streaming media / Internet-scale Distributed Networks / Web portals / Web content / Internet Content Delivery / power utilities / energy conversion efficiency / blade server / energy storage devices / chosen server / energy storage capacity / omnipresent car batteries / energy loss / Internet-scale services / maximum energy / electricity pricing / energy storage capability / worst increase energy usage / Recent technology trends / cloud storage services / average power demand per server / high energy losses / large distributed systems / online computations / wholesale electricity prices / movie distribution services / actual energy / energy usage / energy / energy flowing / Internet-scale / energy costs / faster algorithms / energy usage reduction / e-commerce portals / content delivery networks / e-commerce sites / energy consumption / fractional energy / optimization algorithms / content and applications / even distributed computing / Web traffic / binary search / battery provisioning algorithms / electricity bill / server energy usage trends / power-proportional server / average energy usage / large distributed networks / battery technologies / load balancing algorithm / energy efficiency / social networks / media / Internet-scale network deployments / wholesale electricity markets / technology dependent / similar Internet-scale / /
Organization
Rahul Urgaonkar∗ Penn. State Univ. / Department of Defense / /
Person
Rahul Urgaonkar∗ Penn / Ramesh K. Sitaraman / Darshan S. Palasamudram / T Power / / /
Position
General / major US colocation providers / representative / /
Using Batteries to Reduce the Power Costs of Internet-scale Distributed Networks Darshan S. Palasamudram†, Ramesh K. Sitaraman‡, Bhuvan Urgaonkar†, Rahul Urgaonkar∗ Penn. State Univ.†, UMass Amherst‡, Akamai