Device enables direct communication among multiple quantum processors

New device is a key step to quantum computers by allowing direct communication between processors

If quantum computers are to fulfill the promise of solving problems faster or which are too complex for classical supercomputers, then quantum information needs to be communicated between multiple processors. Modern computers have different interconnected components such as a memory chip, a Central Processing Unit and a General Processing Unit. These need to communicate for a computer to function. Current attempts to interconnect superconducting…

Device enables direct communication among multiple quantum processors

Researchers developed a scalable interconnect that facilitates all-to-all communication among many quantum processor modules by enabling each to send and receive quantum information on demand in a user-specified direction. They used the interconnect to demonstrate remote entanglement, a type of correlation that is key to creating a powerful, distributed network of quantum processors.

The Quantum Revolution: MIT's Breakthrough Paves the Way for a New Era of Computing

MIT researchers have developed a groundbreaking interconnect device for quantum communication, enabling “all-to-all” connectivity. This innovation allows seamless quantum information transfer between processors, bypassing traditional point-to-point limitations. The device facilitates efficient remote entanglement, crucial for scalable quantum systems, by precisely controlling microwave photon phase and direction. Challenges such as photon distor…

MIT develops breakthrough quantum interconnect for scalable computing

Device enables direct communication among multiple quantum processors. Continue reading MIT develops breakthrough quantum interconnect for scalable computing on Tech Explorist.

With a new connection concept, MIT researchers enable direct communication between quantum processors – by light. The article Per Light: Learning to communicate quantum processors first appeared on ingenieur.de - Jobbörse und Nachrichtenportal für Ingenieure.

Photon-shuttling interconnection device enables direct communication among multiple quantum processors - Tech and Science Post

Quantum computers have the potential to solve complex problems that would be impossible for the most powerful classical supercomputer to crack. Just like a classical computer has separate yet interconnected components that must work together, such as a memory chip and a CPU on a motherboard, a quantum computer will need to communicate quantum information between multiple processors. Current architectures used to interconnect superconducting quan…