Julian Göltz scite author profile

Julian Göltz

2Publications

90Citation Statements Received

96Citation Statements Given

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133

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Kirchhoff (Germany), Heidelberg University, University of Bern

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Fast and energy-efficient neuromorphic deep learning with first-spike times

et al. 2021

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For a biological agent operating under environmental pressure, energy consumption and reaction times are of critical importance. Similarly, engineered systems are optimized for short time-to-solution and low energy-to-solution characteristics. At the level of neuronal implementation, this implies achieving the desired results with as few and as early spikes as possible. With time-to-first-spike coding both of these goals are inherently emerging features of learning.Here, we describe a rigorous derivation of a learning rule for such first-spike times in networks of leaky integrate-andfire neurons, relying solely on input and output spike times, and show how this mechanism can implement error backpropagation in hierarchical spiking networks. Furthermore, we emulate our framework on the BrainScaleS-2 neuromorphic system and demonstrate its capability of harnessing the system's speed and energy characteristics. Finally, we examine how our approach generalizes to other neuromorphic platforms by studying how its performance is affected by typical distortive effects induced by neuromorphic substrates.

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Visualizing a joint future of neuroscience and neuromorphic engineering

Zenke

Bohté

Clopath

et al. 2021

Neuron

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Julian Göltz

Fast and energy-efficient neuromorphic deep learning with first-spike times

Visualizing a joint future of neuroscience and neuromorphic engineering

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