Dynamical memristors for higher-complexity neuromorphic computing
Research on electronic devices and materials is currently driven by both the slowing down
of transistor scaling and the exponential growth of computing needs, which make present …
of transistor scaling and the exponential growth of computing needs, which make present …
Volatile and nonvolatile memristive devices for neuromorphic computing
Ion migration as well as electron transfer and coupling in resistive switching materials
endow memristors with a physically tunable conductance to resemble synapses, neurons …
endow memristors with a physically tunable conductance to resemble synapses, neurons …
[HTML][HTML] Experimental demonstration of highly reliable dynamic memristor for artificial neuron and neuromorphic computing
Neuromorphic computing, a computing paradigm inspired by the human brain, enables
energy-efficient and fast artificial neural networks. To process information, neuromorphic …
energy-efficient and fast artificial neural networks. To process information, neuromorphic …
[HTML][HTML] Reconfigurable halide perovskite nanocrystal memristors for neuromorphic computing
Many in-memory computing frameworks demand electronic devices with specific switching
characteristics to achieve the desired level of computational complexity. Existing memristive …
characteristics to achieve the desired level of computational complexity. Existing memristive …
A memristor-based analogue reservoir computing system for real-time and power-efficient signal processing
Reservoir computing offers a powerful neuromorphic computing architecture for
spatiotemporal signal processing. To boost the power efficiency of the hardware …
spatiotemporal signal processing. To boost the power efficiency of the hardware …
[HTML][HTML] Reconfigurable neuromorphic memristor network for ultralow-power smart textile electronics
Neuromorphic computing memristors are attractive to construct low-power-consumption
electronic textiles due to the intrinsic interwoven architecture and promising applications in …
electronic textiles due to the intrinsic interwoven architecture and promising applications in …
[HTML][HTML] An organic artificial spiking neuron for in situ neuromorphic sensing and biointerfacing
The effective mimicry of neurons is key to the development of neuromorphic electronics.
However, artificial neurons are not typically capable of operating in biological environments …
However, artificial neurons are not typically capable of operating in biological environments …
[HTML][HTML] In vitro neurons learn and exhibit sentience when embodied in a simulated game-world
Integrating neurons into digital systems may enable performance infeasible with silicon
alone. Here, we develop DishBrain, a system that harnesses the inherent adaptive …
alone. Here, we develop DishBrain, a system that harnesses the inherent adaptive …
Electrochemical‐Memristor‐Based Artificial Neurons and Synapses—Fundamentals, Applications, and Challenges
Artificial neurons and synapses are considered essential for the progress of the future brain‐
inspired computing, based on beyond von Neumann architectures. Here, a discussion on …
inspired computing, based on beyond von Neumann architectures. Here, a discussion on …
Memristive Rulkov neuron model with magnetic induction effects
The magnetic induction effects have been emulated by various continuous memristive
models but they have not been successfully described by a discrete memristive model yet …
models but they have not been successfully described by a discrete memristive model yet …