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Energy efficient integrated MEMS neural network for simultaneous sensing and computing

Hamed Nikfarjam, Mohammad Megdadi, Mohammad Okour, Siavash Pourkamali, Fadi Alsaleem

发表年份
2023
引用次数
18
访问权限
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摘要

Abstract Biological systems seamlessly combine multiple functions in lightweight and energy-efficient structures. Such capability in synthetic structures would be desirable in numerous engineering applications such as aerospace, robotics and wearable devices. Here we report an integrated silicon-based structure configured to sense, perform different classification algorithms, and produce an action signal within the same physical layer. The algorithms are coded in the mechanical responses of the sensing elements of multiple coupled micro-electro-mechanical systems (MEMS), simultaneously capturing acceleration measurements to produce an actuated signal. This all-in-one structure operates with zero circuitry and low power consumption. As a demonstration, we designed and fabricated a network of three MEMS neurons to successfully perform both simple signal classification and activity recognition problems (standing and sitting) with only 9.92 × 10 −17 kWh and 17.79 × 10 −19 kWh energy consumption per operation, respectively. Our approach will enable emergent technologies, such as wearable devices, to perform complex computations with power from a single battery charge.

关键词

Microelectromechanical systemsWearable computerComputer scienceRoboticsGRASPEnergy consumptionArtificial neural networkSIGNAL (programming language)Energy (signal processing)Wearable technology

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