English

A gradient method exploiting the two dimensional quadratic termination property

Optimization and Control 2022-09-16 v2

Abstract

The quadratic termination property is important to the efficiency of gradient methods. We consider equipping a family of gradient methods, where the stepsize is given by the ratio of two norms, with two dimensional quadratic termination. Such a desired property is achieved by cooperating with a new stepsize which is derived by maximizing the stepsize of the considered family in the next iteration. It is proved that each method in the family will asymptotically alternate in a two dimensional subspace spanned by the eigenvectors corresponding to the largest and smallest eigenvalues. Based on this asymptotic behavior, we show that the new stepsize converges to the reciprocal of the largest eigenvalue of the Hessian. Furthermore, by adaptively taking the long Barzilai--Borwein stepsize and reusing the new stepsize with retard, we propose an efficient gradient method for unconstrained quadratic optimization. We prove that the new method is RR-linearly convergent with a rate of 11/κ1-1/\kappa, where κ\kappa is the condition number of Hessian. Numerical experiments show the efficiency of our proposed method.

Keywords

Cite

@article{arxiv.2208.03501,
  title  = {A gradient method exploiting the two dimensional quadratic termination property},
  author = {Xinrui Li and Yakui Huang},
  journal= {arXiv preprint arXiv:2208.03501},
  year   = {2022}
}

Comments

21 pages

R2 v1 2026-06-25T01:32:08.047Z