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# Complex behavior generated by simple computation

Stephen Wolfram gave a fascinating talk at TED about his work with Mathematica and Wolfram Alpha. Amongst other things, he pointed out how very simple computations can yield extremely complex behaviors. (He goes on to discuss his ambition for computing the entire physical universe. Say what you will, you gotta give the guy some credit for his wild ideas...)

As an example he showed several cellular automata.

What other examples of simple computations do you know of that yield fascinating results?

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This should be a community wiki, I think. – Alexey Romanov May 4 '10 at 7:55
Meant to do that. Wikified! – Yuval Adam May 4 '10 at 7:56

Well, the obvious answer is fractals, starting with Mandelbrot Set.

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The Hénon Map:

• Repeat the assignment (x, y) := (y + 1 - ax², bx), for some constants a and b.

Often, a = 1.4 and b = 0.3 are used. For these values, the behaviour is chaotic, and all points appear to eventually converge to the following shape, called the Hénon Attractor:

This shape appears to have fractal properties.

I say "appear" twice, because neither of these observations have been mathematically proven.

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The original one was Conway's game of life.

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