International audienceMemristive devices present a new device technology allowing for the realization of compact non-volatile memories. Some of them are already in the process of industrialization. Additionally, they exhibit complex multilevel and plastic behaviors, which make them good candidates for the implementation of artificial synapses in neuromorphic engineering. However, memristive effects rely on diverse physical mechanisms, and their plastic behaviors differ strongly from one technology to another. Here, we present measurements performed on different memristive devices and the opportunities that they provide. We show that they can be used to implement different learning rules whose properties emerge directly from device physics: ...
Data-intensive computing operations, such as training neural networks, are essential but energy-inte...
Analog switching memristive devices can be used as part of the acceleration block of Neural Network...
Brain-inspired computation can revolutionize information technology by introducing machines capable ...
International audienceMemristive devices present a new device technology allowing for the realizatio...
On metrics of density and power efficiency, neuromorphic technologies have the potential to surpass ...
Memristive devices represent a promising technology for building neuromorphic electronic systems. In...
International audienceSeveral recent works, described in chapters of the present series, have shown ...
International audience—Memristive nanodevices can feature a compact multi-level non-volatile memory ...
International audienceNeuromorphic computing is an efficient way to handle complex tasks such as ima...
The proliferation of machine learning algorithms in everyday applications such as image recognition ...
Recent research in nanotechnology has led to the practical realization of nanoscale devices that beh...
Biologically plausible neuromorphic computing systems are attracting considerable attention due to t...
International audienceNeuromorphic computing has gained important attention since it is an efficient...
Novel devices are being investigated as artificial synapse candidates for neuromorphic computing. Th...
Data-intensive computing operations, such as training neural networks, are essential but energy-inte...
Analog switching memristive devices can be used as part of the acceleration block of Neural Network...
Brain-inspired computation can revolutionize information technology by introducing machines capable ...
International audienceMemristive devices present a new device technology allowing for the realizatio...
On metrics of density and power efficiency, neuromorphic technologies have the potential to surpass ...
Memristive devices represent a promising technology for building neuromorphic electronic systems. In...
International audienceSeveral recent works, described in chapters of the present series, have shown ...
International audience—Memristive nanodevices can feature a compact multi-level non-volatile memory ...
International audienceNeuromorphic computing is an efficient way to handle complex tasks such as ima...
The proliferation of machine learning algorithms in everyday applications such as image recognition ...
Recent research in nanotechnology has led to the practical realization of nanoscale devices that beh...
Biologically plausible neuromorphic computing systems are attracting considerable attention due to t...
International audienceNeuromorphic computing has gained important attention since it is an efficient...
Novel devices are being investigated as artificial synapse candidates for neuromorphic computing. Th...
Data-intensive computing operations, such as training neural networks, are essential but energy-inte...
Analog switching memristive devices can be used as part of the acceleration block of Neural Network...
Brain-inspired computation can revolutionize information technology by introducing machines capable ...