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Prediction-based Power-Performance Adaptation of Multithreaded Scientific Codes

By Matthew Curtis-maury, Filip Blagojevic, Christos D. Antonopoulos and Dimitrios S. Nikolopoulos


Abstract — Computing has recently reached an inflection point with the introduction of multi-core processors. On-chip threadlevel parallelism is doubling approximately every other year. Concurrency lends itself naturally to allowing a program to trade performance for power savings by regulating the number of active cores, however in several domains users are unwilling to sacrifice performance to save power. We present a prediction model for identifying energy-efficient operating points of concurrency in well-tuned multithreaded scientific applications, and a runtime system which uses live program analysis to optimize applications dynamically. We describe a dynamic, phase-aware performance prediction model that combines multivariate regression techniques with runtime analysis of data collected from hardware event counters to locate optimal operating points of concurrency. Using our model, we develop a prediction-driven, phase-aware runtime optimization scheme that throttles concurrency so that power consumption can be reduced and performance can be set at the knee of the scalability curve of each program phase. The use of prediction reduces the overhead of searching the optimization space while achieving near-optimal performance and power savings. A thorough evaluation of our approach shows a reduction in power consumption of 10.8 % simultaneous with an improvement in performance of 17.9%, resulting in energy savings of 26.7%. Index Terms — Modeling and prediction, Application-aware adaptation, Energy-aware system

Year: 2008
OAI identifier: oai:CiteSeerX.psu:
Provided by: CiteSeerX
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