Paper 5 of an 8 part series. This paper investigates the holographic and informational structure of the Ghost Dual Complex within the Honeyverse framework. Constructed from the negative space of the Honeycomb Unit (HU) lattice, the ghost complex expands through a forced combinatorial doubling rule that generates a hierarchy of adjacency layers. These layers form discrete boundaries that encode information about the interior structure of the primal HU lattice, providing a natural holographic correspondence between local geometry and global combinatorial data. The paper formalizes this correspondence, analyzes the adjacency graph as an information‑bearing structure, and shows how the growth of ghost layers produces a discrete analogue of holographic area scaling. This dual‑geometric interpretation positions the ghost complex as the central mechanism for information storage, propagation, and reconstruction in the Honeyverse. v1
Rev R H Howard (Sun,) studied this question.