D. Jakovetić, Aleksandar Minja, D. Bajović, D. Vukobratović
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Distributed storage allocations for neighborhood-based data access
We introduce a neighborhood-based data access model for distributed coded storage allocation. Storage nodes are connected in a generic network and data is accessed locally: a user accesses a randomly chosen storage node, which subsequently queries its neighborhood to recover the data object. We aim at finding an optimal allocation that minimizes the overall storage budget while ensuring recovery with probability one. We show that the problem reduces to finding the fractional dominating set of the underlying network. Furthermore, we develop a fully distributed algorithm where each storage node communicates only with its neighborhood in order to find its optimal storage allocation. The proposed algorithm is based upon the recently proposed proximal center method-an efficient dual decomposition based on accelerated dual gradient method. We show that our algorithm achieves a (1 + ε)-approximation ratio in O(dmax3/2/ε) iterations and per-node communications, where dmax is the maximal degree across nodes. Simulations demonstrate the effectiveness of the algorithm.
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