Degree diameter problem


In graph theory, the degree diameter problem is the problem of finding the largest possible graph G of diameter k such that the largest degree of any of the vertices in G is at most d. The size of G is bounded above by the Moore bound; for 1 < k and 2 < d only the Petersen graph, the Hoffman-Singleton graph, and possibly one more graph of diameter k = 2 and degree d = 57 attain the Moore bound. In general, the largest degree-diameter graphs are much smaller in size than the Moore bound.

Formula

Let be the maximum possible number of vertices for a graph with degree at most d and diameter k. Then, where is the Moore bound:
This bound is attained for very few graphs, thus the study moves to how close there exist graphs to the Moore bound.
For asymptotic behaviour note that.
Define the parameter. It is conjectured that for all k. It is known that and that.