SEALSQ Unveils Strategic Plan for 2026-2030 to Develop Silicon-Based Quantum Computing Using CMOS-Compatible Semiconductor Technologies

Core Insights - SEALSQ Corp has announced a strategic plan for 2026-2030 focused on advancing quantum computing through semiconductor technology, leveraging silicon and CMOS-compatible manufacturing processes for scalable and secure quantum systems [1][4]. Group 1: Quantum Computing Paths - The field of quantum computing is evolving along two distinct technological paths: helium-cooled superconducting systems and semiconductor-based systems [2]. - Helium-cooled superconducting quantum systems, while delivering scientific breakthroughs, are costly, energy-intensive, and difficult to scale, limiting their application to research environments [3]. - SEALSQ is pursuing semiconductor-based quantum computing, which utilizes silicon and CMOS-compatible processes, aligning with existing semiconductor infrastructure and supply chains [4]. Group 2: Industrialization and Trust - The future of quantum computing hinges on industrialization, with a focus on manufacturability, yield, reliability, and supply-chain resilience, which semiconductor-based technologies inherently possess [5]. - SEALSQ emphasizes that trust must be embedded in the design of future computing technologies, integrating security and digital identity directly into silicon [7]. Group 3: Policy and Market Relevance - The distinction between quantum computing paths has significant policy implications, as governments prioritize economic sovereignty, security, and supply-chain control [6]. - Semiconductor-compatible quantum technologies are better suited for deployment in regulated environments, addressing the limitations of laboratory-centric systems [6]. Group 4: Post-Quantum Technology - SEALSQ is at the forefront of developing Post-Quantum Technology, focusing on quantum-resistant cryptography to address security challenges posed by advancing quantum computers [10][11]. - The company aims to provide robust protection for sensitive data across various applications, ensuring organizations remain secure against quantum threats [11].