Fellow and Head of Quantum Laboratory, Fujitsu Research, Fujitsu Limited
Shintaro Sato has a concurrent position at RIKEN, Japan, serving as Deputy Director of RIKEN RQC-Fujitsu Collaboration Centre. He is responsible for research on quantum computing at Fujitsu. At Quantum Laboratory, he leads research on all the technology layers of quantum computing: quantum devices, platform, software and application. Fujitsu and RIKEN are planning to release a 64-qubit superconducting quantum computer from RIKEN RQC-Fujitsu Collaboration Centre this fiscal year. Fujitsu also has research collaborations with TU Delft on diamond-spin qubit technology and with Osaka University on software technology for fault tolerant quantum computing.
We are on the verge of witnessing widescale quantum computer adoption, with its ability to benefit directly or indirectly just about every market. Each new discovery unlocks a new level of understanding, advancing our knowledge and underlining future potential.
Vivek Mahajan and Shintaro Sato share Fujitsu’s vision for quantum computing and its commercialization in the next 5-10 years:
- detailing Fujitsu’s R&D collaborations with the world's leading research institutes in all technology layers from quantum devices to basic software and applications;
- spotlighting Fujitsu’s hybrid computing platform, enabling optimal quantum computing by linking a 64-qubit superconducting quantum computer and a 40-qubit quantum simulator to realize future commercial quantum computers.
Date
25 January 2024
From 9am to 6:30pm (CET)
Location
DOB Academy
Raam 180
2611 WP Delft
The Netherlands
Event highlights
Discover Fujitsu’s latest multi-layered computing achievements to drive quantum forward across:
Gain insights into Fujitsu’s various R&D collaborations with world-leading partners – diamond spin, superconducting, error collection, quantum simulator, and applications
Find out about Fujitsu’s technology and research – via poster presentations and technology demos
Network and explore Quantum Collaboration initiatives to identify early applications.