High-Performance and Energy-Efficient Leaky Integrate-and-Fire Neuron and Spike Timing-Dependent Plasticity Circuits in 7nm FinFET Technology

Jooq, Mohammad Khaleqi Qaleh; Azghadi, Mostafa Rahimi; Behbahani, Fereshteh; Al-Shidaifat, Alaaddin; Song, Hanjung

doi:10.1109/access.2023.3335387

Cited by 7 publications

(1 citation statement)

References 60 publications

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“…In comparison to its equivalents, the suggested LIF neuron circuit exhibits a 34% area saving, 46% power saving, and 40% energy saving. [141]…”

Section: Application Of Finfet In Fuzzy Logic Systems and Neural Comp...mentioning

confidence: 99%

FinFET to GAA MBCFET: A Review and Insights

Das,

Rajalekshmi,

James

2024

IEEE Access

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This review article presents a journey from Fin-shaped field effect transistor (FinFET) to gate-all-around multi-bridge channel field effect transistor (GAA MBCFET) technology, unraveling the evolution of semiconductor architectures. This article provides a concise yet insightful overview of the development of FinFET, exploring modified architectures, current trends, and associated constraints. The growing importance of other semiconductor materials instead of Si in FinFET or other technologies has been studied in detail. The article explores an emerging technology called 'GAA MBCFET', highlighting its advantages over FinFET. It also delves into the notable drawbacks and complex fabrication challenges associated with the upcoming GAA MBCFET technology. INDEX TERMS Gate-All-Around (GAA), Multi-Bridge Channel (MBC), Silicon on Insulator (SOI)

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“…In comparison to its equivalents, the suggested LIF neuron circuit exhibits a 34% area saving, 46% power saving, and 40% energy saving. [141]…”

Section: Application Of Finfet In Fuzzy Logic Systems and Neural Comp...mentioning

confidence: 99%

FinFET to GAA MBCFET: A Review and Insights

Das,

Rajalekshmi,

James

2024

IEEE Access

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A Memristor Emulator Consisting of One MOSFET and Two Diodes

Wang,

Zhou

2024

Circuits Syst Signal Process

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Efficient digital design of the nonlinear behavior of Hindmarsh–Rose neuron model in large-scale neural population

Nazari,

Jamshidi

2024

Sci Rep

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Spiking networks, as the third generation of neural networks, are of great interest today due to their low power consumption in cognitive processes. This important characteristic has caused the hardware implementation techniques of spiking networks in the form of neuromorphic systems attract a lot of attention. For the first time, the focus is on the digital implementation based on CORDIC approximation of the Hindmarsh–Rose (HR) neuron so that the hardware implementation cost is lower than previous studies. If the digital design of a neuron is done efficient, the possibility of implementing a population of neurons is provided for the feasibility of low-consumption implementation of high-level cognitive processes in hardware, which is considered in this paper through edge detector, noise removal and image magnification spiking networks based on the proposed CORDIC_HR model. While using less hardware resources, the proposed HR neuron model follows the behavior of the original neuron model in the time domain with much less error than previous study. Also, the complex nonlinear behavior of the original and the proposed model of HR neuron through the bifurcation diagram, phase space and nullcline space analysis under different system parameters was investigated and the good follow-up of the proposed model was confirmed from the original model. In addition to the fact that the individual behavior of the original and the proposed neurons is the same, the functional and behavioral performance of the randomly connected neuronal population of original and proposed neuron model is equal. In general, the main contribution of the paper is in presenting an efficient hardware model, which consumes less hardware resources, follows the behavior of the original model with high accuracy, and has an acceptable performance in image processing applications such as noise removal and edge detection.

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High-Performance and Energy-Efficient Leaky Integrate-and-Fire Neuron and Spike Timing-Dependent Plasticity Circuits in 7nm FinFET Technology

Cited by 7 publications

References 60 publications

FinFET to GAA MBCFET: A Review and Insights

FinFET to GAA MBCFET: A Review and Insights

A Memristor Emulator Consisting of One MOSFET and Two Diodes

Efficient digital design of the nonlinear behavior of Hindmarsh–Rose neuron model in large-scale neural population

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