In this paper we present a very exciting overlap between emergent nanotechnology and neuroscience, which has been discovered by neuromorphic engineers. Specifically, we are linking one type of memristor nanotechnology devices to the biological synaptic update rule known as spike-time-dependent-plasticity (STDP) found in real biological synapses. Understanding this link allows neuromorphic engineers to develop circuit architectures that use this type of memristors to artificially emulate parts of the visual cortex. We focus on the type of memristors referred to as voltage or flux driven memristors and focus our discussions on a behavioral macro-model for such devices. The implementations result in fully asynchronous architectures with neuron...
Neuromorphic systems that densely integrate CMOS spiking neurons and nano-scale memristor synapses o...
Although data processing technology continues to advance at an astonishing rate, computers with brai...
Biologically plausible neuromorphic computing systems are attracting considerable attention due to t...
Interdisciplinary research broadens the view of particular problems yielding fresh and possibly unex...
In this paper we review several ways of realizing asynchronous Spike-Timing-DependentPlasticity (ST...
Recent research in nanotechnology has led to the practical realization of nanoscale devices that beh...
Brain-inspired computation can revolutionize information technology by introducing machines capable ...
Although data processing technology continues to advance at an astonishing rate, computers with brai...
International audienceIn this paper we review several ways of realizing asynchronous Spike-Timing-De...
Synaptic plasticity plays a crucial role in allowing neural networks to learn and adapt to various i...
Hardware processors for neuromorphic computing are gaining significant interest as they offer the po...
Although data processing technology continues to advance at an astonishing rate, computers with brai...
Memristors have emerged as promising, area-efficient, nano-scale devices for implementing models of ...
Spiking neural circuits have been designed in which the memristive synapses exhibit spike timing-dep...
Neuromorphic systems that densely integrate CMOS spiking neurons and nano-scale memristor synapses o...
Although data processing technology continues to advance at an astonishing rate, computers with brai...
Biologically plausible neuromorphic computing systems are attracting considerable attention due to t...
Interdisciplinary research broadens the view of particular problems yielding fresh and possibly unex...
In this paper we review several ways of realizing asynchronous Spike-Timing-DependentPlasticity (ST...
Recent research in nanotechnology has led to the practical realization of nanoscale devices that beh...
Brain-inspired computation can revolutionize information technology by introducing machines capable ...
Although data processing technology continues to advance at an astonishing rate, computers with brai...
International audienceIn this paper we review several ways of realizing asynchronous Spike-Timing-De...
Synaptic plasticity plays a crucial role in allowing neural networks to learn and adapt to various i...
Hardware processors for neuromorphic computing are gaining significant interest as they offer the po...
Although data processing technology continues to advance at an astonishing rate, computers with brai...
Memristors have emerged as promising, area-efficient, nano-scale devices for implementing models of ...
Spiking neural circuits have been designed in which the memristive synapses exhibit spike timing-dep...
Neuromorphic systems that densely integrate CMOS spiking neurons and nano-scale memristor synapses o...
Although data processing technology continues to advance at an astonishing rate, computers with brai...
Biologically plausible neuromorphic computing systems are attracting considerable attention due to t...