Pardesco Artist CV
Randall Morgan
Dimensional Artist • Computational Geometer
Translating higher mathematics into contemplative form
Education
Bachelor of Science in Architecture
University of Cincinnati, College of Design, Art, Architecture, and Planning (DAAP)
Focus: Geometric principles in architectural design, parametric modeling, sacred geometry in built environments
Recognition
Claire Silver AI Competition 4
CNC parametric wood carving selected from hundreds of international submissions for innovative integration of AI-assisted design with physical fabrication.
International Collections
Dimensional art works collected in 27 countries worldwide—meditation spaces, galleries, and private collections from Seattle to Stockholm.
Exhibitions
Joint Mathematical Meetings Art Exhibition
Washington, DC
Upcoming: Selected works for the world's largest mathematics gathering.
NFT NYC — SHILLR × HUG Mobile Gallery
New York City, NY
Featured digital dimensional explorations in mobile gallery during NFT NYC conference.
Bridges Mathematical Art Gallery
Halifax, Nova Scotia, Canada
International exhibition connecting mathematics and art—presented parametric geometric compositions exploring algorithmic pattern generation.
Joint Mathematical Meetings Art Exhibition
Boston, MA
Exhibited at the world's largest mathematics conference gallery—4D polytope visualizations and stereographic projections.
Studio Methodologies & Technical Stack
Computational Design & Agentic AI
Synthesizing custom algorithms with autonomous AI agents to explore geometric complexity beyond human intuition.
- Agentic AI Workflows
- Full Stack Development
- Custom LLM Integration
- P5.js / Three.js
- Generative Algorithms
Digital Fabrication & Materiality
Translating code into tangible form through high-precision subtraction and addition, finished with traditional craftsmanship.
- CNC Routing
- Laser Cutting (Cu/Wood)
- 3D Printing (SLA/FDM)
- G-Code Optimization
- Gold Leaf & Finishing
Mathematical Research
Investigating higher-dimensional geometry and sacred principles to visualize the invisible structure of space.
- 4D Polytopes
- Stereographic Projection
- Hyperbolic Tessellation
- Fractal Recursion
- Parametric Geometry
Digital Deployment
Architecting virtual spaces and decentralized ownership models for the distribution of digital sculpture.
- Interactive Web Apps
- NFT Minting & Logic
- Blockchain Integration
- Virtual Gallery Arch.