Munich-based quantum computing startup Peak Quantum has raised €2.2 million in pre-seed funding to advance a new generation of superconducting quantum processors designed to reduce the overhead of error correction. The round, led by UK-based Cloudberry Ventures, brings the company’s total backing to more than €5 million when combined with non-dilutive public support, and positions the 2024-founded spin-off as one of the European deep-tech names to watch as the continent accelerates its sovereign quantum hardware agenda. Alongside Cloudberry Ventures, the financing drew participation from United Founders, QAI Ventures, and Golden Egg Check, together with a group of business angels with operational backgrounds in semiconductors and deep tech. The capital will be used to scale the engineering team, push the technology through its next experimental milestones, and support the company’s operational role in a European pilot manufacturing programme for quantum chips. A spin-off built around error resilience Peak Quantum is a spin-off from the Walther-Meißner-Institute (WMI) in Garching, one of Europe’s most established research centres for superconducting quantum devices. The founding team combines academic pedigree with production know-how: Leon Koch (CEO), Alexander Schult (CFO), Dr Thomas Luschmann (COO), Dr Max Werninghaus (CSO), Ivan Tsitsilin (Head of Design) and Kedar Honasoge (Head of Production). The company is also embedded in Munich Quantum Valley and has drawn support from UnternehmerTUM, anchoring it within the city’s deep-tech cluster. The thesis behind the company is straightforward but technically demanding. Most superconducting quantum processors today rely on aggressive error-correction schemes, in which large numbers of physical qubits are grouped to form a single, more reliable “logical” qubit. The approach works in principle, but it explodes hardware requirements and energy consumption long before the systems reach industrially useful scale. Peak Quantum is instead developing qubits whose error resilience is built into the physics of the device itself. “More qubits do not help if each individual one is unreliable. We are developing processors where error resilience is an intrinsic physical property,” said CEO Leon Koch. If the architecture performs at scale, it could materially reduce the number of physical qubits needed per logical qubit, simplifying both fabrication and control electronics. Operating SUPREME: the EU Chips Act angle The timing of the round is closely tied to Europe’s industrial policy on advanced semiconductors. Peak Quantum has been selected as the operator of SUPREME, a planned pan-European pilot line for quantum chips funded under the EU Chips Act. Operations are scheduled to begin in April 2026, with the goal of establishing a shared industrial infrastructure for designing and manufacturing quantum processors inside the EU. For a pre-seed company, taking on a pilot-line mandate is unusual, and it reflects both the scarcity of European actors with the relevant fabrication experience and Brussels’ willingness to channel strategic hardware programmes through specialist start-ups rather than incumbents. For Peak Quantum, SUPREME provides privileged access to fabrication capacity and collaboration with research partners across the bloc — a structural advantage that complements the new private capital. Investor view “Europe has a real opportunity to be at the forefront of quantum hardware development. Peak Quantum is making a crucial contribution to this,” said Mahir Sahin, General Partner at Cloudberry Ventures, framing the investment in the broader context of Europe’s sovereignty ambitions in compute. The round also aligns with a wider pattern visible in recent European fundraising activity, in which quantum and photonics-adjacent start-ups have continued to attract capital even as generalist venture budgets tighten. Earlier this week, fellow quantum-photonics specialist Pixel Photonics closed €13.5 million to scale its single-photon detectors, and Qoro Quantum recently secured $750,000 to bridge classical and quantum workloads — evidence that investors remain willing to underwrite hardware-heavy quantum theses when they come attached to credible science and clear industrial roadmaps. What to watch next Three milestones will define whether Peak Quantum can convert scientific promise into industrial traction. The first is execution on SUPREME, where the company’s ability to hit throughput and yield targets will be closely scrutinised by EU stakeholders and future co-investors. The second is experimental validation of its error-resilient qubit designs at increasing qubit counts, which will determine whether the architectural bet translates into a defensible performance advantage. The third is commercial engagement: quantum processors ultimately need customers — from national labs to cloud providers and end users in chemistry, materials and optimisation — and the next twelve months will reveal how quickly Peak Quantum can build that pipeline. With €5 million in total funding, a pilot-line mandate, and a technical bet that sidesteps one of the field’s most stubborn bottlenecks, Peak Quantum enters the next phase of Europe’s quantum race with an unusually concentrated set of assets for a company barely two years old. Source: Tech.eu
