Ecole d'ingénieur et centre de recherche en Sciences du numérique

Preconditioning Kernel matrices

Cutajar, Kurt; Osborne , Michael; Cunningham, John; Filippone, Maurizio

ICML 2016, International Conference on Machine Learning, June 19-24, 2016, San Francisco, USA / Also on ArXiv

The computational and storage complexity of kernel machines presents the primary barrier to their scaling to large, modern, datasets. A common way to tackle the scalability issue is to use the conjugate gradient algorithm, which relieves the constraints on both storage (the kernel matrix need not be stored) and computation (both stochastic gradients and parallelization can be used). Even so, conjugate gradient is not without its own issues: the conditioning of kernel matrices is often such that conjugate gradients will have poor convergence in practice. Preconditioning is a common approach to alleviating this issue. Here we propose preconditioned conjugate gradients for kernel machines, and develop a broad range of preconditioners particularly useful for kernel matrices. We describe a scalable approach to both solving kernel machines and learning their hyperparameters. We show this approach is exact in the limit of iterations and outperforms state-of-the-art approximations for a given computational budget.

Document Arxiv Bibtex

Titre:Preconditioning Kernel matrices
Type:Conférence
Langue:English
Ville:San Francisco
Pays:ÉTATS-UNIS
Date:
Département:Data Science
Eurecom ref:4891
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Bibtex: @inproceedings{EURECOM+4891, year = {2016}, title = {{P}reconditioning {K}ernel matrices}, author = {{C}utajar, {K}urt and {O}sborne , {M}ichael and {C}unningham, {J}ohn and {F}ilippone, {M}aurizio}, booktitle = {{ICML} 2016, {I}nternational {C}onference on {M}achine {L}earning, {J}une 19-24, 2016, {S}an {F}rancisco, {USA} / {A}lso on {A}r{X}iv}, address = {{S}an {F}rancisco, {\'{E}}{TATS}-{UNIS}}, month = {06}, url = {http://www.eurecom.fr/publication/4891} }
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