China’s Superconducting Quantum Computer Ready for Commercial Use – QuantumCTek & CTQG Lead Breakthrough
China’s Superconducting Quantum Computer Ready for Commercial Use – QuantumCTek & CTQG Lead Breakthrough
Synopsis (What you will read):
- China deploys a superconducting quantum computer based on Zuchongzhi 3.0 for commercial use
- Built with 105 readable qubits and 182 couplers, delivering extreme processing speeds
- Performs quantum random circuit sampling quadrillion times faster than top classical supercomputers
- Developed by China Telecom Quantum Group and QuantumCTek in Hefei
- Marks major step toward practical quantum computing and global cloud access via “Tianyan” platform
- Over 37 million visits and 2 million experimental tasks processed worldwide
Estimated Reading Time: 2 mins
China’s superconducting quantum computer, similar to the “Zuchongzhi 3.0” model, has officially entered commercial deployment, signaling a major leap toward practical quantum computing. According to Xinhua and China Daily, the system uses the same chip series as Zuchongzhi 3.0 and features 105 readable qubits and 182 couplers. It was developed by the China Telecom Quantum Group (CTQG) and QuantumCTek Co., Ltd, two leading quantum technology companies based in Hefei, capital of East China’s Anhui province.
This machine executes quantum random circuit sampling tasks at speeds a quadrillion times faster than the most powerful classical supercomputers. Quantum computing is widely considered a key technology for the next generation of the information revolution, offering processing capabilities far beyond traditional systems.
Earlier this year, scientists from the University of Science and Technology of China—including Pan Jianwei, Zhu Xiaobo, and Peng Chengzhi—successfully built the 105-qubit superconducting quantum computing prototype “Zuchongzhi 3.0,” breaking the world record for quantum computational advantage in the superconducting system.
Quantum computational advantage, also known as quantum supremacy, refers to the moment when quantum computers outperform the most advanced classical machines in specific tasks. Zhang Xinfang, a senior quantum computing researcher at CTQG, stated that this new system, which delivers “the strongest quantum computational advantage,” will be connected to the “Tianyan” quantum computing cloud platform, opening global accessibility.
Since its launch in November 2023, Tianyan has received over 37 million visits, spanning users in more than 60 countries, with experimental tasks exceeding 2 million. This commercial deployment marks a defining step in China’s race to lead the future of quantum technology.
Source here – To submit a story to us, address it to “the Editor” here
About QuantumCTek Co., Ltd.
QuantumCTek Co., Ltd. is one of China’s leading quantum technology companies, specializing in quantum communication, quantum encryption, and quantum computing solutions. Headquartered in Hefei, Anhui province, the company plays a central role in advancing China’s national quantum strategy and collaborates closely with top research institutions, including the University of Science and Technology of China. QuantumCTek is widely recognized for developing secure quantum key distribution (QKD) systems and building the world’s first commercial quantum communication network.
The company has expanded its portfolio to include superconducting quantum computing and cloud-based quantum platforms, working alongside the China Telecom Quantum Group on cutting-edge systems such as the “Zuchongzhi 3.0” chip series. As a publicly listed enterprise, QuantumCTek combines scientific innovation with large-scale deployment capabilities, positioning itself as a global pioneer in next-generation information technologies. Its mission is to accelerate practical quantum applications across government, enterprise, and research sectors worldwide.
Featured image Source: Reuters
Disclaimer
The information provided in this article is for general informational purposes only and is derived from publicly available sources. While every effort is made to ensure accuracy, we make no representations or warranties, express or implied, regarding the completeness, reliability, or validity of the content. This article does not assert or verify any claims about specific companies, individuals, or organizations. This article does not constitute financial, investment, legal, or professional advice. Content may not be suitable for use in all jurisdictions. Readers are responsible for compliance with local laws and regulations. References to external reports, studies, or sources are for contextual purposes only and do not imply endorsement or confirmation of any specific allegations. Readers are advised to conduct their own due diligence and seek professional advice before making business or investment decisions. Some statements may be forward-looking and subject to risks and uncertainties. Actual outcomes may differ materially. We disclaim any liability for losses or damages incurred as a result of reliance on the information provided.