Google Achieves Verifiable Quantum Advantage Over Supercomputers

#QuantumComputing is transitioning from theoretical research to a transformative force for industries worldwide. It is helpful to view quantum computing through a generational lens and begin preparing now. https://smpl.is/adctk

🚀 Google's Quantum Leap: A Game-Changer in Computing Google has achieved a major breakthrough in quantum computing. Their new algorithm, Quantum Echoes, performed a task 13,000 times faster than the world's fastest supercomputer. This marks the first time a quantum computer has completed a task that classical computers cannot replicate in a reasonable time. 🔍 What Does This Mean? Faster Problem Solving: Quantum computers can solve complex problems much quicker than traditional computers. New Possibilities: This could lead to advancements in medicine, materials science, and artificial intelligence. Closer to Real-World Use: While still in development, practical applications of quantum computing may be just a few years away. For a deeper dive into this groundbreaking achievement, read the full article here: 👉 https://lnkd.in/e_9-U7Ab #QuantumComputing #Innovation #Technology #Google #FutureOfTech #ArtificialIntelligence

13,000 times faster sounds impressive to me. Really curious to see when quantum computing becomes available to the market. An excerpt from the article is below: "Google this week touted research demonstrating that a quantum computer could run a verifiable algorithm on hardware – a breakthrough that signals practical quantum computing could arrive in data centers faster than previously anticipated.The company published research in Nature demonstrating the first verifiable quantum advantage while running its out-of-order time correlator algorithm, called Quantum Echoes. Google says the algorithm can be used for large-scale computing problems, like learning the structure of molecules, magnets, and even black holes. Google says the algorithm can run 13,000 times faster on its Willow chip than the fastest classical computers." #quantumcomputing

Google has announced a major scientific milestone, claiming to have achieved a new level of “quantum advantage” — a point where quantum computers outperform the most powerful classical supercomputers in specific computational tasks. This marks Google’s second major breakthrough in the field since its first announcement in 2019, signaling rapid progress in quantum hardware and algorithm design. #Google #QuantumComputing #QuantumAdvantage #TechInnovation #NextGenTechnology #Supercomputing #AIandQuantum #DigitalTransformation #FutureOfTechnology #ComputingPower #InnovationInTech #ResearchAndDevelopment #EmergingTechnologies #TechTrends #ScientificInnovation #QuantumResearch #HighPerformanceComputing #DigitalInnovation #TechEcosystem #TechnologyUpdates https://lnkd.in/eUxu3r9m

Google has announced a significant breakthrough in quantum computing with the development of an algorithm that has achieved a task beyond the reach of conventional computers. This algorithm, which serves as a set of instructions for operating a quantum computer, successfully computed the structure of a molecule. This advancement opens the door to major discoveries in fields such as medicine and materials science. For more details, you can read the full article here: Google hails breakthrough as quantum computer surpasses ability of supercomputers | Computing | The Guardian.

Quantum computing milestone, Earlier this week, Google hit a significant quantum computing milestone, using its Willow chip to make calculations an estimated 13,000 times faster than a conventional computer chip. The tech giant published its findings in Nature. This isn’t the first time Google—or other quantum computing companies—have claimed this type of “quantum supremacy,” but two things stand out about these results. First, these calculations are directly applicable to practical problems; the company is already applying them to predicting chemical structures, which is useful for drug discovery or materials science https://lnkd.in/eqC-ADn3

Google's Willow quantum chip ran an algorithm 13,000 times faster than supercomputers. The demonstration marks quantum transitioning from research to operational capability for specific problem types. Quantum provides exponential performance improvement only in narrow computational domains. Most applications remain better suited to classical infrastructure. Organizations with quantum access gain insurmountable advantages in specific problem classes while competitors remain constrained by classical computing limits. Your infrastructure roadmap likely assumes incremental classical performance improvements. Quantum introduces step-function capabilities in categories like optimization and simulation that change competitive dynamics. The governance question is whether your planning identifies which business problems fall into quantum-advantaged categories and whether competitors are positioning to exploit that capability gap. #TechnologyStrategy #CompetitivePositioning #StrategicPlanning https://lnkd.in/gbcmf6xS

While we're all planning for incremental performance gains, quantum is creating step-function advantages in specific problem domains that could make classical computing strategies obsolete overnight.

🚀 Revolutionary Advance in Quantum Computing: Google Achieves 13000x Advantage over Supercomputers Google has taken a giant step in the quantum era with its new Willow chip, which demonstrates impressive speed in solving complex problems exponentially faster than classical supercomputers. This achievement marks a key milestone toward practical and scalable quantum computing. 🔬 The Core of the Discovery The Willow chip, with 105 qubits, solved a random calculation in just 5 minutes, a task that would take the Frontier supercomputer approximately 10 septillion years. This represents a performance advantage of up to 13,000 times, highlighting the quantum potential to surpass classical limits. ⚡ Technical Implications - 🧠 Advanced Error Correction: Willow integrates quantum correction techniques that reduce logical errors, allowing more stable and precise operations in large systems. - 📈 Improved Scalability: Google emphasizes that this chip is a bridge to scalable logical qubits, essential for real applications in cryptography, molecular simulation, and optimization. - 🌐 Industry Impact: This advance accelerates competition with rivals like IBM and Rigetti, boosting investments in hybrid quantum hardware. This progress not only validates years of research in Google Quantum AI, but also opens doors to innovations in AI and materials science that were previously impossible. For more information visit: https://enigmasecurity.cl If you're passionate about emerging technology, consider donating to Enigma Security to keep bringing news like this: https://lnkd.in/er_qUAQh #QuantumComputing #GoogleAI #QuantumTechnology #Innovation #Computing Connect with me on LinkedIn to discuss more about these advances: https://lnkd.in/eKynt-sy 📅 Thu, 23 Oct 2025 12:55:06 +0000 🔗Subscribe to the Membership: https://lnkd.in/eh_rNRyt

#Google claims a #breakthrough in #quantumcomputing, developing an algorithm that performed a task beyond the capabilities of conventional computers. The algorithm, which computed the structure of a molecule, demonstrates “#quantumadvantage” but real-world applications are still years away. While impressive, the achievement focused on a narrow #scientificproblem and fully fault-tolerant quantum computers are still some way off. https://lnkd.in/enPJEhrX #tech #media #news