Quantum Motion Announces Partnership with Semiconductor Manufacturer GlobalFoundries

Insider Brief:

• Quantum Motion demonstrated rapid large-scale characterization of 1024 quantum dots on a silicon chip, achieving validation in under 5 minutes using commercially fabricated semiconductor processes by GlobalFoundries.

• The Bloomsbury chip, fabricated on GlobalFoundries’ 22FDX® platform, integrates qubits and control electronics, incorporating features like cryogenic tuning and system-on-chip integration.

• Quantum Motion’s collaboration with GlobalFoundries highlights the compatibility of silicon quantum chips with high-volume semiconductor manufacturing for the possibility of industrial-scale production.

• Image Credit: Quantum Motion; Array of quantum chips designed by Quantum-Motion and manufactured by GlobalFoundries

PRESS RELEASE — Quantum Motion, a UK-based quantum computing scale-up founded by academics from University College London and Oxford University, has demonstrated rapid, large-scale characterisation of quantum devices fabricated using commercial semiconductor processes. Quantum Motion has designed a silicon chip featuring an integrated array of 1024 quantum dots on an area of less than 0.1mm² and validated them in less than 5 minutes—at least 100 times faster than the current state of the art. The chips were manufactured by GlobalFoundries, a leading semiconductor manufacturer, with whom Quantum Motion has announced a partnership to develop quantum processors based on a scalable silicon platform.

This achievement, detailed in a peer-reviewed Nature Electronics paper, highlights the advantage of using an existing high-volume manufacturing platform for silicon quantum processors. Quantum Motion’s chip, Bloomsbury, was fabricated on GlobalFoundries’ 300mm 22FDX® platform leveraging its industry-leading capabilities such as power-efficient edge processing, wider temperature range (1K and below), and system-on-chip integration. The back gate bias capability of FDX further enables seamless cryogenic tuning and control, providing a significant advantage compared to bulk silicon solutions for readout and control operations.

The partnership between Quantum Motion and GlobalFoundries exemplifies the strength of combining deep quantum expertise with world-class semiconductor manufacturing. Quantum Motion operates as a fabless company, bringing cutting-edge quantum design skills to the table, while GlobalFoundries provides the fabrication capabilities to produce silicon quantum processors at scale. This collaboration ensures that the designs pioneered by Quantum Motion can be realised using robust and reliable processes, paving the way for high-volume production of quantum chips.

James Palles-Dimmock, CEO of Quantum Motion, said, “Our work with GlobalFoundries has enabled us to demonstrate that scalable manufacturing techniques are compatible with the stringent demands of quantum computing. This achievement shows that silicon-based quantum chips can be fabricated using established semiconductor processes, bridging the gap between quantum research and industrial-scale production.”

Ted Letavic, SVP and Corporate Fellow at GlobalFoundries, said, “This collaboration is an example of how GlobalFoundries is leveraging its differentiated technologies, such as our 22FDX technology platform, to drive advancements that will help shape the future of quantum computing. We are extremely encouraged by the results demonstrated by Quantum Motion which show that our process technology and our advanced 22FDX platform are robust enough to enable innovative quantum structures. We look forward to continuing our strong partnership with Quantum Motion to support their vision of a scalable monolithic quantum processor.”

Progressing from today’s small quantum processors to large-scale quantum computers requires an approach that can measure each qubit in a large array without needing a vast number of input/output connections to the chip, in exactly the same way that conventional CPUs have billions of transistors interfaced to a motherboard using only a few hundred input/output connections. The results from Bloomsbury confirm that silicon-based quantum chips are compatible with commercial semiconductor manufacturing processes, addressing key challenges in scaling up quantum computing. By integrating qubits and control electronics on the same chip, Quantum Motion is advancing towards its goal of creating practical quantum processors.

Quantum Motion plans to build on Bloomsbury’s success and the GlobalFoundries partnership, refining chip designs and delivering increasing levels of quantum/classical integration.

About Quantum Motion

Quantum Motion is developing a revolutionary technology platform: not just a qubit, but a scalable array of qubits based on the ubiquitous silicon technology already used to manufacture the chips in smartphones and computers. The company is developing fault tolerant quantum computing architectures that are compatible with CMOS processes. Fault tolerant quantum processors will support the most powerful quantum algorithms, targeting solutions to currently intractable problems in fields as diverse as chemistry, materials science, medicine and artificial intelligence. The company employs 60 people, comprising specialists in quantum theory, engineering and software. www.quantummotion.tech

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