Quantum computational advantage via 60-qubit 24-cycle random circuit sampling

[Display omitted] To ensure a long-term quantum computational advantage, the quantum hardware should be upgraded to withstand the competition of continuously improved classical algorithms and hardwares. Here, we demonstrate a superconducting quantum computing systems Zuchongzhi 2.1, which has 66 qub...

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Bibliographic Details
Published inScience bulletin Vol. 67; no. 3; pp. 240 - 245
Main Authors Zhu, Qingling, Cao, Sirui, Chen, Fusheng, Chen, Ming-Cheng, Chen, Xiawei, Chung, Tung-Hsun, Deng, Hui, Du, Yajie, Fan, Daojin, Gong, Ming, Guo, Cheng, Guo, Chu, Guo, Shaojun, Han, Lianchen, Hong, Linyin, Huang, He-Liang, Huo, Yong-Heng, Li, Liping, Li, Na, Li, Shaowei, Li, Yuan, Liang, Futian, Lin, Chun, Lin, Jin, Qian, Haoran, Qiao, Dan, Rong, Hao, Su, Hong, Sun, Lihua, Wang, Liangyuan, Wang, Shiyu, Wu, Dachao, Wu, Yulin, Xu, Yu, Yan, Kai, Yang, Weifeng, Yang, Yang, Ye, Yangsen, Yin, Jianghan, Ying, Chong, Yu, Jiale, Zha, Chen, Zhang, Cha, Zhang, Haibin, Zhang, Kaili, Zhang, Yiming, Zhao, Han, Zhao, Youwei, Zhou, Liang, Lu, Chao-Yang, Peng, Cheng-Zhi, Zhu, Xiaobo, Pan, Jian-Wei
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 15.02.2022
Subjects
Quantum computation
Quantum information
Quantum physics
Superconducting quantum computing
Superconducting qubit
Superconducting qubit
Quantum computation
Quantum information
Superconducting quantum computing
Quantum physics
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