Abstract
Quantum algorithms for graph problems are considered, both in the adjacency matrix model and in an adjacency list-like array model. We give almost tight lower and upper bounds for the bounded error quantum query complexity of Connectivity, Strong Connectivity, Minimum Spanning Tree, and Single Source Shortest Paths. For example we show that the query complexity of Minimum Spanning Tree is in Θ(n 3/2) in the matrix model and in \(\Theta(\sqrt{nm})\) in the array model, while the complexity of Connectivity is also in Θ(n 3/2) in the matrix model, but in Θ(n) in the array model. The upper bounds utilize search procedures for finding minima of functions under various conditions.
This paper subsumes manuscripts on arxiv.org quant-ph/9607014, quant-ph/0303131, quant-ph/0303169. We are grateful to Yaohui Lei for his permission to include results presented in quant-ph/0303169 in this paper.
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Dürr, C., Heiligman, M., Høyer, P., Mhalla, M. (2004). Quantum Query Complexity of Some Graph Problems. In: Díaz, J., Karhumäki, J., Lepistö, A., Sannella, D. (eds) Automata, Languages and Programming. ICALP 2004. Lecture Notes in Computer Science, vol 3142. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-27836-8_42
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DOI: https://doi.org/10.1007/978-3-540-27836-8_42
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