On constructing small subgraphs in the budget-constrained random graph process

Abstract

Consider the budget-constrained random graph process introduced by Frieze, Krivelevich and Michaeli, where each time an edge is offered through the (standard) random graph process we must irrevocably decide whether to "purchase" this edge or not, with our goal being to construct a graph which satisfies some property within a given time t and while purchasing at most b edges. We consider the problem of constructing graphs containing certain fixed small subgraphs. We provide an optimal strategy for building a graph which contains a copy of K4, showing that budget b=ω(\n8/t5,n2/t\) suffices and that if b=o(\n8/t5,n2/t\) then no strategy can a.a.s. produce a graph containing a copy of K4. This resolves a problem raised by Ilkovic, Le\'on and Shu. More generally, we obtain analogously tight results for containing a wheel of any fixed size, or a graph consisting of a tree plus one additional universal vertex. We also tackle the problem of constructing graphs containing a copy of K5, obtaining both lower and upper bounds on the optimal budget, though a gap remains in this case.