Energy and Quality of Surrogate-Assisted Search Algorithms: a First Analysis
August 11, 2025 ยท Declared Dead ยท ๐ IEEE Congress on Evolutionary Computation
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Authors
Tomohiro Harada, Enrique Alba, Gabriel Luque
arXiv ID
2508.07691
Category
cs.NE: Neural & Evolutionary
Citations
2
Venue
IEEE Congress on Evolutionary Computation
Last Checked
4 months ago
Abstract
Solving complex real problems often demands advanced algorithms, and then continuous improvements in the internal operations of a search technique are needed. Hybrid algorithms, parallel techniques, theoretical advances, and much more are needed to transform a general search algorithm into an efficient, useful one in practice. In this paper, we study how surrogates are helping metaheuristics from an important and understudied point of view: their energy profile. Even if surrogates are a great idea for substituting a time-demanding complex fitness function, the energy profile, general efficiency, and accuracy of the resulting surrogate-assisted metaheuristic still need considerable research. In this work, we make a first step in analyzing particle swarm optimization in different versions (including pre-trained and retrained neural networks as surrogates) for its energy profile (for both processor and memory), plus a further study on the surrogate accuracy to properly drive the search towards an acceptable solution. Our conclusions shed new light on this topic and could be understood as the first step towards a methodology for assessing surrogate-assisted algorithms not only accounting for time or numerical efficiency but also for energy and surrogate accuracy for a better, more holistic characterization of optimization and learning techniques.
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