Zapopan, Jalisco, Mexico
I design the systems that make complex architecture possible and scalable. Currently completing a Master in Advanced Computatial Design for Architecture (MaCAD) at IAAC, my focus is on shifting the AEC industry toward a data-driven future. My expertise lies in developing algorithmic workflows, optimizing architectural performance, and creating custom software tools for iterative design. Through projects like Hyper Builder, I’ve integrated Vue.js and Speckle to provide real-time data validation for large-scale geometries. Tech Stack: Python, C#, Grasshopper/Rhino, Speckle, BIM, and Digital Fabrication. With a background in research and site supervision, I bridge the gap between experimental computational logic and real-world construction feasibility. I am looking for opportunities to deploy automation and computational thinking at a global scale.
- Automated and optimized collaborative BIM workflows for residential and commercial projects, leveraging interoperability tools (Speckle/Git) to streamline data exchange between design phases and reduce revision cycles. - Developed parametric site-analysis tools for large-scale urban and residential projects in the United States, UAE and Mexico, optimising building performance, density, and environmental impact through data-driven design. - Executed advanced urban analytics, including shortest-path algorithms and pedestrian flow simulations, to inform master-planning decisions and enhance land-use efficiency based on real-time spatial data. - Applied computational methodologies to international architectural competitions, leading to multiple nominations and awards, including the Dubai Urban Elements Challenge (Top 100) & Denver Affordable Housing Challenge (Top 36).
- Managed end-to-end project lifecycles, balancing high-end architectural visualization (D5 Render, Twinmotion, V-Ray & Enscape) with rigorous budget management and client-facing technical consulting.
Developing experimental research bridging synthetic biology and computational design workflows, selected to shape the agenda of the 19th Venice Architecture Biennale under the mentorship of Carlo Ratti, MIT Senseable City Lab. Emerging from a highly competitive selection process (chosen as 1 of 16 teams globally out of 500+), creating data-driven frameworks to integrate living systems into architectural fabrication.
At MEXTRÓPOLI, I played a pivotal role in the design and execution of the "Oblicuo" pavilion, focusing on optimizing complex geometries for CNC fabrication. My responsibilities included managing the digital-to-physical workflow, ensuring precision in the assembly of over 400 unique components. I also led a team to effectively translate parametric models into actionable construction logic during the assembly phase.
- Directed interdisciplinary research at the intersection of biomimicry and automated manufacturing. - Programmed simulation environments to model complex material behaviors and environmental performance for spatial constraints. - Prototyped advanced structures utilizing additive manufacturing logic and rapid prototyping workflows.
- Engineered parametric design systems in Rhino and Grasshopper to enable rapid design exploration and optioneering for high-stakes commercial developments, including projects for major developers like Grupo DMI. - Developed complex panelization strategies and digital fabrication prototypes for steel facades, optimizing geometry for manufacturing and ensuring seamless translation from digital models to physical production. - Streamlined design-to-production workflows, reducing iteration time for large-scale facade systems & commercial spaces while maintaining high geometric precision and material efficiency. - Integrated computational methodologies within multidisciplinary teams, contributing to a diverse portfolio of projects ranging from large-scale urban masterplans to high-end office interiors. - Automated repetitive drafting and modeling tasks, allowing the design team to focus on high-level spatial solutions and enhancing overall project delivery speed.