摘要
Artificial synapses are electronic devices that simulate important functions of biological synapses,and therefore are the basic components of artificial neural morphological networks for brain-like computing.One of the most important objectives for developing artificial synapses is to simulate the characteristics of biological synapses as much as possible,especially their self-adaptive ability to external stimuli.Here,we have successfully developed an artificial synapse with multiple synaptic functions and highly adaptive characteristics based on a simple SrTiO_(3)/Nb:SrTiO_(3)heterojunction type memristor.Diverse functions of synaptic learning,such as short-term/long-term plasticity(STP/LTP),transition from STP to LTP,learning–forgetting–relearning behaviors,associative learning and dynamic filtering,are all bio-realistically implemented in a single device.The remarkable synaptic performance is attributed to the fascinating inherent dynamics of oxygen vacancy drift and diffusion,which give rise to the coexistence of volatile-and nonvolatile-type resistive switching.This work reports a multi-functional synaptic emulator with advanced computing capability based on a simple heterostructure,showing great application potential for a compact and low-power neuromorphic computing system.
基金
the National Key Research&Development Program of China(No.2021YFB3601504)
the National Natural Science Foundation of China(Nos.52072218,12222414,12074416)
the Natural Science Foundation of Shandong province(Nos.ZR2022YQ43 and ZR2020ZD28)
Heilongjiang Provincial Natural Resources Foundation Joint Guide Project(No.LH2020E098)
Peixin Fund of Qilu University of Technology(Shandong Academy of Sciences)(No.2023PY093).