1 research outputs found
Performance Benchmarking of State-of-the-Art Software Switches for NFV
With the ultimate goal of replacing proprietary hardware appliances with
Virtual Network Functions (VNFs) implemented in software, Network Function
Virtualization (NFV) has been gaining popularity in the past few years.
Software switches route traffic between VNFs and physical Network Interface
Cards (NICs). It is of paramount importance to compare the performance of
different switch designs and architectures. In this paper, we propose a
methodology to compare fairly and comprehensively the performance of software
switches. We first explore the design spaces of seven state-of-the-art software
switches and then compare their performance under four representative test
scenarios. Each scenario corresponds to a specific case of routing NFV traffic
between NICs and/or VNFs. In our experiments, we evaluate the throughput and
latency between VNFs in two of the most popular virtualization environments,
namely virtual machines (VMs) and containers. Our experimental results show
that no single software switch prevails in all scenarios. It is, therefore,
crucial to choose the most suitable solution for the given use case. At the
same time, the presented results and analysis provide a deeper insight into the
design tradeoffs and identifies potential performance bottlenecks that could
inspire new designs.Comment: 17 page