Ho Ling Li
Energy efficient synaptic plasticity
Li, Ho Ling; van Rossum, Mark C. W.
Authors
Professor MARK VAN ROSSUM Mark.VanRossum@nottingham.ac.uk
CHAIR AND DIRECTOR/NEURAL COMPUTATION RESEARCH GROUP
Abstract
Many aspects of the brain’s design can be understood as the result of evolutionary drive towards efficient use of metabolic energy. In addition to the energetic costs of neural computation and transmission, experimental evidence indicates that synaptic plasticity is metabolically demanding as well. As synaptic plasticity is crucial for learning, we examine how these metabolic costs enter in learning. We find that when synaptic plasticity rules are naively implemented, training neural networks requires extremely large amounts of energy when storing many patterns. We propose that this is avoided by precisely balancing labile forms of synaptic plasticity with more stable forms. This algorithm, termed synaptic caching, boosts energy efficiency manifold. Our results yield a novel interpretation of the multiple forms of neural synaptic plasticity observed experimentally, including synaptic tagging and capture phenomena. Furthermore our results are relevant for energy efficient neuromorphic designs.
Citation
Li, H. L., & van Rossum, M. C. W. Energy efficient synaptic plasticity
| Other Type | Other |
|---|---|
| Deposit Date | Sep 28, 2020 |
| Publicly Available Date | Nov 24, 2020 |
| DOI | https://doi.org/10.1101/714055 |
| Public URL | https://nottingham-repository.worktribe.com/output/3020021 |
| Related Public URLs | https://www.biorxiv.org/content/10.1101/714055v1 |
| Additional Information | This is a bioRxiv preprint. |
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Energy efficient synaptic plasticity
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Publisher Licence URL
https://creativecommons.org/licenses/by/4.0/
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