The collaboration integrates EigenQ’s proprietary quantum entropy technology and cryptographic libraries directly into Intel’s secure computing architecture. By focusing on compatibility with hardware already deployed in the field, the firm aims to bridge the gap between theoretical post-quantum standards and the practical constraints of mission-critical environments. These include space operations, secure communications, and high-assurance identity systems.
EigenQ Adapts Intel Xeon Systems for Post-Quantum Security
Federal agencies and defense contractors face a daunting migration to CNSA 2.0 standards as quantum computing threats loom. EigenQ is addressing this by launching a security platform that retrofits existing Intel Xeon infrastructure, allowing organizations to adopt quantum-resistant protections without replacing their entire hardware stacks.
BlackVe, a partner specializing in national security space capabilities, has already committed to using these tools to secure video teleconferencing systems. According to EigenQ CEO Dr. José R. Rosas-Bustos, the initiative seeks to preserve the value of existing trusted hardware while layering on modern security before compliance deadlines arrive. Srini Krishna, an Intel Fellow, noted that the project is designed to help organizations mitigate future risks by modernizing current infrastructure rather than waiting for a complete hardware refresh cycle.




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