Combinatorial cube packings in cube and torus

Abstract

We consider sequential random packing of cubes z+[0,1]n with z∈ 1Nn into the cube [0,2]n and the torus n2n as N∞. In the cube case [0,2]n as N∞ the random cube packings thus obtained are reduced to a single cube with probability 1-O(1N). In the torus case the situation is different: for n≤ 2, sequential random cube packing yields cube tilings, but for n≥ 3 with strictly positive probability, one obtains non-extensible cube packings. So, we introduce the notion of combinatorial cube packing, which instead of depending on N depend on some parameters. We use use them to derive an expansion of the packing density in powers of 1N. The explicit computation is done in the cube case. In the torus case, the situation is more complicate and we restrict ourselves to the case N∞ of strictly positive probability. We prove the following results for torus combinatorial cube packings: We give a general Cartesian product construction. We prove that the number of parameters is at least n(n+1)2 and we conjecture it to be at most 2n-1. We prove that cube packings with at least 2n-3 cubes are extensible. We find the minimal number of cubes in non-extensible cube packings for n odd and n≤ 6.