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Google’s Sycamore 54-qubit quantum computer. Image by Rocco Ceselin via Google AI Blog Computer simulations in chemistry are a powerful way of understanding and optimizing chemical processes.
Google’s Sycamore computer has all of 53 qubits to its name, as does a new IBM computer, installed online at the company’s Quantum Computation Center in Poughkeepsie, N.Y. System One, IBM’s ...
What researchers would really like to do is use quantum computers to solve useful problems more effectively than possible with conventional computers: “Sycamore is extremely programmable and, in ...
Researchers have made good on their claim to quantum supremacy. Using 53 entangled quantum bits ('qubits'), their Sycamore computer has taken on -- and solved -- a problem considered intractable ...
That resulting distribution is very difficult to calculate via a classical computer. While it takes Sycamore 200 seconds to repeat the sampling process a million times, a state-of-the-art ...
Google’s computer, called Sycamore, has 54 entailed superconducting qubits, only 53 of which were reportedly working during the test. Still, it was able to achieve quantum supremacy.
A team of experts working on Google's Sycamore machine said their quantum system had executed a calculation in 200 seconds that would have taken a classic computer 10,000 years to complete.
The new AI-based decoder is a type of deep learning neural network. The researchers first trained it to recognize errors using their Sycamore computer, running with 49 qubits and a quantum simulator.
Researchers in UC Santa Barbara/Google scientist John Martinis’ group have made good on their claim to quantum supremacy.Using 53 entangled quantum bits (“qubits”), their Sycamore computer has taken ...