Space-efficient classical and quantum algorithms for the shortest vector problem

August 31, 2017 Β· Declared Dead Β· πŸ› Quantum information & computation

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Authors Yanlin Chen, Kai-Min Chung, Ching-Yi Lai arXiv ID 1709.00378 Category cs.DS: Data Structures & Algorithms Cross-listed quant-ph Citations 6 Venue Quantum information & computation Last Checked 4 months ago
Abstract
A lattice is the integer span of some linearly independent vectors. Lattice problems have many significant applications in coding theory and cryptographic systems for their conjectured hardness. The Shortest Vector Problem (SVP), which is to find the shortest non-zero vector in a lattice, is one of the well-known problems that are believed to be hard to solve, even with a quantum computer. In this paper we propose space-efficient classical and quantum algorithms for solving SVP. Currently the best time-efficient algorithm for solving SVP takes $2^{n+o(n)}$ time and $2^{n+o(n)}$ space. Our classical algorithm takes $2^{2.05n+o(n)}$ time to solve SVP with only $2^{0.5n+o(n)}$ space. We then modify our classical algorithm to a quantum version, which can solve SVP in time $2^{1.2553n+o(n)}$ with $2^{0.5n+o(n)}$ classical space and only poly(n) qubits.
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