Théo Galy-Fajou scite author profile

Théo Galy-Fajou

5Publications

49Citation Statements Received

76Citation Statements Given

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Affiliations

Technische Universität Berlin, Humboldt-Universität zu Berlin

Publications

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Efficient Gaussian Process Classification Using Pólya-Gamma Data Augmentation

Wenzel¹,

Galy-Fajou

Donner

et al. 2019

AAAI

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We propose a scalable stochastic variational approach to GP classification building on Pólya-Gamma data augmentation and inducing points. Unlike former approaches, we obtain closed-form updates based on natural gradients that lead to efficient optimization. We evaluate the algorithm on real-world datasets containing up to 11 million data points and demonstrate that it is up to two orders of magnitude faster than the state-of-the-art while being competitive in terms of prediction performance.

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Bayesian Nonlinear Support Vector Machines for Big Data

Wenzel

Galy-Fajou

Deutsch

et al. 2017

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We propose a fast inference method for Bayesian nonlinear support vector machines that leverages stochastic variational inference and inducing points. Our experiments show that the proposed method is faster than competing Bayesian approaches and scales easily to millions of data points. It provides additional features over frequentist competitors such as accurate predictive uncertainty estimates and automatic hyperparameter search.

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Flexible and Efficient Inference with Particles for the Variational Gaussian Approximation

Galy-Fajou

Perrone

Opper

2021

Entropy

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Variational inference is a powerful framework, used to approximate intractable posteriors through variational distributions. The de facto standard is to rely on Gaussian variational families, which come with numerous advantages: they are easy to sample from, simple to parametrize, and many expectations are known in closed-form or readily computed by quadrature. In this paper, we view the Gaussian variational approximation problem through the lens of gradient flows. We introduce a flexible and efficient algorithm based on a linear flow leading to a particle-based approximation. We prove that, with a sufficient number of particles, our algorithm converges linearly to the exact solution for Gaussian targets, and a low-rank approximation otherwise. In addition to the theoretical analysis, we show, on a set of synthetic and real-world high-dimensional problems, that our algorithm outperforms existing methods with Gaussian targets while performing on a par with non-Gaussian targets.

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Adaptive Inducing Points Selection For Gaussian Processes

Galy-Fajou¹,

Opper²

2021

Preprint

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JuliaGaussianProcesses/AbstractGPs.jl: v0.5.1

Widmann¹,

willtebbutt²,

Galy-Fajou³

et al. 2021

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Théo Galy-Fajou

Efficient Gaussian Process Classification Using Pólya-Gamma Data Augmentation

Bayesian Nonlinear Support Vector Machines for Big Data

Flexible and Efficient Inference with Particles for the Variational Gaussian Approximation

Adaptive Inducing Points Selection For Gaussian Processes

JuliaGaussianProcesses/AbstractGPs.jl: v0.5.1

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