en.Wedoany.com Reported - French quantum computing company Quobly recently announced the completion of a €115 million Series A funding round, which will be used to advance the industrialization of silicon-based quantum computers, improve product performance, and expand international business. The company plans to deliver its first commercial quantum computer via the cloud by the end of 2026, opening early access to high-performance computing and scientific research users.

This funding round was led by Bpifrance, SEALSQ, and STMicroelectronics, with participation from the European Innovation Council, Blast, ALIAD, and existing investor Innovacom. Existing shareholders also include the French Alternative Energies and Atomic Energy Commission, the French National Centre for Scientific Research, Quantonation, and Supernova Invest. Headquartered in Grenoble, France, Quobly focuses its technology roadmap on silicon-based qubits, aiming to leverage mature semiconductor manufacturing processes to advance quantum processors from experimental validation to reproducible and scalable industrial production. Following this funding, the company's key priorities include continuing R&D, scaling up silicon quantum processors, refining control electronics and software stacks, and deploying the first Alloy product line systems into customer cloud environments and high-performance computing infrastructure.

Quobly's first commercial system, named Alloy Pioneer, is positioned for early adopters in high-performance computing and scientific research environments. According to the company's plan, the system will be made available via the cloud in 2026, with deployment into high-performance computing infrastructure scheduled for 2027.

The core aim of this funding is to transition quantum computing from a research apparatus to an engineering product closer to data center delivery. Quobly adopts an FD-SOI technology roadmap based on 300mm wafers, emphasizing compatibility with existing semiconductor manufacturing processes to enhance the controllability of quantum chips in terms of scalability, yield, and repeatability. The company's website indicates that its quantum computers are designed for existing high-performance computing and data center infrastructure, minimizing deployment barriers in terms of rack size, power supply, and utility requirements. The involvement of industrial partners such as STMicroelectronics, Air Liquide, Soitec, and Orano also gives Quobly's commercialization path a distinct collaborative character spanning semiconductor manufacturing, materials engineering, cryogenic systems, and process control.

European quantum computing companies have consistently received support from public funds, industrial capital, and strategic investments in recent years, driven by the long-term demand for next-generation computing power in areas such as high-performance computing, cryptographic security, materials science, drug discovery, optimization algorithms, and industrial simulation. Quobly's choice of the silicon-based route means its competitive focus extends beyond qubit count and laboratory metrics to include chip manufacturing standards, system integration, cloud delivery capabilities, and the speed of adaptation to high-performance computing centers. As the first commercial product approaches its delivery milestone, whether Quobly can translate this funding into stable hardware performance, a usable software development environment, and real customer deployments will directly impact its position in the European quantum computing industry chain.

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