1. Quantum computing breakthrough
2. Silicon chip accuracy
3. Quantum computing precision
Diraq, an Australian startup, has made waves in the quantum computing world by achieving a groundbreaking 99.9% single-qubit fidelity on a quantum processing device. Partnering with Imec, a leading nanoelectronics R&D hub, Diraq utilized existing semiconductor infrastructure to reach this milestone. The collaboration with Imec is crucial for Diraq’s technology roadmap, aiming to develop error-corrected quantum computing systems ahead of competitors. By integrating silicon qubit devices with standard transistors, Diraq is paving the way for millions of qubits on a single chip. This innovation, in partnership with GlobalFoundries, promises commercially viable quantum computing with revolutionary applications in various fields.
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The quantum computing world is abuzz with excitement as the Australian startup, Diraq, has achieved a groundbreaking milestone. By leveraging existing semiconductor infrastructure, Diraq has accomplished an impressive 99.9% single-qubit fidelity on a quantum processing device. This achievement, made possible by Imec, a research hub utilizing CMOS materials on a 300 mm silicon wafer, represents a significant leap in quantum computing accuracy using existing semiconductor technology.
Diraq’s assertion that 99.9% fidelity is the level of precision required for full-scale, error-corrected quantum computer processors manufactured on existing silicon chip foundries is a remarkable feat. This milestone has been made possible through the partnership with Imec, a leading independent nanoelectronics R&D hub. Andrew Dzurak, CEO and Founder of Diraq, expressed his enthusiasm for the collaboration with Imec, highlighting its importance in Diraq’s technology roadmap to achieve a fully error-corrected quantum computing system ahead of competitors.
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Diraq has utilized cutting-edge technologies such as optimized qubit initialization, real-time feedback, control voltage pulse shaping, and advanced analysis tools to achieve this remarkable feat. These advancements are designed to integrate silicon qubit devices with standard transistors, potentially increasing the number of qubits on a chip to millions or more.
In addition to Imec’s partnership, Diraq is also collaborating with world-leading experts in quantum control and quantum processor design to develop qubits that can be integrated with standard CMOS transistors. These transistors, widely used in the IT industry, are mass-produced on silicon chips used in mobile devices and cloud computing infrastructures. This integration paves the way for high-quality qubits to be combined with standard CMOS transistors on a single chip, a significant milestone in quantum computing.
GlobalFoundries, a leading semiconductor manufacturer, will design and manufacture the chips required for this integration. The roadmap to develop quantum processor chips on a large scale leverages existing semiconductor foundry capabilities, benefiting from decades of development and investment in the industry.
One of the key advantages of CMOS qubits is their significantly smaller size compared to modern transistors. This compact design is in contrast to other quantum computing modalities that require large, energy-intensive, and expensive systems. Diraq’s expertise in silicon spin qubit research and numerous patents in the field position them as pioneers in quantum computing, with a focus on revolutionizing areas such as drug discovery, optimization, cryptography, and more.
Overall, Diraq’s achievement of 99.9% quantum computing accuracy on existing silicon chips marks a significant milestone in the field of quantum computing. The partnership with Imec and GlobalFoundries, along with advancements in technology and integration with standard CMOS transistors, underscores the potential for quantum computing to revolutionize various industries and drive innovation in the future.