The abstract tile assembly model (aTam) is a model of DNA self-assembly. Most of the studies focus on cooperative aTam where a form of synchronization between the tiles is possible. Simulating Turing machines is achievable in this context. Few results and constructions are known for the non-cooperative case (a variant of Wang tilings where assemblies do not need to cover the whole plane and some mismatches may occur). Introduced by P.E. Meunier and D. Regnault, efficient paths are a non-trivial construction for non-cooperative aTam. These paths of width nlog(n) are designed with n different tile types. Assembling them relies heavily on a form of ``non-determinism''. Indeed, the set of tiles may produced different finite terminal assemblies but they all contain the same efficient path. Directed non-cooperative aTam does not allow this non-determinism as only one assembly may be produced by a tile assembly system. This variant of aTam is the only one who was shown to be decidable. In this paper, we show that if the terminal assembly of a directed non-cooperative tile assembly system is finite then its width and length are of linear size according to the size of the tile assembly system. This result implies that the construction of efficient paths cannot be generalized to the directed case and that some computation must rely on a competition between different paths. It also implies that the construction of a square of width n using 2n-1 tiles types is asymptotically optimal. Moreover, we hope that the techniques introduced here will lead to a better comprehension of the non-directed case.
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