Google's Quantum Echo algorithm runs 13,000x faster on 105-qubit chip

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 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

Google has claimed a breakthrough in quantum computing after developing an algorithm that performed a task beyond the capabilities of conventional computers.

Quantum computing is often heralded as the future but this article reveals the limits we’re still facing. Some problems may remain unsolvable even for quantum machines, reminding us that the next tech leap comes with its own set of challenges. Insightful read for anyone watching the quantum race. #QuantumComputing #TechInnovation #FutureOfTech #QuantumLimits #EmergingTech https://bit.ly/3XiMqL2

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

Like all other existing quantum computers, Helios is not powerful enough to execute the industry’s dream money-making algorithms, such as those that would be useful for materials discovery or financial modeling. But Quantinuum’s machines, which use individual ions as qubits, could be easier to scale up than quantum computers that use superconducting circuits as qubits, such as Google’s and IBM’s. MIT Technology Review: https://lnkd.in/e9uarfaq

✨NEW✨ Quantum computing is an exciting new technology that’s changing the way we solve complex problems. 🚀 Unlike traditional computers that use bits (which are either 0 or 1), quantum computers use qubits. This is thanks to superposition, qubits can exist in many states at the same time, allowing quantum computers to process information much faster and tackle problems that would take traditional computers a really long time to solve 🧩 https://lnkd.in/gYzFfcBx

It's slowly happenings in Quantum Computing - errors correction is done, - stable algo proved - for simulation of NMR which provides additional information about toluene distance across the ring and DMBP angle , both might bring more accuracy - NOW SHRINK IT GOOGLE https://lnkd.in/dbYrJPwp https://lnkd.in/d2BRwSKB

IonQ Achieves 99.99% Two-Qubit Gate Fidelity, Advancing Toward Fault-Tolerant Quantum Computing IonQ has announced a groundbreaking achievement in quantum computing, reaching two-qubit gate fidelity exceeding 99.99% — a milestone commonly referred to as crossing the “four-nines” threshold. This breakthrough represents a crucial advance toward realizing error-corrected, large-scale quantum systems capable of tackling real-world computational challenges. Reducing Quantum Error Rates Quantum gate fidelity measures the precision with #IonQ #QuantumComputing