Add to ORKGNeuromorphic hardware that emulates biological computations is a key driver of progress in AI. For example, memristive technologies, including chalcogenide-based in-memory computing concepts, have been employed to dramatically accelerate and increase the efficiency of basic neural operations. However, powerful mechanisms such as reinforcement learning and dendritic computation require more advanced device operations involving multiple interacting signals. Here we show that nano-scaled films of chalcogenide semiconductors can perform such multi-factor in-memory computation where their tunable electronic and optical properties are jointly exploited. We demonstrate that ultrathin photoactive cavities of Ge-doped Selenide can emulate synapses w...
Neuromorphic computing (NC) is a new generation of artificial intelligence. Memristors are promising...
Neuromorphic computing systems that are capable of parallel information storage and processing with ...
Brain-inspired neuromorphic computing which consist neurons and synapses, with an ability to perform...
This is the final version. Available on open access from Nature Research via the DOI in this recordD...
Artificial synapses with light signal perception capability offer the ability to neuromorphic visual...
Emulation of brain-like signal processing with thin-film devices could lay the foundation for buildi...
Deployment of novel artificial synapses serves as the crucial unit for building neuromorphic hardwar...
The integration of artificial intelligence systems into daily applications like speech recognition a...
Functional neuronal computing systems that support information diversification require high-density ...
Neuromorphic visual sensory and memory systems, which can perceive, process, and memorize optical in...
Inspired by neural computing, the pursuit of ultralow power neuromorphic architectures with highly d...
As global data generation continues to rise, there is an increasing demand for revolutionary in-memo...
Neuromorphic computing, which mimics brain function, can address the shortcomings of the “von Neuman...
Induced progressive crystallization in chalcogenide-based materials can be used to closely mimic neu...
Silicon- (Si-) based optoelectronic synaptic devices mimicking biological synaptic functionalities m...
Neuromorphic computing (NC) is a new generation of artificial intelligence. Memristors are promising...
Neuromorphic computing systems that are capable of parallel information storage and processing with ...
Brain-inspired neuromorphic computing which consist neurons and synapses, with an ability to perform...
This is the final version. Available on open access from Nature Research via the DOI in this recordD...
Artificial synapses with light signal perception capability offer the ability to neuromorphic visual...
Emulation of brain-like signal processing with thin-film devices could lay the foundation for buildi...
Deployment of novel artificial synapses serves as the crucial unit for building neuromorphic hardwar...
The integration of artificial intelligence systems into daily applications like speech recognition a...
Functional neuronal computing systems that support information diversification require high-density ...
Neuromorphic visual sensory and memory systems, which can perceive, process, and memorize optical in...
Inspired by neural computing, the pursuit of ultralow power neuromorphic architectures with highly d...
As global data generation continues to rise, there is an increasing demand for revolutionary in-memo...
Neuromorphic computing, which mimics brain function, can address the shortcomings of the “von Neuman...
Induced progressive crystallization in chalcogenide-based materials can be used to closely mimic neu...
Silicon- (Si-) based optoelectronic synaptic devices mimicking biological synaptic functionalities m...
Neuromorphic computing (NC) is a new generation of artificial intelligence. Memristors are promising...
Neuromorphic computing systems that are capable of parallel information storage and processing with ...
Brain-inspired neuromorphic computing which consist neurons and synapses, with an ability to perform...