Constructing Hamiltonian Decompositions of Complete k-Uniform Hypergraphs
Abstract
Motivated by the wide-ranging applications of Hamiltonian decompositions in distributed computing, coded caching, routing, resource allocation, load balancing, and fault tolerance, our work presents a comprehensive design for Hamiltonian decompositions of complete k-uniform hypergraphs Knk. Building upon the resolution of the long-standing conjecture of the existence of Hamiltonian decompositions of complete hypergraphs, a problem that was resolved using existence-based methods, our contribution goes beyond the previous explicit designs, which were confined to the specific cases of k=2 and k=3, by providing explicit designs for all k and n prime, allowing for a broad applicability of Hamiltonian decompositions in various settings.
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