Model Checking is widely applied in verifying complicated and especially concurrent systems. Despite of its popularity, model checking suffers from the state space explosion problem that restricts it from being applied to certain systems, or specifications. Many works have been proposed in the past to address the state space explosion problem, and they have achieved some success, but the inherent complexity still remains an obstacle for purely symbolic approaches. In this paper, we propose a Graph Neural Network (GNN) based approach for model checking, where the model is expressed using a B{\"u}chi automaton and the property to be verified is expressed using Linear Temporal Logic (LTL). We express the model as a GNN, and propose a novel node embedding framework that encodes the LTL property and characteristics of the model. We reduce the LTL model checking problem to a graph classification problem, where there are two classes, 1 (if the model satisfies the specification) and 0 (if the model does not satisfy the specification). The experimental results show that our framework is up to 17 times faster than state-of-the-art tools. Our approach is particularly useful when dealing with very large LTL formulae and small to moderate sized models.
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