Tradeoffs Between Cost and Performance for CDN Provisioning Based on Coordinate Transformation

Abstract

Today's content delivery is characterized by key trends such as converged media delivery over HTTP, increasing volumes of multimedia content delivered over IP, and elevated user expectations on quality-of-experience. In this respect, server provisioning is a critical phase of CDN management, which affects both incumbent and entrant CDN operators as well as internet service providers. However, existing tools and approaches to solve server placement problems have serious shortcomings: they offer only coarse tuning knobs and limit servers to a set of candidate sites given a priori . Our conversations with CDN operators reveal that a new provisioning mechanism is necessary to take advantage of emerging opportunities such as faster speed to roll out new locations and more access networks. In this paper, we present the design of DISC, a decision support system to help CDN operators systematically investigate different design tradeoffs and evaluate what-if scenarios. The key enabler underlying DISC is a network coordinate-based data analysis workflow that can flexibly embed different cost, performance, and workload characteristics without sacrificing the fidelity. We describe practical use cases and experiences in applying DISC to a large country-wide deployment. The results show that DISC significantly reduces average latency, deployment cost, and interdomain traffic.