Google's Quantum Echo algorithm solves physics problem 13,000× faster than supercomputer

Google's Quantum Echo algorithm shows world's first practical application of Quantum Computing — Willow 105-qubit chip runs algorithm 13,000x faster than a supercomputer | Tom's Hardware https://lnkd.in/gcYTd-pH

Google's Quantum Echo algorithm shows world's first practical application of Quantum Computing — Willow 105-qubit chip runs algorithm 13,000x faster than a supercomputer | Tom's Hardware https://lnkd.in/gmgYTv9W

Google has achieved the first verifiable quantum advantage, running its Quantum Echoes algorithm 13,000 times faster than the world’s most powerful supercomputers. Executed on its 105-qubit Willow chip, the experiment marks what Google calls “the first instance of a repeatable and verifiable quantum computation that surpasses classical performance,” bringing quantum computing closer to real-world applications. Developed in collaboration with the University of California, Berkeley, the Quantum Echoes algorithm models how disturbances spread across qubits, offering a new way to verify quantum results. Ashok Ajoy, assistant professor at UC Berkeley, said, “Quantum computers can efficiently model and unravel the intricate interactions of spins, possibly even across long distances,” underscoring the potential for breakthroughs in molecular modelling and materials research. Google compared the achievement to the invention of the telescope and microscope, describing the algorithm as a “quantum-scope” for observing phenomena invisible to classical systems. The company said its next goal is creating a long-lived logical qubit, with many more “useful real-world applications” expected as quantum hardware continues to evolve.

Most people think of a computer bit as just a 0 or 1 — but in the world of quantum computing, it’s very different. Qubits unlock possibilities that classical bits can’t even approach, thanks to quantum superposition and entanglement. I just explored this fascinating topic in depth with 15 powerful insights into what qubits are, how they work, their challenges, and where they’re taking us in the future of computing. If you’re curious about the fundamental tech behind quantum computers and want a clear, accessible breakdown, this article is for you: 🔗 https://lnkd.in/dSqT6SnP What excites you most about the potential of qubits and quantum computing? Drop your thoughts or questions below—let’s get the conversation started! #QuantumComputing #Qubits #TechInnovation #FutureTech #QuantumScience

2025 is the year of quantum information science. This year’s noble prize for physics has been conferred on 3 physicists who demonstrated quantum tunneling in the macroscopic scale. This, along with the declaration of google’s willow chips success story, we now hear more about practical quantum computation that can deliver real results. But what is a quantum computer? It’s not just a box with “qubits” in it. It’s a system that has to meet five strict requirements to do any useful work. 1. Scalable and Well-Characterized Qubits 2. Initializing a qubit 3. Long Coherence Times (The Golden Rule) 4. A “Universal” Set of Quantum Gates 5. A Qubit-Specific Measurement

Google has announced a significant leap in quantum computing, moving the technology from a theoretical promise toward real-world applications. Using their novel algorithm, "Quantum Echoes," on the Willow quantum chip, they've achieved two critical firsts. The system solved a complex problem—calculating the structure of a molecule—13,000 times faster than the fastest classical supercomputer. #Google #QuantumComputer

Is quantum computing coming to us sooner rather than later? Google's breakthrough 'Quantum Echoes' algorithm pushes us closer to useful quantum computing — running 13,000 times faster than on a supercomputer https://lnkd.in/gBkHNg8j

Google has just announced a monumental breakthrough in quantum computing with their Willow chip and the new Quantum Echoes algorithm. This breakthrough demonstrates the first-ever verifiable quantum advantage, running 13,000 times faster than the world's top supercomputer on a complex physics simulation. What makes this milestone truly transformative is the verifiable nature of the results, meaning other quantum systems or physical experiments can replicate and confirm these findings. This marks a giant step closer to practical applications of quantum computing, from accelerating drug discovery and materials science to advancing molecular chemistry and quantum-enhanced sensing. As a tech entrepreneur deeply invested in quantum computing and emerging technologies, I find this progress exciting, it showcases how rapidly we are moving toward harnessing quantum computers for real-world impact within just a few years. https://lnkd.in/d2K4RPMD #QuantumComputing #GoogleWillow #QuantumAdvantage #TechInnovation #QuantumAI #FutureTech #DrugDiscovery #MaterialsScience

Google's Quantum AI team have announced a major leap that brings that future significantly closer to reality. They have demonstrated the first-ever algorithm to achieve verifiable quantum advantage on hardware, running calculations 13,000 times faster than one of the world’s fastest supercomputers; and it’s a critical step towards building quantum computers that can solve real-world problems. Our Quantum Echoes algorithm is a big step toward real-world applications for quantum computing

Neutral-Atom Quantum Computers Demonstrate Scalability for Solving MIS and QUBO Combinatorial Optimization Problems Neutral atom processors, leveraging the unique properties of Rydberg interactions, represent a promising computing architecture that demonstrates potential for solving complex optimisation and simulation problems across fields like machine learning and drug discovery. #quantum #quantumcomputing #technology https://lnkd.in/etBUZeQB