A nimals' survival is dependent on their abilities to adapt to the changing environment by adjusting their behaviours, which is related to the ubiquitous learning behaviour, nonassociative learning. Thus mimicking the indispensable learning behaviour in organisms based on electronic devices is vital to better achieve artificial neural networks and neuromorphic computing. Here a three terminal device consisting of an oxide-based memristor and a NMOS transistor is proposed. The memristor with gradual conductance tuning inherently functions as the synapse between sensor neurons and motor neurons and presents adjustable synaptic plasticity, while the NMOS transistor attached to the memristor is utilized to mimic the modulatory effect of th...
Synaptic plasticity plays a crucial role in allowing neural networks to learn and adapt to various i...
Synaptic plasticity plays a crucial role in allowing neural networks to learn and adapt to various i...
Memristive devices present a new device technology allowing for the realization of compact non-volat...
Synaptic devices with bipolar analog resistive switching behavior are the building blocks for memris...
Neuromorphic plasticity is the basic platform for learning in biological systems and is considered a...
International audienceThe integration of memristive nanodevices within transistor-based electronic s...
A new class of electronic device has emerged which bear the potential for low powered brain like ada...
Recent research in nanotechnology has led to the practical realization of nanoscale devices that beh...
Neuromorphic computing is a critical tool in modern problem solving, and non-volatile memory devices...
Although data processing technology continues to advance at an astonishing rate, computers with brai...
Although data processing technology continues to advance at an astonishing rate, computers with brai...
Neuromorphic computing describes the use of electrical circuits to mimic biological architecture pre...
Brain-inspired neuromorphic computing which consist neurons and synapses, with an ability to perform...
International audienceThe brain has the ability to learn and evaluate as it receives and registers i...
Most memristor-based circuits only consider the mechanism of nonassociative learning, and the effect...
Synaptic plasticity plays a crucial role in allowing neural networks to learn and adapt to various i...
Synaptic plasticity plays a crucial role in allowing neural networks to learn and adapt to various i...
Memristive devices present a new device technology allowing for the realization of compact non-volat...
Synaptic devices with bipolar analog resistive switching behavior are the building blocks for memris...
Neuromorphic plasticity is the basic platform for learning in biological systems and is considered a...
International audienceThe integration of memristive nanodevices within transistor-based electronic s...
A new class of electronic device has emerged which bear the potential for low powered brain like ada...
Recent research in nanotechnology has led to the practical realization of nanoscale devices that beh...
Neuromorphic computing is a critical tool in modern problem solving, and non-volatile memory devices...
Although data processing technology continues to advance at an astonishing rate, computers with brai...
Although data processing technology continues to advance at an astonishing rate, computers with brai...
Neuromorphic computing describes the use of electrical circuits to mimic biological architecture pre...
Brain-inspired neuromorphic computing which consist neurons and synapses, with an ability to perform...
International audienceThe brain has the ability to learn and evaluate as it receives and registers i...
Most memristor-based circuits only consider the mechanism of nonassociative learning, and the effect...
Synaptic plasticity plays a crucial role in allowing neural networks to learn and adapt to various i...
Synaptic plasticity plays a crucial role in allowing neural networks to learn and adapt to various i...
Memristive devices present a new device technology allowing for the realization of compact non-volat...