The Quantum Computing Scalability Conference, set to take place from April 2nd to 4th, 2025 at Keble College, Oxford, will bring together experts from diverse quantum computing fields to tackle key scalability issues across quantum platforms. The conference, hosted by the National Quantum Computing Centre (NQCC), aims to identify bottlenecks and address pressing challenges in building efficient roadmaps for the growth of the UK quantum computing ecosystem.
Leading researchers and industry professionals, including Dr Earl Campbell from the University of Sheffield, Dr David Lucas from the University of Oxford, and Dr Claire Le Gall from Nu Quantum Ltd, will deliver in-depth technical talks and participate in panel discussions. The event will also feature a poster session for early-career researchers to showcase their work.
Companies such as IBM, Pasqal, and Quandela will be represented at the conference, which will cover topics including error correction, qubit and gate performance, integrated photonics, cryo-engineering, control systems, and quantum computing networks. With a focus on fostering cross-disciplinary insights and honest assessments of scalability, this premier research-focused event is not to be missed.
Quantum Computing Scalability: Overcoming the Challenges
The National Quantum Computing Centre’s (NQCC) Quantum Computing Scalability Conference 2025 aims to tackle the key scalability issues across quantum platforms. The conference brings together experts from diverse quantum computing fields, fostering cross-disciplinary insights and enabling honest assessments of scalability. As the premier research-focused event hosted by the NQCC, it features in-depth technical talks, panel discussions, and a poster session.
The conference is critical to the NQCC’s mission, as scaling quantum computers is central to its goals. Identifying bottlenecks and addressing the most pressing challenges are crucial steps toward building efficient roadmaps and supporting the growth of the UK quantum computing ecosystem. The event provides a platform for experts to share their research and advancements in overcoming the scalability hurdles.
One of the primary objectives of the conference is to facilitate cross-disciplinary insights, enabling researchers to learn from each other’s expertise and approaches. By bringing together experts from various fields, including engineering, physics, and computer science, the conference aims to foster a comprehensive understanding of the scalability challenges and potential solutions.
The conference features a range of topics, including error correction, qubit and gate performance, integrated photonics and qubit addressing, cryo-engineering and technology, control systems, and quantum computing networks and transducing. These topics are critical to overcoming the scalability hurdles and developing efficient quantum computers.
Error Correction and Qubit Performance
Error correction is a crucial aspect of quantum computing, as it enables the development of reliable and efficient quantum computers. The conference features talks on error correction, including Dr. Earl Campbell‘s presentation on the topic. Dr. Campbell’s research focuses on the development of robust and efficient error correction methods.
Qubit performance is another critical aspect of quantum computing, as it directly impacts the overall efficiency of the quantum computer. Researchers, such as Dr. David Lucas, are working on improving qubit performance through advancements in materials science and engineering. Dr. Lucas’s presentation will discuss the latest developments in this area.
Integrated Photonics and Qubit Addressing
Integrated photonics is a promising approach to scaling up quantum computers, enabling the development of compact and efficient systems. Researchers, such as Dr. Claire Le Gall, are working on advancing integrated photonics for qubit addressing. Dr. Le Gall’s presentation will discuss the latest developments in this area.
Qubit addressing is another critical aspect of quantum computing, as it enables the precise control of qubits. Researchers, such as Dr. James Wills, are working on developing novel approaches to qubit addressing, including the use of cryo-engineering and technology.
Cryo-Engineering and Technology
Cryo-engineering and technology are critical components of quantum computing, enabling the development of efficient and reliable systems. Researchers, such as Dr. Jeff Thompson, are working on advancing cryo-engineering and technology for quantum computing applications. Dr. Thompson’s presentation will discuss the latest developments in this area.
Control systems are another essential aspect of quantum computing, as they enable the precise control of qubits. Researchers, such as Dr. Jonathan Home, are working on developing novel approaches to control systems, including the use of machine learning algorithms.
Quantum Computing Networks and Transducing
Quantum computing networks and transducing are critical components of large-scale quantum computers, enabling the development of efficient and reliable systems. Researchers, such as Dr. Patricia Lee, are working on advancing quantum computing networks and transducing for various applications. Dr. Lee’s presentation will discuss the latest developments in this area.
The conference also features a range of other topics, including presentations from researchers at IBM, Harvard University, and the University of California, Santa Barbara. The event provides a unique opportunity for experts to share their research and advancements in overcoming the scalability hurdles in quantum computing.
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