EuroHPC Joint Undertaining (EuroHPC JU) has signed a procurement agreement with Bull to install a new AI supercomputer in Linköping, Sweden.
The system will underpin the next phase of the Mimer AI Factory (AIF) initiative and expand Europe’s AI infrastructure.
The AI supercomputer will be hosted and operated by the Swedish National Academic Infrastructure for Supercomputing (NAISS) at Linköping University.
It supports Mimer AIF, which combines cloud-enabled supercomputing, massive sensitive data storage, and advanced software layers to accelerate AI development across multiple industries.
The result is a significant increase in computing and service capabilities within the Mimer AIF ecosystem.
The expansion is expected to strengthen Sweden’s role in Europe’s AI factory network and enable more advanced applications across healthcare, materials science and autonomous systems.
What does the Mimer AIF extension actually provide?
The new AI supercomputer is designed to move Mimer AIF from a support platform to a high-capacity AI development hub.
Consolidate compute, storage, and expertise into a single environment for production-grade AI workloads.
This includes infrastructure for processing sensitive data sets critical to fields such as healthcare and life sciences.
In addition to raw computing power, the platform provides software tools and vertical expertise that enable organizations to design, train, and deploy AI systems more efficiently.
Since its launch in April 2025, Mimer AIF has already supported over 200 European companies. These organizations use the platform to prepare data for use in AI, access high-performance computing resources, and receive technical training.
The new system is intended to enhance, not replace, these services.
Which sectors will benefit most?
Mimer AIF has a clear sector focus, reflecting both the strengths of Swedish industry and broader European priorities.
AI supercomputers provide enhanced capabilities across four areas:
Life Sciences and Healthcare Materials Science Autonomous Systems Games
In practical terms, this means enabling workloads such as generative models for structural biology, large-scale AI training for personalized medicine, and simulation-heavy development in autonomous technologies.
This includes the gaming industry, where high-performance AI can support real-time rendering, behavioral modeling, and large-scale simulation environments.
How are AI supercomputers actually used?
The system is structured to support both experimentation and deployment. One important use case is developing foundational models in collaboration with international partners. These models can be adapted for specific industrial or academic applications.
Another focus is on enabling generative AI in scientific research. For example, structural biology and drug design require large datasets and intensive computational cycles, and new infrastructures are designed to handle both.
Access is not limited to large institutions. The platform is primarily aimed at startups and small businesses, but will also be available to the broader research community. Resource allocation will be jointly managed by EuroHPC JU and NAISS and will reflect joint investments.
Who is funding and delivering the system?
The Mimer AI Factory expansion is supported by a total budget of €29.76 million, with funding to be split equally between European and domestic sources.
Half of the funding will come from the Digital Europe Program (DEP) via EuroHPC JU. The remaining 50% will be provided by the Swedish Research Council.
Installation of the AI supercomputer is scheduled to begin in 2026. Once operational, Mimer AIF will move into a full-scale AI factory within the European network.
The broader aim is to create a decentralized ecosystem of AI factories across Europe, where each AI factory contributes specialized functionality while maintaining interoperability.
For Sweden, this expansion strengthens its position in the European AI landscape. For participating companies and researchers, it provides access to infrastructure that would otherwise be inaccessible.
This agreement signals a transition from early-stage enablement to large-scale deployment. The addition of this AI supercomputer brings Mimer AIF closer to functioning as a full-stack AI factory capable of supporting both innovation and production workloads at scale.
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