Litcius/Paper detail

A flexible dual-gate hetero-synaptic transistor for spatiotemporal information processing

Xuerong Liu, Cui Sun, Zhecheng Guo, Yuejun Zhang, Zheng Zhang, Jie Shang, Zhicheng Zhong, Xiaojian Zhu, Xue Yu, Run‐Wei Li

2022Nanoscale Advances36 citationsDOIOpen Access PDF

Abstract

spatiotemporal information integration and storage. We show that electric pulses applied on a single gate or unsynchronized electric pulses applied on dual gates only induce volatile conductance modulation for short-term memory emulation. In contrast, the device integrates the electric pulses coincidently applied on the dual gates in a supralinear manner and exhibits nonvolatile conductance modulation, enabling long-term memory emulation. Further studies prove that artificial neural networks based on such hetero-synaptic transistors can autonomously filter the random noise signals in the dual-gate inputs during spatiotemporal integration, facilitating the formation of accurate and stable memory. Compared to the single-gate synaptic transistor, the classification accuracy of MNIST handwritten digits using the hetero-synaptic transistor is improved from 89.3% to 99.0%. These findings demonstrate the great potential of multi-gate hetero-synaptic transistors in simulating complex spatiotemporal information processing functions and provide new platforms for the design of advanced neuromorphic computing systems.

Topics & Concepts

EmulationTransistorDual (grammatical number)Computer scienceInformation processingMaterials scienceNanotechnologyOptoelectronicsElectronic engineeringNeuroscienceElectrical engineeringEngineeringBiologyVoltagePsychologyLiteratureArtSocial psychologyAdvanced Memory and Neural ComputingNeuroscience and Neural EngineeringPhotoreceptor and optogenetics research
A flexible dual-gate hetero-synaptic transistor for spatiotemporal information processing | Litcius