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We demonstrated verifiable quantum advantage with Quantum Echoes. Running 13,000x faster than leading supercomputers, this represents a significant step toward real-world applications. Watch โ goo.gle/48Gnbtl
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Google Quantum AI
624 posts
Google Quantum AI
@GoogleQuantumAI
Our mission is to build quantum computing for otherwise unsolvable problems.
Joined April 2021
- Willow, our next-gen quantum chip, is pushing the boundaries of quantum computing. With 5x improved coherence times, we're unlocking new possibilities in error correction and performance. Learn more โ goo.gle/41JmpID #QuantumAI
- Congratulations to Michel Devoret, Chief Scientist at @GoogleQuantumAI, John Martinis, former hardware leader at @GoogleQuantumAI, and John Clarke on winning the @NobelPrize in Physics! The history of quantum computing is unfolding before our eyes โ
- Meet Willow: Our state-of-the-art quantum chip. It's the first quantum chip to show exponential error reduction as qubits scale, paving the way for large-scale, fault-tolerant quantum computers. Dive in โ go.nature.com/3OKVLY6
00:00 - Today in @Nature, we published a breakthrough demonstration of verifiable quantum advantage using a measurement known as out-of-time-order correlator (OTOC), or Quantum Echoes. Performed on our Willow chip, it paves a path toward real-world applications โ goo.gle/3Jqaqst
00:00 - Google Quantum AI has launched a free quantum error correction course on @Coursera. From undergrads to researchers, discover this critical field. Enroll now: goo.gle/4iu2wuP and learn more: goo.gle/4grFnYk
- A quantum computing milestone almost 30 years in the making. Our new Willow chip uses surface codes to achieve exponential suppression of errors โbelow thresholdโ. This breakthrough paves the way for larger, more (cont) goo.gle/4iG8zfM
00:00 - Weโre excited to announce Atlantic Quantum, an MIT-founded startup, is joining Google Quantum AI. Their work on integrated quantum hardware will accelerate our roadmap toward building a large scale error-corrected quantum computer โ
- Willow is the most advanced quantum chip yet, designed for state-of-the-art performance and flexibility. Our tunable qubits and couplers enable fast gates and operations, leading to improved performance across many metrics. Check it out โgoo.gle/3OVW6Ht #QuantumAI
00:00 - Building quantum computers faces a core challenge: control qubits without losing info. Hear from Yu Chen, Director, Quantum Processor, on the โsecret sauceโ behind Willow. It let Quantum Echoes run 13,000x faster, a verifiable quantum advantage. Read โ goo.gle/47C7jH9
00:00 - Introducing Shadow Hamiltonian Simulation, a breakthrough in quantum simulation for the efficient study of systems like free bosons and free fermions that are exponentially large, providing exponential quantum speedups. Read the full research โ goo.gle/4hTMby0
- Hear from Michel Devoret, our Chief Scientist of Quantum Hardware, on our latest breakthrough algorithm: Quantum Echoes. His early work on superconducting artificial atoms laid the foundation for the Willow chip, enabling verifiable quantum advantage.
00:00 - Today in @Nature, @GoogleQuantumAI and collaborators have braided non-Abelian anyons for the first time. Unlike all particles observed so far, the state of two non-Abelian anyons changes when they are swapped, opening an exciting path in quantum computing nature.com/articles/s4158โฆ
- With @UCBerkeley, we tested Quantum Echoes by predicting two molecular structures on Willow and confirming them via NMR spectroscopy. This is an exciting exploration of the potential of quantum computing in studying molecular properties.
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