Minimizing Energy and Computation in Long-Running Software

TitleMinimizing Energy and Computation in Long-Running Software
Publication TypeJournal Article
Year of Publication2021
AuthorsGelenbe E, Siavvas M
JournalApplied Sciences
Volume11
Issue3
Abstract

Long-running software may operate on hardware platforms with limited energy resources
such as batteries or photovoltaic, or on high-performance platforms that consume a large amount
of energy. Since such systems may be subject to hardware failures, checkpointing is often used to
assure the reliability of the application. Since checkpointing introduces additional computation time
and energy consumption, we study how checkpoint intervals need to be selected so as to minimize a
cost function that includes the execution time and the energy. Expressions for both the program’s
energy consumption and execution time are derived as a function of the failure probability per
instruction. A first principle based analysis yields the checkpoint interval that minimizes a linear
combination of the average energy consumption and execution time of the program, in terms of the
classical “Lambert function”. The sensitivity of the checkpoint to the importance attributed to energy
consumption is also derived. The results are illustrated with numerical examples regarding programs
of various lengths and showing the relation between the checkpoint interval that minimizes energy
consumption and execution time, and the one that minimizes a weighted sum of the two. In addition,
our results are applied to a popular software benchmark, and posted on a publicly accessible web
site, together with the optimization software that we have developed.

DOI10.3390/app11031169

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Data aktualizacji: 11/03/2021 - 13:57; autor zmian: Sami Erol Gelenbe (seg@iitis.pl)