Multidimensional Quantum Walks, Recursion, and Quantum Divide & Conquer

Stacey Jeffery; Galina Pass

Multidimensional Quantum Walks, Recursion, and Quantum Divide & Conquer

Quantum Physics 2024-05-09 v2 Data Structures and Algorithms

Authors: Stacey Jeffery , Galina Pass

Abstract

We introduce an object called a \emph{subspace graph} that formalizes the technique of multidimensional quantum walks. Composing subspace graphs allows one to seamlessly combine quantum and classical reasoning, keeping a classical structure in mind, while abstracting quantum parts into subgraphs with simple boundaries as needed. As an example, we show how to combine a \emph{switching network} with arbitrary quantum subroutines, to compute a composed function. As another application, we give a time-efficient implementation of quantum Divide \& Conquer when the sub-problems are combined via a Boolean formula. We use this to quadratically speed up Savitch's algorithm for directed $st$ -connectivity.

Keywords

quantum walks quantum computing quantum search algorithms

Cite

@article{arxiv.2401.08355,
  title  = {Multidimensional Quantum Walks, Recursion, and Quantum Divide & Conquer},
  author = {Stacey Jeffery and Galina Pass},
  journal= {arXiv preprint arXiv:2401.08355},
  year   = {2024}
}

Multidimensional Quantum Walks, Recursion, and Quantum Divide & Conquer

Abstract

Keywords

Cite

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