Reachability in One-Dimensional Pushdown Vector Addition Systems is Decidable

Abstract

We consider the model of one-dimensional Pushdown Vector Addition Systems (1-PVAS), a fundamental computational model simulating both recursive and concurrent behaviours. Our main result is decidability of the reachability problem for 1-PVAS, an important open problem investigated for at least a decade. In the algorithm we actually consider an equivalent model of Grammar Vector Addition Systems (GVAS). We prove the main result by showing that for every one-dimensional GVAS (1-GVAS) one can compute another 1-GVAS, which has the same reachability relation as the original one and additionally has the so-called thin property. Due to the work of Atig and Ganty from 2011, thin 1-GVAS have decidable reachability problem, therefore our construction implies decidability of the problem for all 1-GVAS. Moreover, we also show that if reachability in thin 1-GVAS can be decided in elementary time then also reachability in all 1-GVAS can be decided in elementary time.

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