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The European marathon towards digital sovereignty

Derived from the Latin word ‘superanus’, through the French word ‘souveraineté’, sovereignty can be understood as: ‘the ultimate overseer, or authority, in the decision-making process of the state and in the maintenance of order’ – Britannica. Digital sovereignty, specifically European digital sovereignty, refers to ‘Europe’s ability to act independently in the digital world’.

In 2020, the European Parliament already identified the consequences of reliance on non-EU technologies. From the economic and social influence of non-EU technology companies, which can undermine user control over their personal data, to the slow growth of the EU technology companies and a limitation on the enforcement of European laws.

Today, these concerns persist. From Romanian election interference on TikTok’s platform, Microsoft’s interference with the ICC, to the Dutch government authentication platform being acquired by a US firm, and booming American and Chinese LLMs compared to European LLMs. The EU is at a crossroads between international reliance and homegrown adoption.

The issue of the EU digital sovereignty has gained momentum in the context of recent and significant shifts in US foreign policy toward its allies. In this environment, the pursuit of the EU digital sovereignty appears as a justified and proportionate response, one that might previously have been perceived as unnecessarily confrontational.

In light of this, this analysis’s main points will discuss the rationale behind the EU digital sovereignty (including dependency, innovation and effective compliance), recent European-centric technological and platform shifts, the steps the EU is taking to successfully be digitally sovereign and finally, examples of European alternatives

Rationale behind the move

The reasons for digital sovereignty can be summed up in three main areas: (I) less dependency on non-EU tech, (ii) leading and innovating technological solutions, and (iii) ensuring better enforcement and subsequent adherence to data protection laws/fundamental rights.

(i) Less dependency: Global geopolitical tensions between US-China/Russia push Europe towards developing its own digital capabilities and secure its supply chains. Insecure supply chain makes Europe vulnerable to failing energy grids.

More recently, US giant Microsoft threatened the International legal order by revoking US-sanctioned International Criminal Court Chief Prosecutor Karim Khan’s Microsoft software access, preventing the Chief Prosecutor from working on his duties at the ICC. In light of these scenarios, Europeans are turning to developing more European-based solutions to reduce upstream dependencies.

(ii) Leaders & innovators: A common argument is that Americans innovate, the Chinese copy, and the Europeans regulate. If the EU aims to be a digital geopolitical player, it must position itself to be a regulator which promotes innovation. It can achieve this by upskilling its workforce of non-digital trades into digital ones to transform its workforce, have more EU digital infrastructure (data centres, cloud storage and management software), further increase innovation spending and create laws that truly allow for the uptake of EU technological development instead of relying on alternative, cheaper non-EU options.

(iii) Effective compliance: Knowing that fines are more difficult to enforce towards non-EU companies than the EU companies (ex., Clearview AI), EU-based technological organisations would allow for corrective measures, warnings, and fines to be enforced more effectively. Thus, enabling more adherence towards the EU’s digital agenda and respect for fundamental rights.

Can the EU achieve Digital Sovereignty?

The main speed bumps towards the EU digital sovereignty are: i) a lack of digital infrastructure (cloud storage & data centres), ii) (critical) raw material dependency and iii) Legislative initiatives to facilitate the path towards digital sovereignty (innovation procurement and fragmented compliance regime).

i) lack of digital infrastructure: In order for the EU to become digitally sovereign it must have its own sovereign digital infrastructure.

In practice, the EU relies heavily on American data centre providers (i.e. Equinix, Microsoft Azure, Amazon Web Services) hosted in the EU. In this case, even though the data is European and hosted in the EU, the company that hosts it is non-European. This poses reliance and legislative challenges, such as ensuring adequate technical and organisational measures to protect personal data when it is in transit to the US. Given the EU-US DPF, there is a legal basis for transferring EU personal data to the US.

