Add to ORKGSoftware implementations of brain-inspired computing underlie many important computational tasks, from image processing to speech recognition, artificial intelligence and deep learning applications. Yet, unlike real neural tissue, traditional computing architectures physically separate the core computing functions of memory and processing, making fast, efficient and low-energy computing difficult to achieve. To overcome such limitations, an attractive alternative is to design hardware that mimics neurons and synapses. Such hardware, when connected in networks or neuromorphic systems, processes information in a way more analogous to brains. Here we present an all-optical version of such a neurosynaptic system, capable of supervised and unsup...
The search for new “neuromorphic computing” architectures that mimic the brain’s approach to simulta...
Driven by the increasing significance of artificial intelligence, the field of neuromorphic (brain-i...
As global data generation continues to rise, there is an increasing demand for revolutionary in-memo...
This is the author accepted manuscript. The final version is available from Nature Research via the ...
Photonic brain-inspired platforms are emerging as novel analog computing devices, enabling fast and ...
Inspired by the human brain, neural network computing was expected to break the bottleneck of tradit...
Neural networks have enabled applications in artificial intelligence through machine learning, and n...
Photonic neuromorphic computing has emerged as a promising approach to building a low-latency and en...
Photonic solutions are today a mature industrial reality concerning high speed, high throughput data...
Deep neural network architectures have shown their superior performance in visual classification, au...
In today’s data-driven world, the ability to process large data volumes is crucial. Key tasks, such ...
International audienceAn efficient photonic hardware integration of neural networks can benefit us f...
Photonic neural networks are a highly sought-after area of research due to their potential for high-...
Recent developments in photonics include efficient nanoscale optoelectronic components and novel met...
There has been a recent explosion of interest in neuromorphic computing capable of processing sophis...
The search for new “neuromorphic computing” architectures that mimic the brain’s approach to simulta...
Driven by the increasing significance of artificial intelligence, the field of neuromorphic (brain-i...
As global data generation continues to rise, there is an increasing demand for revolutionary in-memo...
This is the author accepted manuscript. The final version is available from Nature Research via the ...
Photonic brain-inspired platforms are emerging as novel analog computing devices, enabling fast and ...
Inspired by the human brain, neural network computing was expected to break the bottleneck of tradit...
Neural networks have enabled applications in artificial intelligence through machine learning, and n...
Photonic neuromorphic computing has emerged as a promising approach to building a low-latency and en...
Photonic solutions are today a mature industrial reality concerning high speed, high throughput data...
Deep neural network architectures have shown their superior performance in visual classification, au...
In today’s data-driven world, the ability to process large data volumes is crucial. Key tasks, such ...
International audienceAn efficient photonic hardware integration of neural networks can benefit us f...
Photonic neural networks are a highly sought-after area of research due to their potential for high-...
Recent developments in photonics include efficient nanoscale optoelectronic components and novel met...
There has been a recent explosion of interest in neuromorphic computing capable of processing sophis...
The search for new “neuromorphic computing” architectures that mimic the brain’s approach to simulta...
Driven by the increasing significance of artificial intelligence, the field of neuromorphic (brain-i...
As global data generation continues to rise, there is an increasing demand for revolutionary in-memo...