Push-Down Trees: Optimal Self-Adjusting Complete Trees

July 12, 2018 Β· Declared Dead Β· πŸ› IEEE/ACM Transactions on Networking

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Authors Chen Avin, Kaushik Mondal, Stefan Schmid arXiv ID 1807.04613 Category cs.DS: Data Structures & Algorithms Cross-listed cs.NI Citations 8 Venue IEEE/ACM Transactions on Networking Last Checked 4 months ago
Abstract
This paper studies a fundamental algorithmic problem related to the design of demand-aware networks: networks whose topologies adjust toward the traffic patterns they serve, in an online manner. The goal is to strike a tradeoff between the benefits of such adjustments (shorter routes) and their costs (reconfigurations). In particular, we consider the problem of designing a self-adjusting tree network which serves single-source, multi-destination communication. The problem has interesting connections to self-adjusting datastructures. We present two constant-competitive online algorithms for this problem, one randomized and one deterministic. Our approach is based on a natural notion of Most Recently Used (MRU) tree, maintaining a working set. We prove that the working set is a cost lower bound for any online algorithm, and then present a randomized algorithm RANDOM-PUSH which approximates such an MRU tree at low cost, by pushing less recently used communication partners down the tree, along a random walk. Our deterministic algorithm MOVE-HALF does not directly maintain an MRU tree, but its cost is still proportional to the cost of an MRU tree, and also matches the working set lower bound.
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