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Analyzing the Impact of CPU Pinning and Partial CPU Loads on Performance and Energy Efficiency

Type of publication Peer-reviewed
Publikationsform Proceedings (peer-reviewed)
Author Podzimek Andrej, Bulej Lubomír, Chen Lydia Y. , Binder Walter, Tůma Petr,
Project LoadOpt - Workload Characterization and Optimization for Multicore Systems
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Proceedings (peer-reviewed)

Title of proceedings 2015 15th IEEE/ACM International Symposium on Cluster, Cloud and Grid Computing (CCGrid)
Place Shenzhen, China
DOI 10.1109/ccgrid.2015.164


While workload collocation is a necessity to increase energy efficiency of contemporary multi-core hardware, it also increases the risk of performance anomalies due to workload interference. Pinning certain workloads to a subset of CPUs is a simple approach to increasing workload isolation, but its effect depends on workload type and system architecture. Apart from common sense guidelines, the effect of pinning has not been extensively studied so far. In this paper we study the impact of CPU pinning on performance interference and energy efficiency for pairs of collocated workloads. Besides various combinations of workloads, virtualization and resource isolation, we explore the effects of pinning depending on the level of background load. The presented results are based on more than 1000 experiments carried out on an Intel-based NUMA system, with all power management features enabled to reflect real-world settings. We find that less common CPU pinning configurations improve energy efficiency at partial background loads, indicating that systems hosting collocated workloads could benefit from dynamic CPU pinning based on CPU load and workload type.