However, if the DPF were to be struck down (perhaps due to the US’ Cloud Act), as it has been in the past (twice with Schrems I and Schrems II) and potentially Schrems III, there would no longer be a legal basis for the transfer of the EU personal data to a US data centre.

Previously, the EU’s 2022 Directive on critical entities resilience allowed for the EU countries to identify critical infrastructure and subsequently ensure they take the technical, security and organisational measures to assure their resilience. Part of this Directive covers digital infrastructure, including providers of cloud computing services and providers of data centres. From this, the EU has recently developed guidelines for member states to identify critical entities. However, these guidelines do not anticipate how to achieve resilience and leave this responsibility with member states.

Currently, the EU is revising legislation to strengthen its control over critical digital infrastructure. Reports state revisions of existing legislation (Chips Act and Quantum Act) as well as new legislation (Digital Networks Act, the Cloud and AI Development Act) are underway.

ii) Raw material dependency: The EU cannot be digitally sovereign until it reduces some of its dependencies on other countries’ raw materials to build the hardware necessary to be technologically sovereign. In 2025, the EU’s goals were to create a new roadmap towards critical raw material (CRM) sovereignty to rely on its own energy sources and build infrastructure.

Thus, the RESourceEU Action Plan was born in December 2025. This plan contains 6 pillars: securing supply through knowledge, accelerating and promoting projects, using the circular economy and fostering innovation (recycling products which contain CRMs), increasing European demand for European projects (stockpiling CRMs), protecting the single market and partnering with third countries for long-lasting diversification. Practically speaking, part of this plan is to match Europe and or global raw material supply with European demand for European projects.

iii) Legislative initiatives to facilitate the path towards digital sovereignty:

Tackling difficult innovation procurement: the argument is to facilitate its uptake of innovation procurement across the EU. In 2026, the EU is set to reform its public procurement framework for innovation. The Innovation Procurement Update (IPU) team has representatives from over 33 countries (predominantly through law firms, Bird & Bird being the most represented), which recommends that innovation procurement reach 20% of all public procurement.

Another recommendation would help more costly innovative solutions to be awarded procurement projects, which in the past were awarded to cheaper procurement bids. In practice, the lowest price of a public procurement bid is preferred, and if it meets the remaining procurement conditions, it wins the bid – but de-prioritising this non-pricing criterion would enable companies with more costly innovative solutions to win public procurement bids.

Alleviating compliance challenges: lowering other compliance burdens whilst maintaining the digital aquis: recently announced at the World Economic Forum by Commission President Ursula von der Leyen, EU.inc would help cross-border business operations scaling up by alleviating company, corporate, insolvency, labour and taxation law compliance burdens. By harmonising these into a single framework, businesses can more easily grow and deploy cross-border solutions that would otherwise face hurdles.

Power through data: another legislative measure to help facilitate the path towards the EU digital sovereignty is unlocking the potential behind European data. In order to research innovative solutions, data is required. This can be achieved through personal or non-personal data. The EU’s GDPR regulates personal data and is currently undergoing amendments. If the proposed changes to the GDPR are approved, i.e. a broadening of its scope, data that used to be considered personal (and thus required GDPR compliance) could be deemed non-personal and used more freely for research purposes. The Data Act regulate the reuse and re-sharing of non-personal data. It aims to simplify and bolster the fair reuse of non-personal data. Overall, both personal and non-personal data can give important insight that research can benefit from in developing European innovative sovereign solutions.

