The content discusses the problem of cut selection in solving mixed-integer linear programs (MILPs), which is crucial for the efficiency of MILP solvers. The authors observe that cut selection heavily depends on three key aspects: (P1) which cuts to prefer, (P2) how many cuts to select, and (P3) what order of selected cuts to prefer.
To address these challenges, the authors propose a novel hierarchical sequence/set model (HEM) that learns cut selection policies via reinforcement learning. HEM is a bi-level model:
This formulation allows HEM to capture the underlying order information and the interaction among cuts, which is crucial for tackling (P3) and selecting complementary cuts, respectively.
The authors demonstrate that HEM significantly and consistently outperforms competitive baselines on eleven challenging MILP benchmarks, including two Huawei's real problems. The results show the promising potential of HEM for enhancing modern MILP solvers in real-world applications.
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by Jie Wang,Zhi... às arxiv.org 04-22-2024
https://arxiv.org/pdf/2404.12638.pdfPerguntas Mais Profundas