Purpose
Existing key management systems using Quantum Key Distribution (QKD) technology are based on trusted relays in order to overcome the distance limitations of QKD solutions. This approach has a strong drawback: the attack surface of these systems is proportional to the number of the nodes, as a single compromised relay can potentially learn the keys of all users. This project will implement a different approach to integrate Twin-Field (TF) QKD in scalable infrastructure, by relying on a distributed trust architecture named Distributed Symmetric Key Exchange (DSKE). The combination of DSKE and TF-QKD allows to build a scalable network, called DSK
The Governing Council of the University of Toronto × National Research Council Canada
80 grants totalling $40.4M
Collaborative Science, Technology and Innovation Program - Collaborative R&D Initiatives
1,000 grants totalling $348.9M
Related Grants
| Recipient | Amount | Program |
|---|---|---|
| University of Ottawa | $3.6M | Collaborative Science, Technology and In... |
| University of Ottawa | $3.6M | Collaborative Science, Technology and In... |
| University of Ottawa | $3.6M | Collaborative Science, Technology and In... |
| University of Ottawa | $3.6M | Collaborative Science, Technology and In... |
| The Governing Council of the University of Toronto | $3.0M | Collaborative Science, Technology and In... |