不完全定义离散函数中变量数减少的代数方法

2016 IEEE 46th International Symposium on Multiple-Valued Logic (ISMVL) Pub Date : 2016-05-18 DOI:10.1109/ISMVL.2016.18

J. Astola, P. Astola, R. Stankovic, I. Tabus

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引用次数: 13

摘要

本文考虑不完全定义的离散函数，即布尔函数和多值函数，f:S→{0,1，…，q-1}式中S≤{0,1，…，q-1}n，即函数值仅在对应的完全定义函数的定义域的某个子集S上指定。我们假设函数是稀疏的，即vs vs相对于定义域的基数是“小”的。通过嵌入域{0,1，…，q-1}n，其中n为变量数，q为素数幂，在合适的环结构中，环的乘法结构可用来构造线性函数{0,1，…n, q1}{0,1,……当m > 2logq |S| + logq(n -1)时，q-1}m在S上内射。通过这种方法，我们找到了一种线性变换，它可以将变量的数量从n减少到m，并且可以用线性分解来实现一个不完全定义的离散函数。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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An Algebraic Approach to Reducing the Number of Variables of Incompletely Defined Discrete Functions

In this paper, we consider incompletely defined discrete functions, i.e., Boolean and multiple-valued functions, f:S→{0,1,...,q-1} where S ⊆ {0,1,...,q-1}n i.e.,the function value is specified only on a certain subset S of the domain of the corresponding completely defined function. We assume the function to be sparse i.e. |S| is 'small' relative to the cardinality of the domain. We show that by embedding the domain {0,1,...,q-1}n, where n is the number of variables and q is a prime power, in a suitable ring structure, the multiplicative structure of the ring can be used to construct a linear function {0,1,...,q-1}n {0,1,...,q-1}m that is injective on S provided that m > 2logq |S| + logq(n - 1). In this way we find a linear transform that reduces the number of variables from n to m, and can be used e.g. in implementation of an incompletely defined discrete function by using linear decomposition.

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2016 IEEE 46th International Symposium on Multiple-Valued Logic (ISMVL)

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