Imagine finding a shipwreck, but instead of a blurry sonar image, you could read the nameplate on its hull. That's the kind of leap they've just made at Google Quantum AI. They seem to have come up with a verifiable quantum advantage on hardware. Their Willow quantum chip ran the "Quantum Echoes" algorithm 13,000x faster than one of the world's fastest supercomputers. Why is this a game-changer? ➡️ It's Verifiable. Unlike past benchmarks, this result is repeatable and confirmable. It's the foundation for building real, practical applications. ➡️ It's a "Quantum-Scope". This technique acts like a molecular ruler, letting them measure the structure of molecules with unprecedented precision. ➡️ It Unlocks Real-World Problems. This could pave the path for major advances in drug discovery, designing new materials for batteries, and revolutionizing chemistry. We're moving from abstract theory to a tool that can solve physical challenges. It’s a big step toward a full-scale, error-corrected quantum computer. What’s the next global challenge you think quantum computing should tackle? #QuantumComputing #GoogleAI #Innovation #Science #Technology #Google #ArificialIntelligence #SundarPichai

For the first time, quantum computing has achieved verifiable quantum advantage and it's not just a lab experiment anymore. Google's Willow processor just delivered a 13,000× speedup over classical supercomputers on molecular simulations. The key is the new Quantum Echoes algorithm which computed molecular interactions in 2 hours that would take the Frontier supercomputer 3.2 years. But researchers at NYU and Dartmouth remain cautious, noting there's no proof that better classical algorithms don't exist.️ The path to practical quantum computing just got clearer, but skepticism keeps expectations grounded. Congrats to Google Quantum AI for pushing the boundaries. #quantumcomputing #quantum #qc #google #willow #drugdiscovery #materialsscience #AI #deeptech #innovation

The new paradigm (#Quantum) is one step closer! 6 Years Later: From Quantum #Supremacy to Real-World Quantum #Advantage 23 October 2019 — Google Quantum AI announced quantum supremacy with the #Sycamore processor, proving that a quantum computer could outperform the fastest classical systems in a controlled experiment. 23 October 2025 — six years later, the team demonstrates Quantum #Echoes on the new #Willow chip: the first algorithm with verifiable quantum advantage on hardware, solving a #commercially #relevant problem 13,000× faster than one of the world’s leading supercomputers. This marks a profound #shift: from experimental proof ➜ to practical impact. Why it matters: This is not just faster computation — it’s verified performance on a real-world #challenge. It signals that quantum computing is crossing into the era of applicability, where algorithms deliver measurable value in #optimization, #logistics, #materials, and beyond. Quantum Echoes bridges physics and enterprise — the moment quantum computing starts solving the kind of problems that truly matter. #QuantumComputing #GoogleAI #QuantumAdvantage #Innovation #Technology #Optimization #QuantumEra Congrats Google #googleQuantumAi https://lnkd.in/egQEbD9Q

🚀 Breaking Quantum News: Google’s “Quantum Echoes” Just Unlocked Verifiable Quantum Advantage! Excited to dive into this game-changer from Google Quantum AI. Their new algorithm, Quantum Echoes, ran on the Willow chip and crushed classical supercomputers—13,000 times faster at computing out-of-time-order correlators (OTOCs). What does that mean? It’s the first verifiable quantum advantage: repeatable experiments that confirm quantum computers can tackle problems no classical machine can touch. At its core, Quantum Echoes works like a quantum detective: Send a signal through qubits, nudge one to create chaos, then reverse the evolution to amplify an “echo.” This interference pattern reveals hidden dynamics in complex systems—like molecular structures or magnetic behaviors—that are key to breakthroughs in drug discovery and materials science. This isn’t just lab magic; it’s a massive step toward real-world quantum apps. Imagine accelerating new medicines or designing unbreakable materials in ways we couldn’t before. Google predicts practical uses within five years—quantum computing is accelerating faster than ever! As someone passionate about the intersection of AI and quantum, I’m bullish on how this will amplify our tools for discovery. What’s your take—will quantum echo into everyday tech sooner than we think? #QuantumComputing #GoogleQuantumAI #Innovation #TechFuture #AIandQuantum

