Neuromorphic computing (NC) is a new generation of artificial intelligence. Memristors are promising candidates for NC owing to the feasibility of their ultrahigh-density 3D integration and their ultralow energy consumption. Compared to traditional electrical memristors, the emerging optoelectronic memristors are more attractive owing to their ability to combine the advantages of both photonics and electronics. However, the inability to reversibly tune the memconductance with light has severely restricted the development of optoelectronic NC. Here, an all-optically controlled (AOC) analog memristor is realized, with memconductance that is reversibly tunable over a continuous range by varying only the wavelength of the controlling light. The...
This paper reports on the first optically tunable graphene oxide memristor device. Modulation of res...
Data-intensive computing operations, such as training neural networks, are essential but energy-inte...
Memristive electronic synapses are attractive to construct artificial neural networks (ANNs) for neu...
Neuromorphic computing (NC) is a new generation of artificial intelligence. Memristors are promising...
We present optically and electrically tunable conductance modifications of a site-controlled quantum...
Synaptic devices with bipolar analog resistive switching behavior are the building blocks for memris...
Neuromorphic computing describes the use of electrical circuits to mimic biological architecture pre...
Optical control of memristors opens the route to new applications in optoelectronic switching and ne...
International audienceNeuromorphic computing is an efficient way to handle complex tasks such as ima...
International audienceNeuromorphic computing has gained important attention since it is an efficient...
Memristive devices present a new device technology allowing for the realization of compact non-volat...
Memristive devices are an emerging new type of devices operating at the scale of a few or even singl...
Inspired by neural computing, the pursuit of ultralow power neuromorphic architectures with highly d...
Rapid developments in artificial intelligence trigger demands for perception and learning of externa...
This paper reports on the first optically tunable graphene oxide memristor device. Modulation of res...
Data-intensive computing operations, such as training neural networks, are essential but energy-inte...
Memristive electronic synapses are attractive to construct artificial neural networks (ANNs) for neu...
Neuromorphic computing (NC) is a new generation of artificial intelligence. Memristors are promising...
We present optically and electrically tunable conductance modifications of a site-controlled quantum...
Synaptic devices with bipolar analog resistive switching behavior are the building blocks for memris...
Neuromorphic computing describes the use of electrical circuits to mimic biological architecture pre...
Optical control of memristors opens the route to new applications in optoelectronic switching and ne...
International audienceNeuromorphic computing is an efficient way to handle complex tasks such as ima...
International audienceNeuromorphic computing has gained important attention since it is an efficient...
Memristive devices present a new device technology allowing for the realization of compact non-volat...
Memristive devices are an emerging new type of devices operating at the scale of a few or even singl...
Inspired by neural computing, the pursuit of ultralow power neuromorphic architectures with highly d...
Rapid developments in artificial intelligence trigger demands for perception and learning of externa...
This paper reports on the first optically tunable graphene oxide memristor device. Modulation of res...
Data-intensive computing operations, such as training neural networks, are essential but energy-inte...
Memristive electronic synapses are attractive to construct artificial neural networks (ANNs) for neu...