Fujitsu and ANU Collaborate to Bring World-Class Quantum Computing to Australia: Driving Innovation and Talent Development Through Memorandum of Understanding
Fujitsu and the Australian National University are partnering to introduce advanced quantum computing technology to Australia. A Memorandum of Understanding has been established to promote innovation and support the growth of local talent in this field.
Fujitsu Australia Limited and The Australian National University (ANU) in Canberra have agreed to work together to create a top-notch quantum research facility in Australia. This partnership aims to provide industry and government professionals, researchers, academics, and students with access to advanced quantum technology. The collaboration will involve the establishment of a center for quantum research and the goal of developing a quantum computer on site.
In line with Australia's National Quantum Strategy, which aims to invest in and develop quantum research and industry in Australia to compete globally, the Memorandum of Understanding (MoU) outlines a strategic partnership between Fujitsu and a top Australian university. The partnership aims to leverage quantum technologies for the benefit of local businesses and the global community, with a focus on long-term growth and innovation.
Graeme Beardsell, who is the Executive Vice President and Chief Executive Officer for Oceania at Fujitsu, stated that the company is focusing on innovating for the future of computing. By investing in quantum research and forming strategic partnerships, such as with ANU, Fujitsu is positioning itself as a leader in the global competition to create the first fault-tolerant quantum computer. This initiative is not just about technology, but also about enabling the emergence of new innovations.
Australia is dedicated to leading in quantum technology, and Fujitsu is actively contributing to this goal. They are not only creating new technologies, but also collaborating with others and promoting the belief that the next major advancement in quantum technology will emerge from a network of talented individuals around the world working together to develop technology for positive purposes.
In a joint effort, Fujitsu will grant ANU researchers and educators the opportunity to utilize their quantum systems and simulators based in Japan. Fujitsu is aiming to enhance innovation by partnering with RIKEN to unveil a 256-qubit quantum computer by March 2025 and a quantum computer with up to 1000 qubits by the fiscal year 2026. This will solidify ANU's continuous access to the most advanced quantum technology available.
ANU and Fujitsu are working together to create new teaching and training modules focused on using Fujitsu's quantum technologies. This collaboration aims to enhance the research techniques and strategies for quantum computing.
Plans to develop quantum computers on location
Aside from sharing information, the project will also work towards installing a quantum computer at ANU in order to assist local researchers, as well as government and industry professionals, in gaining skills and knowledge in this field.
The quantum computer located on-site will give Australian professionals the opportunity to utilize new technologies in their local area. This will allow them to carry out advanced research in various fields, such as cryptography, material science, and quantum simulations.
According to Professor Lachlan Blackhall, who serves as the Deputy Vice-Chancellor for Research and Innovation at The Australian National University, the partnership with Fujitsu aligns with ANU's goal of advancing higher education in fields like quantum computing. This collaboration will contribute to the development of a skilled workforce in quantum computing in Australia.
ANu is looking forward to working together with Fujitsu to further develop their expertise in quantum optical physics and quantum algorithms. This collaboration will not only strengthen the university's capabilities in this field but also contribute to the advancement of fundamental quantum physics in the nation. This is crucial in order to fully utilize the potential of research and apply it to practical applications in the quantum realm.
Fujitsu is known for their knowledge and experience in quantum technology, ranging from combining different platforms to developing systems
Fujitsu is working on creating a superconducting quantum computer with RIKEN that will have 256-qubits and eventually 1,000-qubits in the next two years. Additionally, Fujitsu has also developed quantum technologies and knowledge in this field.
– A hybrid quantum computing platform is being developed that combines a 64-qubit superconducting quantum computer with a quantum simulator. This platform aims to address the issue of quantum bit errors in current quantum computers by using a computing workload broker, an AI-based software that automatically optimizes computing resources and algorithms for optimal performance.
– Fujitsu's quantum computing research and development covers a wide range of technical areas, from quantum devices to platform software applications. They are actively working on developing new algorithms for chemistry calculations, financial systems, and drug discovery.
– The National Institute of Advanced Industrial Science and Technology (AIST) in Japan has placed an order for a gate-based superconducting quantum computer system from Fujitsu. This system is designed to eventually scale up to hundreds of qubits.
Other articles from various sources include Infineon's contribution to a high power density grid storage ground power conditioner, Fujitsu's involvement in addressing social issues related to fake news, Infineon and Amkor's agreement to promote sustainability in the supply chain, Murray Percival Co.'s offering of ESD solutions, Danisense's update of its IT infrastructure for future growth, Indium Corporation's introduction of Au-based precision die-attach preforms, and Green Circuits' showcase of advanced PCB solutions at a small satellite conference. Additionally, there is an interview on STMicroelectronics' microcontroller innovations and ultra low power MCUs, their commitment to empowering edge AI innovation, advancements in power electronics for aircraft electrification, and support for wireless connectivity with STM32 MCUs. Furthermore, a method for rapidly predicting materials' thermal properties using AI has been developed, and Ras Al Khaimah recently hosted a Sustainable IT Summit for global tech leaders.