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#neuromorphiccomputing — Public Fediverse posts

Live and recent posts from across the Fediverse tagged #neuromorphiccomputing, aggregated by home.social.

  1. Cambridge Neuromorphic AI Chip Cuts Energy Use by 70%: The Hafnium Oxide Memristor Breakthrough

    University of Cambridge researchers published a paper in Science Advances on April 22, 2026, describing a brain-inspired hafnium oxide memristor that operates at switching curre...

    wowhow.cloud/blogs/cambridge-n

    #wowhow #neuromorphiccomputing #aihardware #energyefficiency

  2. If you care about sustainable AI at the edge, neuromorphic computing should be on your radar. Brain like chips are finally moving from papers to products in 2026, with dev kits and SDKs slowly catching up.
    #AI #NeuromorphicComputing #Sustainability #EdgeAI

  3. We warmly congratulate our #research group leader Dr. Clara Wanjura on receiving the 2026 Gustav Hertz Prize from the German Physical Society (@DPGPhysik )! 👏
    With this award, the DPG recognizes Clara Wanjura’s contributions to novel phenomena and their applications in complex photonic systems – particularly in the areas of neuromorphic systems and non-Hermitian #topology.
     
    👉 mpl.mpg.de/news/article/dr-cla
     
    📸 MPL, Susanne Viezens
     
    #NeuromorphicComputing #physics #science #awards

  4. Neuromorphs at work:

    "Exploiting neuro-inspired dynamic sparsity for energy-efficient intelligent perception", Zhou et al. 2025 (Shih-Chii Liu and Tobi Delbruck's labs)
    nature.com/articles/s41467-025

    A perspective paper on neuro-inspired vision on how to improve the energy efficiency of machine learning for perception, based on the observed sparse firing of biological neural circuits.

    #NeuromorphicComputing

  5. "Covariant spatio-temporal receptive fields for spiking neural networks" by Pedersen, Conradt & Lindeberg 2025
    nature.com/articles/s41467-025

    With the author's own words:
    "We built spiking neural networks that outperform ANNs on event-based vision by initialising them with spatio-temporal receptive fields. And our theory-guided design beats naive approaches by 42%!"

    A video explanation of the paper:
    youtube.com/watch?v=qtHkrx4tYfI

    #neuroscience #NeuromorphicComputing

  6. We built spiking neural networks that outperform ANNs on event-based vision by initialising them with spatio-temporal receptive fields. Our theory-guided design beats naive approaches by 42%!
    New paper in Nature Communications 🧠⚡

    Paper (open access): nature.com/articles/s41467-025

    Video summary: youtu.be/qtHkrx4tYfI

    #NeuromorphicComputing #ComputerVision #EventBasedVision

  7. We built spiking neural networks that outperform ANNs on event-based vision by initialising them with spatio-temporal receptive fields. Our theory-guided design beats naive approaches by 42%!
    New paper in Nature Communications 🧠⚡

    Paper (open access): nature.com/articles/s41467-025

    Video summary: youtu.be/qtHkrx4tYfI

    #NeuromorphicComputing #ComputerVision #EventBasedVision

  8. We built spiking neural networks that outperform ANNs on event-based vision by initialising them with spatio-temporal receptive fields. Our theory-guided design beats naive approaches by 42%!
    New paper in Nature Communications 🧠⚡

    Paper (open access): nature.com/articles/s41467-025

    Video summary: youtu.be/qtHkrx4tYfI

    #NeuromorphicComputing #ComputerVision #EventBasedVision

  9. We built spiking neural networks that outperform ANNs on event-based vision by initialising them with spatio-temporal receptive fields. Our theory-guided design beats naive approaches by 42%!
    New paper in Nature Communications 🧠⚡

    Paper (open access): nature.com/articles/s41467-025

    Video summary: youtu.be/qtHkrx4tYfI

    #NeuromorphicComputing #ComputerVision #EventBasedVision

  10. We built spiking neural networks that outperform ANNs on event-based vision by initialising them with spatio-temporal receptive fields. Our theory-guided design beats naive approaches by 42%!
    New paper in Nature Communications 🧠⚡

    Paper (open access): nature.com/articles/s41467-025

    Video summary: youtu.be/qtHkrx4tYfI

    #NeuromorphicComputing #ComputerVision #EventBasedVision

  11. We built spiking neural networks that outperform ANNs on event-based vision by initialising them with spatio-temporal receptive fields. Our theory-guided design beats naive approaches by 42%!
    New paper in Nature Communications 🧠⚡
    nature.com/articles/s41467-025
    #NeuromorphicComputing #ComputerVision #EventBasedVision

  12. We built spiking neural networks that outperform ANNs on event-based vision by initialising them with spatio-temporal receptive fields. Our theory-guided design beats naive approaches by 42%!
    New paper in Nature Communications 🧠⚡
    nature.com/articles/s41467-025
    #NeuromorphicComputing #ComputerVision #EventBasedVision

  13. We built spiking neural networks that outperform ANNs on event-based vision by initialising them with spatio-temporal receptive fields. Our theory-guided design beats naive approaches by 42%!
    New paper in Nature Communications 🧠⚡
    nature.com/articles/s41467-025
    #NeuromorphicComputing #ComputerVision #EventBasedVision

  14. We built spiking neural networks that outperform ANNs on event-based vision by initialising them with spatio-temporal receptive fields. Our theory-guided design beats naive approaches by 42%!
    New paper in Nature Communications 🧠⚡
    nature.com/articles/s41467-025
    #NeuromorphicComputing #ComputerVision #EventBasedVision

  15. We built spiking neural networks that outperform ANNs on event-based vision by initialising them with spatio-temporal receptive fields. Our theory-guided design beats naive approaches by 42%!
    New paper in Nature Communications 🧠⚡
    nature.com/articles/s41467-025
    #NeuromorphicComputing #ComputerVision #EventBasedVision