## First Steps Towards a Geometry of Computation

Citations: | 2 - 1 self |

### BibTeX

@MISC{Muskulus_firststeps,

author = {Michael Muskulus and Robert Brijder},

title = {First Steps Towards a Geometry of Computation},

year = {}

}

### OpenURL

### Abstract

Summary. We introduce a geometrical 3 setting which seems promising for the study of computation in multiset rewriting systems, but could also be applied to register machines and other models of computation. This approach will be applied here to membrane systems (also known as P systems) without dynamical membrane creation. We discuss the rôle of maximum parallelism and further simplify our model by considering only one membrane and sequential application of rules, thereby arriving at asynchronous multiset rewriting systems (AMR systems). Considering only one membrane is no restriction, as each static membrane system has an equivalent AMR system. It is further shown that AMR systems without a priority relation on the rules are equivalent to Petri Nets. For these systems we introduce the notion of asymptotically exact computation, which allows for stochastic appearance checking in a priori bounded (for some complexity measure) computations. The geometrical analogy in the lattice N d 0, d ∈ N, is developed, in which a computation corresponds to a trajectory of a random walk on the directed graph induced by the possible rule applications. Eventually this leads to symbolic dynamics on the partition generated by shifted positive cones C + p, p ∈ N d 0, which are associated with the rewriting rules, and their intersections. Complexity measures are introduced and we consider non–halting, loop–free computations and the conditions imposed on the rewriting rules. Eventually, two models of information processing, control by demand and control by availability are discussed and we end with a discussion of possible future developments. 1