China has released a new quantum computing cloud platform developed by the Beijing Academy of Quantum Information Sciences (BAQIS), Institute of Physics (IOP) under the Chinese Academy of Sciences, and Tsinghua University. The platform allows researchers to perform complex computational tasks in the cloud and the public to experience quantum computing at the speed of microseconds. It pools the power of three superconducting quantum chips with 136, 18, and 10 qubits, respectively. It has attracted over 2,000 users to run quantum computing tasks more than 500,000 times since its testing began in November.
China Releases New Quantum Computing Cloud Platform
China has unveiled a new generation of quantum computing cloud platform, which allows researchers to perform complex computational tasks in the cloud and enables the public to experience quantum computing at the speed of microseconds. The Beijing Academy of Quantum Information Sciences (BAQIS), the Institute of Physics (IOP) jointly developed the platform under the Chinese Academy of Sciences and Tsinghua University. It was released at the ongoing 2023 Zhongguancun Forum in Beijing.
The new platform can pool the quantum computing power of three superconducting quantum chips featuring 136, 18, and 10 qubits, respectively, at a physical space distance of 50 km. This allows for a significant increase in computational power and speed, making it possible for researchers to tackle more complex problems and for the public to experience the benefits of quantum computing.
Since its testing phase in November, the platform has attracted over 2,000 domestic and foreign users who have run quantum computing tasks more than 500,000 times. During this period, the platform’s performance has been stable and efficient, according to the BAQIS.
Compatibility and User-Friendly Interface
The quantum computing cloud platform is compatible with open quantum assembly language, making it accessible to many users and researchers. Additionally, it provides a graphic interface for convenient programming, allowing users to interact with the platform and perform their tasks easily.
This compatibility and user-friendly interface have made the platform an attractive option for research teams, who have been using it to remotely employ quantum chips for their own scientific research and to build application software.
Building the Ecology of Quantum Computing
The development of the quantum computing cloud platform is crucial in building the ecology of quantum computing, as it allows for greater collaboration and resource sharing among researchers and users. Fan Heng, a researcher with the IOP, emphasized the importance of developing the cloud platform as soon as possible to support the growth of the quantum computing ecosystem.
As more research teams and users begin to utilize the platform for their projects, the ecological construction of quantum computing will continue to unfold. This will ultimately lead to advancements in the field and the development of new applications and technologies that harness the power of quantum computing.
“The ecology of quantum computing needs to be built on the cloud platform, so we should develop the cloud platform as soon as possible,” said Fan Heng, a researcher with the IOP.
Executive Summary
China has released a new quantum computing cloud platform, developed by the Beijing Academy of Quantum Information Sciences, Institute of Physics, and Tsinghua University, which allows researchers to perform complex tasks and the public to experience quantum computing. The platform has attracted over 2,000 users and has been used for more than 500,000 quantum computing tasks, demonstrating stable and efficient performance.
- China has released a new generation of quantum computing cloud platforms, allowing researchers to perform complex computational tasks in the cloud and the public to experience quantum computing at the speed of microseconds.
- The Beijing Academy of Quantum Information Sciences (BAQIS), and the Institute of Physics (IOP) jointly developed the platform under the Chinese Academy of Sciences and Tsinghua University.
- It was released at the 2023 Zhongguancun Forum in Beijing. It can pool the quantum computing power of three superconducting quantum chips featuring 136, 18, and 10 qubits, respectively, at a physical space distance of 50 km.
- The platform has been open for testing since November and has attracted over 2,000 domestic and foreign users, running quantum computing tasks more than 500,000 times with stable and efficient performance.
- It is compatible with open quantum assembly language and provides a graphic interface for convenient programming.
- Research teams have been using the platform to remotely employ quantum chips for their scientific research and build application software, contributing to the ecological construction of quantum computing.
- Fan Heng, a researcher with the IOP, emphasized the importance of developing a cloud platform for the ecology of quantum computing.