Google's Quantum Computer Breakthrough: 13,000 Times Faster Than Classical

🚀 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

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.

🚀 New Milestone in Quantum Computing: Google Achieves Verifiable Advantage Over Supercomputers Hello LinkedIn community! In the world of technology, quantum advances are redefining the boundaries of computing. Google has announced an impressive breakthrough: the first quantum algorithm that demonstrates a clear and verifiable advantage over traditional supercomputers. This isn't just theory; it's a concrete step toward a practical quantum era. 🔬 What Does This Verifiable Advantage Mean? This achievement solves a key challenge in quantum computing: proving that a quantum processor outperforms classical systems indisputably, without doubts about errors or noise. Google's team used their Willow processor, with 105 qubits, to execute the algorithm in just five minutes—a task that would take the world's most powerful supercomputer, Frontier, about 10 septillion years. Imagine that! 💡 Key Points from the Announcement: - The algorithm is based on a complex random sampling task, designed to be intractable on classical hardware but efficient on quantum. - It includes independent verifications, such as statistical tests, to confirm superiority without requiring blind faith in the results. - This milestone surpasses the 2019 one (quantum supremacy), as it is now "verifiable" by external experts, paving the way for real applications in cryptography, optimization, and molecular simulation. 🌟 Implications for the Future: This advance could accelerate the development of commercial quantum computers, impacting industries like pharmaceuticals (drug design) and logistics (route optimization). However, Google emphasizes that there are still challenges, such as scalability and error correction, but the progress is undeniable. For more information, visit: https://enigmasecurity.cl What do you think of this quantum leap? Do you believe we're close to seeing quantum computers in everyday life? Share your thoughts in the comments. 👇 #QuantumComputing #GoogleQuantum #AdvancedTechnology #TechnologicalInnovation #AIandQuantum Connect with me on LinkedIn for more insights on cybersecurity and technology: https://lnkd.in/eKynt-sy 📅 Wed, 22 Oct 2025 17:00:01 +0200 🔗Subscribe to the Membership: https://lnkd.in/eh_rNRyt

Alphabet’s Google has made a significant breakthrough in quantum computing with its “Willow” chip, which ran the “Quantum Echoes” algorithm 13,000 times faster than the world’s best supercomputers. This algorithm is verifiable and repeatable on other quantum computing platforms, marking an important step toward practical quantum applications within the next five years. The quantum computing advance opens the door for potential uses in medicine and materials science. The algorithm can examine molecular structures by computing atomic distances, a function applicable to drug discovery and battery design, although this would require quantum computers about 10,000 times larger than current ones. Despite this progress, experts note challenges remain, including moving toward commercially useful applications and achieving scalable fault-tolerance, which was not part of the current demonstration. The Google team, including 2025 Nobel Prize winner Michel H. Devoret, plans to continue scaling and refining their quantum systems to reach broader real-world deployment. #Semiconductors #India https://lnkd.in/gqGV8reR

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

🔬 Everyone's talking about classical computing, but quantum computing just hit a milestone that's impossible to ignore Google's new "Quantum Echoes" algorithm just crushed traditional supercomputers. Here's what you need to know: → Processing Speed: 13,000x faster than top supercomputers → Error Correction: Self-correcting quantum states → Real-world Applications: Already working for chemistry simulations Comparing top quantum computing approaches: 1. Google Quantum Echoes ▸ Fastest quantum algorithm to date ▸ Built for near-term quantum hardware ▸ Access: Limited to Google research 2. IBM Quantum ▸ 127-qubit processor ▸ Cloud-accessible ▸ Free tier: Yes (limited) 3. Microsoft Azure Quantum ▸ Hybrid classical-quantum approach ▸ Full developer toolkit ▸ Free tier: Yes (preview) The quantum computing race is heating up, and Google just took a massive lead. 🚀 💡 Pro tip: Start learning quantum basics now. This tech will reshape computing within 5 years. Save this post - you'll want to reference it later 📌... Which quantum platform interests you most? Drop a "🔬" if you're fascinated by quantum computing! 📖 Read full article: https://lnkd.in/gbZPaYDF #QuantumComputing #Google #TechInnovation #FutureOfTech #Computing #Innovation #ArtificialIntelligence #Engineering

"11 Companies Move to Second Stage of DARPA’s Quantum Benchmarking Initiative" The Defense Advanced Research Projects Agency has selected multiple quantum computing companies to advance to the second stage of its Quantum Benchmarking Initiative to further verify the efficacy of these companies' quantum technologies as per Alexandra Kelly at Nextgov.com Stage A of the program — which required participants to describe a quantum computer concept with “a plausible path to realization in the near term,” per the DARPA website — included 15 companies. Stage B of the program — where government teams “will determine if their utility-scale quantum computer concept can be constructed as designed and operated as intended” — will feature 11 companies: Atom Computing; Diraq; IBM; IonQ; Nord Quantique; Photonic Inc.; Quantinuum; Quantum Motion; QuEra Computing; Silicon Quantum Computing; and Xanadu. DARPA confirmed the list of second stage firms on Thursday. Nextgov/FCW Atom ComputingDiraq IBM IonQ Nord Quantique Photonic Inc. Quantinuum Quantum Motion QuEra Computing Inc.Silicon Quantum Computing Xanadu Alan Meckler John Meckler Robert Sutor Brian Siegelwax Sandra Kay Helsel, Ph.D. Marilyn Reed Amy Lewin Jeff Hazen Kelley Defense Advanced Research Projects Agency (DARPA) Cade Metz Isabelle Bousquette Stephanie Hughes Steven La Barbera Sheila Tabar Andrew Dzurak https://lnkd.in/gkGeZEXx

#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

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

IBM has unveiled two quantum systems that push the limits of error correction, a critical step toward reliable quantum computing. These machines introduce advanced techniques to stabilise qubits and reduce noise, making complex algorithms more practical. Why it matters: - Error correction is the key to scaling quantum systems beyond experimental use. - Improved stability means faster progress toward solving real-world problems in chemistry, finance, and AI. Quantum computing is moving from theory to application, and error correction is the foundation. Exciting times ahead for tech innovation! https://lnkd.in/eNzViFsK #QuantumComputing #IBM #ErrorCorrection #FutureTech