组合性的代价:字符串图组合的高性能实现

Paul W. Wilson, F. Zanasi
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引用次数: 4

摘要

弦图是一种日益流行的代数语言,用于分析不同研究领域的计算图形模型。虽然字符串图作为语义结构已经被深入研究,但对其算法特性的关注却很少,并且图推理的有效实现几乎是一个未被探索的主题。这项工作打算在这个方向上作出贡献。我们介绍了一种用邻接矩阵表示字符串图的数据结构。这种编码的主要优点是为图的合成和张量积提供了简单有效的算法。我们通过显示这两个操作的复杂度在字符串图的大小上是线性的来证明它的有效性。此外,由于我们的方法基于基本的线性代数操作,我们可以利用高度优化的实现,我们使用它通过几个基准测试来测量字符串图解操作的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Cost of Compositionality: A High-Performance Implementation of String Diagram Composition
String diagrams are an increasingly popular algebraic language for the analysis of graphical models of computations across different research fields. Whereas string diagrams have been thoroughly studied as semantic structures, much less attention has been given to their algorithmic properties, and efficient implementations of diagrammatic reasoning are almost an unexplored subject. This work intends to be a contribution in such a direction. We introduce a data structure representing string diagrams in terms of adjacency matrices. This encoding has the key advantage of providing simple and efficient algorithms for composition and tensor product of diagrams. We demonstrate its effectiveness by showing that the complexity of the two operations is linear in the size of string diagrams. Also, as our approach is based on basic linear algebraic operations, we can take advantage of heavily optimised implementations, which we use to measure performances of string diagrammatic operations via several benchmarks.
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