Curator's Take
This podcast highlights a crucial but often overlooked aspect of quantum computing's future: the networking infrastructure needed to connect quantum processors into larger, more powerful systems. Welinq's focus on quantum memories and qubit-photon interfaces addresses one of the most challenging technical bottlenecks in building distributed quantum systems, where maintaining entanglement across optical networks is notoriously difficult. The company's modular approach to scaling quantum clusters could prove essential as the industry moves beyond single-processor limitations toward the kind of networked quantum architectures that will be needed for truly transformative applications. While much attention focuses on improving individual quantum computers, this conversation underscores how quantum networking infrastructure will ultimately determine whether the technology can scale to solve real-world problems.
— Mark Eatherly
Summary
Yuval Boger interviews Tom Darras, CEO and co-founder of Welinq. They discuss how quantum networking uses shared entanglement to interconnect quantum processors, enabling modular scale-out clusters and quantum-safe connectivity between data centers. Tom explains the technical building blocks—qubit-photon interfaces, optical networks, entangled photon sources, and especially quantum memories—as well as the performance metrics that matter […]