In this paper, we present a runtime mechanism that quantifies and attributes power consumption to individual jobs at fine granularity. Specifically, we ...

In this work, we present HaPPy, a Hyperthread-aware. Power Profiling Dynamically. HaPPy is able to dy- namically and near instantaneously attribute the power.

HaPPy: Hyperthread-aware Power Profiling Dynamically. Yan Zhai. Xiao Zhang. Stephane Eranian. Lingjia Tang. Jason Mars. USENIX Annual Technical Conference 2014.

A hyperthread-aware power model that differentiates between the states when both hardware threads of a core are in use, and when only one thread is in use ...

In this paper, we present a runtime mechanism that quantifies and attributes power consumption to individual jobs at fine granularity. Specifically, we ...

Yan Zhai, Xiao Zhang, Stéphane Eranian, Lingjia Tang, Jason Mars: HaPPy: Hyperthread-aware Power Profiling Dynamically. USENIX ATC 2014: 211-217.

HaPPy: Hyperthread-aware Power Profiling Dynamically. No ratings. Presented at USENIXatc 2014 by. Xiao Zhang. Yan Zhai. Stephane Eranian. Lingjia Tang.

HaPPy: Hyperthread-aware Power Profiling Dynamically. USENIXatc 2014. N/A. Yan Zhai. Y. Zhai. Stephane Eranian. S. Eranian. Xiao Zhang. X. Zhang. Lingjia Tang.

Implementing a Leading Loads Performance Predictor on Commodity Processors · HaPPy: Hyperthread-aware Power Profiling Dynamically · Scalable Read-mostly ...

HaPPy: Hyperthread-aware Power Profiling Dynamically. Y Zhai, X Zhang, S Eranian, L Tang, J Mars. Proceedings of the 2014 USENIX Conference on Annual Technical ...