Correlative Sparsity in Primal-Dual Interior-Point Methods for LP, SDP, and SOCP
- Tokyo Institute of Technology, Department of Mathematical and Computing Sciences (Japan)
- Ewha W. University, Department of Mathematics (Korea, Republic of)
Exploiting sparsity has been a key issue in solving large-scale optimization problems. The most time-consuming part of primal-dual interior-point methods for linear programs, second-order cone programs, and semidefinite programs is solving the Schur complement equation at each iteration, usually by the Cholesky factorization. The computational efficiency is greatly affected by the sparsity of the coefficient matrix of the equation which is determined by the sparsity of an optimization problem (linear program, semidefinite program or second-order cone program). We show if an optimization problem is correlatively sparse, then the coefficient matrix of the Schur complement equation inherits the sparsity, and a sparse Cholesky factorization applied to the matrix results in no fill-in.
- OSTI ID:
- 21241987
- Journal Information:
- Applied Mathematics and Optimization, Journal Name: Applied Mathematics and Optimization Journal Issue: 1 Vol. 58; ISSN 0095-4616
- Country of Publication:
- United States
- Language:
- English
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