Credit selection in collateralized loan obligation: Efficient approximation through linearization and clustering

•CLOs help channel funds to SMEs and strengthen real-economy financing.•Securitization lowers SME funding costs for financial institutions.•Loan selection is an NP-hard mixed-integer nonlinear optimization task.•Large pool approximation, linearization, and clustering improve efficiency.•Method outpe...

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Vydané v:European journal of operational research
Hlavní autori: Germain, Arnaud, Vrins, Frédéric
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: Elsevier B.V 01.11.2025
Predmet:
Collateralized loan obligation
Mixed-integer nonlinear programming
OR in banking
Portfolio optimization
Portfolio optimization
Collateralized loan obligation
OR in banking
Mixed-integer nonlinear programming
ISSN:0377-2217
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Popis
Shrnutí:•CLOs help channel funds to SMEs and strengthen real-economy financing.•Securitization lowers SME funding costs for financial institutions.•Loan selection is an NP-hard mixed-integer nonlinear optimization task.•Large pool approximation, linearization, and clustering improve efficiency.•Method outperforms derivative-free algorithms in speed and solution quality. Despite its role in the global financial crisis, collateralized loan obligation (CLO) remains a powerful tool to direct funds towards the real economy. In particular, it enables development banks to increase credit supply to small and medium-sized enterprises (SMEs). Public financial institutions thus face the challenge of identifying a subset of credits to be pooled in a CLO for the sake of reaching a specific financial target. The resulting problem is a mixed-integer nonlinear program, which is NP-hard. In this paper, we propose an approximate optimization problem that combines a large pool approximation, linearization of ancillary variables, and clustering. This approximate optimization problem delivers a solution (i) that improves the value of the objective function under the exact criterion compared to the solution of a derivative-free mixed-integer algorithm solving the exact problem and (ii) in a much lower computation time. As illustration, we consider two realistic CLO objective functions. We rely on the celebrated one-factor Gaussian copula in the main examples, but make clear that this assumption is not a restriction and can be relaxed. Our results contribute to reduce the funding cost of SMEs and are of direct interest for securitization stakeholders such as public financial institutions, commercial banks and pension funds.
ISSN:0377-2217
DOI:10.1016/j.ejor.2025.11.015