Computing discrete logarithm by interval-valued paradigm

Dialogues in cardiovascular medicine : DCM Pub Date : 2014-03-31 DOI:10.4204/EPTCS.143.7
B. Nagy, S. Vályi
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引用次数: 4

Abstract

Interval-valued computing is a relatively new computing paradigm. It uses finitely many interval segments over the unit interval in a computation as data structure. The satisfiability of Quantified Boolean formulae and other hard problems, like integer factorization, can be solved in an effective way by its massive parallelism. The discrete logarithm problem plays an important role in practice, there are cryptographical methods based on its computational hardness. In this paper we show that the discrete logarithm problem is computable by an interval-valued computing in a polynomial number of steps (within this paradigm).
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用区间值范式计算离散对数
区间值计算是一种相对较新的计算范式。它在一次计算的单位区间内使用有限多个区间段作为数据结构。量化布尔公式的可满足性和其他难题,如整数分解,可以通过其巨大的并行性有效地解决。离散对数问题在实际应用中起着重要的作用,基于离散对数问题的计算难度,有许多密码学方法。在本文中,我们证明离散对数问题是可计算的区间值计算在一个多项式的步骤数(在这种范式)。
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Dialogues in cardiovascular medicine : DCM
Dialogues in cardiovascular medicine : DCM
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