Honolulu, HI, USA USA
June 24, 2012 to June 29, 2012
Cloud services make use of data center resources so that hosted applications can utilize them as needed. To offer a large amount of computational resources, cloud service providers manage tens of geographically distributed data centers. Since each data center is made up of hundreds of thousands of physical machines, energy consumption is a major concern for cloud service providers. The electric cost imposes significant financial overheads on those companies and pushes up the price for the cloud users. This paper presents an energy-price-driven request dispatcher that forwards client requests to data centers in an electric-cost-saving way. In our technique, mapping nodes, which are used as authoritative DNS servers, forward client requests to data centers in which the electric price is relatively lower. We additionally develop a policy that gradually shifts client requests to electrically cheaper data centers, taking into account application latency requirements and data center loads. Our simulation-based results show that our technique can reduce electric cost by 15 % more than randomly dispatching client requests.
Dispatching, Servers, Clouds, Peer to peer computing, Distributed databases, Energy consumption, Electricity, Peer-to-peer, Cloud Computing, Electric cost savings, Request dispatching
Takumi Sakamoto, Hiroshi Yamada, Hikaru Horie, Kenji Kono, "Energy-Price-Driven Request Dispatching for Cloud Data Centers", CLOUD, 2012, 2013 IEEE Sixth International Conference on Cloud Computing, 2013 IEEE Sixth International Conference on Cloud Computing 2012, pp. 974-976, doi:10.1109/CLOUD.2012.115