SEALSQ Corp (NASDAQ: LAES) CEO Carlos Moreira will moderate a 35-minute discussion on the challenges of scaling quantum semiconductor technologies at the Global Semiconductor Alliance European Executive Forum in Munich on June 11th. The panel, titled “Quantum Semiconductors – Scaling from Lab to Fab,” comes as promising quantum approaches leverage existing, decades-long investments in CMOS processes, a shift away from entirely new manufacturing paradigms. This convergence of quantum computing and established semiconductor manufacturing is seen as critical for building scalable, fault-tolerant quantum systems across industries like cybersecurity and healthcare. “Quantum computing and Post-Quantum Cryptography represent two sides of the same technological revolution,” said Moreira. “Semiconductors are at the heart of both challenges, enabling the industrialization of quantum technologies.”
Carlos Moreira Moderates “Quantum Semiconductors – Scaling from Lab to Fab”
SEALSQ CEO Carlos Moreira will moderate a 35-minute session, “Quantum Semiconductors – Scaling from Lab to Fab,” on Thursday, June 11th, beginning at 9:15 a. m. at the Sofitel in Munich, Germany, bringing together key European voices to address the challenges of industrial-scale quantum device production. This event highlights a shift from purely theoretical quantum systems toward leveraging existing CMOS processes, benefiting from decades of investment in established fabrication techniques. SEALSQ Corp (NASDAQ: LAES) is uniquely positioned as a company actively developing both traditional semiconductors and post-quantum technologies, signaling a commitment to bridging current and future computing landscapes. Useful quantum computing will require millions of qubits, and reaching that scale is not only a scientific challenge but also an industrial one. Quobly is focusing on silicon qubits compatible with existing semiconductor processes, partnering with SEALSQ and STMicroelectronics to move from technological achievement to deployable systems. SEALSQ is also showcasing a partnership with the BWT Alpine Formula One Team, investigating quantum-related technologies to enhance the team’s security systems and performance, demonstrating a practical application of these advancements.
Useful quantum computing will require millions of qubits. Reaching that scale is not only a scientific challenge, it is an industrial one. At Quobly, we have chosen from the start to develop silicon qubits compatible with semiconductor manufacturing processes, allowing us to build on decades of industrial expertise and infrastructure. Together with strategic partners such as SEALSQ and STMicroelectronics, we are now entering the next phase: translating technological achievements into manufacturable and deployable quantum systems.
Mr. Vinet
SEALSQ’s Post-Quantum Technology Integrates Semiconductors and PKI
SEALSQ Corp, a NASDAQ-listed company focusing on both conventional semiconductors and post-quantum technologies, is actively bridging the gap between current manufacturing and future quantum security needs. The company’s strategy centers on integrating Public Key Infrastructure (PKI) with semiconductors designed to withstand attacks from future quantum computers, a proactive approach to safeguarding data in an evolving threat landscape. This session aims to address the practical hurdles of transitioning quantum semiconductor technologies from research environments to large-scale production. ColibriTD is currently working with customers to implement quantum computing capabilities for solving industrial problems, positioning their Quantum-as-a-Service platform as a bridge between classical and quantum infrastructures.
Quantum computing and Post-Quantum Cryptography represent two sides of the same technological revolution. As industry races to build scalable quantum computers, organizations worldwide must also prepare their security infrastructures for the quantum era. Semiconductors are at the heart of both challenges, enabling the industrialization of quantum technologies while providing the trusted hardware foundation for quantum-resistant cybersecurity solutions. This panel will explore how Europe can lead the transition from lab to fab and from quantum innovation to quantum-safe deployment.
ColibriTD and Quobly Advance Silicon Qubit Manufacturing
This focus on practical application mirrors a broader industry trend, as evidenced by ColibriTD’s current work with customers leveraging quantum computing for immediate industrial problem-solving. A company representative stated that “ColibriTD is already working with customers to solve concrete industrial problems today using quantum computing calculation capabilities,” highlighting a shift toward demonstrable value rather than purely theoretical advancements. However, scaling quantum computing presents significant industrial hurdles, demanding millions of qubits for truly useful applications. Quobly is addressing this challenge by concentrating on silicon qubits, a strategy designed to capitalize on existing semiconductor manufacturing infrastructure. Useful quantum computing will require millions of qubits, and reaching that scale is not only a scientific challenge but also an industrial one. This approach allows Quobly to build upon decades of established expertise in CMOS processes and advanced packaging, streamlining the path toward manufacturable quantum systems.
The company is collaborating with strategic partners, including SEALSQ and STMicroelectronics, to translate technological achievements into deployable systems. This collaborative spirit underscores a growing recognition that successful quantum commercialization requires a convergence of specialized knowledge and established manufacturing capabilities, ultimately bridging the gap between laboratory innovation and large-scale fabrication.
ColibriTD is already working with customers to solve concrete industrial problems today using quantum computing calculation capabilities.
Mr. Vinet
This focus on scaling is critical, as Mr. The collaboration aims to protect the team’s operations and systems from emerging quantum threats, positioning them as potential pioneers in quantum-safe Formula One racing, and delivering solutions that protect data, authenticate devices, and enable secure, high-speed decision making. SEALSQ’s commitment to integrating Post-Quantum Cryptography into semiconductors underscores its dedication to future-proof security across diverse industries.
