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Emergence of winner-takes-all connectivity paths in random nanowire networks

Author

Listed:
  • Hugh G. Manning

    (Trinity College Dublin
    Trinity College Dublin)

  • Fabio Niosi

    (Trinity College Dublin
    Trinity College Dublin)

  • Claudia Gomes Rocha

    (Trinity College Dublin
    Trinity College Dublin)

  • Allen T. Bellew

    (Trinity College Dublin
    Trinity College Dublin)

  • Colin O’Callaghan

    (Trinity College Dublin
    Trinity College Dublin)

  • Subhajit Biswas

    (University College Cork)

  • Patrick F. Flowers

    (Duke University)

  • Benjamin J. Wiley

    (Duke University)

  • Justin D. Holmes

    (University College Cork)

  • Mauro S. Ferreira

    (Trinity College Dublin
    Trinity College Dublin)

  • John J. Boland

    (Trinity College Dublin
    Trinity College Dublin)

Abstract

Nanowire networks are promising memristive architectures for neuromorphic applications due to their connectivity and neurosynaptic-like behaviours. Here, we demonstrate a self-similar scaling of the conductance of networks and the junctions that comprise them. We show this behavior is an emergent property of any junction-dominated network. A particular class of junctions naturally leads to the emergence of conductance plateaus and a “winner-takes-all” conducting path that spans the entire network, and which we show corresponds to the lowest-energy connectivity path. The memory stored in the conductance state is distributed across the network but encoded in specific connectivity pathways, similar to that found in biological systems. These results are expected to have important implications for development of neuromorphic devices based on reservoir computing.

Suggested Citation

  • Hugh G. Manning & Fabio Niosi & Claudia Gomes Rocha & Allen T. Bellew & Colin O’Callaghan & Subhajit Biswas & Patrick F. Flowers & Benjamin J. Wiley & Justin D. Holmes & Mauro S. Ferreira & John J. Bo, 2018. "Emergence of winner-takes-all connectivity paths in random nanowire networks," Nature Communications, Nature, vol. 9(1), pages 1-9, December.
    • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-05517-6
    DOI: 10.1038/s41467-018-05517-6
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    Cited by:

    1. Gianluca Milano & Alessandro Cultrera & Luca Boarino & Luca Callegaro & Carlo Ricciardi, 2023. "Tomography of memory engrams in self-organizing nanowire connectomes," Nature Communications, Nature, vol. 14(1), pages 1-11, December.
    2. Ruomin Zhu & Sam Lilak & Alon Loeffler & Joseph Lizier & Adam Stieg & James Gimzewski & Zdenka Kuncic, 2023. "Online dynamical learning and sequence memory with neuromorphic nanowire networks," Nature Communications, Nature, vol. 14(1), pages 1-12, December.
    3. Liying Xu & Jiadi Zhu & Bing Chen & Zhen Yang & Keqin Liu & Bingjie Dang & Teng Zhang & Yuchao Yang & Ru Huang, 2022. "A distributed nanocluster based multi-agent evolutionary network," Nature Communications, Nature, vol. 13(1), pages 1-10, December.

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