Computer Science – Logic in Computer Science
Scientific paper
2010-07-21
Computer Science
Logic in Computer Science
Scientific paper
This paper introduces the theory and practice of formal verification of self-assembling systems. We interpret a well-studied abstraction of nanomolecular self assembly, the Abstract Tile Assembly Model (aTAM), into Computation Tree Logic (CTL), a temporal logic often used in model checking. We then consider the class of "rectilinear" tile assembly systems. This class includes most aTAM systems studied in the theoretical literature, and all (algorithmic) DNA tile self-assembling systems that have been realized in laboratories to date. We present a polynomial-time algorithm that, given a tile assembly system T as input, either provides a counterexample to T's rectilinearity or verifies whether T has a unique terminal assembly. Using partial order reductions, the verification search space for this algorithm is reduced from exponential size to O(n^2), where n x n is the size of the assembly surface. That reduction is asymptotically the best possible. We report on experimental results obtained by translating tile assembly simulator files into a Petri net format manipulable by the SMART model checking engines devised by Ciardo et al. The model checker runs in O(|T| x n^4) time, where |T| is the number of tile types in tile assembly system T, and n x n is the surface size. Atypical for a model checking problem -- in which the practical limit usually is insufficient memory to store the state space -- the limit in this case was the amount of memory required to represent the rules of the model. (Storage of the state space and of the reachability graph were small by comparison.) We discuss how to overcome this obstacle by means of a front end tailored to the characteristics of self-assembly.
No associations
LandOfFree
Formal Verification of Self-Assembling Systems does not yet have a rating. At this time, there are no reviews or comments for this scientific paper.
If you have personal experience with Formal Verification of Self-Assembling Systems, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Formal Verification of Self-Assembling Systems will most certainly appreciate the feedback.
Profile ID: LFWR-SCP-O-184392