Exact quantum query complexity of weight decision problems

01/17/2018
by   Xiaoyu He, et al.
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The weight decision problem, which requires to determine the Hamming weight of a given binary string, is a natural and important problem, with applications in cryptanalysis, coding theory, fault-tolerant circuit design and so on. In particular, both Deutsch-Jozsa problem and Grover search problem can be interpreted as special cases of weight decision problems. In this work, we investigate the exact quantum query complexity of weight decision problems, where the quantum algorithm must always output the correct answer. More specifically we consider a partial Boolean function which distinguishes whether the Hamming weight of the length-n input is k or it is l. Our contribution includes both upper bounds and lower bounds for the precise number of queries. Furthermore, for most choices of (k/n,l/n) and sufficiently large n, the gap between our upper and lower bounds is no more than one. To get the results, we first build the connection between Chebyshev polynomials and our problem, then determine all the boundary cases of (k/n,l/n) with matching upper and lower bounds, and finally we generalize to other cases via a new quantum padding technique. This quantum padding technique can be of independent interest in designing other quantum algorithms.

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