Jason Shedden’s Post

#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

The most common explanation for the efficiency of quantum computers is that they can perform computations in parallel. While this isn't entirely incorrect, the reality is far more complicated. Some time ago, I began a journey to uncover what truly makes quantum computers more efficient. Recently, I realized that it's more insightful to focus on the concept of nondeterminism in quantum computing rather than parallelization. In my third post about quantum computing, I explain what nondeterminism means and how it can make quantum computations more powerful. At a high level, it also addresses the question of what kinds of problems quantum computers can solve efficiently. https://lnkd.in/gbTHwh9T

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

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 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/gcYTd-pH

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

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 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

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