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Paper detail

An Exponential Lower Bound on the Complexity of Regularization Paths

For a variety of regularized optimization problems in machine learning, algorithms computing the entire solution path have been developed recently. Most of these methods are quadratic programs that are parameterized by a single parameter, as for example the Support Vector Machine (SVM). Solution path algorithms do not only compute the solution for one particular value of the regularization parameter but the entire path of solutions, making the selection of an optimal parameter much easier. It has been assumed that these piecewise linear solution paths have only linear complexity, i.e. linearly many bends. We prove that for the support vector machine this complexity can be exponential in the number of training points in the worst case. More strongly, we construct a single instance of n input points in d dimensions for an SVM such that at least Θ(2^{n/2}) = Θ(2^d) many distinct subsets of support vectors occur as the regularization parameter changes.

preprint2012arXivOpen access
Bernd GärtnerMartin JaggiClément Maria
Computer Visionmath.OCMachine LearningComputational Geometry
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Bernd GärtnerMartin JaggiClément Maria

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