Demonstration of a 100-mode programmable Gaussian optical quantum computing platform with 100 MHz operation, teleportation experiments, and open cloud interface.
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Ultracold-atom processor samples driven thermalized Bose-Hubbard states up to 64 sites (Hilbert space 10^19), achieving sampling rates three orders of magnitude above supercomputers and extracting up to 14th-order correlations to distinguish thermalized from localized phases.
A review describing the Decoded Quantum Interferometry algorithm for quantum speedups in max-LINSAT optimization, with claimed superpolynomial advantage in the OPI problem.
citing papers explorer
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A full-stack analog optical quantum computing platform with one hundred inputs
Demonstration of a 100-mode programmable Gaussian optical quantum computing platform with 100 MHz operation, teleportation experiments, and open cloud interface.
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Quantifying Quantum Computational Advantage on a Processor of Ultracold Atoms
Ultracold-atom processor samples driven thermalized Bose-Hubbard states up to 64 sites (Hilbert space 10^19), achieving sampling rates three orders of magnitude above supercomputers and extracting up to 14th-order correlations to distinguish thermalized from localized phases.
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Quantum Decoding Algorithms: Quantum Speedups in Optimization
A review describing the Decoded Quantum Interferometry algorithm for quantum speedups in max-LINSAT optimization, with claimed superpolynomial advantage in the OPI problem.