Dual-wavelength incoherent multiplexing enables native signed optical multiplication with constant overhead on lithium niobate, validated by 40 GHz bandwidth, 1.27% error, and neural network accuracies of 95.1% on Moons and 91.63% on MNIST.
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Quantum compressed sensing reformulates image classification as a single-photon projective measurement, achieving 69% accuracy with one detection event and 95% with four.
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Scalable native signed optical computing enabled by dual-wavelength incoherent multiplexing
Dual-wavelength incoherent multiplexing enables native signed optical multiplication with constant overhead on lithium niobate, validated by 40 GHz bandwidth, 1.27% error, and neural network accuracies of 95.1% on Moons and 91.63% on MNIST.
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Quantum Compressed Sensing Enables Image Classification with a Single Photon
Quantum compressed sensing reformulates image classification as a single-photon projective measurement, achieving 69% accuracy with one detection event and 95% with four.