高可用服务链实现理论

2020 16th International Conference on the Design of Reliable Communication Networks DRCN 2020 Pub Date : 2020-03-01 DOI:10.1109/DRCN48652.2020.1570611001

Sidharth Sharma, A. Gumaste, M. Tatipamula

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引用次数: 2

摘要

我们提出了一种新颖的方法，通过对NFV基础设施(NFVI)进行量纲化来实现具有特定可用性和延迟需求的服务链。我们的贡献导致了一种基于将SDN容量计算扩展到NFV领域的理论。我们通过扩展服务链(sc)的可用性需求来实现这一点，并将这些需求投射到NFVI上。我们的理论模型的一个关键贡献是在遍历SC时包含延迟界。通过将SC建模为NFVI中的有向无环图来实现可用性，延迟界和计算SC粒度的组合，并使用网络演算，最终导致SC实现定理。这个SC实现定理回答了一个问题，即在一个特定的DC上可以提供多少特定类型和粒度的SC。本文还介绍了在NFVI上计算SCs实现的第二种快速方法。对于规模高达12,228个服务器(节点)的数据中心，这些定理得到了数值验证。给出了可伸缩性和延迟的结果。

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High-Availability Service Chain Realization Theory

We propose a novel approach to realize service chains with specific availability and latency requirements by dimensioning a NFV infrastructure (NFVI). Our contribution leads to a theory that is based on extending SDN capacity computation to the domain of NFV. We do so by expanding upon the requirements of availability of service chains (SCs), projecting these onto a NFVI. A key contribution of our theoretical model is the inclusion of delay bounds while traversing a SC. The combination of availability, delay bounds and computing SC granularity is achieved through modeling SCs as directed acyclic graphs in a NFVI, and acted upon using network calculus, eventually leading to a SC realization theorem. This SC realization theorem answers a question as to how many SCs of a particular type and granularity can be provisioned on a particular DC. A second fast approach towards computing SCs realization on a NFVI is also presented. The theorems are verified numerically for DCs of size upto 12,228 servers (nodes). Results for scalability and latency are presented.

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2020 16th International Conference on the Design of Reliable Communication Networks DRCN 2020

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