The Mathematical Wall Panel Generator
A design-to-fabrication tool for equation-driven surfaces.
The Mathematical Wall Panel Generator is a computational design tool that transforms mathematical equations into customizable, 3D-printable surfaces and wall panels.
Built using Grasshopper, Rhino Compute, and a web-based interface, the system enables users to generate complex geometries, adapt them to fabrication constraints, and export print-ready files through a guided, accessible workflow.
The project bridges abstract mathematics and digital fabrication, allowing designers, artists, and makers to move directly from formula to physical artifact without requiring deep technical expertise.
Core Principle
From Equation to Geometry
Form Generation
1
Fabrication-Aware Design
2
Users generate geometry directly from mathematical equations. These formulas can define standalone sculptural forms or be embedded into planar surfaces as repeatable patterns, producing a wide range of wall panel typologies.
Parametric controls allow users to adjust equation inputs in real time, shaping curvature, repetition, and surface articulation while maintaining geometric continuity.
Scaling and Print Preparation
Once generated, geometries are automatically scaled to match specific 3D printer constraints. The system adapts forms based on build volume, bed size, and nozzle dimensions, ensuring that designs remain printable.
Users can further refine results through sliders controlling surface manipulation, resolution, and density, allowing for precise control before fabrication.
Print-Ready Output
Final models are sliced into layers for visualization and verification. The application provides sliced previews, object volume calculations, and material estimates, helping users evaluate efficiency and feasibility before printing.
Exported STL files are compatible with a wide range of consumer and professional 3D printers, supporting direct handoff to fabrication.
Reducing Error Through Structure
The system incorporates structured metadata to reduce setup errors. Users select their printer model and firmware through dropdown menus, automatically loading corresponding presets and constraints.
This approach makes the workflow accessible to non-expert users while maintaining reliable fabrication outcomes.
Outcomes & Evaluation
The system treats mathematics as a design interface and fabrication as a first-class constraint, not an afterthought.
The Mathematical Wall Panel Generator demonstrates how computational design can be packaged as a practical, user-facing product. By embedding fabrication constraints directly into the design process, the tool lowers the barrier between mathematical exploration and physical making, enabling repeatable, customizable, and fabrication-ready outputs.
