HPE-Led QSA Aims to Bring Practical Quantum Computers - Technology Magazine

HPE has announced it will be joining hands with seven other leading organisations to form the Quantum Scaling Alliance, to promote the mainstream adoption of quantum technologies. The dream is to develop practical, mass producible, quantum computers by aligning quantum computing with the existing semiconductor ecosystem. John Martinis, who won the Nobel Prize in Physics for his discoveries in the field of quantum mechanics, will be co-leading the alliance. “Quantum computers hold the key to transforming industries through their unique ability to tackle intrinsically quantum problems,” John says. “By harnessing quantum systems, we can achieve breakthroughs in areas ranging from semiconductor manufacturing to sustainable fertilizer production – solving challenges previously thought insurmountable.” Oxford economics research revealed that the growing quantum technology in addition to improving productivity could add £212bn (US$279bn) to the UK economy alone.

The Quantum Scaling Alliance is a consortium of organisations, each a leader in their field, formed with the mission to make quantum computing scalable, practical and impactful. The founding members of the alliance are HPE, 1QBit, Applied Materials, Qolab, Quantum Machines, Riverlane, Synopsys and the University of Wisconsin.

Dr Masoud Mohseni, a distinguished technologist from HPE Labs will oversee the work of the alliance as the Quantum Systems Architect. This collaboration will see the development of hybrid systems that integrate quantum capabilities in classical High-Performance Computing (HPC) and advanced networking. The hybrid approach could open up new frontiers in scientific advancements, including drug discovery, materials research, optimisation and secure data processing. It is also aimed at accelerating technologies to support post-quantum security challenges.

Dr Masoud Mohseni from HPE Labs says: “For quantum to succeed as a viable long-term computing paradigm, it must scale by integrating with classical supercomputing systems. “The Quantum Scaling Alliance is offering a full-stack solution – a large partnership with horizontal integration that unlocks compute potential that is otherwise unachievable through a vertical approach.” The Quantum Scaling Alliance’s aim of developing practical quantum computers stands on the solid grounds of the research headed by Dr Mohseni and his team. They published the research paper How to Build a Quantum Supercomputer: Scaling from Hundreds to Millions of Qubits, which details comparatively cost-effective methods to get to mainstream quantum computing. Research shows that adopting existing semiconductor technologies to develop higher quality qubits could pave the way towards scaling. Rather than replacing classical computers as processors, the researchers say quantum computers could be co-processors that can compute specialised operations. With many tech giants like IBM, Google and Microsoft constantly making breakthroughs in advancing quantum computing, and with the fresh new Quantum Scaling Alliance dedicated to the purpose, we could see quantum computing deployed for solving a barrage of previously unsolvable problems. As Nvidia CEO Jensen Huang says, quantum technology might have truly reached its inflection point – and with practical scaling, we could all reap its rewards. Cofounder and Head of Emergent Machine Intelligence Technology Magazine connects the leading technology executives of the world's largest brands. Our platform serves as a digital hub for connecting industry leaders, covering a wide range of services including media and advertising, events, research reports, demand generation, information, and data services. With our comprehensive approach, we strive to provide timely and valuable insights into best practices, fostering innovation and collaboration within the technology community. Join us today and shape the future for generations to come. These cookies are necessary for the website to function and cannot be switched off in our systems. They are usually only set in response to actions made by you which amount to a request for services, such as setting your privacy preferences, logging in or filling in forms. You can set your browser to block or alert you about these cookies, but some parts of the site will not then work. These cookies do not store any personally identifiable information. These cookies allow us to count visits and traffic sources so we can measure and improve the performance of our site. They help us to know which pages are the most and least popular and see how visitors move around the site. All information these cookies collect is aggregated and therefore anonymous. If you do not allow these cookies we will not know when you have visited our site, and will not be able to monitor its performance. These cookies may be set through our site by our advertising partners. They may be used by those companies to build a profile of your interests and show you relevant adverts on other sites. They do not store directly personal information, but are based on uniquely identifying your browser and internet device. If you do not allow these cookies, you will experience less targeted advertising.