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Optical synaptic devices with ultra-low power consumption for neuromorphic computing

Chenguang Zhu, Huawei Liu, Wenqiang Wang, Xiang Li, Jie Jiang, Shuai Qin, Xin Yang, Tian Zhang, Biyuan Zheng, Hui Wang, Dong Li, Anlian Pan

2022Light Science & Applications171 citationsDOIOpen Access PDF

Abstract

Abstract Brain-inspired neuromorphic computing, featured by parallel computing, is considered as one of the most energy-efficient and time-saving architectures for massive data computing. However, photonic synapse, one of the key components, is still suffering high power consumption, potentially limiting its applications in artificial neural system. In this study, we present a BP/CdS heterostructure-based artificial photonic synapse with ultra-low power consumption. The device shows remarkable negative light response with maximum responsivity up to 4.1 × 10 8 A W −1 at V D = 0.5 V and light power intensity of 0.16 μW cm −2 (1.78 × 10 8 A W −1 on average), which further enables artificial synaptic applications with average power consumption as low as 4.78 fJ for each training process, representing the lowest among the reported results. Finally, a fully-connected optoelectronic neural network (FONN) is simulated with maximum image recognition accuracy up to 94.1%. This study provides new concept towards the designing of energy-efficient artificial photonic synapse and shows great potential in high-performance neuromorphic vision systems.

Topics & Concepts

Neuromorphic engineeringComputer scienceEnergy consumptionPhotonicsArtificial neural networkPower consumptionResponsivitySynapseOptical computingEfficient energy useArtificial intelligenceSynaptic weightOptoelectronicsElectronic engineeringPower (physics)Materials scienceElectrical engineeringEngineeringPhysicsTelecommunicationsNeuroscienceDetectorBiologyQuantum mechanicsAdvanced Memory and Neural ComputingNeural Networks and Reservoir Computing2D Materials and Applications
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