With a triple background in Architecture, BIM, and Timber Engineering, I specialize in translating complex architectural ideas into buildable, legible, and production-ready systems. I develop workflows that preserve architectural intelligence while improving fabrication efficiency. I support both architects and structural engineers in transforming complex designs into construction-ready documentation. This approach allows architectural ideas to be carried through complex projects without being simplified or compromised during production. With an academic degree in Architecture and a vocational degree in Timber Construction, I understand design well enough to protect it, and construction well enough to realize it.
In a true Sillicon Valley spirit, I share my expertise in parametric design and BIM on my YouTube channel Just Parametric. It features a curated selection of my research into algorithmic geometry and automated BIM workflows. Through these detailed technical breakdowns, I demonstrate the exact logic and Rhino.Inside.Revit pipelines I use to solve complex structural, fabrication, and documentation challenges in real time.
Series 1: Echinoidea Pavilion
A parametric reconstruction and optimization of the temporary timber pavilion built in Milan (2022), originally designed by GG-loop. This series demonstrates complex timber joint generation.
Series 2: Liwa Tower
An algorithmic breakdown of the iconic 20-story tower in Abu Dhabi, designed by Kas Oosterhuis, (oosterhuis.nl). This series focuses on solving complex double-curved geometries and establishing seamless BIM-to-documentation pipelines.
Series 3: Automated Production Workflows
A technical demonstration on automating production drawings, wall elevations, and parameter tagging for traditional design using Rhino.Inside.Revit. This series showcases how to bypass manual Revit drafting to accelerate documentation delivery, eliminate repetitive tasks, and ensure absolute data consistency.
I strongly believe that parametric design is the ultimate catalyst for the future of mass timber construction and sustainable architecture. A common misconception remains that timber limits architectural expression, or that complex geometries inherently drive up fabrication costs. The Portland International Airport expansion by ZGF Architects (zgf.com) perfectly illustrates how complex, undulating timber structures can be engineered using straight components. Similarly, the Liwa Tower in Abu Dhabi (oosterhuis.nl/Liwa tower BIM)—shaped through algorithmic modeling with over 1,000 unique facade panels—demonstrates how computational BIM workflows keep production costs optimized. By bridging geometry and engineering, the most ambitious architectural visions become fully viable.