UPDATE – D-Wave Demonstrates Performance Advantage in Quantum Simulation of Exotic Magnetism Fully-programmable annealing quantum computer demonstrates 3 million times speed-up over classical CPU in a practical application – Financial Post
BURNABY, British Columbia, Feb. 18, 2021 (GLOBE NEWSWIRE) — D-Wave Methods Inc., the chief in quantum computing systems, Computer software, and providers, right now revealed a milestone research in collaboration with scientists at Google, demonstrating a computational efficiency benefit, growing with each simulation measurement and disbenefit hardness, to over 3 million events that of corresponding classical strategies. Notably, this work was achieved on a sensible software with exact-world implications, simulating the topological phenomena behind the 2016 Nobel Prize in Physics. This efficiency benefit, exhibited in A posh quantum simulation of suppliess, is a significant step Inside the journey in the direction of softwares benefit in quantum computing.
The work by scientists at D-Wave and Google furtherly demonstrates that quantum end outcomes Might be harnessed To current a computational benefit in D-Wave processors, at disbenefit scale that requires hundreds of qubits. Current experiments carried out on a quantity of D-Wave processors recurrent by far The Most very important quantum simulations carried out by current quantum pcs So far.
The paper, entitled “Scaling benefit over path-integral Monte Carlo in quantum simulation of geometrically irritated magnets,” was revealed Inside the journal Nature Communications (DOI 10.1038/s41467-021-20901-5, February 18, 2021). D-Wave evaluationers programmed the D-Wave 2000Q™ system to mannequin a two-dimensional irritated quantum magnet using synthetic spins. The conduct of the magnet was described by the Nobel-prize revenueable work of theoretical physicists Vadim Berezinskii, J. Michael Kosterlitz and David Thouless. They predicted A mannequin new state of matter Inside the Nineteen Seventies characterised by nontriby way ofl topological properties. This new evaluation is a continuation of earlier breakthrough work revealed by D-Wave’s group in a 2018 Nature paper entitled “Remark of topological phenomena in a programmable lattice of 1,800 qubits” (Vol. 560, Problem 7719, August 22, 2018). On this latest paper, evaluationers from D-Wave, alongside contrihoweverors from …….