SPINS Project Aims for Millions of Stable Semiconductor Qubits

A 50 million euro investment will fuel the SPINS project, a pan-European effort to establish a new research and production environment for semiconductor quantum chips mirroring existing manufacturing processes. The consortium, coordinated by imec and comprised of 25 European organizations including the University of Jyväskylä, will focus on three material platforms, Si/SiGe, Ge/GeSi, and SOI, to create scalable, stable spin qubits. This initiative aims to bolster European sovereignty in quantum technology and ultimately produce chips containing hundreds of millions of stable qubits for future quantum computing applications. Professor Juha Muhonen from the University of Jyväskylä stated that the University of Jyväskylä’s involvement in such an ambitious European project strengthens the position of Finland and the University in the development of quantum technologies and provides a unique link between research laboratories and industrial applications.

EU SPINS Project Advances Semiconductor Spin Qubit Development

Unlike many quantum computing approaches, SPINS concentrates specifically on semiconductor-based spin qubits, a choice driven by the potential for leveraging established microfabrication techniques and materials. The consortium is not limiting itself to a single material, but instead pursuing development across three distinct platforms: Si/SiGe, Ge/GeSi, and SOI, demonstrating a pragmatic, multi-pronged strategy to address the inherent material science challenges. This collaborative undertaking, officially launched on April 1, 2026, unites 25 European organizations, research and technology organizations, industry partners, and academic groups, coordinated by imec, and aims to solidify Europe’s position in the rapidly evolving field of quantum technology. The project’s scope extends beyond fundamental research, with a clear objective of translating laboratory advancements into industrial-scale production of quantum chips for future computing applications; project documentation indicates an emphasis on practical implementation. The University of Jyväskylä plays a key role in this pan-European effort, leveraging its established expertise in silicon-based quantum technologies and advanced measurement techniques, which strengthens Finland’s position in quantum innovation.

€50 Million Budget Supports Scalable Quantum Chip Production

The pursuit of functional quantum computers currently hinges on overcoming substantial hurdles in fabrication and scalability; while small-scale quantum processors exist, translating these into commercially viable systems demands a manufacturing infrastructure comparable to that of conventional semiconductors. This financial commitment signals a significant push toward industrializing quantum chip production, a critical step beyond laboratory demonstrations. The pilot line specifically concentrates on semiconductor-based spin qubits, aiming to produce quantum chips for future applications ranging from drug discovery to secure communications. The University of Jyväskylä’s participation, alongside SemiQon Oy and VTT, strengthens Finland’s position in the growing field of quantum technology; Business Finland is providing national co-funding to support these Finnish partners.