Faster Approximate Fixed Points of ∞-Contractions

Abstract

We present a new algorithm for finding an ε-approximate fixed point of an ∞-contracting function f : [0, 1]d → [0, 1]d. Our algorithm is based on the query-efficient algorithm by Chen, Li, and Yannakakis (STOC 2024), but comes with an improved upper bound of ( 1ε)O(d d) on the overall runtime (while still being query-efficient). By combining this with a recent decomposition theorem for ∞-contracting functions, we then describe a second algorithm that finds an ε-approximate fixed point in ( 1ε)O(d d) queries and time. The key observation here is that decomposition theorems such as the one for ∞-contracting maps often allow a trade-off: If an algorithm's runtime is worse than its query complexity in terms of the dependency on the dimension d, then we can improve the runtime at the expense of weakening the query upper bound. By well-known reductions, our results imply a faster algorithm for ε-approximately solving Shapley stochastic games.