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OptiProxy-NAS: Optimization Proxy based End-to-End Neural Architecture Search

Machine Learning 2025-09-09 v1 Artificial Intelligence

Abstract

Neural architecture search (NAS) is a hard computationally expensive optimization problem with a discrete, vast, and spiky search space. One of the key research efforts dedicated to this space focuses on accelerating NAS via certain proxy evaluations of neural architectures. Different from the prevalent predictor-based methods using surrogate models and differentiable architecture search via supernetworks, we propose an optimization proxy to streamline the NAS as an end-to-end optimization framework, named OptiProxy-NAS. In particular, using a proxy representation, the NAS space is reformulated to be continuous, differentiable, and smooth. Thereby, any differentiable optimization method can be applied to the gradient-based search of the relaxed architecture parameters. Our comprehensive experiments on 1212 NAS tasks of 44 search spaces across three different domains including computer vision, natural language processing, and resource-constrained NAS fully demonstrate the superior search results and efficiency. Further experiments on low-fidelity scenarios verify the flexibility.

Keywords

Cite

@article{arxiv.2509.05656,
  title  = {OptiProxy-NAS: Optimization Proxy based End-to-End Neural Architecture Search},
  author = {Bo Lyu and Yu Cui and Tuo Shi and Ke Li},
  journal= {arXiv preprint arXiv:2509.05656},
  year   = {2025}
}
R2 v1 2026-07-01T05:24:16.244Z