European alternatives

European companies have already built a network of European platforms, services and apps with European values at heart:

Category	Currently Used	EU Alternative	Comments
Social media	TikTok, X, Instagram	Monnet (Luxembourg) ‘W’ (Sweden)	Monnet is a social media app prioritises connections and non-addictive scrolling. Recently announced ‘W’ replaces ‘X’ and is gaining major traction with non-advertising models at its heart.
Email	Microsoft’s Outlook and Google’s gmail	Tuta (mail/calendar), Proton (Germany), Mailbox (Germany), Mailfence (Belgium)	Replace email and calendar apps with a privacy focused business model.
Search engine	Google Search and DuckDuckGo	Qwant (France) and Ecosia (German)	Qwant has focused on privacy since its launch in 2013. Ecosia is an ecofriendly focused business model which helps plant trees when users search
Video conferencing	Microsoft Teams and Slack a	Visio (France), Wire (Switzerland, Mattermost (US but self hosted), Stackfield (Germany), Nextcloud Talk (Germany) and Threema (Switzerland)	These alternatives are end-to-end encrypted. Visio is used by the French Government
Writing tools	Microsoft’s Word & Excel and Google Sheets, Notion	LibreOffice (German), OnlyOffice (Latvian), Collabora (UK), Nextcloud Office (German) and CryptPad (France)	LibreOffice is compatible with and provides an alternative to Microsoft’s office suit for free.
Cloud storage & file sharing	OneDrive, SharePoint and Google Drive	Pydio Cells (France), Tresorit (Switzerland), pCloud (Switzerland), Nextcloud (Germany)	Most of these options provide cloud storage and NexCloud is a recurring alternative across categories.
Finance	Visa and Mastercard	Wero (EU)	Not only will it provide an EU wide digital wallet option, but it will replace existing national options – providing for fast adoption.
LLM	OpenAI, Gemini, DeepSeek’s LLM	Mistral AI (France) and DeepL (Germany)	DeepL is already wildly used and Mistral is more transparent with its partially open-source model and ease of reuse for developers
Hardware		Semi conductors: ASML (Dutch) Data Center: GAIA-X (Belgium)	ASML is a chip powerhouse for the EU and GAIA-X set an example of EU based data centres with it open-source federated data infrastructure.

A dedicated website called ‘European Alternatives’ provides exactly what it says, European Alternatives. A list with over 50 categories and 100 alternatives

Conclusion

In recent years, the Union’s policy goals have shifted towards overt digital sovereignty solutions through diversification of materials and increased innovation spending, combined with a restructuring of the legislative framework to create the necessary path towards European digital infrastructure.

Whilst this analysis does not include all speed bumps, nor avenues towards the road of the EU digital sovereignty, it sheds light on the EU’s most recent major policy developments. Key questions remain regarding data reuse, its impact on data protection fundamental rights and whether this reshaping of the framework will yield the intended results.

Therefore, how will the EU tread whilst it becomes a more coherent sovereign geopolitical player?

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Rising DRAM prices push memory to the centre of AI strategy

The cost of running AI systems is shifting towards memory rather than compute, as the price of DRAM has risen sharply over the past year. Efficient memory orchestration is now becoming a critical factor in keeping inference costs under control, particularly for large-scale deployments.

Analysts such as Doug O’Laughlin and Val Bercovici of Weka note that prompt caching is turning into a complex field.

Anthropic has expanded its caching guidance for Claude, with detailed tiers that determine how long data remains hot and how much can be saved through careful planning. The structure enables significant efficiency gains, though each additional token can displace previously cached content.

The growing complexity reflects a broader shift in AI architecture. Memory is being treated as a valuable and scarce resource, with optimisation required at multiple layers of the stack.

Startups such as Tensormesh are already working on cache optimisation tools, while hyperscalers are examining how best to balance DRAM and high-bandwidth memory across their data centres.

Better orchestration should reduce the number of tokens required for queries, and models are becoming more efficient at processing those tokens. As costs fall, applications that are currently uneconomical may become commercially viable.

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China boosts AI leadership with major model launches ahead of Lunar New Year

Leading Chinese AI developers have unveiled a series of advanced models ahead of the Lunar New Year, strengthening the country’s position in the global AI sector.

Major firms such as Alibaba, ByteDance, and Zhipu AI introduced new systems designed to support more sophisticated agents, faster workflows and broader multimedia understanding.

