稠密高斯网络中寻找最短路径的有效算法

IF 0.2 Q4 MATHEMATICS, APPLIED Prikladnaya Diskretnaya Matematika Pub Date : 2023-01-01 DOI:10.17223/20710410/58/9

E. Monakhova, O. Monakhov

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引用次数: 0

摘要

作为一种很有前途的芯片网络拓扑，我们考虑了一类稠密高斯网络，它们是C(D2 + (D + 1)2的最优循环度四图;D, D + 1)。对于这个族，提出了一种寻找图顶点之间最短路径的算法，该算法使用顶点的相对寻址，与许多已知算法不同的是，它允许计算最短路径，而不使用邻近格零的坐标在密集的图镶嵌在2平面上。当新算法在具有密集高斯网络拓扑的片上网络上实现时，与其他算法相比，这减少了内存和执行时间成本。

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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Effective algorithm for finding shortest paths in dense Gaussian networks

As a promising topology of networks on a chip, we consider a family of Dense Gaussian Networks, which are optimal circulant degree four graphs of the form C(D2 + (D + 1)2; D, D + 1). For this family, an algorithm for finding the shortest paths between graph vertices is proposed, which uses relative addressing of vertices and, unlike a number of the known algorithms, allows to calculate the shortest paths without using the coordinates of neighboring lattice zeros in a dense tessellation of graphs on the ℤ2 plane. This reduces the memory and execution time costs compared to other algorithms when the new algorithm is implemented on a network-on-chip with a Dense Gaussian Network topology.

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来源期刊

Prikladnaya Diskretnaya Matematika MATHEMATICS, APPLIED-

CiteScore

0.60

自引率

50.00%

发文量

期刊介绍： The scientific journal Prikladnaya Diskretnaya Matematika has been issued since 2008. It was registered by Federal Control Service in the Sphere of Communications and Mass Media (Registration Witness PI № FS 77-33762 in October 16th, in 2008). Prikladnaya Diskretnaya Matematika has been selected for coverage in Clarivate Analytics products and services. It is indexed and abstracted in SCOPUS and WoS Core Collection (Emerging Sources Citation Index). The journal is a quarterly. All the papers to be published in it are obligatorily verified by one or two specialists. The publication in the journal is free of charge and may be in Russian or in English. The topics of the journal are the following: 1.theoretical foundations of applied discrete mathematics – algebraic structures, discrete functions, combinatorial analysis, number theory, mathematical logic, information theory, systems of equations over finite fields and rings; 2.mathematical methods in cryptography – synthesis of cryptosystems, methods for cryptanalysis, pseudorandom generators, appreciation of cryptosystem security, cryptographic protocols, mathematical methods in quantum cryptography; 3.mathematical methods in steganography – synthesis of steganosystems, methods for steganoanalysis, appreciation of steganosystem security; 4.mathematical foundations of computer security – mathematical models for computer system security, mathematical methods for the analysis of the computer system security, mathematical methods for the synthesis of protected computer systems;[...]