Fusible HSTs and the randomized k-server conjecture
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We show that a potential-based algorithm for the fractional k-server problem on hierarchically separated trees (HSTs) with competitive ratio f(k) can be used to obtain a randomized algorithm for any metric space with competitive ratio f(k)^2 O(( k)^2). Employing the O(( k)^2)-competitive algorithm for HSTs from our joint work with Bubeck, Cohen, Lee, and Mądry (2017), this yields an O(( k)^6)-competitive algorithm for the k-server problem on general metric spaces. The best previous result independent of the geometry of the underlying metric space is the 2k-1 competitive ratio established for the deterministic work function algorithm by Koutsoupias and Papadimitriou (1995). Even for the special case when the underlying metric space is the real line, the best known competitive ratio was k. Since deterministic algorithms can do no better than k on any metric space with at least k+1 points, this establishes that for every metric space on which the problem is non-trivial, randomized algorithms give an exponential improvement over deterministic algorithms.
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