Green Queue: Customized Large-Scale Clock Frequency Scaling
We examine the scalability of a set of techniques related to Dynamic Voltage-Frequency Scaling (DVFS) on HPC systems to reduce the energy consumption of scientific applications through an application-aware analysis and runtime framework, Green Queue. Green Queue supports making CPU clock frequency c...
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| Published in | 2012 International Conference on Cloud and Green Computing pp. 260 - 267 |
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| Main Authors | , , , , |
| Format | Conference Proceeding |
| Language | English |
| Published |
IEEE
01.11.2012
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| Subjects | |
| Online Access | Get full text |
| ISBN | 1467330272 9781467330275 |
| DOI | 10.1109/CGC.2012.62 |
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| Abstract | We examine the scalability of a set of techniques related to Dynamic Voltage-Frequency Scaling (DVFS) on HPC systems to reduce the energy consumption of scientific applications through an application-aware analysis and runtime framework, Green Queue. Green Queue supports making CPU clock frequency changes in response to intra-node and inter-node observations about application behavior. Our intra-node approach reduces CPU clock frequencies and therefore power consumption while CPUs lacks computational work due to inefficient data movement. Our inter-node approach reduces clock frequencies for MPI ranks that lack computational work. We investigate these techniques on a set of large scientific applications on 1024 cores of Gordon, an Intel Sandy bridge-based supercomputer at the San Diego Supercomputer Center. Our optimal intra-node technique showed an average measured energy savings of 10.6% and a maximum of 21.0% over regular application runs. Our optimal inter-node technique showed an average 17.4% and a maximum of 31.7% energy savings. |
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| AbstractList | We examine the scalability of a set of techniques related to Dynamic Voltage-Frequency Scaling (DVFS) on HPC systems to reduce the energy consumption of scientific applications through an application-aware analysis and runtime framework, Green Queue. Green Queue supports making CPU clock frequency changes in response to intra-node and inter-node observations about application behavior. Our intra-node approach reduces CPU clock frequencies and therefore power consumption while CPUs lacks computational work due to inefficient data movement. Our inter-node approach reduces clock frequencies for MPI ranks that lack computational work. We investigate these techniques on a set of large scientific applications on 1024 cores of Gordon, an Intel Sandy bridge-based supercomputer at the San Diego Supercomputer Center. Our optimal intra-node technique showed an average measured energy savings of 10.6% and a maximum of 21.0% over regular application runs. Our optimal inter-node technique showed an average 17.4% and a maximum of 31.7% energy savings. |
| Author | Tiwari, A. Laurenzano, M. Snavely, A. Carrington, L. Peraza, J. |
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| SubjectTerms | Clocks Green products Hardware Load modeling Power measurement Queueing analysis Runtime |
| Title | Green Queue: Customized Large-Scale Clock Frequency Scaling |
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