Open · European · Cloud · Infrastructure

Building the control and substrate layers for Europe’s next cloud

Innomasters develops the control and substrate layer software required for hyperscaler-class cloud capability within Europe. We focus on open, cloud-grade infrastructure foundations that enable interoperability, structured federation, and long-term digital sovereignty across data centre environments.

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Innomasters ApS · founding industrial partner behind EUCLORA (European Cloud Computing Research Alliance AISBL) and architectural initiator of InnoFabric.

European data centre and cloud infrastructure

What we’re working on

A focused portfolio of open European infrastructure software building blocks designed to bring European data centres to hyperscaler-class efficiency, developed through collaboration between research institutions, public sector actors, and industry.

European digital sovereignty

Digital sovereignty exists when the control and substrate layers of cloud infrastructure can function, scale, and evolve within Europe under European governance. This depends on shared architectural standards, interoperability, and long-term operational resilience across distributed environments.

EUCLORA

The European Cloud Computing Research Alliance AISBL (EUCLORA) is legally established as a permanent, neutral steward of the open rules of engagement and resulting InnoFabric assets.

EUCLORA has commenced its outward-facing activities and will continue expanding its public engagement and operational scope through 2026.

Visit the EUCLORA website

InnoFabric

InnoFabric refers to the Alliance’s open architecture and reference implementation for a unified European control and substrate layer.

It comprises open-source software components, shared technical specifications, interoperability standards, and a community-driven RFC process.

Our role in the European cloud stack

Europe’s cloud infrastructure challenge is not only commercial. It is architectural. Hyperscaler-class capability depends on coherent control layers, shared substrate standards, and governance models that ensure continuity beyond individual vendors or projects.

Innomasters develops the software components and architectural blueprints that sit between physical infrastructure and higher level services. This layer defines how distributed data centres coordinate, how federation operates in practice, and how operational resilience is maintained across jurisdictions.

The structure of the control and substrate layers also determines how efficiently infrastructure operates. Fragmented control systems lead to duplication, under utilisation, and unnecessary operational overhead. Architectural coherence enables coordinated workload placement, improved hardware utilisation, and more predictable scaling across sites.

Efficiency at the substrate level compounds across the stack. When orchestration, telemetry, and governance are aligned, compute and energy resources can be measured, optimised, and extended over time. This strengthens competitiveness while reducing structural waste.

Digital sovereignty and climate responsibility intersect at this architectural layer. Long term autonomy depends not only on control, but on the ability to operate infrastructure efficiently within Europe’s regulatory and energy constraints.

Control over the control layer determines long term capability. By shaping the substrate rather than competing at the application layer, Innomasters operates where structural leverage is highest.