The paper introduces a phase framework for data distributions connected by local denoisers and demonstrates that reverse diffusion consists of trivial and data phases separated by a transition where local score functions must fail, tied to spatial Markovianity.
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2 Pith papers cite this work. Polarity classification is still indexing.
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Causally agnostic interferometric measurements operationally define multipartite quantum states over spacetime regions, merging density operators, QSOT, and process matrices while revealing indistinguishable dynamics and new spatiotemporal correlations.
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Local Diffusion Models and Phases of Data Distributions
The paper introduces a phase framework for data distributions connected by local denoisers and demonstrates that reverse diffusion consists of trivial and data phases separated by a transition where local score functions must fail, tied to spatial Markovianity.
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Probing Quantum States Over Spacetime Through Interferometry
Causally agnostic interferometric measurements operationally define multipartite quantum states over spacetime regions, merging density operators, QSOT, and process matrices while revealing indistinguishable dynamics and new spatiotemporal correlations.