A necessary condition on minimal cube numberings

Abstract

Let G = (V, E) be a graph with N vertices and A a set of N real numbers. Then a one-to-one mapping ϕ: V → A is called a numbering of G. The elements of A will always be assumed ordered a₁ ≦ a₂ ≦ … ≦ a_N. In [3] and [7] it was shown how to construct numberings of the n-cube, in fact all numberings, which minimize Σ_{e ∈ E} Δ_e where ∆_e = |ϕ(v) – ϕ(w)| and e is the edge between vertices v and w. A variant problem of considerable interest is to do the same for Σ_{e ∈ E} (Δ_e)². It is conjectured that when A = {1,2, …,2ⁿ} the natural numbering is the unique minimizer of Σ_{e ∈ E} (Δ_e)² for every n, but this has so far resisted all efforts. Theorem 1 in the following is the result of attempts to get weaker results, namely to thin out the ranks of those numberings which could possibly minimize Σ_{e ∈ E} (Δ_e)². The second problem posed and solved in this paper is a generalization of the results in [3], where the n-cube becomes the n-torus.