广义黎曼假设下的快速严格因子分解

Indagationes Mathematicae (Proceedings) Pub Date : 1988-12-19 DOI:10.1016/S1385-7258(88)80022-2

A.K. Lenstra

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引用次数: 16

摘要

我们提出了一种算法，该算法在以e（1+o（1））log为界的期望时间内找到概率为1/2-o（1）的奇复合整数n的非平凡因子⁡nlog⁡日志⁡这个结果可以在广义黎曼假设的唯一假设下得到严格的证明。该时间界限与连续分数算法、二次筛算法、Schnorr-Lenstra类群算法和椭圆曲线方法的最坏情况的启发式时间界限相匹配。该算法基于Seysen的因子分解算法[14]和[12]中的椭圆曲线平滑度测试。

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Fast and rigorous factorization under the generalized Riemann hypothesis

We present an algorithm that finds a non-trivial factor of an odd composite integer n with probability ⩾1/2 - o(1) in expected time bounded by $e^{(1 + o (1)) \sqrt{\log n \log \log n}}$ . This result can be rigorously proved under the sole assumption of the generalized Riemann hypothesis. The time bound matches the heuristic time bounds for the continued fraction algorithm, the quadratic sieve algorithm, the Schnorr-Lenstra class group algorithm, and the worst case of the elliptic curve method. The algorithm is based on Seysen's factoring algorithm [14], and the elliptic curve smoothness test from [12].

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Indagationes Mathematicae (Proceedings)

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