Interdisciplinary research broadens the view of particular problems yielding fresh and possibly unexpected insights. This is the case of neuromorphic engineering where technology and neuroscience cross-fertilize each other. For example, consider on one side the recently discovered memristor, postulated in 1974, thanks to research in nanotechnology electronics. On the other side, consider the mechanism known as Spike-Time-Dependent-Plasticity (STDP) which describes a neuronal synaptic learning mechanism that outperforms the traditional Hebbian synaptic plasticity proposed in 1949. STDP was originally postulated as a computer learning algorithm, and is being used by the machine intelligence and computational neuroscience community. At the sam...
International audienceSeveral recent works, described in chapters of the present series, have shown ...
Spiking neural circuits have been designed in which the memristive synapses exhibit spike timing-dep...
Memristors have been compared to neurons (usually specifically the synapses) since 1976 but no exper...
In this paper we present a very exciting overlap between emergent nanotechnology and neuroscience, w...
Emerging brain-inspired neuromorphic computing paradigms require devices that can emulate the comple...
In this paper we review several ways of realizing asynchronous Spike-Timing-DependentPlasticity (ST...
Brain-inspired computation can revolutionize information technology by introducing machines capable ...
Synaptic plasticity plays a crucial role in allowing neural networks to learn and adapt to various i...
Synaptic plasticity has been widely assumed to be the mechanism behind memory and learning, in which...
Ion-conducting memristors comprised of the layered materials Ge2Se3/SnSe/Ag are promising candidates...
Neuromorphic architectures offer great promise for achieving computation capacities beyond conventio...
International audienceIn this paper we review several ways of realizing asynchronous Spike-Timing-De...
International audienceNeuromorphic computing has gained important attention since it is an efficient...
© 2017 Silvia Battistoni et al. We explore and demonstrate the extension of the synapse-mimicking pr...
Neuromorphic computing based on spiking neural networks has the potential to significantly improve o...
International audienceSeveral recent works, described in chapters of the present series, have shown ...
Spiking neural circuits have been designed in which the memristive synapses exhibit spike timing-dep...
Memristors have been compared to neurons (usually specifically the synapses) since 1976 but no exper...
In this paper we present a very exciting overlap between emergent nanotechnology and neuroscience, w...
Emerging brain-inspired neuromorphic computing paradigms require devices that can emulate the comple...
In this paper we review several ways of realizing asynchronous Spike-Timing-DependentPlasticity (ST...
Brain-inspired computation can revolutionize information technology by introducing machines capable ...
Synaptic plasticity plays a crucial role in allowing neural networks to learn and adapt to various i...
Synaptic plasticity has been widely assumed to be the mechanism behind memory and learning, in which...
Ion-conducting memristors comprised of the layered materials Ge2Se3/SnSe/Ag are promising candidates...
Neuromorphic architectures offer great promise for achieving computation capacities beyond conventio...
International audienceIn this paper we review several ways of realizing asynchronous Spike-Timing-De...
International audienceNeuromorphic computing has gained important attention since it is an efficient...
© 2017 Silvia Battistoni et al. We explore and demonstrate the extension of the synapse-mimicking pr...
Neuromorphic computing based on spiking neural networks has the potential to significantly improve o...
International audienceSeveral recent works, described in chapters of the present series, have shown ...
Spiking neural circuits have been designed in which the memristive synapses exhibit spike timing-dep...
Memristors have been compared to neurons (usually specifically the synapses) since 1976 but no exper...