What's Happening?
Viavi Solutions has announced a strategic partnership with India-based QNu Labs to advance quantum security. The collaboration aims to develop test cases, frameworks, and standards for quantum-safe communications.
This partnership is part of a broader effort to address the existential threats posed by quantum computing, which could potentially compromise classical security algorithms. The companies plan to create blueprints for deploying quantum-safe technologies and establish a global industry consortium to promote open collaboration. The partnership will focus on developing solutions for quantum key distribution, quantum random number generation, and post-quantum cryptography, ensuring resilience in systems at the optical layer.
Why It's Important?
The partnership between Viavi and QNu Labs is significant as it addresses the growing need for quantum-safe communications. As quantum computing advances, traditional security measures are at risk of being rendered obsolete, posing threats to critical infrastructures such as government, finance, and healthcare. By developing quantum-resilient systems, the partnership aims to protect these sectors from potential quantum threats. The collaboration also aligns with global efforts led by organizations like the National Institute of Standards and Technology to standardize post-quantum cryptography, ensuring a coordinated approach to quantum-readiness worldwide.
What's Next?
The partnership is expected to lead to the creation of a global industry consortium focused on quantum safety. This consortium will encourage open collaboration and research on quantum-safe communications. Viavi and QNu Labs will continue to develop solution frameworks and reference architectures for deploying quantum technologies across various sectors, including telecommunications, banking, aerospace, and defense. The partnership will also work on establishing functional and performance testing standards for quantum technologies, facilitating the transition from classical to quantum-resilient security architectures.
