LassoBench: A High-Dimensional Hyperparameter Optimization Benchmark Suite for Lasso

Luigi Nardi, Alexandre Gramfort, Joseph Salmon, Kenan Sehic

Research output: Contribution to conferencePaper, not in proceedingpeer-review

Abstract

While Weighted Lasso sparse regression has appealing statistical guarantees that would entail a major real-world impact in finance, genomics, and brain imaging applications, it is typically scarcely adopted due to its complex high-dimensional space composed by thousands of hyperparameters. On the other hand, the latest progress with high-dimensional hyperparameter optimization (HD-HPO) methods for black-box functions demonstrates that high-dimensional applications can indeed be efficiently optimized. Despite this initial success, HD-HPO approaches are mostly applied to synthetic problems with a moderate number of dimensions, which limits its impact in scientific and engineering applications. We propose LassoBench, the first benchmark suite tailored for Weighted Lasso regression. LassoBench consists of benchmarks for both well-controlled synthetic setups (number of samples, noise level, ambient and effective dimensionalities, and multiple fidelities) and real-world datasets, which enables the use of many flavors of HPO algorithms to be studied and extended to the high-dimensional Lasso setting. We evaluate 6 state-of-the-art HPO methods and 3 Lasso baselines, and demonstrate that Bayesian optimization and evolutionary strategies can improve over the methods commonly used for sparse regression while highlighting limitations of these frameworks in very high-dimensional and noisy settings.
Original languageEnglish
Publication statusPublished - 2022
Event1st International Conference on Automated Machine Learning (AutoML) - Baltimore, United States
Duration: 2022 Jul 252022 Jul 27

Conference

Conference1st International Conference on Automated Machine Learning (AutoML)
Country/TerritoryUnited States
CityBaltimore
Period2022/07/252022/07/27

Subject classification (UKÄ)

  • Computer Vision and Robotics (Autonomous Systems)

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