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Computing the Newton-step faster than Hessian accumulation

Published 2 Aug 2021 in math.OC, cs.LG, cs.SC, cs.SY, and eess.SY | (2108.01219v1)

Abstract: Computing the Newton-step of a generic function with $N$ decision variables takes $O(N3)$ flops. In this paper, we show that given the computational graph of the function, this bound can be reduced to $O(m\tau3)$, where $\tau, m$ are the width and size of a tree-decomposition of the graph. The proposed algorithm generalizes nonlinear optimal-control methods based on LQR to general optimization problems and provides non-trivial gains in iteration-complexity even in cases where the Hessian is dense.

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