 25 March 2022

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