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How bad are the BFGS and DFP methods when the objective function is quadratic?(English)Zbl 0581.90068

We study the use of the BFGS and DFP algorithms with step-lengths of one for minimizing quadratic functions of only two variables. The updating formulae in this case imply nonlinear three term recurrence relations between the eigenvalues of consecutive second derivative approximations, which are analysed in order to explain some gross inefficiencies that can occur. Specifically, the BFGS algorithm may require more than 10 iterations to achieve the first decimal place of accuracy, while the performance of the DFP method is far worse. The results help to explain why the DFP method is often less suitable than the BFGS algorithm for general unconstrained optimization calculations, and they show that quadratic functions provide much information about efficiency when the current vector of variables is too far from the solution for an asymptotic convergence analysis.

MSC:

90C20 Quadratic programming
65K05 Numerical mathematical programming methods

Cite

References:

[1]R. Fletcher, ”A new approach to variable metric algorithms”,The Computer Journal 13 (1970) 317–322. ·Zbl 0207.17402 ·doi:10.1093/comjnl/13.3.317
[2]R. Fletcher,Practical methods of optimization, Vol. 1: Unconstrained optimization (John Wiley & Sons, Chichester, 1980). ·Zbl 0439.93001
[3]M.J.D. Powell, ”On the rate of convergence of variable metric algorithms for unconstrained optimization”, Report DAMTP 1983/NA7 (Cambridge, 1983), to appear in theProceedings of the International Congress of Mathematicians, Warsaw 1983 (Polish Scientific Publishers, Warsaw, 1984) pp. 1525–1539.
This reference list is based on information provided by the publisher or from digital mathematics libraries. Its items are heuristically matched to zbMATH identifiers and may contain data conversion errors. In some cases that data have been complemented/enhanced by data from zbMATH Open. This attempts to reflect the references listed in the original paper as accurately as possible without claiming completeness or a perfect matching.
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