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Exact numerical calculation of fixation probability and time on graphs

The Moran process on graphs is a popular model to study the dynamics of evolution in a spatially structured population. Exact analytical solutions for the fixation probability and time of a new mutant have been found for only a few classes of graphs so far. Simulations are time-expensive and many realizations are necessary, as the variance of the fixation times is high. We present an algorithm that numerically computes these quantities for arbitrary small graphs by an approach based on the transition matrix. The advantage over simulations is that the calculation has to be executed only once. Building the transition matrix is automated by our algorithm. This enables a fast and interactive study of different graph structures and their effect on fixation probability and time. We provide a fast implementation in C with this note https://github.com/hindersin/efficientFixation. Our code is very flexible, as it can handle two different update mechanisms (Birth-death or death-Birth), as well as arbitrary directed or undirected graphs.

preprint2016arXivOpen access
Laura HindersinMarius MöllerArne TraulsenBenedikt Bauer
Populations and Evolution
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Open access4 authors1 topic
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Laura HindersinMarius MöllerArne TraulsenBenedikt Bauer

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