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Powersched(Hawk): Difference between revisions
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==== Powersched ==== | ==== Powersched ==== | ||
Powersched proposes a reliable, efficient, and transparent mechanism to keep a HPC system under a power cap. The tool aims to increase the energy efficiency of available resources by enabling power capping based on an application-specific, energy-optimized runtime environment. The power capping is governed by the GSS | Powersched (HPE) proposes a reliable, efficient, and transparent mechanism to keep a HPC system under a power cap. The tool aims to increase the energy efficiency of available resources by enabling power capping based on an application-specific, energy-optimized runtime environment. The power capping is governed by the Golden-Section-Search (GSS) optimization of a given metric (a variant of the Energy-Delay-Product) and will adapt to different application phases. Depending on the job characteristic we aim for an improvement in energy efficiency of order 20% with a moderate performance impact (or gain) of order 5%. | ||
A summary is included below. | |||
[[File:GSS.png| | |||
==== Golden Section Search (GSS) ==== | |||
[[File:GSS.png|765px]] | |||
Dynamic power capping (per socket). As a corollary you might observe a relaxation period especially during startup | |||
and in changing application phases. | |||
[[File:GSS_Full.png|765px]] | |||
==== Overview and Architecture ==== | ==== Overview and Architecture ==== | ||
[[Media:HLRS_Workshop_Powersched_GSS.pdf]] | [[Media:HLRS_Workshop_Powersched_GSS.pdf]] |
Latest revision as of 09:29, 16 January 2024
Power Management (Powersched)
Powersched
Powersched (HPE) proposes a reliable, efficient, and transparent mechanism to keep a HPC system under a power cap. The tool aims to increase the energy efficiency of available resources by enabling power capping based on an application-specific, energy-optimized runtime environment. The power capping is governed by the Golden-Section-Search (GSS) optimization of a given metric (a variant of the Energy-Delay-Product) and will adapt to different application phases. Depending on the job characteristic we aim for an improvement in energy efficiency of order 20% with a moderate performance impact (or gain) of order 5%.
A summary is included below.
Golden Section Search (GSS)
Dynamic power capping (per socket). As a corollary you might observe a relaxation period especially during startup and in changing application phases.