Abstract
The concept of a partially separable functionf developed in [4] is generalized to include all functionsf that can be expressed as a finite sum of element functionsf i whose Hessians have nontrivial nullspacesN i , Such functions can be efficiently minimized by the partitioned variable metric methods described in [5], provided that each element functionf i is convex. If this condition is not satisfied, we attempt toconvexify the given decomposition by shifting quadratic terms among the originalf i such that the resulting modified element functions are at least locally convex. To avoid tests on the numerical value of the Hessian, we study the totally convex case where all locally convexf with the separability structureN 1i have a convex decomposition. It is shown that total convexity only depends on the associated linear conditions on the Hessian matrix. In the sparse case, when eachN i is spanned by Cartesian basis vectors, it is shown that a sparsity pattern corresponds to a totally convex structure if and only if it allows a (permuted) LDLT factorization without fill-in.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
G. Debreu and T.C. Koopmans, “Additively decomposed quasiconvex functions”,Mathematical Programming 24 (1982) 1–38.
F. Gavril, “Algorithms for minimum coloring, maximum clique, minimum coloring by cliques and maximum independent set of a chordal graph”,SIAM Journal on Computing 1 (1972) 180–187.
C.M. Golumbic,Algorithmic graph theory and perfect graphs (Academic Press, New York, 1980).
A. Griewank and Ph.L. Toint, “On the unconstrained optimization of partially separable functions”, in: M.J.D. Powell, ed.,Nonlinear optimization 1981 (Academic Press, New York, 1982) pp. 301–312.
A. Griewank and Ph.L. Toint, “Partitioned variable metric updates for large structured optimization problems”,Numerische Mathematik 39 (1982) 119–137.
A. Griewank and Ph.L. Toint, “Local convergence analysis for partitioned quasi-Newton updates”,Numerische Mathematik 39 (1982) 429–448.
G.G. Lorentz, “The 13th Problem of Hilbert”, in:Mathematical developments arising from Hilbert problems (Proceedings of Symposia in Pure Mathematics, 28, Part 2, American Mathematical Society, 1976) pp. 419–430.
D.J. Rose, R.E. Tarjan and G.S. Lueker, “Algorithmic aspects of vertex climination on graphs”,SIAM Journal on Computing 5 (1976) 266–283.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Griewank, A., Toint, P.L. On the existence of convex decompositions of partially separable functions. Mathematical Programming 28, 25–49 (1984). https://doi.org/10.1007/BF02612711
Received:
Revised:
Issue Date:
DOI: https://doi.org/10.1007/BF02612711