Google的Willow芯片获得了量子优势, 用新的算法解决问题的速度比顶级超级计算机快13000倍。 Google's Willow chip achieved quantum advantage, solving a problem 13,000 times faster than the top supercomputer using a new algorithm.

谷歌(Google)在量子计算方面取得了一个里程碑, 展示了“量子优势 ” (quantum faility)与柳芯芯片, 使用名为“量子回声”(Qantum Echoes)的新算法, 比世界上最强大的古典超级计算机更快13000倍解决一个具体问题。 Google has achieved a milestone in quantum computing by demonstrating "quantum advantage" with its Willow chip, using a new algorithm called "Quantum Echoes" that solved a specific problem 13,000 times faster than the world’s most powerful classical supercomputer. 该技术发表在《自然》上,测量量子信息,通过超时序的相互关系,进行分子结构的详细模拟,提供量子混乱的洞察力。 The technique, published in Nature, measures quantum information scrambling through out-of-time-order correlations, enabling detailed simulations of molecular structures and offering insights into quantum chaos. 虽然专家们对实用性和长期影响仍然持谨慎态度,但结果可以重复和可核查,标志着在化学、材料科学和物理学领域向现实世界应用迈出了重要一步。 While experts remain cautious about the practicality and long-term implications, the results are repeatable and verifiable, marking a significant step toward real-world applications in chemistry, materials science, and physics.