This project investigates modular construction through the iterative computational assemblage of four distinct components. Utilizing custom algorithmic methods—including curve following, slope evaluation, and proximity optimization—the project guides growth through thousands of permutations and handle rotations. The study achieves robust success rates in complex vertical stacking and terrace connectivity. The final architectural form integrates structural systems and private facades, responding to topographical constraints like hill proximity and terrace amplitude. This research provides a scalable framework for rule-based, performative assembly in advanced architecture.
Selection and Filtering Method
Evaluation Criteria
Architectural components
