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This breathtaking imagery is neither generative AI nor computer graphics—but rather real physical liquids under a microscope, exhibiting "reaction-diffusion" behavior. These clips were created and filmed by artist Kamil Czapiga: (ig: cosmodernism)

111,876 görüntüleme • 2 yıl önce •via X (Twitter)

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However, there is an AI connection: These so-called "Turing patterns" were first studied by Alan Turing, who in addition to being a pioneer of Computer Science & Artificial Intelligence, developed a mathematical description of how animals get their spots:

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The principle is surprisingly simple: Two chemicals spread out across a surface ("diffusion"), and the relative concentration at each point determines how they interact ("reaction"). (In ML terms, one might say the former is a linear equation; the latter is a "nonlinearity.")

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These equations have been numerically simulated many times, to great effect—for instance in Greg Turk's 1991 SIGGRAPH paper "Generating Textures on Arbitrary Surfaces Using Reaction-Diffusion":

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You can find numerous versions on Shadertoy, like these beautiful multiscale patterns: (I would say "seems ripe for a neural renaissance," but I'm sure several papers have appeared on arXiv in the time it took me to write these posts!) Enjoy. [n/n]

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I strongly suspect most of the pattern formation seen here is /not/ reaction diffusion... and that these are not Turing patterns, ferrofluids have a different phase space.

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It’s an interesting question. Many systems with very different dynamical origins exhibit the same limiting behavior. E.g., Allen-Cahn (reaction diffusion) agrees with mean curvature flow (MCF) in the limit. Here also you have surface tension (MCF) and nonlocal forces (repulsion).

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This is why the special effects of the nebula/star in The Fountain (2006) are so timeless:

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Wonderful film.

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Oddly similar to ocular dominance columns? 🤔

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Not odd at all—reaction-diffusion is a basic mechanism determining cell differentiation/pattern formation in chemistry and biology.

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