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Source title: The “Nine Chapters” quantum computing prototype was successfully developed China has achieved the first milestone in quantum computing research
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Recently, the Pan Jianwei research team of the China University of Science and Technology, in cooperation with the Shanghai Institute of Microsystems of the Chinese Academy of Sciences and the National Center for Parallel Computer Engineering and Technology, successfully developed the “Nine Chapters” of quantum computing prototypes, which allowed China to achieve the first milestone in quantum computing research: -The superiority of quantum computing This result was published in the international academic journal Science on the 4th.
After more than 20 years of research and investigation, the scientific research team has successfully built a quantum computing prototype with 76 photons and 100 Bose Gaussian sampling modes through independent innovations in the fields of quantum light sources, interference quantum and single photon detectors. “.
Professor Lu Chaoyang, China University of Science and Technology:Quantum mechanics can allow an object to be in multiple states at the same time. For example, if 0 and 1 exist at the same time, you can do a principle called parallel computing, that is, many tasks can be completed together, so it has such computing power beyond classical computers.
The experimental results show that the “Nine Chapters” can handle specific problems a billion times faster than the world’s number one supercomputer “Fuyue”, and is equivalently faster than the 53-bit quantum computing prototype “Plalanus” launched by Google last year. “It is ten billion times faster and it has successfully realized the superiority of quantum computing.
Pan Jianwei, Academician at the Chinese Academy of Sciences, Professor at the China University of Science and Technology:So in our quantum computing, the first goal is to demonstrate the superiority of quantum computing, that is, I can finally prove that a certain function is better than traditional supercomputers, so that we can go further. Look for a variety of applications.
