The SuperCube Walls study investigates periodic planar arrangements of SuperCube modules. The research explores how the four-cube block extends into wall configurations through systematic repetition and strategic void placement. The investigation examines grid patterns where alternating rotations create consistent spacing. Rotated cubes can be replaced by their corresponding void configurations, generating continuous surfaces where faces merge into unified planes. This approach produces wall structures that maintain geometric coherence while offering varied visual expressions through the interplay between solid modules and empty spaces. The study tests different periodic arrangements and their suitability for planar applications. The four-cube unit serves as the repeating element, translating horizontally and vertically to form grid patterns. The research establishes how SuperCube interlocking logic adapts to wall and facade systems while preserving the module's fundamental geometric properties.
Photography: Phillip C. Reiner
