We present our design and deployment experiences with LiveSky, a commercially deployed hybrid CDN-P2P live streaming system. CDNs and P2P systems are the common techniques used for live streaming, each having its own set of advantages and disadvantages. LiveSky inherits the best of both worlds: the quality control and reliability of a CDN and the inherent scalability of a P2P system. We address several key challenges in the system design and implementation including (a) dynamic resource scaling while guaranteeing stream quality, (b) providing low startup latency, (c) ease of integration with existing CDN infrastructure, and (d) ensuring network-friendliness and upload fairness in the P2P operation. LiveSky has been commercially deployed and used for several large-scale live streaming events serving more than ten million users in China. We evaluate the performance of LiveSky using data from these real-world deployments. Our results indicate that such a hybrid CDN-P2P system provides quality and user performance comparable to a CDN and effectively scales the system capacity when the user volume exceeds the CDN capacity.
We present the design and deployment experiences with
LiveSky
, a commercial hybrid CDN-P2P live streaming system, which inherits the best of both CDN and P2P. We address several key challenges, including: 1) ease of integration with existing CDN infrastructure, 2) dynamic resource scaling while guaranteeing quality-of-service, 3) providing good user experience, ensuring network friendliness and upload fairness.
LiveSky
has been used for several large-scale live streaming events in China. Our evaluation results from real-world indicate that such a hybrid CDN-P2P system provides quality and performance comparable to a CDN and effectively scales the system capacity.
The Chinese Internet, hosting the worlds largest population of Internet users, has largely remained as a black box due to the lack of large-scale measurement infrastructure and various other factors. In this paper, we characterize the Chinese Internet AS topology using measurements from both data and control planes. Our analysis emphasizes on the distinct characteristics of the regional network in comparison with the global Internet. To obtain a complete and accurate view, we combine multiple data sources in a complementary manner, including the traceroute conducted on both domestic servers and international Planetlab hosts at the data plane, as well as the RouteViews-based BGP routing information at the control plane.Our AS graph successfully captures 97% of the observable ASes in Chinese Internet. The topology is validated to be consistent with the well-known PFP model. Based on the measured topology, we further investigate the topological properties of the Chinese Internet by analyzing various graph-theoretic metrics. We found that the Chinese Internet preserves basic topological properties of global internet, such as power-law in node degree distribution and Pareto principle in international link distribution. This offers new insights for the Chinese Internet characterization and practical guidelines for future engineering optimization.
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