Industry observers also expect an imminent release from DeepSeek, whose previous model disrupted global markets last year.

Alibaba’s Qwen 3.5 model provides improved multilingual support across text, images and video while enabling rapid AI agent deployment instead of slower generation pipelines.

ByteDance followed up with updates to its Doubao chatbot and the second version of its image-to-video tool, SeeDance, which has drawn copyright concerns from the Motion Picture Association due to the ease with which users can recreate protected material.

Zhipu AI expanded the landscape further with GLM-5, an open-source model built for long-context reasoning, coding tasks, and multi-step planning. The company highlighted the model’s reliance on Huawei hardware as part of China’s efforts to strengthen domestic semiconductor resilience.

Meanwhile, excitement continues to build for DeepSeek’s fourth-generation system, expected to follow the widespread adoption and market turbulence associated with its V3 model.

Authorities across parts of Europe have restricted the use of DeepSeek models in public institutions because of data security and cybersecurity concerns.

Even so, the rapid pace of development in China suggests intensifying competition in the design of agent-focused systems capable of managing complex digital tasks without constant human oversight.

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European push for quantum photonic chips gains support from Ireland

Ireland is set to play a central role in a new European initiative to accelerate the development and manufacturing of quantum computing chips. The Photonics for Quantum (P4Q) project will begin in 2026 and involve partners from 12 countries working to strengthen Europe’s position in quantum technologies.

The programme, coordinated by the University of Twente in the Netherlands, brings together research institutes, semiconductor manufacturers and deep tech firms. Its goal is to establish a manufacturing ecosystem capable of producing high-quality quantum photonic chips at scale. Such chips are considered essential for advances in quantum computing, sensing and secure communication.

In Ireland, the project will be hosted by the Tyndall National Institute at University College Cork and supported by the Department of Further and Higher Education, Research, Innovation and Skills. Tyndall will focus on advanced packaging techniques for photonic chips, particularly those operating at cryogenic temperatures, a key hurdle in building scalable quantum systems.

Officials say the initiative aligns with Ireland’s broader semiconductor strategy and Europe’s ambition to build sovereign capability in advanced technologies. By contributing expertise in packaging and precision manufacturing, Ireland aims to help create a resilient supply chain for next-generation quantum devices.

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Tokyo semiconductor profits surge amid AI boom

Major semiconductor companies in Tokyo have reported strong profit growth for the April to December period, buoyed by rising demand for AI related chips. Several firms also raised their full year forecasts as investment in AI infrastructure accelerates.

Kioxia expects net profit to climb sharply for the year ending in March, citing demand from data centres in Tokyo and devices equipped with on device AI. Advantest and Tokyo Electron also upgraded their outlooks, pointing to sustained orders linked to AI applications.

Industry data suggest the global chip market will continue expanding, with World Semiconductor Trade Statistics projecting record revenues in 2026. Growth is being driven largely by spending on AI servers and advanced semiconductor manufacturing.

In Tokyo, Rapidus has reportedly secured significant private investment as it prepares to develop next generation chips. However, not all companies in Japan share the optimism, with Screen Holdings forecasting lower profits due to upfront capacity investments.

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India’s AI market set to surge to over $130 billion by 2032

The AI market in India has expanded from roughly $2.97 billion in 2020 to $7.63 billion in 2024, and is projected to reach $131.31 billion by 2032 at a compound annual growth rate (CAGR) of about 42.2 percent.

The growth outlook is underpinned by systematic progress across five layers of AI architecture, encompassing models, applications, chips, infrastructure and energy, with strong foundational infrastructure such as data centres and widespread internet connectivity enabling cloud adoption and data-driven services across sectors.

India’s acceleration in AI adoption aligns with broader digital trends and policy pushes, with readiness indices and talent penetration indicating that the nation is better positioned than many emerging economies to scale AI across industries.

