A neuromorphic hardware framework based on population coding

Chetan Singh Thakur, Tara Julia Hamilton, Runchun Wang, Jonathan Tapson, André van Schaik

    Research output: Chapter in Book / Conference PaperConference Paperpeer-review

    15 Citations (Scopus)

    Abstract

    ![CDATA[In the biological nervous system, large neuronal populations work collaboratively to encode sensory stimuli. These neuronal populations are characterised by a diverse distribution of tuning curves, ensuring that the entire range of input stimuli is encoded. Based on these principles, we have designed a neuromorphic system called a Trainable Analogue Block (TAB), which encodes given input stimuli using a large population of neurons with a heterogeneous tuning curve profile. Heterogeneity of tuning curves is achieved using random device mismatches in VLSI (Very Large Scale Integration) process and by adding a systematic offset to each hidden neuron. Here, we present measurement results of a single test cell fabricated in a 65nm technology to verify the TAB framework. We have mimicked a large population of neurons by re-using measurement results from the test cell by varying offset. We thus demonstrate the learning capability of the system for various regression tasks. The TAB system may pave the way to improve the design of analogue circuits for commercial applications, by rendering circuits insensitive to random mismatch that arises due to the manufacturing process.]]
    Original languageEnglish
    Title of host publication2015 International Joint Conference on Neural Networks (IJCNN 2015), Killarney, Ireland, 12-17 July 2015
    PublisherIEEE
    Pages2165-2172
    Number of pages8
    ISBN (Print)9781479919611
    DOIs
    Publication statusPublished - 2015
    EventInternational Joint Conference on Neural Networks -
    Duration: 12 Jul 2015 → …

    Conference

    ConferenceInternational Joint Conference on Neural Networks
    Period12/07/15 → …

    Keywords

    • integrated circuits
    • neural networks (computer science)
    • neuromorphics
    • stochastic systems

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