Fujitsu and ANU Partner to Bring World-Class Quantum Computing to Australia: Driving Local Innovation and Talent Development
Fujitsu and ANU have agreed to collaborate on bringing cutting-edge quantum computing technology to Australia. They have signed a Memorandum of Understanding with the goal of fostering innovation and developing local talent in the field of
Fujitsu Australia Limited and The Australian National University (ANU) in Canberra have signed an agreement 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 goal is to provide industry and government professionals, researchers, academics, and students in Australia with access to advanced quantum technology.
In line with Australia's National Quantum Strategy, which aims to support and advance the country's quantum research and industry on a global scale, the Memorandum of Understanding outlines a strategic partnership between Fujitsu and a prominent Australian university. This partnership is focused on harnessing the potential of quantum technologies for the benefit of local businesses and the international community.
Graeme Beardsell, who is the EVP and Chief Executive Officer of Oceania at Fujitsu, expressed that the company is focused on pushing the boundaries of computing for the future. Fujitsu's commitment to quantum research and partnerships, such as the one with ANU, positions them as leaders in the worldwide competition to create the first fault-tolerant quantum computer. This initiative is not just about technology, but also about paving the way for the next era of innovation.
Australia is dedicated to leading in the field of quantum technology, and Fujitsu is actively contributing to this goal. Rather than just creating these advancements, we are also sharing them, encouraging teamwork, and anticipating that the next major quantum breakthrough will emerge from a worldwide community of innovative individuals who are dedicated to creating beneficial technology.
In a joint effort, Fujitsu will offer ANU researchers and educators the opportunity to use Fujitsu's quantum systems and simulators in Japan. To foster more advancements, Fujitsu is working with RIKEN to introduce a 256-qubit quantum computer by March 2025 and a quantum computer with up to 1000 qubits by fiscal year 2026. This solidifies ANU's continuous access to the most current quantum technology available.
As part of their new partnership, ANU will create educational modules focused on utilizing Fujitsu’s quantum technologies. These modules will help enhance research efforts in the field of quantum computing.
Plans to develop quantum computers at a physical location
Along with sharing knowledge, the project will work towards establishing a quantum computer on the premises of ANU. This will assist researchers, as well as government and industry experts, in gaining skills and knowledge in the field of quantum computing.
The quantum computer located on-site will offer Australian professionals the ability to utilize local cutting-edge technologies for conducting high-level research in areas such as cryptography, material science, and quantum simulations.
According to Professor Lachlan Blackhall, who holds the position of Deputy Vice-Chancellor (Research and Innovation) at The Australian National University, the partnership with Fujitsu aligns with ANU's goal to advance education in new technologies such as quantum computing. This collaboration aims to support the development of a skilled workforce in quantum computing in Australia.
ANU is looking forward to working together with Fujitsu to further develop the university's expertise in quantum optical physics and quantum algorithms. This partnership will contribute to advancing fundamental quantum physics in the nation and unlocking the potential of research for practical applications in the quantum realm.
Fujitsu's knowledge and experience in quantum technology ranges from combining different types of platforms to developing systems for commercial
Fujitsu is working on creating a superconducting quantum computer with RIKEN in the next two years, aiming for 256-qubit and 1,000-qubit capabilities. Fujitsu has also built up knowledge and skills in quantum technology.
– Hybrid quantum computing platform: A combination of a 64-qubit superconducting quantum computer and a quantum simulator that helps mitigate quantum bit errors in existing quantum computers. This platform uses a computing workload broker, which is an AI-based software that automatically optimizes computing by combining different computing resources and algorithms.
– Quantum applications: Fujitsu is involved in quantum computing research and development across all technical aspects, from quantum devices to platform software applications. They are actively working on developing new algorithms for chemistry calculations, financial systems, and drug discovery.
– Commercial quantum computer system: Japan's national Institute of Advanced Industrial Science and Technology (AIST) 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 in the same category include Infineon's contribution to the highest power density grid storage ground power conditioner from Daihen using a 2000 V SiC Module. Fujitsu has been selected to address social issues caused by fake news. Infineon and Amkor have signed a memorandum of understanding to promote sustainable practices throughout the supply chain. Murray Percival Co. provides comprehensive ESD solutions through Protektive Pak. Danisense has updated its IT infrastructure at its headquarters in anticipation of future growth. Indium Corporation has introduced Au-based precision die-attach preforms. STMicroelectronics continues to showcase innovation in microcontrollers and ultra-low power MCUs. They are committed to empowering edge AI innovation. STMicroelectronics is also advancing power electronics for aircraft electrification and supporting wireless connectivity with their STM32 MCUs. An AI method has been developed to speed up predictions of materials' thermal properties. Green Circuits will be showcasing advanced PCB solutions at the Small Sat Conference. Ras Al Khaimah recently hosted a Sustainable IT Summit for global tech leaders.