An Accelerated Analog Neuromorphic Hardware System Emulating NMDA- and Calcium-Based Non-Linear Dendrites

March 21, 2017 Β· Declared Dead Β· πŸ› IEEE International Joint Conference on Neural Network

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Authors Johannes Schemmel, Laura Kriener, Paul MΓΌller, Karlheinz Meier arXiv ID 1703.07286 Category cs.NE: Neural & Evolutionary Cross-listed cs.ET Citations 77 Venue IEEE International Joint Conference on Neural Network Last Checked 2 months ago
Abstract
This paper presents an extension of the BrainScaleS accelerated analog neuromorphic hardware model. The scalable neuromorphic architecture is extended by the support for multi-compartment models and non-linear dendrites. These features are part of a \SI{65}{\nano\meter} prototype ASIC. It allows to emulate different spike types observed in cortical pyramidal neurons: NMDA plateau potentials, calcium and sodium spikes. By replicating some of the structures of these cells, they can be configured to perform coincidence detection within a single neuron. Built-in plasticity mechanisms can modify not only the synaptic weights, but also the dendritic synaptic composition to efficiently train large multi-compartment neurons. Transistor-level simulations demonstrate the functionality of the analog implementation and illustrate analogies to biological measurements.
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