A recent Progress Report on the recommended methods of studying resistive switching devices is reviewed.
Next-gen computing replaces transistors with quantum dots
Scientists pioneer mixed-valence molecules in quantum-dot automata for faster, room-temperature operation, overcoming transistor limits.
A deeper look at quantum tunneling lays the groundwork for new discoveries
Vital to the fusion process and used in a wealth of technological applications, new research shows quantum tunneling is still delivering surprises.
Mimicking the brain with single transistor artificial neurons
The power demands of the Internet of Things could be combated with computing systems that mimic biological neurons.
Artificial neural networks built with memristive neurons
Bursting dynamics that mimic the functions of the human brain pave the way for more efficient AI systems.
Memristors to construct human-like memory
How do we reproduce the memory and processing capabilities of the human brain?
Improving Image Recognition to Accelerate Machine Learning
By combining two types of memory arrays, researchers can accelerate image recognition for more efficient machine learning.
Self-Learning Chip Composes Music
A brain-inspired, neuromorphic chip has the capability of self-learning and has been demonstrated the ability to compose music.
Efficient, Neuron-Inspired Computing
Jeong et al. argue that a change in paradigm away from the CPU+Memory computing approach and towards a materials approach which mimics biological neurons as synapses is needed.
Neurophotonics: In Pursuit of an Inorganic Brain
Mimicking the ultra-efficient organic human brain using inorganic structures is brought a step closer to reality with metal-sulphide microfibers.