Core Insights - SEALSQ Corp has introduced its quantum-resistant chip, QS7001, at Tech&Fest, aimed at meeting new legal requirements like CNSA 2.0 for cryptographic transition [3][10] - The QS7001 is designed to be integrated into various intelligent devices, ensuring compliance with emerging post-quantum mandates [3][10] Product Features - The QS7001 is a secure microcontroller built on a 32-bit RISC-V core, featuring a dedicated cryptographic acceleration subsystem that enhances performance and reduces power consumption [4][5] - It achieves up to 10x performance improvement over software-only post-quantum cryptography (PQC) implementations by executing lattice operations directly in hardware [5] - The chip includes 512 KB embedded FLASH and secure SRAM, supporting ML-DSA-87 for firmware signing and ML-KEM for quantum-resistant key establishment [6][11] Compliance and Security - The QS7001 aligns with CNSA 2.0 requirements, mandating ML-DSA-87 for firmware signing and ML-KEM for secure key exchange, ensuring system integrity in high-security environments [7][11] - It features anti-rollback firmware protection and cryptographic integrity checks to safeguard against side-channel attacks and fault injections [7][10] Hybrid Support and Migration - The chip supports hybrid cryptographic modes, allowing for a transition from classical public-key cryptography to post-quantum algorithms, ensuring backward compatibility [8][13] - This capability is crucial for organizations to maintain compliance with evolving security standards while upgrading their systems [8][16] Physical Security and Tamper Resistance - The QS7001 is engineered for high-level security certifications, integrating active tamper detection and side-channel hardened cryptographic engines [9][14] - These features are essential for applications in robotics, defense systems, and critical infrastructure where physical exposure is a concern [9][10] Application Integration - The QS7001 is designed for integration in robotics and intelligent systems, ensuring quantum-safe operations and secure communications [10][15] - It acts as a hardware trust anchor for AI model integrity and secure device-to-device authentication, addressing future quantum threats [15][18] Strategic Importance - CNSA 2.0 represents a significant shift in cryptographic strategy, compelling governments and technology providers to redesign systems for long-term quantum resilience [16][17] - SEALSQ is positioned as a leader in developing post-quantum technology solutions, addressing urgent security challenges posed by advancing quantum computing [17][18]
SEALSQ Presented at Tech&Fest How the Quantum Shield QS7001 Can be Integrated as a Hardware Root of Trust to Meet Cryptographic Transition New Legal Requirements Like CNSA 2.0