HyperNF: building a high performance, high utilization and fair NFV platform

Proceedings of the 2017 Symposium on Cloud Computing Pub Date : 2017-09-24 DOI:10.1145/3127479.3127489

Kenichi Yasukata, Felipe Huici, Vincenzo Maffione, G. Lettieri, Michio Honda

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引用次数: 16

Abstract

Network Function Virtualization has been touted as the silver bullet for tackling a number of operator problems, including vendor lock-in, fast deployment of new functionality, converged management, and lower expenditure since packet processing runs on inexpensive commodity servers. The reality, however, is that, in practice, it has proved hard to achieve the stable, predictable performance provided by hardware middleboxes, and so operators have essentially resorted to throwing money at the problem, deploying highly underutilized servers (e.g., one NF per CPU core) in order to guarantee high performance during peak periods and meet SLAs. In this work we introduce HyperNF, a high performance NFV framework aimed at maximizing server performance when concurrently running large numbers of NFs. To achieve this, HyperNF implements hypercall-based virtual I/O, placing packet forwarding logic inside the hypervisor to significantly reduce I/O synchronization overheads. HyperNF improves throughput by 10%-73% depending on the NF, is able to closely match resource allocation specifications (with deviations of only 3.5%), and to efficiently cope with changing traffic loads.

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HyperNF:构建高性能、高利用率、公平的NFV平台

网络功能虚拟化被吹捧为解决许多运营商问题的灵丹妙药，包括供应商锁定、新功能的快速部署、融合管理，以及由于数据包处理在廉价的商用服务器上运行而降低的支出。然而，现实情况是，在实践中，硬件中间件提供的稳定、可预测的性能已经被证明是很难实现的，因此运营商不得不在这个问题上投入大量资金，部署高度未充分利用的服务器(例如，每个CPU核心一个NF)，以保证高峰期间的高性能并满足sla。在本文中，我们介绍了HyperNF，这是一个高性能的NFV框架，旨在在并发运行大量NFs时最大化服务器性能。为了实现这一点，HyperNF实现了基于hypercall的虚拟I/O，将数据包转发逻辑放在hypervisor中，以显著降低I/O同步开销。根据不同的NF, HyperNF可以提高10%-73%的吞吐量，能够紧密匹配资源分配规范(偏差仅为3.5%)，并且能够有效地应对不断变化的流量负载。

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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Proceedings of the 2017 Symposium on Cloud Computing

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