Add to ORKGWe experimentally demonstrate, for the first time, co-located data storage and processing (i.e. in-memory computing) on an integrated photonic platform based on nonvolatile phase-change materials
Conventional computing systems are limited in performance by the well-known von Neumann bottleneck, ...
The content of this thesis encompasses the fundamentals, modelling, chip design, nanofabrication pro...
Phase change materials present a unique type of materials that drastically change their electrical a...
The use of photonics in computing is a hot topic of interest, driven by the need for ever-increasing...
Collocated data processing and storage are the norm in biological systems. Indeed, the von Neumann c...
All-optical nonvolatile memories enable storage of telecommunication data without detours through el...
Phase-change materials integrated into nanophotonic circuits provide a flexible way to realize tunab...
Advances in artificial intelligence have greatly increased demand for data-intensive computing. Inte...
Implementing on-chip non-volatile photonic memories has been a long-term, yet elusive goal. Photoni...
Integrated phase-change photonic memory devices offer a novel route to nonvolatile storage and compu...
Optically storing and addressing data on photonic chips is of particular interest as such capability...
The rapidly growing demand for data storage and processing, driven by artificial intelligence (AI) a...
Photonic Random-Access Memories (P-RAM) are an essential component for the on-chip non-von Neumann p...
Driven by the rapid rise of silicon photonics, optical signaling is moving from the realm of long-di...
This is the final version. Available from Optical Society of America via the DOI in this record. Adv...
Conventional computing systems are limited in performance by the well-known von Neumann bottleneck, ...
The content of this thesis encompasses the fundamentals, modelling, chip design, nanofabrication pro...
Phase change materials present a unique type of materials that drastically change their electrical a...
The use of photonics in computing is a hot topic of interest, driven by the need for ever-increasing...
Collocated data processing and storage are the norm in biological systems. Indeed, the von Neumann c...
All-optical nonvolatile memories enable storage of telecommunication data without detours through el...
Phase-change materials integrated into nanophotonic circuits provide a flexible way to realize tunab...
Advances in artificial intelligence have greatly increased demand for data-intensive computing. Inte...
Implementing on-chip non-volatile photonic memories has been a long-term, yet elusive goal. Photoni...
Integrated phase-change photonic memory devices offer a novel route to nonvolatile storage and compu...
Optically storing and addressing data on photonic chips is of particular interest as such capability...
The rapidly growing demand for data storage and processing, driven by artificial intelligence (AI) a...
Photonic Random-Access Memories (P-RAM) are an essential component for the on-chip non-von Neumann p...
Driven by the rapid rise of silicon photonics, optical signaling is moving from the realm of long-di...
This is the final version. Available from Optical Society of America via the DOI in this record. Adv...
Conventional computing systems are limited in performance by the well-known von Neumann bottleneck, ...
The content of this thesis encompasses the fundamentals, modelling, chip design, nanofabrication pro...
Phase change materials present a unique type of materials that drastically change their electrical a...