Salicylic acid-nicotinamide was used as a prediction model in the hydrogen bond interactions dominating a cocrystal structure. The combined conformation of the two molecules was analyzed at the B3LYP-D3BJ and WB97M-D3BJ theoretical level. The existing hydrogen bond dimer conformations were compared with putative conformations to determine the bond energy and stability. Some parameters were assessed for predictive descriptors, such as geometric parameters, total energy, interaction energy, single hydrogen bond energy, HOMO-LUMO gap, Laplacian Bond Order, and Natural Bond Orbital. An existing conformation, SACNIC1, produced intermolecular hydrogen bond energy which was quite higher than the other conformations, including the pure homomolecular conformations of either salicylic acid or nicotinamide. The cocrystal packing formation seems to be initiated with SACNIC1 as the basic structure conformation. Furthermore, the presence of the strongest intermolecular hydrogen bond energy in SACNIC1 suggests its potential utility as a predictive descriptor.