A research team led by Prof. Long Shibing from the University of Science and Technology of China (USTC) of the Chinese Academy of Sciences (CAS) has, for the first time, made spintronic neuromorphic ...

Like so much else in nature, the human visual system has both a complex structure and functional efficiency that is difficult ...

Researchers at the University of Chicago have developed a stretchable computing patch that can ...

(Nanowerk Spotlight) Paper-based electronic devices have long been an intriguing prospect for researchers, offering potential advantages in sustainability, cost-effectiveness, and flexibility. However ...

In a new study, researchers have developed a neuromorphic device that is extremely thin while having the capability to replicate the capabilities of the human eyes and retain memories. This ...

This review first revisits the theoretical background and developmental history of neuromorphic computing. It then briefly introduces the working mechanisms of memristive devices and how they can ...

A computer that uses electronic synapses made of terminals with a top electrode (TE), dielectric layer (DL), and bottom electrode (BE) can emulate the human brain. A neural network using these ...

(Nanowerk Spotlight) Efforts to design computing systems that operate more like the brain have pushed engineers to rethink how information is processed, transmitted, and stored. Biological neurons are ...

A technical paper titled “Charge-Mediated Copper-Iodide-Based Artificial Synaptic Device with Ultrahigh Neuromorphic Efficacy” was published by researchers at University of Glasgow, City University of ...

A small mobile robot dodges a thrown object, reads a burst of sensor data, and picks its next move in under a millisecond. On ...