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Algebraic characterization of equivalence between optimization algorithms

Published 9 Jan 2025 in math.OC | (2501.04972v1)

Abstract: When are two algorithms the same? How can we be sure a recently proposed algorithm is novel, and not a minor twist on an existing method? In this paper, we present a framework for reasoning about equivalence between a broad class of iterative algorithms, with a focus on algorithms designed for convex optimization. We propose several notions of what it means for two algorithms to be equivalent, and provide computationally tractable means to detect equivalence. Our main definition, oracle equivalence, states that two algorithms are equivalent if they result in the same sequence of calls to the function oracles (for suitable initialization). Borrowing from control theory, we use state-space realizations to represent algorithms and characterize algorithm equivalence via transfer functions. Our framework can also identify and characterize equivalence between algorithms that use different oracles that are related via a linear fractional transformation. Prominent examples include linear transformations and function conjugation.

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