clusterscale Web Search characterization / energy-proportional servers / Web mail request / Internet services model / Web server front-end / query processing / Web index / online advertising / consecutive arrivals/services / non-volatile storage solution / search operators / server-level energy-proportionality / web search queries / machinery / Web Search cluster / uncoordinated power management / test server / data-intensive services / Online Data-Intensive Services / active and idle low-power management / server systems / memory systems / Web mail / search product / memory device / cluster-level power management / production search systems / production Web search workload / energy savings / energy / fullsystem idle power management / Web Search performance model / Large search products / energy proportional server / energy consumption / low-end processors / energy-efficiency / server hardware / front-end server / power management / energy optimizations / social networking / Web Search workload / individual systems / Energy-proportional operation / search latency distribution / Web search test-cluster / Online Data-Intensive / impact power management / Web search / technology generations / x86 server / power management solutions / energy efficiency / Web Server / computing / search query / search cluster / energy-performance trade-offs / energy-proportionality / component energy-proportionality / server processors / energy proportionality / counter-based tracing tools / /
Organization
The University of Michigan / /
Person
Luiz André Barroso / Christopher M. Sadler / David Meisner / Max Capacity / Thomas F. Wenisch / Wolf-Dietrich Weber / Max Idle / /