Multilateral Clearing on Invoice Graphs: Path Enabled Compensation Versus Cycle Restricted Netting

Late payments and limited working capital propagate liquidity stress across supply chains, especially among small and medium sized enterprises. This paper develops a path enabled clearing framework for invoice backed trade networks and evaluates Byppay, a local compensation procedure based on repeated three party reductions. Unlike cycle restricted netting, which can clear only obligations embedded in directed cycles, Byppay can also reduce obligations along open chains while preserving node net positions on a combined post settlement state composed of the residual invoice graph and a generated settlement instruction layer. The paper contributes by formalizing this framework for invoice networks, defining a comparable post settlement metric system, specifying deterministic benchmark procedures, and assessing them on the same real invoice graphs. The empirical analysis uses the 2021 IMI invoice corpus of 133,191 invoices totaling EUR 19.67 billion. On the annual aggregate, the cycle restricted Netting benchmark achieves EUR 4.13 billion of debt relief, or 20.99%, whereas Byppay achieves EUR 10.60 billion, or 53.87%. In the metric system adopted here, gross obligation reduction and liquidity relief are both measured on post settlement payable mass and are therefore identical for both procedures. The results show that path enabled local compensation reaches a substantially larger reduction fixed point than a cycle restricted benchmark on the same invoice graphs, while also supporting a deployable execution logic compatible with selective disclosure and distributed coordination.