ETSI/IQC Quantum Safe Cryptography Conference
We also invite you to attend one of our talks:
evolutionQ CEO and Programme Committee Chair Michele Mosca breaks down the risks and transformative applications of quantum computers across industries.
Senior Strategist Donna F. Dodson moderates this panel of cross-sectoral experts discussing the transition to a quantum secure cryptographic infrastructure, including the people, policies, processes, and technologies required.
Chief Cryptographer & Co-Founder David Jao presents our new paper, Quantum Secure end-to-end Key Establishment Using Multimodal Cryptography. Explore defense-in-depth for long-term security as David unveils our novel multi-layered cryptographic protocol offering unprecedented security.
Tony Rosati presents Enhancing Resilience in IETF Security Protocols: A Response to the Quantum Threat. Connect with Tony during break periods for more cutting-edge research from evolutionQ.
About evolutionQ
evolutionQ is a pioneer in the field of quantum-safe cryptography. The company was co-founded by leading quantum-safe cryptography experts Dr. Michele Mosca, Dr. Norbert Lütkenhaus, and Dr. David Jao.
Our software solutions are focused on achieving cryptographic resilience and defense-in-depth. We provide quantum-safe security with PQC and QKD software solutions that protect organizations from the risk of public-key cryptography being compromised.
MultimodalKES™
Our new cryptographic protocol offers organizations a resilient, defense-in-depth approach that addresses current and future threats. MultimodalKES enables the establishment of end-to-end (E2E) encryption keys for long-term secure, quantum-safe communications. Relying on standards-based cryptographic methods, MultimodalKES combines symmetric cryptography, post-quantum cryptography (PQC), and current asymmetric key cryptography that, together, possess significantly stronger properties than other key establishment solutions.
Our solution delivers strong computational security even if all asymmetric cryptography methods are broken and protects against other serious attacks. It is also deployable at scale in many enterprise applications via existing protocols and infrastructures. MultimodalKES improves upon the asymmetric-PQC hybrid cryptographic approach recommended by national cybersecurity agencies and with implementations outlined by global standards bodies.