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Next-gen AI infrastructure boosted by Samsung HBM4

Samsung Electronics has commenced mass production and commercial shipments of its next-generation HBM4 memory, marking the first industry deployment of the advanced high-bandwidth solution.

The launch strengthens the company’s position in AI infrastructure hardware as demand for accelerated computing intensifies.

Built on sixth-generation 10nm-class DRAM and a 4nm logic base die, HBM4 delivers transfer speeds of 11.7Gbps, with performance scalable to 13Gbps. Bandwidth per stack has surged, reducing data bottlenecks as AI models and processing demands grow.

Engineering upgrades extend beyond raw speed. Enhanced stacking architecture, low-power design integration, and thermal optimisation have improved energy efficiency and heat dissipation, supporting large-scale data centre deployments and sustained GPU workloads.

Production scale-up is already in motion, backed by expanded manufacturing capacity and industry partnerships. Samsung expects HBM revenue growth to accelerate into 2026, with next-generation variants and custom configurations scheduled for future release cycles.

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Global leaders turn to AI adoption as Davos priorities evolve

AI dominated this year’s World Economic Forum, with debate shifting from experimentation to execution. Leaders focused on scaling AI adoption, delivering economic impact, and ensuring benefits extend beyond a small group of advanced economies and firms.

Concerns centred on the risk that AI could deepen global inequality if access to computing, data, power, and financing remains uneven. Without affordable deployment in health, education, and public services, support for AI’s rising energy and infrastructure demands could erode quickly.

Geopolitics has become inseparable from AI adoption. Trade restrictions, export controls, and diverging regulatory models are reshaping access to semiconductors, data centres, and critical minerals, making sovereignty and partnerships as important as innovation.

For developing economies, widespread AI adoption is now a development priority rather than a technological luxury. Blended finance and targeted investment are increasingly seen as essential to fund infrastructure and direct AI toward productivity, resilience, and inclusion.

Discussions under the ‘Blue Davos‘ theme highlighted how AI is embedded in physical and environmental systems, from energy grids to oceans. Choices on governance, financing, and deployment will shape whether AI supports sustainable development or widens existing divides.

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Startup founded by Nobel laureate focuses on scalable quantum chips

Renowned physicist John Martinis, a Nobel Prize winner, is pursuing a new quantum computing breakthrough. His early work proved electrical circuits could behave like quantum particles, enabling modern quantum machines.

Momentum grew when Martinis led Google’s ‘quantum supremacy’ experiment, outperforming classical computers in specialised tasks. Scaling remains difficult because fragile qubits, complex wiring and manufacturing limits reduce reliability.

Startup QoLab, founded in 2024, is redesigning quantum chip architecture to solve those hardware problems. Integrating components onto chips could reduce wiring, improve stability and enable larger systems.

Useful quantum computers could transform chemistry, materials science and complex simulations beyond classical limits. Martinis believes hardware innovation and scalable manufacturing will determine future industry leaders.

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New platform uses quantum simulator technology to model exotic materials

Researchers in Australia have built the largest quantum simulator yet to study complex quantum materials and advanced electronic behaviour. By placing individual atoms on silicon chips, the system recreates real-material interactions directly at the quantum level.

Unlike conventional computers, which struggle to model certain effects accurately, the simulator directly mirrors how electrons interact inside materials such as superconductors. This allows scientists to explore phenomena that would otherwise require enormous computational resources.

The system, known as Quantum Twins, consists of grids containing 15,000 qubits arranged to emulate atomic structures. By controlling how electrons move and interact across the grid, researchers can replicate key material properties linked to conductivity and magnetic behaviour.

Early experiments successfully simulated transitions between conducting and insulating states, as well as responses to magnetic fields. These results suggest the platform can handle complex two-dimensional systems that challenge classical modelling techniques.

Scientists in Australia believe the simulator could accelerate research into unconventional superconductors and other advanced materials, with potential applications in energy, electronics, medicine, and artificial photosynthesis technologies.

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