The ability for artificially reproducing human brain type signals’ processing is one of the main challenges in modern information technology, being one of the milestones for developing global communicating networks and artificial intelligence. Electronic devices termed memristors have been proposed as effective artificial synapses able to emulate the plasticity of biological counterparts. Here we report for the first time a single crystalline nanowire based model system capable of combining all memristive functions – non-volatile bipolar memory, multilevel switching, selector and synaptic operations imitating Ca2+ dynamics of biological synapses. Besides underlying common electrochemical fundamentals of biological and artificial redox-based...
The past decade has seen a sharp rise in the development and manufacture of different hardware frame...
Abstract Signal transmission in the brain relies on voltage-gated ion channels, which exhibit the el...
Synaptic devices with bipolar analog resistive switching behavior are the building blocks for memris...
The ability for artificially reproducing human brain type signals’ processing is one of the main ch...
Acting as artificial synapses, two‐terminal memristive devices are considered fundamental building b...
Acting as artificial synapses, two‐terminal memristive devices are considered fundamental building b...
Replicating the computational functionalities and performances of the brain remains one of the bigge...
Memristive devices are considered one of the most promising candidates to overcome technological l...
Efforts to emulate the formidable information processing capabilities of the brain through neuromorp...
Abstract. Conventional neuro-computing architectures and artificial neural net-works have often been...
Efforts to emulate the formidable information processing capabilities of the brain through neuromorp...
Memristive and resistive switching devices are considered promising building blocks for the realizat...
Brain-inspired neuromorphic computing which consist neurons and synapses, with an ability to perform...
Neuromorphic computing aims at the realization of intelligent systems able to process information si...
The recent discovery of the memristor has marked a new era for the advancement of neuromorphic appli...
The past decade has seen a sharp rise in the development and manufacture of different hardware frame...
Abstract Signal transmission in the brain relies on voltage-gated ion channels, which exhibit the el...
Synaptic devices with bipolar analog resistive switching behavior are the building blocks for memris...
The ability for artificially reproducing human brain type signals’ processing is one of the main ch...
Acting as artificial synapses, two‐terminal memristive devices are considered fundamental building b...
Acting as artificial synapses, two‐terminal memristive devices are considered fundamental building b...
Replicating the computational functionalities and performances of the brain remains one of the bigge...
Memristive devices are considered one of the most promising candidates to overcome technological l...
Efforts to emulate the formidable information processing capabilities of the brain through neuromorp...
Abstract. Conventional neuro-computing architectures and artificial neural net-works have often been...
Efforts to emulate the formidable information processing capabilities of the brain through neuromorp...
Memristive and resistive switching devices are considered promising building blocks for the realizat...
Brain-inspired neuromorphic computing which consist neurons and synapses, with an ability to perform...
Neuromorphic computing aims at the realization of intelligent systems able to process information si...
The recent discovery of the memristor has marked a new era for the advancement of neuromorphic appli...
The past decade has seen a sharp rise in the development and manufacture of different hardware frame...
Abstract Signal transmission in the brain relies on voltage-gated ion channels, which exhibit the el...
Synaptic devices with bipolar analog resistive switching behavior are the building blocks for memris...