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The company says the Cyberagentur, supported by the German Federal Ministries of the Interior and Defence, aims to obtain three functioning mobile quantum computers within three years, of which one system will be selected for further development for practical use. It is investing a total of 35 million euros in the research and development project. The competition is intended to help strengthen the technological sovereignty of Germany and Europe in the field of quantum technologies.
"We are convinced that we will build a highly suitable quantum computer system that fulfils the most demanding conditions for working outside the laboratory. It will be so mobile that it can be used virtually anywhere," said Clemens Rössler, Head of Ion Trap Development at Infineon.
"For us, the construction of the mobile quantum computer goes beyond a normal research project. It's about combining our technological expertise, including the Infineon QPU platform technology, with commercially available manufacturing technology to make quantum computing practical." The mobile quantum computer will be based on ion-traps technology.
“We are thrilled to be delivering the first mobile variant of Oxford Ionics’ product line to the Cyberagentur. Since our inception, we have viewed the challenge of building powerful quantum computers as an engineering project - not a science project. This approach has yielded both the highest performing qubits in the world and a robust technology that can deliver industry-leading performance within a small physical footprint based on unique customer needs. We look forward to leveraging Infineon’s expertise as we build the mobile quantum computer, including collaborating on QPUs that will scale up in qubit count based on our leading position in qubit quality.”, said Dr Chris Ballance, Co-Founder and CEO of Oxford Ionics.
The company says as a highly modern and mobile ion qubit quantum computer, It will have all the important functions needed to perform complex operations such as those required for machine learning or logistics optimisation. The quantum computer will be compact, resilient to environmental disturbances and energy-efficient. Thanks to the use of chips manufactured in a high-volume semiconductor fabrication line, the technology roadmap can be scaled to more than 1,000 qubits of high quality.
This allows the requirements of the Cyber Agency to be met. It wants to have a reproducible and programmable quantum computer built that can be used by security organisations in actual work on site, and not in highly-specialised laboratories. The technology required for this must be miniaturised in its entirety and made independent of laboratory conditions such as special power connections, stable environmental conditions, data connection and other variables. The two technology partners Infineon and Oxford Ionics tsay ogether have the know-how and expertise to implement this in practice.
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