A family of liability rules sets payments proportional to total realized losses with network-structure weights that implement efficient path selection in sequential shock games, coinciding with the Shapley value of a path-counting cooperative game and computable in polynomial time.
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The Bellman operator admits an exact block-diagonal decomposition under localized interaction structures, enabling scalable structural estimation of replacement decisions across 14,344 GPU nodes.
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Efficient liability assignment under shock propagation
A family of liability rules sets payments proportional to total realized losses with network-structure weights that implement efficient path selection in sequential shock games, coinciding with the Shapley value of a path-counting cooperative game and computable in polynomial time.
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Scalable Structural Estimation of Networked Infrastructure: Exact Decomposition for Localized Coordination
The Bellman operator admits an exact block-diagonal decomposition under localized interaction structures, enabling scalable structural estimation of replacement decisions across 14,344 GPU nodes.