In the human brain, attention plays a crucial role in encoding information into memory. Therefore, focused attention during encoding enhances the likelihood of information being effectively encoded and stored in memory. This phenomenon is creatively replicated in our proposed synaptic devices, which regulate the forgetting curves by manipulating the gate voltage. Thus, the proposed transistor devices separate long-term memory from long-lasting memory. TiO2-based synaptic transistors are used to replicate brain functions, from vision processing to memory retention. The photosensitive nature of TiO2 enables the utilization of both photo- and electric stimuli. The electrical properties of the synaptic devices induced by photostimulation replic...
Rapid developments in artificial intelligence trigger demands for perception and learning of externa...
This report discusses the electrical characteristics of two-terminal synaptic memory devices capable...
Brain-inspired, neuromorphic computing aims to address the growing computational complexity and powe...
In the human brain, attention plays a crucial role in encoding information into memory. Therefore, f...
In this work, a synaptic transistor based on the indium gallium zinc oxide (IGZO)–aluminum oxide (Al...
Neuromorphic computing, which mimics brain function, can address the shortcomings of the “von Neuman...
The ability to simulate biological neurobehavior with electronic devices has now attracted widesprea...
Neuromorphic computing (NC), which emulates neural activities of the human brain, is considered for...
Synaptic transistors stimulated by light waves or photons may offer advantages to the devices, such ...
In this study, optoelectronic synaptic transistors based on indium–gallium–zinc oxide (IGZO) with a ...
The highly parallel artificial neural systems based on transistor-like devices have recently attract...
In neuroscience, signal processing, memory and learning function are established in the brain by mod...
Artificial synapses with light signal perception capability offer the ability to neuromorphic visual...
The von Neumann bottleneck has spawned the rapid expansion of neuromorphic engineering and brain-lik...
As the basic and essential unit of neuromorphic computing systems, artificial synaptic devices have ...
Rapid developments in artificial intelligence trigger demands for perception and learning of externa...
This report discusses the electrical characteristics of two-terminal synaptic memory devices capable...
Brain-inspired, neuromorphic computing aims to address the growing computational complexity and powe...
In the human brain, attention plays a crucial role in encoding information into memory. Therefore, f...
In this work, a synaptic transistor based on the indium gallium zinc oxide (IGZO)–aluminum oxide (Al...
Neuromorphic computing, which mimics brain function, can address the shortcomings of the “von Neuman...
The ability to simulate biological neurobehavior with electronic devices has now attracted widesprea...
Neuromorphic computing (NC), which emulates neural activities of the human brain, is considered for...
Synaptic transistors stimulated by light waves or photons may offer advantages to the devices, such ...
In this study, optoelectronic synaptic transistors based on indium–gallium–zinc oxide (IGZO) with a ...
The highly parallel artificial neural systems based on transistor-like devices have recently attract...
In neuroscience, signal processing, memory and learning function are established in the brain by mod...
Artificial synapses with light signal perception capability offer the ability to neuromorphic visual...
The von Neumann bottleneck has spawned the rapid expansion of neuromorphic engineering and brain-lik...
As the basic and essential unit of neuromorphic computing systems, artificial synaptic devices have ...
Rapid developments in artificial intelligence trigger demands for perception and learning of externa...
This report discusses the electrical characteristics of two-terminal synaptic memory devices capable...
Brain-inspired, neuromorphic computing aims to address the growing computational complexity and powe...