Author:
Zhao Yuanxi,Duan Wenrui,Wang Chen,Xiao Shanpeng,Li Yuan,Li Yizheng,An Junwei,Li Huanglong
Abstract
Information in conventional digital computing platforms is encoded in the steady states of transistors and processed in a quasi-static way. Memristors are a class of emerging devices that naturally embody dynamics through their internal electrophyiscal processes, enabling nonconventional computing paradigms with enhanced capability and energy efficiency, such as reservoir computing. Here, we report on a dynamic memristor based on LiNbO3. The device has nonlinear I-V characteristics and exhibits short-term memory, suitable for application in reservoir computing. By time multiplexing, a single device can serve as a reservoir with rich dynamics which used to require a large number of interconnected nodes. The collective states of five memristors after the application of trains of pulses to the respective memristors are unique for each combination of pulse patterns, which is suitable for sequence data classification, as demonstrated in a 5 × 4 digit image recognition task. This work broadens the spectrum of memristive materials for neuromorphic computing.
Funder
China Association for Science and Technology
Reference20 articles.
1. Information processing using a single dynamical node as complex system;Appeltant;Nat. Commun.,2011
2. Memristor-the missing circuit element;Chua;IEEE Trans. Circuit Theory,1971
3. Reservoir computing using dynamic memristors for temporal information processing;Du;Nat. Commun.,2017
4. Resistive switching effects of crystal-ion-slicing fabricated LiNbO3 single crystalline thin film on flexible polyimide substrate;Huang;Adv. Electron. Mater.,2021
5. The echo state approach to analysing and training recurrent neural networks-with an erratum note;Jaeger;Bonn, Germany: German Natl. Res. Center for Inform. Technol. GMD Technical Rep,2001
Cited by
1 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献