Fujitsu and ANU Collaborate to Bring World-Class Quantum Computing to Australia: Driving Local Innovation and Talent Development
Fujitsu and the Australian National University (ANU) are collaborating to introduce cutting-edge quantum computing technology to Australia. They have signed a Memorandum of Understanding to promote innovation and nurture local talent in the field
Fujitsu Australia Limited and The Australian National University (ANU) in Canberra have signed a memorandum of understanding (MoU) to collaborate on creating a top-notch quantum research facility in Australia. This partnership aims to establish a center for quantum research and potentially develop a quantum computer on site. The facility will be accessible to industry and government professionals, researchers, academics, and students in the country.
Following Australia's National Quantum Strategy to enhance quantum research and industry in the country, the Memorandum of Understanding (MoU) outlines a strategic partnership between Fujitsu and a top Australian university. This partnership aims to leverage quantum technologies for the advancement of local businesses and the global community.
Graeme Beardsell, who is the Executive Vice President and Chief Executive Officer for Oceania at Fujitsu, stated that the company is focused on innovating for the future of computing. Fujitsu's investment in quantum research, along with partnerships such as the one with ANU, positions them as leaders in the worldwide competition to create the first fault-tolerant quantum computer. This effort is not just about technology, but also about paving the way for the next wave of innovation.
Australia is dedicated to being a leader in quantum technology, and Fujitsu is actively contributing to this goal. Instead of just working on these advancements alone, we are sharing our knowledge, encouraging teamwork, and trusting that the next big quantum discovery will arise from a worldwide network of talented individuals working together to create beneficial technology.
In a partnership, Fujitsu will allow researchers and academics from ANU to use their quantum systems and simulators in Japan. Fujitsu, working with RIKEN, aims to unveil a 256-qubit quantum computer in March 2025 and a quantum computer with up to 1000 qubits in fiscal year 2026. This will ensure that ANU continues to have access to the most advanced quantum technology available.
ANU and Fujitsu are teaming up to create educational modules focused on utilizing Fujitsu's quantum technologies to enhance research efforts in the field of quantum computing.
Plans to develop and utilize quantum computers at a
Apart from sharing knowledge, the project will also work towards establishing a quantum computer on-site at ANU to assist local researchers, as well as government and industry experts, in gaining skills in quantum computing.
Australian professionals will have the opportunity to utilize a quantum computer located on-site, giving them access to new technologies for conducting advanced research in areas such as cryptography, material science, and quantum simulations.
Deputy Vice-Chancellor (Research and Innovation) at The Australian National University, Professor Lachlan Blackhall, mentioned that partnering with Fujitsu aligns with ANU's goal to advance education in new technologies like quantum computing. This partnership aims to support the development of a skilled workforce in quantum computing in Australia.
ANU is looking forward to working with Fujitsu on a collaboration that will leverage the University's expertise in quantum optical physics and quantum algorithms. This partnership will not only strengthen the nation's focus on fundamental quantum physics but also help unlock the potential of research in the quantum field for practical applications.
Fujitsu has knowledge and experience in quantum technology, ranging from combining different platforms to creating systems for commercial use
Fujitsu is working on developing a 256-qubit and 1,000-qubit superconducting quantum computer with RIKEN in the next two years. Additionally, Fujitsu has also built up knowledge and skills in quantum technologies.
– A hybrid quantum computing platform: This platform combines a 64-qubit superconducting quantum computer with a quantum simulator to address quantum bit errors. It utilizes a computing workload broker, an AI-based software that automatically optimizes computing resources and algorithms.
– Quantum applications: Fujitsu's quantum computing research and development encompasses all technical aspects, including quantum devices and platform software applications. They are actively working on new algorithms for chemistry calculations, financial systems, and drug discovery.
– Commercial quantum computer system: Japan's Institute of Advanced Industrial Science and Technology (AIST) has purchased a gate-based superconducting quantum computer system from Fujitsu. This system is designed to eventually scale to hundreds of qubits.
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