LuxQuanta collaborates in test of low latency fibre in Data Centers, led by Lyntia
• It is a globally leading initiative also because of its interoperability of chained QKD manufacturers, which allows extending the distance between the data centres where encryption takes place.
• This is a breakthrough in terms of improved security to provide cryptographic protection against decryption by quantum computers, Artificial Intelligence (AI) and Machine Learning (ML) advancements.
October 11th, 2024- LuxQuanta has teamed up with Nokia, LuxQuanta, IDQ, evolutionQ, OFS| Furukawa Solutions and Digital Realty to promote innovation in the telecommunications sector in this proof of concept lead by Lyntia.
Industry-leading companies have teamed up to conduct a proof of concept of quantum cryptography systems also known as Quantum Key Distribution (QKD) in a real-world data centre production network environment. The goal was clear: to secure a fibre-optic link from Digital Realty's data centre and, in turn, to demonstrate on one leg of the connection the compatibility of quantum cryptography with a new, very low-latency fibre-optic technology.
Hollow Core & QKD in Data Center Networks
Once the connection between the data centre and the customer is secured with LuxQuanta’s CV-QKD systems using the “Hollow-Core” fibre, a second deployment of QKD systems, in this case from the manufacturer ID Quantique, is made via conventional fibre from lyntia to extend the reach of the connection by several tens of kilometres.
A proof of concept ahead of the curve
This test offers companies an excellent level of communications security that can be controlled by their own departments and preparing them to solve cyber-security problems for when quantum computing, AI and ML can hack most of today's encryption strategies.
On the one hand, the manufacturers of QKD equipment, the companies LuxQuanta and ID Quantique, the company evolutionQ as QKD integrator, as well as Nokia, which is responsible for the manufacture of DWDM and OFS| Furukawa Solutions, manufacturer of the ‘Hollow Core’ fibre cable. Digital Realty also took part in the trial by providing the data centre that hosted the launch event.
This project anticipates the growing threat facing the cybersecurity of digital communications, serving as an example and a call to action for multiple sectors, especially for data centres. The implementation of new cryptographic security solutions, such as QKD and related technologies, is already a reality.Quotes from companies
Eduardo Duato, CTO of lyntia, noted: “At lyntia, we continue to drive innovation to provide our customers with the highest quality communications platform. The success of this quantum cryptography test demonstrates our position as a neutral operator, enabling our customers to implement their own encryption systems with confidence, and reinforces our commitment to protecting data from the challenges of the future.”
“This test has made a cryptographic protection solution for data centre access connections a reality. We are pleased to have been part of a cutting-edge technology project to increase the cybersecurity of the connections that make the data economy possible,” said Javier Montemayor, Chief Operating Officer of Digital Realty in Madrid.
David Knight, Product Line Manager at OFS| Furukawa Solutions said “This collaborative work demonstrates the unique advantages that hollow core fibres offer for distributing quantum keys along with the encrypted data stream. Successfully applying these technologies within a real-world data centre interconnect, proves their potential to enable future secure communications.”
Rafael DeFermin, Senior Vice President of Network Infrastructure Europe at Nokia, said “This was a great opportunity for Nokia and our partners to take quantum-security a step further. Using a defense-in-depth approach, we can help ensure quantum-safe outcomes as data is transported throughout the network. With our 1830-PSI platforms and our 1830 Secure Management Server acting in the role of key management and orchestrator, we were able to deliver high-performance, scalable, quantum-safe optical network connectivity.”
Vanesa Díaz, CEO of LuxQuanta, said “This proof of concept demonstrates that quantum cryptography is no longer just a theoretical concept but a mature reality, a practical solution capable of securing critical optical links that connect data centres to the world. Today, we have showcased the interoperability of our product, NOVA LQ®, by integrating it with our partners’ systems and proving its ability to coexist in the same optical band as data, even over low-latency fibres. This ensures secure and efficient transmission within existing optical networks.”
“Our field-proven and telecom-grade QKD solutions have been built for efficient scaling of quantum-safe networks across large geographies and country borders. We’ve been delighted to be involved in this innovative project and look forward to helping lyntia to provide new quantum-safe services to their customers,” said Grégoire Ribordy, CEO of ID Quantique.
“We’re excited to be working with lyntia to demonstrate these new technologies with real world use cases. It’s important to have new tools like QKD as organizations look to bolster their cybersecurity capabilities, and create resiliency in our infrastructure with a defence in depth approach,” said Michele Mosca, CEO of evolutionQ. “Cybersecurity is a team sport and this initiative builds on our existing partnerships to deliver end-to-end solutions for clients. We’re proud to have our BasejumpQDN platform efficiently connecting all these components together while enabling interoperability and scalability.”