The Impact of CPU Frequency Scaling on Power Consumption of Computing Infrastructures

Autor: Garcia, Adriano M., Serpa, Matheus, Griebler, Dalvan, Schepke, Claudio, Fernandes, Luiz G. L., Navaux, Philippe O. A.
Jazyk: angličtina
Rok vydání: 2020
Předmět:
Zdroj: Computational Science and Its Applications – ICCSA 2020
Popis: Since the demand for computing power increases, new architectures emerged to obtain better performance. Reducing the power and energy consumption of these architectures is one of the main challenges to achieving high-performance computing. Current research trends aim at developing new software and hardware techniques to achieve the best performance and energy trade-offs. In this work, we investigate the impact of different CPU frequency scaling techniques such as ondemand, performance, and powersave on the power and energy consumption of multi-core based computer infrastructure. We apply these techniques in PAMPAR, a parallel benchmark suite implemented in PThreads, OpenMP, MPI-1, and MPI-2 (spawn). We measure the energy and execution time of 10 benchmarks, varying the number of threads. Our results show that although powersave consumes up to 43.1% less power than performance and ondemand governors, it consumes the triple of energy due to the high execution time. Our experiments also show that the performance governor consumes up to 9.8% more energy than ondemand for CPU-bound benchmarks. Finally, our results show that PThreads has the lowest power consumption, consuming less than the sequential version for memory-bound benchmarks. Regarding performance, the performance governor achieved 3% of performance over the ondemand.
Databáze: OpenAIRE