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JiuZhang Quantum Computer | The Fastest Computer | Quantum Computing

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Uncover the Quantum Revolution with JiuZhang, the Fastest Quantum Computer in the World! Dive into the realm of quantum computing as we explore the groundbreaking achievements of JiuZhang, a marvel of technology that has set new standards in the quantum realm. #technology #science #computer In this video, we break down the fundamentals of quantum computing, explaining how JiuZhang, housed at the University of Science and Technology of China, has surpassed all expectations to become the fastest quantum computer globally. Key Points Covered: ๐Ÿ“Œ Quantum Supremacy: Learn how JiuZhang achieved quantum supremacy, completing tasks in a fraction of the time it would take even the most advanced classical supercomputers. ๐Ÿ“Œ Boson Sampling: Delve into the unique approach JiuZhang takes, utilizing boson sampling and manipulating photons to perform complex calculations. ๐Ÿ“Œ Applications: Discover the vast potential of JiuZhang, from optimizing logistics and simulating molecular structures to advancements in cryptography and artificial intelligence. Whether you're a quantum computing enthusiast or just getting started, this video provides a comprehensive understanding of JiuZhang's significance in the world of quantum computing. Don't miss the chance to witness the power of JiuZhang and explore the future possibilities of quantum computing! Topics covered in this video: Jiuzhang Quantum Computer, Jiuzhang 3.0, Quantum computer, Quantum computing, Quantum computers, Chinese quantum computer, China quantum computer, Technology, Quantum news, Future technology, Tech, World's fastest quantum computer, The fastest computer in the world, The most powerful computer in the world, Quantum computer explained, How quantum computers work, What is quantum computing, Supercomputer, Science, Quantum computing explained, Bit, Qubit, Computer, PC, Top best computers, What is quantum computer โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€” Reference(s): Deng, Yu-Hao & Gu, Yi-Chao & Liu, Hua-Liang & Gong, Si-Qiu & Su, Hao & Zhang, Zhi-Jiong & Tang, Hao-Yang & Jia, Meng-Hao & Xu, Jia-Min & Chen, Ming-cheng & Zhong, Han-Sen & Qin, Jian & Wang, Hui & Peng, Li-Chao & Yan, Jiarong & Hu, Yi & Huang, Jia & Li, Hao & Yuxuan, Li & Pan, Jian-Wei. (2023). Gaussian Boson Sampling with Pseudo-Photon-Number Resolving Detectors and Quantum Computational Advantage. โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€” Credit(s): Pictures of JiuZhang Photonic Quantum Computer by University of Science and Technology of China Pictures of Borealis Quantum Processor by Xanadu โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€”โ€” Connect with us: ๐Ÿ“ง Business Inquiries and Collaborations: TheReverieMedia@ ๐Ÿ“ฑ Follow us on Twitter: @TheReverieMedia ๐Ÿ“ท Follow us on Instagram: @TheReverieMedia ๐Ÿ“ฑ Follow us on TikTok: @TheReverieMedia

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