QKAN is a quantum algorithmic framework using block-encodings and QSVT to implement wide-and-shallow networks for quantum learning and compositional state preparation.
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A homodyne photonic tensor processor using TFLN transmitters and Si/SiN circuits demonstrates 1,000-6,000 TOPS throughput with 6-7 bit accuracy at up to 120 Gbaud/s clock rates.
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QKAN: quantum Kolmogorov-Arnold networks with applications in machine learning and multivariate state preparation
QKAN is a quantum algorithmic framework using block-encodings and QSVT to implement wide-and-shallow networks for quantum learning and compositional state preparation.
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Homodyne Photonic Tensor Processor exceeds 1,000-TOPS
A homodyne photonic tensor processor using TFLN transmitters and Si/SiN circuits demonstrates 1,000-6,000 TOPS throughput with 6-7 bit accuracy at up to 120 Gbaud/s clock rates.