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ES-ENAS: Efficient Evolutionary Optimization for Large Hybrid Search Spaces paper by Xingyou Song
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ES-ENAS: Efficient Evolutionary Optimization for Large Hybrid Search Spaces

by Xingyou Song ID: arxiv-paper--2101.07415

In this paper, we approach the problem of optimizing blackbox functions over large hybrid search spaces consisting of both combinatorial and continuous parameters. We demonstrate that previous evolutionary algorithms which rely on mutation-based approaches, while flexible over combinatorial spaces, ...

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BibTeX 
@misc{arxiv_paper__2101.07415,
  author = {Xingyou Song},
  title = {ES-ENAS: Efficient Evolutionary Optimization for Large Hybrid Search Spaces Paper},
  year = {2026},
  howpublished = {\url{https://arxiv.org/abs/2101.07415v6}},
  note = {Accessed via Free2AITools Knowledge Fortress}
}
APA Style
Xingyou Song. (2026). ES-ENAS: Efficient Evolutionary Optimization for Large Hybrid Search Spaces [Paper]. Free2AITools. https://arxiv.org/abs/2101.07415v6

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πŸ“ Executive Summary

"In this paper, we approach the problem of optimizing blackbox functions over large hybrid search spaces consisting of both combinatorial and continuous parameters. We demonstrate that previous evolutionary algorithms which rely on mutation-based approaches, while flexible over combinatorial spaces, suffer from a curse of dimensionality in high dimensional continuous spaces both theoretically and empirically, which thus limits their scope over hybrid search spaces as well. In order to combat t..."

❝ Cite Node 

@article{Song2021ES-ENAS:,
  title={ES-ENAS: Efficient Evolutionary Optimization for Large Hybrid Search Spaces},
  author={Xingyou Song and Krzysztof Choromanski and Jack Parker-Holder and Yunhao Tang and Qiuyi Zhang and Daiyi Peng and Deepali Jain and Wenbo Gao and Aldo Pacchiano and Tamas Sarlos and Yuxiang Yang},
  journal={arXiv preprint arXiv:arxiv-paper--2101.07415},
  year={2021}
}

πŸ‘₯ Collaborating Minds

Xingyou Song Krzysztof Choromanski Jack Parker-Holder Yunhao Tang Qiuyi Zhang Daiyi Peng Deepali Jain Wenbo Gao Aldo Pacchiano Tamas Sarlos Yuxiang Yang

Abstract & Analysis

In this paper, we approach the problem of optimizing blackbox functions over large hybrid search spaces consisting of both combinatorial and continuous parameters. We demonstrate that previous evolutionary algorithms which rely on mutation-based approaches, while flexible over combinatorial spaces, suffer from a curse of dimensionality in high dimensional continuous spaces both theoretically and empirically, which thus limits their scope over hybrid search spaces as well. In order to combat this curse, we propose ES-ENAS, a simple and modular joint optimization procedure combining the class of sample-efficient smoothed gradient techniques, commonly known as Evolutionary Strategies (ES), with combinatorial optimizers in a highly scalable and intuitive way, inspired by the one-shot or supernet paradigm introduced in Efficient Neural Architecture Search (ENAS). By doing so, we achieve significantly more sample efficiency, which we empirically demonstrate over synthetic benchmarks, and are further able to apply ES-ENAS for architecture search over popular RL benchmarks.

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πŸ†” Identity & Source

id
arxiv-paper--2101.07415
source
arxiv
author
Xingyou Song
tags
arxiv:cs.LGarxiv:cs.NEarxiv:cs.RO

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