Machine learning software applications are ubiquitous in many fields of science and society for their outstanding capability to solve computationally vast problems like the recognition of patterns and regularities in big data sets. In spite of these impressive achievements, such processors are still based on the so-called von Neumann architecture, which is a bottleneck for faster and power-efficient neuromorphic computation. Therefore, one of the main goals of research is to conceive physical realizations of artificial neural networks capable of performing fully parallel and ultrafast operations. Here we show that lattices of exciton-polariton condensates accomplish neuromorphic computing with outstanding accuracy thanks to their high optic...
Excitons are bound hydrogen-like states of electrons and holes, typically appear- ing in semiconduct...
We study artificial neural networks with nonlinear waves as a computing reservoir. We discuss univer...
Ever‐growing demands of bandwidth, computing speed, and power consumption are now accelerating the t...
Machine learning software applications are ubiquitous in many fields of science and society for thei...
We propose all-optical neural networks characterized by very high energy efficiency and performance...
Exciton-polaritons are hybrid light-matter quasiparticles. Being such hybrid, they inherit the fast ...
In contrast to software simulations of neural networks, hardware implementations have often limited ...
As global data generation continues to rise, there is an increasing demand for revolutionary in-memo...
We demonstrate that time-delayed nonlinear effects in exciton-polaritons can be used to construct ne...
This is the final version. Available from Nature Research via the DOI in this record. The data that ...
Neural networks have enabled applications in artificial intelligence through machine learning, and n...
Neural networks find widespread use in scientific and technological applications, yet their implemen...
We show theoretically that neural networks based on disordered exciton-polariton systems allow the r...
Software implementations of brain-inspired computing underlie many important computational tasks, fr...
The integration of artificial intelligence systems into daily applications like speech recognition a...
Excitons are bound hydrogen-like states of electrons and holes, typically appear- ing in semiconduct...
We study artificial neural networks with nonlinear waves as a computing reservoir. We discuss univer...
Ever‐growing demands of bandwidth, computing speed, and power consumption are now accelerating the t...
Machine learning software applications are ubiquitous in many fields of science and society for thei...
We propose all-optical neural networks characterized by very high energy efficiency and performance...
Exciton-polaritons are hybrid light-matter quasiparticles. Being such hybrid, they inherit the fast ...
In contrast to software simulations of neural networks, hardware implementations have often limited ...
As global data generation continues to rise, there is an increasing demand for revolutionary in-memo...
We demonstrate that time-delayed nonlinear effects in exciton-polaritons can be used to construct ne...
This is the final version. Available from Nature Research via the DOI in this record. The data that ...
Neural networks have enabled applications in artificial intelligence through machine learning, and n...
Neural networks find widespread use in scientific and technological applications, yet their implemen...
We show theoretically that neural networks based on disordered exciton-polariton systems allow the r...
Software implementations of brain-inspired computing underlie many important computational tasks, fr...
The integration of artificial intelligence systems into daily applications like speech recognition a...
Excitons are bound hydrogen-like states of electrons and holes, typically appear- ing in semiconduct...
We study artificial neural networks with nonlinear waves as a computing reservoir. We discuss univer...
Ever‐growing demands of bandwidth, computing speed, and power consumption are now accelerating the t...