Dendritic Computation through Exploiting Resistive Memory as both Delays and Weights

Payvand, Melika; D'Agostino, Simone; Moro, Filippo; Demirag, Yigit; Indiveri, Giacomo; Vianello, Elisa

doi:10.1145/3589737.3605977

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Payvand, M., D’Agostino, S., Moro, F., Demirag, Y., Indiveri, G., & Vianello, E. (2023, August 1). Dendritic Computation through Exploiting Resistive Memory as both Delays and Weights. Proceedings of the International Conference on Neuromorphic Systems. ICONS ’23: 2023 International Conference on Neuromorphic Systems, Santa Fe NM USA. https://doi.org/10.1145/3589737.3605977

Abstract

Biological neurons can detect complex spatio-temporal features in spiking patterns via their synapses spread across their dendritic branches. This is achieved by modulating the efficacy of the individual synapses, and by exploiting the temporal delays of their response to input spikes, depending on their position on the dendrite. Inspired by this mechanism, we propose a neuromorphic hardware architecture equipped with multiscale dendrites, each of which has synapses with tunable weight and delay elements. Weights and delays are both i

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2 in Scopus Acq. date: 2025-06-24

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Creators (Authors)

Payvand, Melika
D'Agostino, Simone
Moro, Filippo
Demirag, Yigit
Indiveri, Giacomo
Vianello, Elisa

Event Title

ICONS '23: 2023 International Conference on Neuromorphic Systems

Event Location

Santa Fe NM USA

Event Start Date

2023-08-01

Event End Date

2023-08-03

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ACM Digital library

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Conference or Workshop Item

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Publications of Institute of Neuroinformatics

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570 Biology

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English

Date available

2024-01-31

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ICONS: Proceedings of the International Conference on Neuromorphic Systems

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Hybrid

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https://doi.org/10.1145/3589737.3605977

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MeM-Scales - Memory technologies with multi-scale time constants for neuromorphic architectures

H2020

871371

Hybrid Open Access

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https://doi.org/10.5167/uzh-254228

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Publication: Dendritic Computation through Exploiting Resistive Memory as both Delays and Weights

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Publication:
Dendritic Computation through Exploiting Resistive Memory as both Delays and Weights