Gilles Louppe scite author profile

Many domains of science have developed complex simulations to describe phenomena of interest. While these simulations provide high-fidelity models, they are poorly suited for inference and lead to challenging inverse problems. We review the rapidly developing field of simulation-based inference and identify the forces giving additional momentum to the field. Finally, we describe how the frontier is expanding so that a broad audience can appreciate the profound influence these developments may have on science.

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Robust EEG-based cross-site and cross-protocol classification of states of consciousness

Engemann

Raimondo

et al. 2018

254

270

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Scikit-learn

Varoquaux

Buitinck

Louppe

et al. 2015

GetMobile: Mobile Comp. and Comm.

582

242

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Machine learning is a pervasive development at the intersection of statistics and computer science. While it can benefit many data-related applications, the technical nature of the research literature and the corresponding algorithms slows down its adoption. Scikit-learn is an open-source software project that aims at making machine learning accessible to all, whether it be in academia or in industry. It benefits from the general-purpose Python language, which is both broadly adopted in the scientific world, and supported by a thriving ecosystem of contributors. Here we give a quick introduction to scikit-learn as well as to machine-learning basics.

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A guide to constraining effective field theories with machine learning

et al. 2018

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We develop, discuss, and compare several inference techniques to constrain theory parameters in collider experiments. By harnessing the latent-space structure of particle physics processes, we extract extra information from the simulator. This augmented data can be used to train neural networks that precisely estimate the likelihood ratio. The new methods scale well to many observables and high-dimensional parameter spaces, do not require any approximations of the parton shower and detector response, and can be evaluated in microseconds. Using weak-boson-fusion Higgs production as an example process, we compare the performance of several techniques. The best results are found for likelihood ratio estimators trained with extra information about the score, the gradient of the log likelihood function with respect to the theory parameters. The score also provides sufficient statistics that contain all the information needed for inference in the neighborhood of the Standard Model. These methods enable us to put significantly stronger bounds on effective dimension-six operators than the traditional approach based on histograms. They also outperform generic machine learning methods that do not make use of the particle physics structure, demonstrating their potential to substantially improve the new physics reach of the LHC legacy results. CONTENTS1 Exceptions can arise for instance when particle masses or widths depend on the parameters of interest. But in an EFT setting one can expand these quantities in 1/Λ, restoring the factorization.

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API design for machine learning software: experiences from the scikit-learn project

Buitinck¹,

Louppe²,

Blondel³

et al. 2013

Preprint

229

182

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scikit-learn is an increasingly popular machine learning library. Written in Python, it is designed to be simple and efficient, accessible to non-experts, and reusable in various contexts. In this paper, we present and discuss our design choices for the application programming interface (API) of the project. In particular, we describe the simple and elegant interface shared by all learning and processing units in the library and then discuss its advantages in terms of composition and reusability. The paper also comments on implementation details specific to the Python ecosystem and analyzes obstacles faced by users and developers of the library.

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Gilles Louppe

The frontier of simulation-based inference

Robust EEG-based cross-site and cross-protocol classification of states of consciousness

Scikit-learn

A guide to constraining effective field theories with machine learning

API design for machine learning software: experiences from the scikit-learn project

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