The Novo Nordisk Foundation has awarded a grant of $200 million to establish the first full-scale quantum computer for the development of new medicines and provide new insights into climate change and the green transition, which is not possible with classical computers today.
The ambitious Novo Nordisk Foundation Quantum Computing Programme, launched in collaboration with the University of Copenhagen, includes world-leading researchers in quantum computing from Denmark, Canada, The Netherlands and the USA.
The ambition is that a quantum computer will also be a fundamental tool in designing new sustainable materials, delivering new energy-saving solutions or assisting with new approaches to decarbonisation.
Quantum computing offers enormous potential but challenges persist in developing a fully scaled, fault-tolerant, generally applicable quantum computer. The Programme will focus on developing quantum hardware and quantum materials as well as algorithms to deliver a quantum computer that can solve tasks which today are insolvable by current computers.
“We want to create an international powerhouse in quantum research, a field with tremendous potential. We want to create, mature and develop technology that can solve major and current challenges within health, sustainability and other areas,” said Mads Krogsgaard Thomsen, CEO of the Novo Nordisk Foundation.
Henrik C. Wegener, rector of the University of Copenhagen, says: “Everyone will eventually benefit from the new opportunities this Programme is creating. This includes areas such as the green transition, cybersecurity and the development of new medicines. The grant ensures that the University of Copenhagen will continue to be among the global leaders in quantum research. With its size, ambition and interdisciplinary collaboration in Denmark and internationally, the Quantum Computing Programme will provide researchers with the opportunity to boost the development of quantum technology. Many thanks to the Novo Nordisk Foundation for contributing wholeheartedly to this research field.”
A fully functional quantum computer can very rapidly perform complicated calculations that classical computers either cannot or would optimally require several years to perform. A quantum computer therefore creates opportunities for developing new solutions in several areas.
Quantum computers have particularly revolutionary potential in the life sciences. Quantum computers can especially make a difference here because nature has many quantum mechanical systems that cannot currently be classified and properly understood. A quantum computer has an inherent capability to solve such tasks.
“Within the life sciences, for example, we can accelerate development in personalised medicine by letting quantum computers process the enormous quantity of data available about the human genome and diseases. This will make it easier to tailor optimal treatment. In the Quantum Computing Programme, physicists and engineers will work closely with researchers from the life sciences on a daily basis. The development of the technology will be guided by concrete biological experiments and problems, and this close interdisciplinarity is a crucial parameter for success,” said Lene Oddershede, senior vice president, Natural & Technical Sciences, Novo Nordisk Foundation.