Quantum Algorithm for the Collision Problem

Gilles Brassard; Peter Hoyer; Alain Tapp

doi:10.1007/BFb0054319

Quantum Algorithm for the Collision Problem

Quantum Physics 2017-01-10 v1

Authors: Gilles Brassard , Peter Hoyer , Alain Tapp

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Abstract

In this note, we give a quantum algorithm that finds collisions in arbitrary r-to-one functions after only O((N/r)^(1/3)) expected evaluations of the function. Assuming the function is given by a black box, this is more efficient than the best possible classical algorithm, even allowing probabilism. We also give a similar algorithm for finding claws in pairs of functions. Furthermore, we exhibit a space-time tradeoff for our technique. Our approach uses Grover's quantum searching algorithm in a novel way.

Keywords

quantum search algorithms

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@article{arxiv.quant-ph/9705002,
  title  = {Quantum Algorithm for the Collision Problem},
  author = {Gilles Brassard and Peter Hoyer and Alain Tapp},
  journal= {arXiv preprint arXiv:quant-ph/9705002},
  year   = {2017}
}

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8 pages, LaTeX2e

Quantum Algorithm for the Collision Problem

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