Hidden shift problem

Template:Short description Template:Use mdy dates In quantum computing, the hidden shift problem is a type of oracle-based problem. Various versions of this problem have quantum algorithms which can run much more quickly than known non-quantum methods for the same problem. In its general form, it is equivalent to the hidden subgroup problem for the dihedral group.^[1] It is a major open problem to understand how well quantum algorithms can perform for this task, as it can be applied to break lattice-based cryptography.^[2][3]

The hidden shift problem states: Given an oracle ${\displaystyle O}$ that encodes two functions ${\displaystyle f}$ and ${\displaystyle g}$, there is an ${\displaystyle n}$-bit string ${\displaystyle s}$ for which ${\displaystyle g(x)=f(x+s)}$ for all ${\displaystyle x}$. Find ${\displaystyle s}$.^[4]

Functions such as the Legendre symbol and bent functions, satisfy these constraints.^[5]

With a quantum algorithm that is defined as ${\displaystyle |s⟩=H^{\otimes n}{O}_f{H}^{\otimes n}{O}_{\hat{g}}{H}^{\otimes n}|0^n⟩}$, where ${\displaystyle H}$ is the Hadamard gate and ${\displaystyle \hat{g}}$ is the Fourier transform of ${\displaystyle g}$, certain instantiations of this problem can be solved in a polynomial number of queries to ${\displaystyle O}$ while taking exponential queries with a classical algorithm.

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