谷歌量子计算实验室近日宣布其新量子计算芯片Willow取得重大里程碑式进展。Willow能够在不到五分钟的时间内完成一项计算挑战,而据谷歌称,世界上最快的超级计算机需要10的24次方年,比宇宙的年龄还要长。与2019年相比,这是一个巨大的飞跃,当时谷歌宣布其量子处理器可以在三分钟内完成一个数学方程式,而超级计算机则需要10,000年。此外,研究人员还找到了一种减少错误的方法,这是量子计算中最大的挑战之一。

🚀Willow芯片能够在不到五分钟内完成一项计算挑战,而世界上最快的超级计算机则需要远超宇宙年龄的时间才能完成,展现了量子计算的巨大潜力。

💡量子计算使用量子比特(qubits),可以同时存在于多个状态,但量子比特容易出错,因为它们会与环境交换信息。谷歌研究人员发现通过向系统引入更多量子比特并实时纠正它们来减少错误的方法。

📉谷歌量子人工智能创始人Hartmut Neven指出,这一历史性成就被称为“低于阈值”,即能够在扩大量子比特数量的同时降低错误率,这是自1995年Peter Shor提出量子纠错以来该领域一直存在的突出挑战。

📈Willow拥有105个量子比特,目前具有一流的性能,其下一步目标是执行第一个“有用的、超越经典的”计算,该计算既与实际应用相关,又是典型计算机无法实现的。

🔮展望未来,量子技术将对收集人工智能训练数据“不可或缺”,最终有助于“发现新药,为电动汽车设计更高效的电池,并加速聚变和新能源替代方案的进展”。

Google’s quantum computing lab just achieved a major milestone. On Monday, the company revealed that its new quantum computing chip, Willow, is capable of performing a computing challenge in less than five minutes — a process Google says would take one of the world’s fastest supercomputers 10 septillion years, or longer than the age of the universe.

That’s a big jump from 2019 when Google announced its quantum processor could complete a mathematical equation in three minutes, as opposed to 10,000 years on a supercomputer. IBM disputed the claim at the time.

Along with more powerful performance, researchers also found a way to reduce errors, something Google calls “one of the greatest challenges in quantum computing.” Instead of bits, which represent either 1 or 0, quantum computing uses qubits, a unit that can exist in multiple states at the same time, such as 1, 0, and anything in between.

As noted by Google, qubits are prone to errors because they “have a tendency to rapidly exchange information with their environment.” However, Google’s researchers discovered a way to reduce errors by introducing more qubits to a system and were able to correct them in real time. Their findings were published in Nature.

“This historic accomplishment is known in the field as ‘below threshold’ — being able to drive errors down while scaling up the number of qubits,” Google Quantum AI founder Hartmut Neven writes on Google’s blog. “You must demonstrate being below threshold to show real progress on error correction, and this has been an outstanding challenge since quantum error correction was introduced by Peter Shor in 1995.”

Willow, which has 105 qubits, “now has best-in-class performance,” according to Neven. Microsoft, Amazon, and IBM are working on quantum computing systems of their own.

Google’s next goal is to perform a first “useful, beyond-classical” computation that is both “relevant to a real-world application” and one that typical computers can’t achieve. Going forward, Neven says quantum technology will be “indispensable” for collecting AI training data, eventually helping to “discover new medicines, designing more efficient batteries for electric cars, and accelerating progress in fusion and new energy alternatives.”