Quantum Algorithms for Structured Prediction
September 11, 2018 ยท Declared Dead ยท ๐ Quantum Machine Intelligence
"No code URL or promise found in abstract"
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Authors
Behrooz Sepehry, Ehsan Iranmanesh, Michael P. Friedlander, Pooya Ronagh
arXiv ID
1809.04091
Category
cs.LG: Machine Learning
Cross-listed
cs.CC,
math.OC,
quant-ph,
stat.ML
Citations
2
Venue
Quantum Machine Intelligence
Last Checked
4 months ago
Abstract
We introduce two quantum algorithms for solving structured prediction problems. We first show that a stochastic gradient descent that uses the quantum minimum finding algorithm and takes its probabilistic failure into account solves the structured prediction problem with a runtime that scales with the square root of the size of the label space, and in $\widetilde O\left(1/ฮต\right)$ with respect to the precision, $ฮต$, of the solution. Motivated by robust inference techniques in machine learning, we then introduce another quantum algorithm that solves a smooth approximation of the structured prediction problem with a similar quantum speedup in the size of the label space and a similar scaling in the precision parameter. In doing so, we analyze a variant of stochastic gradient descent for convex optimization in the presence of an additive error in the calculation of the gradients, and show that its convergence rate does not deteriorate if the additive errors are of the order $O(\sqrtฮต)$. This algorithm uses quantum Gibbs sampling at temperature $ฮฉ(ฮต)$ as a subroutine. Based on these theoretical observations, we propose a method for using quantum Gibbs samplers to combine feedforward neural networks with probabilistic graphical models for quantum machine learning. Our numerical results using Monte Carlo simulations on an image tagging task demonstrate the benefit of the approach.
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