Łojasiewicz inequality


In real algebraic geometry, the Łojasiewicz inequality, named after Stanisław Łojasiewicz, gives an upper bound for the distance of a point to the nearest zero of a given real analytic function. Specifically, let ƒ : UR be a real analytic function on an open set U in Rn, and let Z be the zero locus of ƒ. Assume that Z is not empty. Then for any compact set K in U, there exist positive constants α and C such that, for all x in K
Here α can be large.
The following form of this inequality is often seen in more analytic contexts: with the same assumptions on ƒ, for every pU there is a possibly smaller open neighborhood W of p and constants θ ∈ and c > 0 such that
A special case of the Łojasiewicz inequality, due to, is commonly used to proof linear convergence of gradient descent algorithms.