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, a quantum technology company spun-out from fundamental research at the University of Sydney, has received a global opportunity by becoming one of just eight startups worldwide selected by IBM for its of preferred technology collaborators.

The at the first IBM Q Summit Silicon Valley in Menlo Park, California.

IBM is one of the global leaders in the race to build a quantum computer, technology that has the potential to reshape this century as profoundly as digital computers changed life in the 20th century.

Q-CTRL founder and CEO , a quantum scientist in the School of Physics, attended the summit alongside 100 start-up founders, venture capitalists and industry leaders and presented to the audience in several sessions.

Professor Biercuk said: 鈥淲orking with IBM is a logical step for Q-CTRL to develop real solutions to one of the hardest problems in quantum computing 鈥� dealing with hardware error. Backed by our partners and , Q-CTRL, headquartered on the University鈥檚 campus, is focused on transitioning years of fundamental research to commercial-scale technology for the global quantum economy.鈥�

Q-CTRL is the only company working on the control of quantum hardware to join IBM鈥檚 Q Network, a recognition of the world-class research undertaken by Professor Biercuk鈥檚 team.

Professor Biercuk said the IBM collaboration gives Q-CTRL the opportunity to further develop its quantum firmware products using the company鈥檚 quantum devices.

鈥淎s IBM continues to scale-up its quantum computers, we will gain direct access to the company鈥檚 most advanced devices and have an opportunity to help solve some of quantum computing鈥檚 most vexing challenges,鈥� he said.

鈥淥ur techniques are already validated through our ion-trapping laboratory. Working with IBM gives us a new opportunity to test these concepts on a totally different kind of quantum computing hardware.鈥�

Collaborators in the IBM Q Network not only gain unique access to the company鈥檚 quantum hardware, but join a network with access to IBM researchers and other Q Network organisations, such as JPMorgan Chase, Daimler, Samsung, JSR Corporation, Barclays, Hitachi Metals, Honda, Nagase, Keio University, Oak Ridge National Lab, Oxford University and University of Melbourne.

IBM is arguably leading the field in the race to build a practical quantum computer, having already made working systems available to their IBM Q Network ecosystem. Other companies, such as Google, Microsoft, IonQ and Rigetti, are also working to construct a practically useful quantum computer.

The director of IBM Research-Almaden听听 the goal of IBM鈥檚 Q Summit was to 鈥渃ut through the hype and focus on the present state of quantum computing and how organisations, and developers can prepare for the future鈥�.

The University of Sydney Deputy Vice-Chancellor (Research), , said: 鈥淭his is an outstanding outcome for Professor Biercuk鈥檚 company and is a reflection of the high-quality research underpinning it and his drive to commercialise that research.鈥�

Professor Ivison noted that Q-CTRL鈥檚 collaboration with IBM comes almost a year after the University joined with Microsoft to establish the under the leadership of .

That partnership represents the largest single investment in quantum engineering in Australia.

鈥淭his shows that our University is committed to working on a wide range of approaches with researchers and technology companies around the world in the race to build practical quantum technologies,鈥� Professor Ivison said.

鈥淏ased at the and its flagship building, the Sydney Nanoscience Hub, our University 鈥� as well as the city of Sydney more generally 鈥� is the best place in Australia for research and scholarship in quantum technology.鈥