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Quantinuum, Infineon Partner to Build Ion Trap Quantum Computers

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Insider Brief

  • Infineon Technologies and Quantinuum are collaborating to develop next-generation ion traps, aiming to advance quantum computing for applications in generative chemistry, material science, and AI.
  • Infineon brings its expertise in process development and high-volume fabrication, while Quantinuum contributes its ion-trap design and operational knowledge from record-holding quantum computers.
  • The partnership focuses on creating larger, more sophisticated ion traps to enhance fidelity, scalability, and commercial viability, aligning with Quantinuum’s roadmap for universal fault-tolerance by 2029.
  • Image: Infineon

PRESS RELEASE — Infineon Technologies AG, a global leader in semiconductor solutions, and Quantinuum, a global leader in integrated, full-stack quantum computing, today announced a strategic partnership to develop the future generation of ion traps. This partnership will drive the acceleration of quantum computing and enable progress in fields such as generative chemistry, material science, and artificial intelligence.

“We are thrilled to partner with Quantinuum, a leader in quantum computing, to push the boundaries of quantum computing and generate larger, more powerful machines that solve meaningful real-life problems,” said Richard Kuncic, Senior Vice President and General Manager Power Systems at Infineon Technologies. “This collaboration brings together Infineon’s state-of-the-art knowledge in process development, fabrication, and quantum processing unit (QPU) technology with Quantinuum’s cutting-edge ion-trap design expertise and experience with operating high-performance commercial quantum computers.”

Infineon innovates with a dedicated team to make their trapped-ion quantum processing units (QPUs) the heart of the leading quantum computers. The company has invested in this field since 2017, applying its expertise in high-volume processing technologies and developing technologies, like integrated photonics and control electronics, to enable their partners to scale the qubit count of their machines. 

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In Quantinuum’s hardware approach, charged atoms are trapped with electromagnetic fields so they can be manipulated and encoded with information using microwave signals and lasers. This design has distinct advantages over other quantum hardware, including higher fidelities and longer coherence times.

This collaboration builds on today’s leading performance of Quantinuum’s trapped-ion quantum computers, which currently hold the world records in key performance benchmarks such as 2-qubit gate fidelity, quantum volume and cross-entropy benchmark fidelity. To deliver even better fidelity at greater scale and achieve commercial advantage, larger and more sophisticated ion traps are needed. Engineers from the two companies have been working together for more than a year and will intensify their efforts under the current partnership to develop powerful ion traps for Quantinuum’s next-generation quantum computers.

“At Quantinuum, our mission is to accelerate useful quantum computing. We have announced a roadmap to reach universal fault-tolerance in 2029. Our partnership with Infineon is key to our delivering on this commitment,“ said Dr. Rajeeb Hazra, President and CEO of Quantinuum.

Matt Swayne

With a several-decades long background in journalism and communications, Matt Swayne has worked as a science communicator for an R1 university for more than 12 years, specializing in translating high tech and deep tech for the general audience. He has served as a writer, editor and analyst at The Quantum Insider since its inception. In addition to his service as a science communicator, Matt also develops courses to improve the media and communications skills of scientists and has taught courses. [email protected]

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