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Computational Complexity of Smooth Differential Equations

Published 21 Nov 2013 in cs.CC, cs.NA, and math.NA | (1311.5414v2)

Abstract: The computational complexity of the solutions $h$ to the ordinary differential equation $h(0)=0$, $h'(t) = g(t, h(t))$ under various assumptions on the function $g$ has been investigated. Kawamura showed in 2010 that the solution $h$ can be PSPACE-hard even if $g$ is assumed to be Lipschitz continuous and polynomial-time computable. We place further requirements on the smoothness of $g$ and obtain the following results: the solution $h$ can still be PSPACE-hard if $g$ is assumed to be of class $C1$; for each $k\ge2$, the solution $h$ can be hard for the counting hierarchy even if $g$ is of class $Ck$.

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