Integrated Computational Tools
People
Description
Conceived as an expansion of Integrated Digital Tools, the course focuses on parametric approaches and uses programming as a design tool, exploring the potential of advanced computational techniques in architecture. Mostly based on Grasshopper, an algorithmic modeling plug-in for Rhino, the course encourages students to playfully explore the potential of computation as a creative tool. The students proceed through a series of design tutorials from physical modeling to computation, learning how to control structures and geometries using customizable digital design techniques. On a theoretical level, the course provides a glimpse of the avant-garde research in the field of computational architecture as well as the innovative use of such technologies in design practice on all scales.
Objectives
- Teaching of basic computational techniques using a visual programming interface (Grasshopper) - Introduction to computational notions such as algorithms, parameter space, form finding optimization, variability, etc. - Theoretical background of computational tools in architecture history (2000 – 2020) - Automation and optimization of the digital fabrication process - Integration of computational techniques in the students’ own design process
Teaching mode
In presence
Learning methods
50% Lectures
50% Practice
Examination information
Oral during examination
Education
- Master of Science in Architecture, Lecture ex cathedra, Elective, 1st year