Accelerated Bayesian optimization through weight-prior tuning

Alistair Shilton; Sunil Gupta; Santu Rana; Pratibha Vellanki; Laurence Park; Cheng Li; Svetha Venkatesh; Thomas Dorin; Alessandra Sutti; David Rubin; Teo Slezak; Alireza Vahid; Murray Height

Accelerated Bayesian optimization through weight-prior tuning

Alistair Shilton
, Sunil Gupta
, Santu Rana
, Pratibha Vellanki
, Laurence Park
, Cheng Li
, Svetha Venkatesh
, Thomas Dorin
, Alessandra Sutti
, David Rubin
, Teo Slezak
, Alireza Vahid
, Murray Height

Research output: Chapter in Book / Conference Paper › Conference Paper › peer-review

Abstract

Bayesian optimization (BO) is a widely-used method for optimizing expensive (to evaluate) problems. At the core of most BO methods is the modeling of the objective function using a Gaussian Process (GP) whose covariance is selected from a set of standard covariance functions. From a weight-space view, this models the objective as a linear function in a feature space implied by the given covariance K, with an arbitrary Gaussian weight prior w ~ N(0; I). In many practical applications there is data available that has a similar (covariance) structure to the objective, but which, having different form, cannot be used directly in standard transfer learning. In this paper we show how such auxiliary data may be used to construct a GP covariance corresponding to a more appropriate weight prior for the objective function. Building on this, we show that we may accelerate BO by modeling the objective function using this (learned) weight prior, which we demonstrate on both test functions and a practical application to short-polymer fibre manufacture.

Original language	English
Title of host publication	Proceedings of the 23rd International Conference on Artificial Intelligence and Statistics (AISTATS), 26 - 28 August 2020, Palermo, Italy
Publisher	Society for Artificial Intelligence and Statistics
Pages	635-645
Number of pages	11
Volume	108
Publication status	Published - 2020
Event	International Conference on Artificial Intelligence and Statistics - Duration: 26 Aug 2020 → …

Publication series

Name
ISSN (Print)	2640-3498

Conference

Conference	International Conference on Artificial Intelligence and Statistics
Period	26/08/20 → …

Bibliographical note

Publisher Copyright:
Copyright © 2020 by the author(s)

Keywords

Bayesian statistical decision theory
mathematical optimization

Cite this

Shilton, A., Gupta, S., Rana, S., Vellanki, P., Park, L., Li, C., Venkatesh, S., Dorin, T., Sutti, A., Rubin, D., Slezak, T., Vahid, A., & Height, M. (2020). Accelerated Bayesian optimization through weight-prior tuning. In Proceedings of the 23rd International Conference on Artificial Intelligence and Statistics (AISTATS), 26 - 28 August 2020, Palermo, Italy (Vol. 108, pp. 635-645). Society for Artificial Intelligence and Statistics.

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title = "Accelerated Bayesian optimization through weight-prior tuning",

abstract = "Bayesian optimization (BO) is a widely-used method for optimizing expensive (to evaluate) problems. At the core of most BO methods is the modeling of the objective function using a Gaussian Process (GP) whose covariance is selected from a set of standard covariance functions. From a weight-space view, this models the objective as a linear function in a feature space implied by the given covariance K, with an arbitrary Gaussian weight prior w \textasciitilde{} N(0; I). In many practical applications there is data available that has a similar (covariance) structure to the objective, but which, having different form, cannot be used directly in standard transfer learning. In this paper we show how such auxiliary data may be used to construct a GP covariance corresponding to a more appropriate weight prior for the objective function. Building on this, we show that we may accelerate BO by modeling the objective function using this (learned) weight prior, which we demonstrate on both test functions and a practical application to short-polymer fibre manufacture.",

keywords = "Bayesian statistical decision theory, mathematical optimization",

author = "Alistair Shilton and Sunil Gupta and Santu Rana and Pratibha Vellanki and Laurence Park and Cheng Li and Svetha Venkatesh and Thomas Dorin and Alessandra Sutti and David Rubin and Teo Slezak and Alireza Vahid and Murray Height",

