SEALSQ Prepares to Secure Quantum Computer Development with Vertical Security Stack

SEALSQ Corp is now offering a comprehensive Quantum-Resilient Vertical Security Stack designed to safeguard the development and operation of quantum computers and their supporting infrastructure. As the pursuit of practical quantum computing gains momentum, the company recognizes the escalating need to secure these powerful, yet vulnerable, systems against emerging cybersecurity threats; traditional methods are proving inadequate for the novel attack surfaces presented by quantum processors and related technologies. SEALSQ’s approach embeds security directly into the hardware and system architecture, spanning from a Root of Trust to identity management, potentially enabling developers to secure the entire quantum system lifecycle. The company states that by embedding post-quantum cryptography and hardware-anchored Root-of-Trust at the semiconductor level, quantum computing systems can be designed to be both powerful and provably secure from the earliest stages of their architecture, offering four integrated service modules to address the complete security stack. Hardware Root-of-Trust for Quantum Systems Quantum systems require a bedrock of hardware security to function reliably. As the development of quantum computers accelerates, the need to protect these powerful machines from emerging cyber threats also increases; SEALSQ Corp is addressing this challenge with a comprehensive approach centered on hardware Root-of-Trust. Unlike traditional security measures, which can be vulnerable to quantum attacks, SEALSQ embeds identity and authentication directly into the silicon of quantum processors and their supporting infrastructure. This strategy extends beyond simple identification, encompassing secure boot and firmware validation for cryogenic control electronics, tamper-resistant system integrity monitoring, and authenticated orchestration of quantum workloads. SEALSQ’s secure elements and Trusted Platform Module (TPM) technologies provide a foundation for verifying the authenticity of quantum processors and peripherals, while also enabling secure key storage and lifecycle management through Hardware Security Modules. Certificate provisioning is facilitated through the company’s own OSAT infrastructure, streamlining the process of establishing trust. The implications of this approach are significant, allowing quantum computing developers to build secure-by-design architectures, rather than attempting to retrofit security onto existing designs.

Carlos Creus Moreira, CEO of SEALSQ, said that organizations developing quantum technologies must ensure their infrastructures are built on trusted security foundations. The company’s secure ASIC designs for cryogenic control electronics and high-speed data acquisition hardware further solidify this foundation, embedding Root-of-Trust directly into the quantum hardware itself. This holistic approach aims to safeguard the entire quantum computing ecosystem, from the qubit level upwards, and SEALSQ’s cybersecurity technologies are already deployed in more than 1.7 billion devices globally. NIST-Standardized Post-Quantum Cryptography Deployment The transition to post-quantum cryptography is no longer a distant prospect; deployment initiatives are actively underway to fortify digital infrastructure against the looming threat of quantum computers. While widespread adoption remains several years away, companies are now offering comprehensive solutions designed to protect systems controlling and operating these powerful machines, recognizing that securing them is a critical challenge. SEALSQ Corp is addressing this need with a “Quantum-Resilient Vertical Security Stack,” encompassing everything from foundational hardware security to cloud-accessible platforms. This approach moves beyond simply layering post-quantum algorithms onto existing systems, instead embedding security directly into the silicon level. SEALSQ’s strategy centers on four integrated service modules, beginning with a hardware Root-of-Trust for quantum systems, providing authenticated device identification and tamper-resistant monitoring. They also offer NIST-standardized post-quantum cryptographic stacks, deployable in August 2024, utilizing algorithms like CRYSTALS-Kyber and CRYSTALS-Dilithium to protect against future quantum-enabled cyberattacks. Secure ASIC architectures are being integrated into quantum control electronics, further solidifying defenses at the hardware level. As quantum computing shifts toward cloud deployment, SEALSQ is extending its security layer to Quantum Computing as a Service (QCaaS) platforms, focusing on authenticated access control and encrypted communications. Quantum computers will redefine the limits of computing, but they will also redefine cybersecurity risks.

Carlos Creus Moreira, CEO of SEALSQ Secure ASIC Integration for Quantum Control Electronics SEALSQ Corp is concentrating efforts on embedding security directly within the hardware controlling quantum processors, addressing vulnerabilities inherent in emerging quantum systems. This approach aims to establish a hardware Root of Trust, ensuring authentication and integrity from the foundational layers of quantum infrastructure. These secure ASICs are not simply adding post-quantum algorithms; they are fundamentally altering the architecture to proactively defend against future threats. SEALSQ intends to integrate these designs with high-speed data acquisition hardware, further solidifying the security of the quantum data stream. The company’s ambition extends beyond individual components; they envision a fully integrated stack, encompassing hardware identity, post-quantum cryptography, and secure cloud access. By embedding Root-of-Trust directly into quantum hardware infrastructure, the company hopes to provide a comprehensive, silicon-level defense against evolving cyber threats, aligning with both NSA CNSA 2.0 and NIST post-quantum migration timelines. QCaaS Security: Access Control & Workload Verification SEALSQ Corp is addressing this emerging need with integrated service modules designed to protect the entire quantum workflow, from hardware identity to cloud-accessible platforms. Beyond simply encrypting data in transit, the company focuses on verifying the integrity of quantum workloads themselves, ensuring that computations haven’t been tampered with during processing. This verification relies on hardware-anchored Root-of-Trust technologies embedded directly within the quantum control electronics and supporting infrastructure. SEALSQ’s approach extends to authenticated access control for quantum processor endpoints, utilizing secure elements and Trusted Platform Modules (TPMs) to establish device identity. This is not merely about user authentication; it’s about verifying the trustworthiness of the quantum hardware itself, including secure boot and firmware validation across cryogenic control electronics. The company also offers hardware Security Modules (HSM) for robust key storage and lifecycle management, alongside certificate provisioning facilitated through its own OSAT infrastructure. This proactive alignment ensures compatibility with emerging regulatory requirements and best practices. By focusing on hardware-level security and workload verification, SEALSQ aims to provide a comprehensive, end-to-end solution that safeguards quantum computing systems against both current and future threats, building a foundation for trustworthy quantum computation. Organizations developing quantum technologies must ensure their infrastructures are built on trusted security foundations.

Carlos Creus Moreira, CEO of SEALSQ Source: https://www.globenewswire.com/news-release/2026/03/04/3249433/0/en/SEALSQ-Ready-to-Provide-Post-Quantum-Cybersecurity-to-Companies-Developing-Quantum-Computers-Using-Its-End-to-End-Vertical-Security-Stack-from-Root-of-Trust-to-Qbit.html Tags: