The special case of cyclotomic fields in quantum algorithms for unit groups

IACR Cryptology ePrint Archive Pub Date : 2023-03-07 DOI:10.48550/arXiv.2303.03978
R. Barbulescu, Adrien Poulalion
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Abstract

Unit group computations are a cryptographic primitive for which one has a fast quantum algorithm, but the required number of qubits is $\tilde O(m^5)$. In this work we propose a modification of the algorithm for which the number of qubits is $\tilde O(m^2)$ in the case of cyclotomic fields. Moreover, under a recent conjecture on the size of the class group of $\mathbb{Q}(\zeta_m + \zeta_m^{-1})$, the quantum algorithms is much simpler because it is a hidden subgroup problem (HSP) algorithm rather than its error estimation counterpart: continuous hidden subgroup problem (CHSP). We also discuss the (minor) speed-up obtained when exploiting Galois automorphisms thanks to the Buchmann-Pohst algorithm over $\mathcal{O}_K$-lattices.
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单位群量子算法中分环场的特例
单位组计算是一种加密原语,可以使用快速量子算法,但所需的量子比特数为$\tilde O(m^5)$。在这项工作中,我们提出了一种算法的修改,在环切场的情况下,量子比特的数量为$\tilde O(m^2)$。此外,在最近关于$\mathbb{Q}(\zeta_m + \zeta_m^{-1})$类群大小的猜想下,量子算法要简单得多,因为它是一个隐藏子群问题(HSP)算法,而不是其误差估计对应的连续隐藏子群问题(CHSP)。我们还讨论了利用$\mathcal{O}_K$ -格上的Buchmann-Pohst算法利用伽罗瓦自同构时获得的(次要)加速。
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IACR Cryptology ePrint Archive
IACR Cryptology ePrint Archive
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