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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.

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

Google announced a major step toward practical quantum computing with its Quantum Echoes algorithm, which demonstrates the first verifiable quantum advantage using the Willow chip. The algorithm runs 13,000 times faster than leading classical methods and enables highly sensitive measurements of quantum interactions, paving the way for applications in fields like molecular modeling, drug discovery, and advanced materials. This breakthrough suggests that real-world quantum computing use cases may be closer than previously thought. #Google #TechGiants #QuantumComputing #GoogleAI #Innovation #TechBreakthrough #QuantumAdvantage #FutureTech #DrugDiscovery #AdvancedMaterials #WillowChip #DeepTech #Innovation #Technology #TechnologyNews https://lnkd.in/datWTSia

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's breakthrough 'Quantum Echoes' algorithm pushes us closer to useful #QuantumComputing — running 13,000 times faster than on a supercomputer The new quantum computing algorithm, called "Quantum Echoes," is the first that can be independently verified by running it on another quantum computer. https://buff.ly/Ddm5CpJ #Tech #Inmovation

Google has just announced its newest quantum computing breakthrough: achieving the first ever verifiable quantum advantage!! This means their Willow quantum chip successfully ran a new algorithm, called Quantum Echoes, 13,000 times faster than the world's most powerful supercomputers. The key difference from past records is that this result is verifiable, meaning scientists can confirm the answer is correct and reliable. This landmark development moves quantum computing out of the theoretical stage and onto a path for practical applications, especially in drug discovery and materials science, where simulating complex molecules is currently too hard for regular computers. Looks like Quantum Computing is becoming reality!! #Quantum #Google

Google just showed the first real-world use of quantum computing. Their new Quantum Echo algorithm, running on a 105-qubit Willow chip, solved a physics problem 13,000× faster than a supercomputer. It simulated how atomic spins behave , a task we can actually verify , marking a big step from quantum “experiments” to real applications. Still early, but this feels like the start of practical quantum computing. #QuantumComputing #GoogleAI #TechInnovation #FutureOfTech

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

🚀 Google Announces New Achievement in Quantum Computing The Google Quantum AI team presented the Quantum Echoes algorithm, running on the 105-qubit Willow processor. The result demonstrated a proven quantum advantage—calculations that are impossible to reproduce on a classical supercomputer in a reasonable time. According to the researchers, the quantum chip outperformed classical methods by approximately 13,000 times. The algorithm models how a disturbance in a quantum system is reflected and returned as an "echo." The experiment confirms the feasibility of verifying quantum results across different devices—a key step toward practical verification of quantum computing. For more information, visit Google's blog: 🔗 https://lnkd.in/ghwk6PAV