A Model-Based Derivative-Free Optimization Algorithm for Partially Separable Problems

2025

We propose UPOQA, a derivative-free optimization algorithm for partially separable unconstrained problems, leveraging quadratic interpolation and a structured trust-region framework. By decomposing the objective into element functions, UPOQA constructs underdetermined element models and solves subproblems efficiently via a modified projected gradient method. Innovations include an approximate projection operator for structured trust regions, improved management of elemental radii and models, a starting point search mechanism, and support for hybrid black-white-box optimization, etc. Numerical experiments on 85 CUTEst problems demonstrate that UPOQA can significantly reduce the number of function evaluations. To quantify the impact of exploiting partial separability, we introduce the speed-up profile to further evaluate the acceleration effect. Results show that the acceleration benefits of UPOQA are marginal in low-precision scenarios but become more pronounced in high-precision scenarios. Applications to quantum variational problems further validate its practical utility.
27 pages, 7 figures

Working Paper

Optimization and Control