Runtime Analysis of Evolutionary NAS for Multiclass Classification

June 06, 2025 ยท Declared Dead ยท ๐Ÿ› International Conference on Machine Learning

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Authors Zeqiong Lv, Chao Qian, Yun Liu, Jiahao Fan, Yanan Sun arXiv ID 2506.06019 Category cs.NE: Neural & Evolutionary Citations 0 Venue International Conference on Machine Learning Last Checked 4 months ago
Abstract
Evolutionary neural architecture search (ENAS) is a key part of evolutionary machine learning, which commonly utilizes evolutionary algorithms (EAs) to automatically design high-performing deep neural architectures. During past years, various ENAS methods have been proposed with exceptional performance. However, the theory research of ENAS is still in the infant. In this work, we step for the runtime analysis, which is an essential theory aspect of EAs, of ENAS upon multiclass classification problems. Specifically, we first propose a benchmark to lay the groundwork for the analysis. Furthermore, we design a two-level search space, making it suitable for multiclass classification problems and consistent with the common settings of ENAS. Based on both designs, we consider (1+1)-ENAS algorithms with one-bit and bit-wise mutations, and analyze their upper and lower bounds on the expected runtime. We prove that the algorithm using both mutations can find the optimum with the expected runtime upper bound of $O(rM\ln{rM})$ and lower bound of $ฮฉ(rM\ln{M})$. This suggests that a simple one-bit mutation may be greatly considered, given that most state-of-the-art ENAS methods are laboriously designed with the bit-wise mutation. Empirical studies also support our theoretical proof.
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