Evolutionary Neural Architecture Search with Semi-supervised Accuracy Predictor

2022 4th International Conference on Control and Robotics (ICCR) Pub Date : 2022-12-02 DOI:10.1109/ICCR55715.2022.10053920

Songyi Xiao, Bo Zhao, Derong Liu

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Abstract

Neural architecture search (NAS) has low efficiency in evaluating a large number of candidate architectures. As an efficient evaluation method, accuracy predictor-based NAS algorithms have become popular because the performance (accuracy) can be evaluated without training the candidate architectures. However, accuracy predictors still need some evaluated architectures that are difficult to train for achieving promising performance. In order to break this bottleneck, we investigate a semi-supervised accuracy predictor-based evolutionary NAS method (MSNAS) which requires only a small number of evaluated neural architectures. The accuracy predictor obtains high prediction performance by extracting the evaluated architectures, strong regressors and truncation mechanism. To find truly high-accuracy candidate architectures more easily, the multi-objective optimization method is presented to trade-off the prediction accuracy and confidence of candidate architectures. The MSNAS variants from different strong regressors are employed to validate the competitive performance of the MSNAS on NAS-Bench 201.

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基于半监督精度预测器的进化神经结构搜索

神经结构搜索(NAS)在评估大量候选结构时效率较低。作为一种高效的评估方法，基于精度预测器的NAS算法由于无需训练候选体系结构即可评估其性能(精度)而受到广泛欢迎。然而，准确性预测器仍然需要一些难以训练以实现有希望的性能的评估架构。为了打破这一瓶颈，我们研究了一种基于半监督精度预测器的进化NAS方法(MSNAS)，该方法只需要少量的评估神经结构。准确度预测器通过提取被评估的体系结构、强回归量和截断机制获得较高的预测性能。为了更容易地找到真正高精度的候选体系结构，提出了一种权衡候选体系结构预测精度和置信度的多目标优化方法。采用不同强回归量的MSNAS变量在NAS-Bench 201上验证了MSNAS的竞争性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 4th International Conference on Control and Robotics (ICCR)

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