扩展最终伪周期函数的网络演算算法工具箱:伪逆和复合

Raffaele Zippo, Paul Nikolaus, Giovanni Stea
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引用次数: 2

摘要

网络微积分(Network Calculus, NC)是一种代数理论,它将流量和服务保证表示为笛卡尔平面上的曲线,以计算流经网络的流量的性能保证。NC使用变换操作,例如,两条曲线的最小加卷积,来模拟流量轮廓如何随着网络节点的遍历而变化。这样的操作,虽然在数学上定义良好,但对于任何不平凡的情况,使用简单的笔和纸很快就会变得难以管理,因此需要算法描述。以前的工作确定了一类分段仿射函数,它们最终是伪周期(UPP),在主要NC操作下是封闭的,并且能够被有限地描述。算法体现数控操作作为操作数UPP曲线已被定义和证明是正确的,从而使这些操作的软件实现。然而,NC的最新进展利用了操作,即下伪逆、上伪逆和复合,这些操作从代数的角度来看是定义良好的,但其算法方面尚未得到解决。本文介绍了操作数为UPP曲线时上述操作的算法,从而扩展了NC的可用算法工具箱。我们讨论了这些运算的算法性质,并提供了其正确性的形式化证明。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Extending the network calculus algorithmic toolbox for ultimately pseudo-periodic functions: pseudo-inverse and composition

Extending the network calculus algorithmic toolbox for ultimately pseudo-periodic functions: pseudo-inverse and composition
Abstract Network Calculus (NC) is an algebraic theory that represents traffic and service guarantees as curves in a Cartesian plane, in order to compute performance guarantees for flows traversing a network. NC uses transformation operations, e.g., min-plus convolution of two curves, to model how the traffic profile changes with the traversal of network nodes. Such operations, while mathematically well-defined, can quickly become unmanageable to compute using simple pen and paper for any non-trivial case, hence the need for algorithmic descriptions. Previous work identified the class of piecewise affine functions which are ultimately pseudo-periodic (UPP) as being closed under the main NC operations and able to be described finitely. Algorithms that embody NC operations taking as operands UPP curves have been defined and proved correct, thus enabling software implementations of these operations. However, recent advancements in NC make use of operations, namely the lower pseudo-inverse , upper pseudo-inverse , and composition , that are well-defined from an algebraic standpoint, but whose algorithmic aspects have not been addressed yet. In this paper, we introduce algorithms for the above operations when operands are UPP curves, thus extending the available algorithmic toolbox for NC. We discuss the algorithmic properties of these operations, providing formal proofs of correctness.
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