Towards Physarum Binary Adders

The plasmodium feeds on microscopic food particles, including microbial life forms. The plasmodium placed in an environment with distributed nutrients develops a network of protoplasmic tubes spanning the nutrients' sources. Te topology of the plasmodium's protoplasmic network optimizes the plasmodium's harvesting on the scattered sources of nutrients and makes more efficient flow and transport of intracellular components [8,9,10,11]. The plasmodium is capable for approximation of shortest path [10], computation of planar proximity graphs [2] and plane tessellations [13], primitive memory [12], basic logical computing [15], and control of robot navigation[16]. The plasmodium can be considered as a general-purpose computer because the plasmodium simulates Kolmogorov-Uspenskii machine -- the storage modification machine operating on a colored set of graph nodes [1]. Preprint submitted to Elsevier Science 17 May 2014 The paper is structured as follows. In Sect. 2 we introduce the experimental gates invented in [15] and reinterpret the gates as multi-output logical gates.