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Infineon and Oxford Ionics join forces to develop leading Trapped Ion Quantum Processors
Infineon Technologies AG and Oxford Ionics announce a collaboration to build high-performance and fully integrated quantum processing units (QPUs).

The combination of Oxford Ionics’ unique electronic qubit control (EQC) technology with Infineon’s world-leading engineering and manufacturing capabilities, as well as expertise in quantum technology, will lay the foundations for the industrial production of QPUs offering hundreds of qubits within the next five years.The goal is to move quantum computing technology out of the research lab into real industrial solutions.

Quantum computing opens up the next frontier in computing power for many industries seeking radical improvement in their processes and capabilities. Getting there requires developing qubit technologies that can be built at a massive scale while controlling a growing number of qubits and maintaining quantum error levels at and below the current state-of-the-art. Oxford Ionics’ EQC technology offers a path to integrating trapped ion qubits – the leading qubit technology by quantum error levels – into Infineon’s mature semiconductor processes.

 “The great challenge in quantum computing is scaling whilst improving performance”, said Chris Ballance, Co-Founder of Oxford Ionics. “There are technologies that can be fabricated at scale but don't perform, and there are technologies that perform but don't scale. Our electronic control is uniquely placed to do both. Working with Infineon and its mature and flexible semiconductor process, allows us to speed up the accessibility of a commercial QPU. Due to our market-leading error rates, these processors need dramatically fewer qubits to solve useful problems than other technologies.”

The first Oxford Ionics devices will be cloud accessible by the end of 2022, offering commercial players access to these cutting-edge Quantum Computers. Fully integrated devices with high enough performance to scale to hundreds of qubits are planned to be available in less than two years. The ultimate goal of Infineon and Oxford Ionics is to offer, within five years, individual, fully integrated QPUs offering hundreds of qubits networked together into a quantum supercomputing cluster using Oxford Ionics’s quantum networking technology.

 “The role of Infineon is to take the ground-breaking work of Oxford Ionics to scale properly towards meaningful qubit counts and low error rates. Infineon’s ion traps can enable that in conjunction with our predictable, repeatable, and reliable manufacturing and assembly capabilities,” said Stephan Schaecher, Director of New Application, Innovation, and Quantum Computing at Infineon Technologies Industrial Division.

About Infineon’s ion trap modules

Infineon’s ion traps accelerate the development of powerful quantum computers to solve optimization problems that their classical counterparts could not address. This research already started in 2016 at Infineon fab site in Villach to combine scientific findings with industrial-scale quantum technologies. Knowing how to industrialize and combine novel materials and technologies, Infineon offers an advanced technology platform for customized traps that are predictable, repeatable, and reliable. Based on this platform, Infineon paves the way towards thousands of qubits by working with partners on cryogenic control electronics and optics integration. This will allow scientists and companies to focus on their core tasks, push the boundaries of science and research, and create successful and winning quantum computing systems that will enable industry and academia to solve meaningful problems.

Infineon is pursuing various approaches towards quantum computing. Next to iontrap the company is also active in superconducting and semiconductor-based qubits. As a co-founder of the Quantum Technology and Application Consortium (QUTAC) Infineon drives the topic from technology to usable application. 

More information is available at www.infineon.com/trappedions and at http://www.infineon.com/quantumcomputing.

About Oxford Ionics

Oxford Ionics is the high-performance quantum computing company, delivering world-leading innovations to create the most powerful, accurate and reliable quantum computers to solve the world's most important problems. Unparelled precision is realised by combining the world's highest quality qubits – trapped ions – with a unique noiseless electronic qubit control technology. Oxford Ionics achieves the highest performance ever demonstrated while using chips manufactured on a semiconductor production line.

For more information visit www.oxionics.com or contact media@oxionics.com


Infineon introduces a new single-stage flyback controller for battery charging applications, enabling hassle-free and scalable designs
Battery-powered appliances, one of the industry’s fastest-growing segments, require energy-efficient, robust, and cost-effective battery charging. For this reason Infineon Technologies AG extends its offering of AC-DC controller ICs by introducing the ICC80QSG single-stage PWM controller for flyback topologies.

Infineon and Oxford Ionics join forces to develop leading Trapped Ion Quantum Processors
Infineon Technologies AG and Oxford Ionics announce a collaboration to build high-performance and fully integrated quantum processing units (QPUs).

Infineon adds 40 V device in PQFN to its OptiMOS™ Source-Down power MOSFET family
Contemporary power system designs demand high power density levels and small form factors to maximize system-level performance. Infineon Technologies AG tackles this challenge by focusing on system innovation with enhancements on the component level. Adding to the 25 V device introduced in February, Infineon now brings the OptiMOS™ 40 V low-voltage power MOSFET to the market.

QPL-qualified SupIR-SMD package for rad hard MOSFETs enables higher performing space power systems
Reliably attaching surface mount hermetic power packages to PCBs is a common challenge faced by space system designers.

CoolSiC™ MOSFET 1700 V SMD enables best efficiency and reduced complexity for high voltage auxiliary power supplies
Infineon Technologies AG complements its CoolSiC™ MOSFET offering with yet another voltage class. Having added 650 V to the portfolio earlier this year, the company is now launching the 1700 V class with its proprietary trench semiconductor technology.

Secured connectivity and blockchain technology for data-driven supply chains
Industrial supply chain solutions like digital twins, usage-based pricing models, product warranties or licensing solutions increasingly require reliable and auditable sensor and process data. Yet security is paramount, especially when data is transferred from one company or organization to another.

Safety in cars: Infineon’s AURIX™ is the first embedded safety controller worldwide to be ASIL-D certified according to ISO 26262:2018

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