Bayesian optimization for selecting efficient machine learning models
L Wang, F Dernoncourt, T Bui - arXiv preprint arXiv:2008.00386, 2020 - arxiv.org
L Wang, F Dernoncourt, T Bui
arXiv preprint arXiv:2008.00386, 2020•arxiv.orgThe performance of many machine learning models depends on their hyper-parameter
settings. Bayesian Optimization has become a successful tool for hyper-parameter
optimization of machine learning algorithms, which aims to identify optimal hyper-
parameters during an iterative sequential process. However, most of the Bayesian
Optimization algorithms are designed to select models for effectiveness only and ignore the
important issue of model training efficiency. Given that both model effectiveness and training …
settings. Bayesian Optimization has become a successful tool for hyper-parameter
optimization of machine learning algorithms, which aims to identify optimal hyper-
parameters during an iterative sequential process. However, most of the Bayesian
Optimization algorithms are designed to select models for effectiveness only and ignore the
important issue of model training efficiency. Given that both model effectiveness and training …
The performance of many machine learning models depends on their hyper-parameter settings. Bayesian Optimization has become a successful tool for hyper-parameter optimization of machine learning algorithms, which aims to identify optimal hyper-parameters during an iterative sequential process. However, most of the Bayesian Optimization algorithms are designed to select models for effectiveness only and ignore the important issue of model training efficiency. Given that both model effectiveness and training time are important for real-world applications, models selected for effectiveness may not meet the strict training time requirements necessary to deploy in a production environment. In this work, we present a unified Bayesian Optimization framework for jointly optimizing models for both prediction effectiveness and training efficiency. We propose an objective that captures the tradeoff between these two metrics and demonstrate how we can jointly optimize them in a principled Bayesian Optimization framework. Experiments on model selection for recommendation tasks indicate models selected this way significantly improves model training efficiency while maintaining strong effectiveness as compared to state-of-the-art Bayesian Optimization algorithms.
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