🚀 Google Quantum AI Just Hit a New Milestone — “Quantum Echoes” Google has officially announced the first verifiable demonstration of quantum advantage — a breakthrough called Quantum Echoes powered by their Willow quantum processor. The experiment achieved something extraordinary — running an algorithm 13,000× faster than the best classical supercomputer while staying verifiable through nature itself. The “Quantum Echoes” algorithm works like echolocation for quantum systems, revealing how particles interact — from molecules and magnets to even black holes. Beyond the science, this isn’t just a lab feat anymore. Google’s collaboration with UC Berkeley verified the results using NMR spectroscopy, bridging quantum predictions with real-world molecular data — a game-changer for drug discovery and materials science. This marks a pivotal shift: quantum computing is no longer a theory — it’s stepping into practical reality. 🧠 The next five years could bring unique, real-world quantum solutions that redefine innovation itself. #GoogleAI #QuantumComputing #Innovation #DeepTech #QuantumAdvantage #Research #AI #FutureTech

⚛️ @GoogleQuantumAI just redefined the future of computing. Google’s Quantum AI team has achieved the world’s first verifiable quantum advantage — with their breakthrough Quantum Echoes algorithm, powered by the Willow quantum chip. 🚀 Runs 13,000× faster than a classical supercomputer. 🔬 Helps scientists map molecular structures — unlocking new frontiers in drug discovery and materials science. 🧠 Verified by quantum systems — and nature itself. This isn’t just theory — it’s the first real-world step toward useful quantum computing. 🎥 Watch the official video featuring VadimSmelyanskiy , Yu Chen, and Nicholas Rubin from GoogleQuantumAI, as they explain how this milestone brings us closer to solving problems once thought impossible. #GoogleAI #QuantumComputing #QuantumAdvantage #QuantumEchoes #WillowChip #AI #Research #Innovation #DeepTech #DrugDiscovery #MolecularScience #FutureOfAI #TechNews #ArtificialIntelligence

Google Unveils Quantum Echoes Algorithm, Achieving 13,000x Speedup Over Supercomputers🚀 Google announced a key advancement in quantum computing with the "Quantum Echoes" algorithm, published in Nature Portfolio, demonstrating verifiable #quantum advantage on its 105-qubit Willow chip. - The #algorithm completed calculations in hours that would take the Frontier #supercomputer about 3.2 years. - It uses the out-of-order time correlator (OTOC) to measure quantum system interactions, outperforming classical methods by 13,000 times. - In a separate experiment with UC Berkeley, it analyzed molecular structures, aligning with traditional #NMR methods for potential use in #drugdiscovery and #materialsscience. - The results can be independently verified on other quantum systems, marking the first such milestone. Source:- https://lnkd.in/dGz-Y2qu #GoogleQuantumAI #QuantumComputing #WillowChip #Science #Innovation #TechNews #AI

Everyone’s talking about quantum computing again — stock surges, billion-dollar bets, and “quantum AI” headlines that sound like science fiction. But here’s the truth 👉 Quantum computing won’t change your 2025 roadmap. It will change how you plan for the next decade. In this week’s edition of The Artificially Intelligent Enterprise, we unpack: ⚙️ Why tech giants will spend $400B on AI infrastructure next year — and what that means for your business 🧠 How to separate quantum hype from reality 🪙 The early signs of a quantum market shift (HSBC, Vanguard, Rigetti) 🔐 The only quantum threat that matters right now: encryption 🎯 How to position your org for the 3 phases of quantum adoption — without wasting capital If you’re building or leading in AI, this one’s essential reading. The winners of the next decade aren’t the first to buy quantum hardware — they’re the first to understand where it matters. Read the full deep dive and get smarter before the hype cycle peaks: https://cstu.io/83460c

I just read the quantum computing news from Google: they've achieved what they're calling the "first-ever verifiable quantum advantage". Their Willow quantum chip ran a new algorithm, "Quantum Echoes," 13,000 times faster than the best supercomputer could on the same task. The speed is cool, but it's way cooler that the result is verifiable. We can actually check that the quantum computer got the right answer, which has been a major challenge in the field. This specific algorithm can help explain how atoms interact in molecules. Such a cool breakthrough in drug discovery and new materials. It moves quantum research from theoretical benchmarks toward real-world applications. It's a step change for the whole data and science community. Quantum is getting practical. #QuantumComputing #DataScience #AI #Innovation