note = "Publisher Copyright: Copyright {\textcopyright} 2020 by the author(s); International Conference on Artificial Intelligence and Statistics ; Conference date: 26-08-2020",

year = "2020",

language = "English",

volume = "108",

publisher = "Society for Artificial Intelligence and Statistics",

pages = "635--645",

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Shilton, A, Gupta, S, Rana, S, Vellanki, P, Park, L, Li, C, Venkatesh, S, Dorin, T, Sutti, A, Rubin, D, Slezak, T, Vahid, A & Height, M 2020, Accelerated Bayesian optimization through weight-prior tuning. in Proceedings of the 23rd International Conference on Artificial Intelligence and Statistics (AISTATS), 26 - 28 August 2020, Palermo, Italy. vol. 108, Society for Artificial Intelligence and Statistics, pp. 635-645, International Conference on Artificial Intelligence and Statistics, 26/08/20.

Accelerated Bayesian optimization through weight-prior tuning. / Shilton, Alistair; Gupta, Sunil; Rana, Santu et al.
Proceedings of the 23rd International Conference on Artificial Intelligence and Statistics (AISTATS), 26 - 28 August 2020, Palermo, Italy. Vol. 108 Society for Artificial Intelligence and Statistics, 2020. p. 635-645.

Research output: Chapter in Book / Conference Paper › Conference Paper › peer-review

TY - GEN

T1 - Accelerated Bayesian optimization through weight-prior tuning

AU - Shilton, Alistair

AU - Gupta, Sunil

AU - Rana, Santu

AU - Vellanki, Pratibha

AU - Park, Laurence

AU - Li, Cheng

AU - Venkatesh, Svetha

AU - Dorin, Thomas

AU - Sutti, Alessandra

AU - Rubin, David

AU - Slezak, Teo

AU - Vahid, Alireza

AU - Height, Murray

PY - 2020

Y1 - 2020

N2 - Bayesian optimization (BO) is a widely-used method for optimizing expensive (to evaluate) problems. At the core of most BO methods is the modeling of the objective function using a Gaussian Process (GP) whose covariance is selected from a set of standard covariance functions. From a weight-space view, this models the objective as a linear function in a feature space implied by the given covariance K, with an arbitrary Gaussian weight prior w ~ N(0; I). In many practical applications there is data available that has a similar (covariance) structure to the objective, but which, having different form, cannot be used directly in standard transfer learning. In this paper we show how such auxiliary data may be used to construct a GP covariance corresponding to a more appropriate weight prior for the objective function. Building on this, we show that we may accelerate BO by modeling the objective function using this (learned) weight prior, which we demonstrate on both test functions and a practical application to short-polymer fibre manufacture.

AB - Bayesian optimization (BO) is a widely-used method for optimizing expensive (to evaluate) problems. At the core of most BO methods is the modeling of the objective function using a Gaussian Process (GP) whose covariance is selected from a set of standard covariance functions. From a weight-space view, this models the objective as a linear function in a feature space implied by the given covariance K, with an arbitrary Gaussian weight prior w ~ N(0; I). In many practical applications there is data available that has a similar (covariance) structure to the objective, but which, having different form, cannot be used directly in standard transfer learning. In this paper we show how such auxiliary data may be used to construct a GP covariance corresponding to a more appropriate weight prior for the objective function. Building on this, we show that we may accelerate BO by modeling the objective function using this (learned) weight prior, which we demonstrate on both test functions and a practical application to short-polymer fibre manufacture.

KW - Bayesian statistical decision theory

KW - mathematical optimization

UR - https://hdl.handle.net/1959.7/uws:58239

M3 - Conference Paper

VL - 108

SP - 635

EP - 645

BT - Proceedings of the 23rd International Conference on Artificial Intelligence and Statistics (AISTATS), 26 - 28 August 2020, Palermo, Italy

PB - Society for Artificial Intelligence and Statistics

T2 - International Conference on Artificial Intelligence and Statistics

Y2 - 26 August 2020

ER -

Accelerated Bayesian optimization through weight-prior tuning

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