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Infineon Technologies News

With important pilot line projects, Infineon Technologies is leading the way in the industrialization of quantum computing in Europe.

Infineon Technologies AG has declared its position as a key industrial partner in a vast endeavor to advance quantum computing from experimental laboratory settings to full-scale commercial viability, a significant step for the European semiconductor sector. As of April 2026, three significant European quantum pilot line projects—SUPREME, CHAMP-ION, and SPINS- are using the company’s vast technical and manufacturing expertise. This project serves as a strategic link between advanced research and the demands of large-scale industrial production.

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The Quantum Frontier: An Explosive Market

Quantum computing is considered one of the most disruptive technologies of the 21st century. It offers improvements in supply chain operations, materials research, and medication discovery by calculating tenfold faster than standard supercomputers. Additionally, it is anticipated that quantum systems will transform energy grid management by providing the efficiency needed to achieve global decarbonization targets.

According to current economic forecasts, the worldwide quantum industry may grow to an astounding USD 97 billion by 2035. However, industry experts at Infineon stress that achieving this potential depends only on the capacity to produce essential components, including quantum processing units, with the same accuracy, consistency, and scale as are already present in conventional semiconductor production.

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Overcoming the “Lab to Fab” Divide

The recently created quantum pilot lines are intended to give research institutions, startups, and small and medium-sized businesses (SMEs) unrestricted access to industrial-grade facilities. To test and improve quantum hardware in an actual manufacturing setting, this cooperative architecture is crucial. The mission is to develop and manufacture quantum computers directly within Europe, according to Sabine Herlitschka, Head of Strategic Funding Management at Infineon Technologies. “Together with excellent partners, we are strengthening Europe’s quantum ecosystem and turning research excellence into scalable, industrial solutions,” Herlitschka said, emphasizing that these efforts directly support the European Chips Act and the pursuit of digital sovereignty.

A Multi-Technology Method

Infineon operates specialized laboratories that are integrated into its current semiconductor manufacturing lines as part of a diverse, multi-technology approach. The corporation is spreading its chances across the most promising hardware platforms by taking part in three different pilot lines:

CHAMP-ION (Ion-Trap Technology): The goal of Silicon Austria Labs’ CHAMP-ION (Ion-Trap Technology) project is to build Europe’s first cutting-edge ion-trap quantum chip production line. The goal of the project, which consists of 21 partners from six different countries, is to miniaturize ion-trap devices that combine photonic structures and electronics on a single, mass-producible chip.

SUPREME: The goal of the Finnish research group VTT’s SUPREME (Superconducting Chips) project is to industrialize superconducting qubits. Superconductivity may be produced using tried-and-true semiconductor methods and enables low-loss processes. The creation of a 200-qubit, three-dimensional integrated module intended to demonstrate the stability and yield necessary for commercial usage is a significant accomplishment for this team.

SPINS (Semiconductor-Based Spin Technologies): Under the direction of IMEC, this pilot line produces quantum devices from silicon or silicon-germanium architectures using conventional CMOS manufacturing techniques. Because it makes use of standardized design kits and already-existing industrial “fabs” to enable multi-project wafer runs, this method is very promising for scalability.

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Greater Strategic Background

This move into quantum computing coincides with Infineon’s notable momentum. The business continues to grow its worldwide leadership in the automotive semiconductor industry and recently celebrated the success of its technology on the Artemis II space mission. Additionally, Infineon has demonstrated its capacity to dominate both established and developing high-tech areas by aggressively utilizing its silicon carbide (SiC) technology to enhance power infrastructure for AI data centers.

From sophisticated sensor technologies and security solutions to 32-bit microcontrollers like the AURIX and PSOC series, Infineon’s extensive product range offers the fundamental knowledge necessary to handle the intricate control systems demanded by quantum hardware. The company’s 2025 fiscal year sales of almost €14.7 billion highlights the industrial weight and financial stability it provides to these European efforts.

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A Coordinated European Initiative

The three pilot lines are a part of a larger set of six European initiatives chosen to develop quantum technology over the course of the following seven years. The European Union and national governments fund these ambitious projects through the Chips Joint Undertaking (Chips JU) and the Chips for Europe program.

Europe will continue to be at the forefront of the quantum revolution because to the cooperation of industry titans like Infineon and research behemoths like VTT and Imec. Infineon is contributing to ensuring that the “quantum leap” is a real pillar of the future global economy rather than only a theoretical idea by concentrating on the “industrialization know-how”—the realities of creating chips that function consistently every time.

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