中文

Robust Quantum Algorithms for Oracle Identification

量子物理 2007-05-23 v5

摘要

The oracle identification problem (OIP) was introduced by Ambainis et al. \cite{AIKMRY04}. It is given as a set SS of MM oracles and a blackbox oracle ff. Our task is to figure out which oracle in SS is equal to the blackbox ff by making queries to ff. OIP includes several problems such as the Grover Search as special cases. In this paper, we improve the algorithms in \cite{AIKMRY04} by providing a mostly optimal upper bound of query complexity for this problem: (ii) For any oracle set SS such that S2Nd|S| \le 2^{N^d} (d<1d < 1), we design an algorithm whose query complexity is O(NlogM/logN)O(\sqrt{N\log{M}/\log{N}}), matching the lower bound proved in \cite{AIKMRY04}. (iiii) Our algorithm also works for the range between 2Nd2^{N^d} and 2N/logN2^{N/\log{N}} (where the bound becomes O(N)), but the gap between the upper and lower bounds worsens gradually. (iiiiii) Our algorithm is robust, namely, it exhibits the same performance (up to a constant factor) against the noisy oracles as also shown in the literatures \cite{AC02,BNRW03,HMW03} for special cases of OIP.

关键词

引用

@article{arxiv.quant-ph/0411204,
  title  = {Robust Quantum Algorithms for Oracle Identification},
  author = {Andris Ambainis and Kazuo Iwama and Akinori Kawachi and Rudy Raymond and Shigeru Yamashita},
  journal= {arXiv preprint arXiv:quant-ph/0411204},
  year   = {2007}
}

备注

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