QuSecure Collaborates with NCCoE on Post-Quantum Cryptography Project

QuSecure is collaborating with the National Cybersecurity Center of Excellence (NCCoE) on a project to address the threat quantum computers pose to current data security systems. The collaboration will focus on easing the transition from vulnerable public-key algorithms to new, quantum-resistant alternatives standardized by NIST. Recognizing the potential for widespread disruption, the Migration to Post-Quantum Cryptography Project Consortium aims to develop practical migration strategies for organizations facing this complex challenge. “Public-key cryptography is widely used to protect today’s digital information,” said William Newhouse, Security Engineer, NIST National Cybersecurity Center of Excellence. “With the advent of quantum computing and its potential to compromise many of the current cryptographic algorithms, it is critical that organizations begin to plan.” QuSecure will contribute its expertise in cryptographic agility, testing solutions in NCCoE labs to identify gaps and improve implementation performance. NCCoE Consortium Addresses Public-Key Algorithm Migration The group aims to address the vulnerabilities inherent in current public-key cryptography, which quantum computers, once sufficiently developed, will be capable of breaking. This proactive approach recognizes that organizations face significant hurdles in identifying and replacing susceptible algorithms across their entire digital infrastructure. This project aims to help organizations in that effort. QuSecure, a key contributor, will collaborate with vendors of automated cryptography discovery tools and post-quantum cryptography to assess performance in real-world enterprise settings. Testing will occur within NCCoE’s lab environments, focusing on identifying capability gaps and refining migration strategies, and QuSecure will also share expertise to improve interoperability and coordination with standards bodies. “This collaboration with the NCCoE brings industry leaders together to tackle one of today’s most pressing cybersecurity challenges—the transition to post-quantum cryptography,” explained Garfield Jones, QuSecure SVP, Research & Technology Strategy. The initial project phase will concentrate on using automated tools to pinpoint vulnerable algorithms and manage the associated risks, ultimately preparing for a secure, quantum-resilient future. QuSecure’s QuProtect R3 Enables Crypto-Agility The escalating threat of quantum computing has spurred a proactive shift within cybersecurity, moving beyond theoretical concerns to concrete implementation strategies. Current public-key cryptography, the bedrock of digital security, faces compromise from increasingly powerful quantum processors. Recognizing this vulnerability, organizations are now focused on identifying and replacing algorithms susceptible to quantum attacks, a process complicated by the scale and complexity of modern IT infrastructure. This collaboration extends to working with Automated Cryptography Discovery and Inventory tools and other post-quantum cryptography vendors to assess performance across diverse enterprise settings, with testing conducted within NCCoE’s lab environments to pinpoint capability gaps and refine migration strategies. QuSecure’s involvement isn’t limited to technical testing; the company intends to share expertise regarding deployment barriers and improve interoperability with standards bodies and industry sectors. With the advent of quantum computing, and its potential to compromise many of the current cryptographic algorithms, it is critical that organizations begin to plan for many of the technological and operational challenges that a migration to post-quantum cryptography will present. William Newhouse, Security Engineer, NIST National Cybersecurity Center of Excellence Telecom Infrastructure Validates Post-Quantum TLS Upgrade QuSecure is actively demonstrating the feasibility of upgrading telecommunication networks to withstand future quantum computing threats, a challenge previously considered years away from practical implementation. The company’s recent work with a Tier-1 telecom provider, highlighted at Mobile World Congress, showcases a new pathway to post-quantum readiness without requiring extensive overhauls of existing infrastructure. This validation is particularly significant given the complexities of modernizing encryption across vast, established networks, a process that traditionally demands substantial disruption of services. The collaboration centers on validating Transport Layer Security (TLS) upgrades to incorporate NIST’s standardized quantum-resistant algorithms, developed in response to the threat posed by quantum computers capable of breaking current public key cryptography. QuSecure’s approach, tested in NCCoE lab environments, focuses on identifying capability gaps and refining strategies for this migration. This work, alongside improvements in interoperability and implementation performance, aims to prepare organizations for a secure, quantum-resilient future. This collaboration with the NCCoE brings industry leaders together to tackle one of today’s most pressing cybersecurity challenges – the transition to post-quantum cryptography. Garfield Jones, QuSecure SVP, Research & Technology Strategy Source: https://www.qusecure.com/qusecure-nist-post-quantum-cryptography-migration/ Tags: