Parametric & Computational Design

Building Shapes That Think and Evolve

I explore design through algorithms — using parametric tools to create responsive, data-informed models that adapt to context, performance, and aesthetics. With Grasshopper and Dynamo, I build workflows that embed logic into form-making, enabling designs to evolve through rules, relationships, and real-world constraints. This approach opens the door to more innovative, efficient, and integrated outcomes.

Areas of Focus

In my parametric design work, every form originates from a clearly defined system. This logic-based approach ensures transparency and traceability across the design process, allowing ideas to evolve in a controlled and purposeful way. I treat parametric models as exploratory tools — enabling rapid iteration, option testing, and feedback-driven refinement. Beyond using software, I often build custom tools and workflows tailored to the specific goals of each project, blending design thinking with technical precision.

  • Adaptive Geometry

    I design systems that respond to input variables such as site data, performance goals, or user interaction, allowing geometry to shift and optimize dynamically.

  • Automation & Scripting

    By coding custom scripts and nodes, I streamline repetitive tasks and enable custom workflows — saving time and increasing precision.

  • Performance Integration

    Parametric logic supports analysis-driven design, helping connect geometry with metrics like sunlight, energy use, and material efficiency.