Fujitsu and ANU Collaborate to Bring World-Class Quantum Computing to Australia: A Memorandum of Understanding to Drive Local Innovation and Talent Development
Fujitsu and the Australian National University (ANU) are partnering to introduce cutting-edge quantum computing technology to Australia. A Memorandum of Understanding has been established to support innovation and the growth of talent within the
Fujitsu Australia Limited and The Australian National University have signed a memorandum of understanding to collaborate on creating a cutting-edge 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 Australia.
In line with Australia's National Quantum Strategy, which aims to enhance Australia's quantum research and industry to compete globally, the Memorandum of Understanding (MoU) outlines a strategic partnership between Fujitsu and a top Australian university. This partnership focuses on exploring the potential benefits of quantum technologies for local and global organizations in the future.
Graeme Beardsell, who holds the position of EVP and Chief Executive Officer for Oceania at Fujitsu, stated that the company is focused on innovating for the future of computing. Fujitsu's commitment to quantum research and partnerships, such as with ANU, positions them as leaders in the global competition to create the world's first fault-tolerant quantum computer. This initiative is not just about technology, but also about enabling the next level of innovation.
Australia is dedicated to being a leader in quantum technology, and Fujitsu is actively contributing to this goal. We are not only working on advancing these technologies, but also sharing them, promoting collaboration, and trusting that the next major quantum innovation will emerge from a worldwide network of talented individuals focused on creating beneficial technology.
In a joint effort, Fujitsu will grant ANU researchers and educators the opportunity to utilize Fujitsu's quantum systems and simulators located in Japan. In order to foster more advancements, Fujitsu intends to introduce a 256-qubit quantum computer in March 2025 and a quantum computer with up to 1000 qubits by fiscal year 2026, solidifying ANU's continuous access to state-of-the-art quantum technology.
ANU and Fujitsu are partnering to create educational modules that will focus on utilizing Fujitsu's quantum technologies to enhance research in quantum computing. This collaboration aims to improve the understanding and approach to studying quantum computing through specialized teaching and training materials developed by ANU.
Goals to develop quantum computers at physical locations
Aside from sharing information, the project will also focus on establishing a quantum computer at ANU to assist local researchers, as well as government and industry professionals, in gaining skills and knowledge in quantum computing.
The quantum computer located on-site will give Australian professionals the opportunity to use new, local technologies for conducting advanced research in areas such as cryptography, material science, and quantum simulations.
According to Professor Lachlan Blackhall, who is the Deputy Vice-Chancellor (Research and Innovation) at The Australian National University, the partnership with Fujitsu aligns with ANU's goal of advancing education in cutting-edge technologies like quantum computing. This collaboration aims to support the development of a skilled workforce in quantum computing in Australia.
ANU is thrilled about the partnership with Fujitsu, as it will leverage the university's expertise in quantum optical physics and quantum algorithms. This collaboration aims to advance the nation's dedication to fundamental quantum physics, which is crucial for unlocking the potential of research and creating opportunities in the quantum realm.
Fujitsu is known for their knowledge and experience in the field of quantum computing, ranging from creating hybrid platforms
Fujitsu is working on creating a 256-qubit and 1,000-qubit superconducting quantum computer with RIKEN in the next two years. They have also developed quantum technologies and knowledge in this field.
– Hybrid quantum computing platform: This platform combines a 64-qubit superconducting quantum computer with a quantum simulator to address quantum bit errors. It uses a computing workload broker, an AI-based software, to optimize computing resources and algorithms automatically.
– Quantum applications: Fujitsu is actively researching and developing quantum computing in all technical areas, including quantum devices and platform software applications. They are creating new algorithms for chemistry calculations, financial systems, and drug discovery.
– Commercial quantum computer system: Japan's AIST has purchased a gate-based superconducting quantum computer system from Fujitsu that can scale to hundreds of qubits.
Other articles on the website include Infineon's contribution to a high power density grid storage ground power conditioner from Daihen using a 2000 V SiC Module. Fujitsu has been selected to address social issues arising from fake news. Infineon and Amkor have signed a Memorandum of Understanding to promote sustainability in the supply chain. Murray Percival Co. offers comprehensive ESD solutions from Protektive Pak. Danisense has updated its IT infrastructure at its headquarters in preparation for future growth. Indium Corporation has introduced Au-based precision die-attach preforms. STMicroelectronics is at the forefront of microcontroller innovation and ultra low power MCUs. They are committed to empowering edge AI innovation and advancing power electronics for aircraft electrification. Green Circuits will be showcasing advanced PCB solutions at the Small Sat Conference hosted by Ras Al Khaimah, which also hosted a Sustainable IT Summit for global tech leaders.