A detailed analysis of power consumption at low system levels becomes important as a means for reducing the overall power consumption of a system and its thermal hot spots. This work presents a new power estimation method that allows understanding the power breakdown of an application when running on modern processor architecture such as the newly released Intel Skylake processor. This work also provides a detailed power and performance characterization report for the SPEC CPU2006 benchmarks, analysis of the data using side-by-side power and performance breakdowns, as well as few interesting case studies.
Modern superscalar CPUs contain large complex structures and diverse execution units, consuming wide dynamic power range. Building a power delivery network for the worst-case power consumption is not energy efficient and often is impossible to fit in small systems. Instantaneous power excursions can cause voltage droops. Power management algorithms are too slow to respond to instantaneous events. In this article, we propose a novel compiler-directed framework to address this problem. The framework is validated on a 4th Generation Intel R Core TM processor and with simulator on output trace. Up to 16% performance speedup is measured over baseline for the SPEC CPU2006 benchmarks.
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