Molood S.
Parametric Designer | Computational Specialist | Digital Fabrication & BIM Expert
Berlin,
Germany
About
Innovative, detail-driven parametric designer with a strong background in computational architecture, digital fabrication, modular building systems, and design automation. I specialize in transforming complex design challenges into intelligent, buildable, and highly optimized solutions through parametric modelling, rule-based systems, and advanced digital workflows.
With expertise across Rhino, Grasshopper, Revit (Rhino.Inside), BIM management, and robotic fabrication (KUKA), I create scalable workflows that bridge design, engineering, and manufacturing—reducing errors, accelerating delivery, and ensuring every component is ready for real-world production.
My passion lies in DFMA (Design for Manufacturing & Assembly), modular timber systems, and computational problem-solving. Whether you need a clean Grasshopper definition, a reliable BIM workflow, a parametric façade system, or automation of repetitive tasks, I deliver solutions that are elegant, efficient, and future-proof.
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With expertise across Rhino, Grasshopper, Revit (Rhino.Inside), BIM management, and robotic fabrication (KUKA), I create scalable workflows that bridge design, engineering, and manufacturing—reducing errors, accelerating delivery, and ensuring every component is ready for real-world production.
My passion lies in DFMA (Design for Manufacturing & Assembly), modular timber systems, and computational problem-solving. Whether you need a clean Grasshopper definition, a reliable BIM workflow, a parametric façade system, or automation of repetitive tasks, I deliver solutions that are elegant, efficient, and future-proof.
Experience
- Computational Designer – Robotic Fabrication & Digital Construction HYDRABLØØM / KADK Research Lab · Full-time Jun 2025 – Present 8 mos Copenhagen, Denmark Developed computational tools for robotic fabrication and digital timber assembly using Grasshopper and KUKA|prc. Created parametric systems, toolpaths, and automated generation of structural components. Responsible for producing fabrication-ready geometries, material-efficient layouts, and end-to-end pipelines connecting design → simulation → robotic production. Conducted digital prototyping, structural logic development, and performance optimisation, ensuring high accuracy and clean geometry flow between Rhino, CAM tools, and physical prototypes.
- Lead Parametric & Computational Designer (Modular Timber / Facade Systems) ECØFACADE · Full-time May 2025 – Present 9 mos Copenhagen, Denmark Designed and developed parametric façade systems and timber components using Rhino + Grasshopper + CAD/CAM workflows. Built automated generative definitions for panels, joinery, tolerances, and modular assemblies. Led the development of DFMA-ready geometry, ensuring every component was manufacturable and compliant with transport/assembly constraints. Collaborated closely with architects, engineers, and fabrication partners, delivering clean data structures, fabrication drawings, and CAM-ready DXF files. Integrated BIM workflows, rule-based design logic, and clash-free models aligned with real-site installation requirements.
Education
- Royal Danish Academy (KADK) Master of Arts (MA), Architecture – Specialization in Computational Design & Digital Fabricatio 2019 – 2021 Activities and Societies: Robotic fabrication research (KUKA systems) Parametric timber and façade prototypes Studio projects focusing on DFMA, modular systems, and automation Collaboration with interdisciplinary teams (design, engineering, robotics) Exhibitions & fabrication workshops Advanced study in architectural computation, focusing on parametric modelling, digital fabrication, and robotic construction. Developed expertise in Grasshopper, Rhino, KUKA|prc, and computational design strategies. Completed research and prototypes for automated timber construction, panelization systems, and generative workflows that link design to machine production. Strengthened interdisciplinary collaboration, working with engineers and fabrication experts to create buildable, testable physical systems
- Azad University – Tehran, Iran Bachelor of Arts (BA), Architecture 2012 – 2017 Activities and Societies: Architectural design studios Construction & technical detailing courses Digital modelling workshops Student competitions and exhibitions Foundational architectural education with a strong emphasis on design thinking, structural logic, and digital modelling. Developed core competencies in architectural design, construction methods, and computer-aided drafting. Built early skills in 3D modelling, geometry, and design communication, forming the basis for later specialization in computational and parametric design.