对等与传输:对等与传输互连的性能比较

Adnan Ahmed, Zubair Shafiq, H. Bedi, Amir R. Khakpour
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引用次数: 19

摘要

在先前的文献中,互联网服务提供商之间的对等和传输互连的经济方面已经得到了广泛的研究。先前的研究主要集中在与isp之间建立对等和传输连接相关的经济问题上,以模拟互连策略。另一方面,性能分析虽然直观地理解,但尚未在经验上量化并纳入此类模型。为了填补这一空白,我们对对等互连和传输互连策略进行了大规模的基于测量的性能比较。我们使用JavaScript在900个接入isp的510K客户端和位于全球33个ixp的多主CDN服务器之间进行应用层延迟测量。总体而言,我们发现在我们的数据中,91%的自治系统(ase)的对等路径优于传输路径。对等路径与传输路径相比,在95%以上的ase中具有更小的传播延迟。对等路径由于路径长度较短,在传播延迟方面优于传输路径。对等路径与传输路径相比,在超过50%的ase中具有更小的队列延迟。
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Peering vs. transit: Performance comparison of peering and transit interconnections
The economic aspects of peering and transit interconnections between ISPs have been extensively studied in prior literature. Prior research primarily focuses on the economic issues associated with establishing peering and transit connectivity among ISPs to model interconnection strategies. Performance analysis, on the other hand, while understood intuitively, has not been empirically quantified and incorporated in such models. To fill this gap, we conduct a large scale measurement based performance comparison of peering and transit interconnection strategies. We use JavaScript to conduct application layer latency measurements between 510K clients in 900 access ISPs and multi-homed CDN servers located at 33 IXPs around the world. Overall, we find that peering paths outperformed transit paths for 91% Autonomous Systems (ASes) in our data. Peering paths have smaller propagation delays as compared to transit paths for more than 95% ASes. Peering paths outperform transit paths in terms of propagation delay due to shorter path lengths. Peering paths also have smaller queueing delays as compared to transit paths for more than 50% ASes.
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