Quantum computing: Google's breakthrough and the future of tech

University research and private-sector breakthroughs have shown that quantum computing is real. But it’s only been proven on a small scale. https://lnkd.in/gjuwxAYd

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

Google has demonstrated the world’s first practical application of quantum computing using its Quantum Echo algorithm on the 105-qubit Willow chip. The algorithm ran 13,000 times faster than a leading supercomputer, enabling precise modeling of quantum interactions and paving the way for breakthroughs in fields like drug discovery, material science, and advanced chemistry. This milestone signals that real-world quantum computing is moving closer to commercial viability. #Google #TechGiants #QuantumComputing #GoogleAI #TechBreakthrough #WillowChip #Innovation #FutureTech #DrugDiscovery #AdvancedMaterials #QuantumScience #HighPerformanceComputing #Innovation #Technology #TechnologyNews https://lnkd.in/df6Gu6-Z

In a major leap for quantum computing, Google has achieved the first verifiable quantum advantage, demonstrating an #algorithm that runs 13,000 times faster than the world’s most powerful supercomputers. The breakthrough was achieved using the company’s 105-qubit Willow chip, marking what Google described as “the first instance of a repeatable and verifiable #quantumcomputation that surpasses classical performance.” The result brings quantum computing a step closer to solving practical, real-world problems that were previously out of reach for classical systems. At the heart of this milestone lies Quantum Echoes, an algorithm developed by Google in collaboration with the University of California, Berkeley. The algorithm is designed to model how disturbances, or “echoes,” spread across qubits — the quantum equivalents of classical bits — enabling researchers to better understand quantum behavior and verify computational outcomes. https://lnkd.in/g4K78nt8

The new Cátedra iDanae quarterly publication is now available: Quantum Computing — Strategic Insights for Decision-Makers. It examines how quantum computing is moving from theory into real applications in finance, energy, and healthcare, and what leaders can do today to prepare for tomorrow. The focus is on clarity, foresight, and collaboration rather than prediction. An interesting read for anyone interested in how scientific progress becomes strategic advantage. https://lnkd.in/eMHuXMNQ

A once-in-a-century revolution: The quantum era is closer than you think... Israel’s scientists, investors, and entrepreneurs are united in their belief that the inflection point in quantum computing is drawing near, with the country’s deep-tech ecosystem poised to play a pivotal role in this new age of computing. Quantum Art, a spinoff company of Yeda, recently unveiled plans for a pilot to optimize traffic in Israel using quantum algorithms for the real-time management of traffic lights. The initiative is the first of its kind in Israel and among the first globally to apply quantum computing to urban planning. Elik Chapnik https://lnkd.in/ddrPzvU5

Is quantum computing coming 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/g6eewuUv

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 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.

Quantum Computing (QC) Is Entering Its Breakout Moment …and it’s about to make even the last 3 years of AI disruption look modest. For anyone watching closely, QC is no longer a fringe research topic. Global attention is skyrocketing. Investments are accelerating. Countries and companies are quietly preparing for a technological leap that will reshape everything from drug discovery to materials science to cybersecurity. My own QC journey began in 2017 — long before it became fashionable. I enrolled in MIT xPro’s Quantum Computing Fundamentals & Advanced Programs, not because I’m a physicist (sigh!), but because I wanted to truly understand this field without drowning in the mathematics (double sigh!). And here’s what I realised: - You don’t need a PhD or advanced math to understand the fundamentals. - You do need plain-English explanations that simplify the science without diluting the essence. - You will be living in a world shaped by quantum breakthroughs sooner than you think. That’s why I started writing a beginner-friendly article series — and invited guest authors — all hosted on QCGUY.com, my platform dedicated to demystifying QC for everyone. If you’re just getting started and want to understand the basics minus the heavy equations, begin here: 🔗 Quantum Mechanics: The Basis of Quantum Computing https://lnkd.in/eWQd7K97 Whether you're a tech leader, student, founder, policymaker, or simply curious — this series will give you a clear, grounded foundation for what’s coming next. ✨ The quantum revolution is at the doorstep. Now’s the time to understand it. Stuart Dee Quantum Computing