General Bounds for Quantum Biased Oracles
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概要
- 論文の詳細を見る
An oracle with bias ε is an oracle that answers queries correctly with a probability of at least 1/2+ε. In this paper, we study the upper and lower bounds of quantum query complexity of oracles with bias ε. For general upper bounds, we show that for any quantum algorithm solving some problem with high probability using T queries of perfect quantum oracles, i.e., oracles with ε =1/2, there exists a quantum algorithm solving the same problem, also with high probability, using O(T/ε) queries of the corresponding biased quantum oracles. As corollaries we can show robust quantum algorithms and gaps between biased quantum and classical oracles, e.g., by showing a problem where the quantum query complexity is O(N/ε) but the classical query complexity is lower bounded by Ω(N logN/ε2). For general lower bounds, we generalize Ambainis' quantum adversary argument to biased quantum oracles and obtain the first lower bounds with explicit bias factor. As one of its applications we can provide another proof of the optimality of quantum algorithms for the so-called quantum Goldreich-Levin problem which was proved before by Adcock, et al. using different and more complicated methods.
- 一般社団法人 情報処理学会の論文
著者
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Iwama Kazuo
Graduate School Of Informatics Kyoto University
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RAYMOND RUDY
Graduate School of Informatics, Kyoto University
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Raymond Rudy
Graduate School Of Informatics Kyoto University:(present Address)imai Quantum Computation And Inform
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Yamashita Shigeru
Graduate School Of Information Science Nara Institute Of Science And Technology
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IWAMA Kazuo
Graduate School of Informatics, Kyoto University
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