Magnetic flux and electric charge are linked in a memristor. We reported recently that a memristor has a peculiar effect in which the switching takes place with a time delay because a memristor possesses a certain inertia. This effect was named the “delayed switching effect.” In this work, we elaborate on the importance of delayed switching in a brain-like computer using memristor neural networks. The effect is used to control the switching of a memristor synapse between two neurons that fire together (the Hebbian rule). A theoretical formula is found, and the design is verified by a simulation. We have also built an experimental setup consisting of electronic memristive synapses and electronic neuronsPeer reviewe
Abstract—We present new computational building blocks based on memristive devices. These blocks, can...
Among the recent disruptive technologies, volatile/nonvolatile memory-resistor (memristor) has attra...
This paper aims to provide some insight into the mechanisms underlying the emergence of synchronizat...
It was found that the switching in a memristor takes place with a time delay (this peculiar feature ...
Played as an important nonlinear electric device, memristor is often used to build a variety of nonl...
Abstract—Memristors have been suggested as neuromorphic computing elements. Spike-time dependent pla...
This article focuses on the hybrid effects of memristor characteristics, time delay, and biochemical...
A simple neural circuit coupled by magnetic flux-controlled memristor (MFCM) can be controlled to de...
Abstract — Time perception is essential for task switching, and in the mammalian brain appears along...
International audienceNeuromorphic computing is an efficient way to handle complex tasks such as ima...
We present new computational building blocks based on memristive devices. These blocks, can be used ...
Memristive devices have been widely employed to emulate biological synaptic behavior. In these cases...
Adaptation of synaptic strength is central to memory and learning in biological systems, enabling im...
The advancements in the field of Artificial Intelligence (AI) and technology has led to an evolution...
International audienceNeuromorphic computing has gained important attention since it is an efficient...
Abstract—We present new computational building blocks based on memristive devices. These blocks, can...
Among the recent disruptive technologies, volatile/nonvolatile memory-resistor (memristor) has attra...
This paper aims to provide some insight into the mechanisms underlying the emergence of synchronizat...
It was found that the switching in a memristor takes place with a time delay (this peculiar feature ...
Played as an important nonlinear electric device, memristor is often used to build a variety of nonl...
Abstract—Memristors have been suggested as neuromorphic computing elements. Spike-time dependent pla...
This article focuses on the hybrid effects of memristor characteristics, time delay, and biochemical...
A simple neural circuit coupled by magnetic flux-controlled memristor (MFCM) can be controlled to de...
Abstract — Time perception is essential for task switching, and in the mammalian brain appears along...
International audienceNeuromorphic computing is an efficient way to handle complex tasks such as ima...
We present new computational building blocks based on memristive devices. These blocks, can be used ...
Memristive devices have been widely employed to emulate biological synaptic behavior. In these cases...
Adaptation of synaptic strength is central to memory and learning in biological systems, enabling im...
The advancements in the field of Artificial Intelligence (AI) and technology has led to an evolution...
International audienceNeuromorphic computing has gained important attention since it is an efficient...
Abstract—We present new computational building blocks based on memristive devices. These blocks, can...
Among the recent disruptive technologies, volatile/nonvolatile memory-resistor (memristor) has attra...
This paper aims to provide some insight into the mechanisms underlying the emergence of synchronizat...