Diploma in Parametric Automation with Dynamo/Grasshopper
About us Diploma in Parametric Automation with Dynamo/Grasshopper
The Diploma in Parametric Automation with Dynamo/Grasshopper immerses participants in the world of automation and parametric design applied to architecture and engineering. It focuses on the use of Dynamo (for Revit) and Grasshopper (for Rhinoceros) as tools to optimize workflows, automate repetitive tasks, and explore diverse design options. Students will learn to create scripts and algorithms that generate complex models, analyze data, and produce documentation. The program emphasizes integration with BIM and its application in real-world design projects, optimizing processes and fostering innovation in professional practice. The program trains students in the development of parametric models, design optimization, and documentation automation—essential skills for roles such as parametric designers, BIM specialists, and architects/engineers seeking efficiency and creativity in their projects. Adaptability and continuous learning are promoted in this constantly evolving field. Target keywords (natural occurrences in the text): parametric automation, Dynamo, Grasshopper, parametric design, BIM, scripts, algorithms, design optimization, 3D modeling, architecture diploma.
Diploma in Parametric Automation with Dynamo/Grasshopper
- Format: Online
- Duration: 8 months
- Hours: 900 H
- Language: ES / EN
- Credits: 60 ECTS
- Registration date: 04-07-2026
- Strat date: 14-08-2026
- Available places: 7
1.150 $
Competencias y resultados
Qué aprenderás
1. Parametric Optimization of Architectural Design with Dynamo and Grasshopper
Para quien va dirigido nuestro:
Diploma in Parametric Automation with Dynamo/Grasshopper
9.9 Introduction to Dynamo and Grasshopper for Naval Design
9.9 Key Parameters in Naval Architectural Design
9.3 Creating Basic Parametric Models
9.4 Initial Geometric Optimization
9.5 Applications in Hull and Superstructure Design
9.9 Advanced Scripting Techniques in Dynamo and Grasshopper
9.9 Integration with Databases and Spreadsheets
9.3 Automated Workflows for Model Generation
9.4 Analysis of Design Variations
9.5 Customizing Interfaces and Automating Reports
3.9 Introduction to Parametric Modeling of Naval Structures
3.9 Design of Structural Meshes and Panels
3.3 Strength and Stress Analysis
3.4 Optimizing Material Distribution
3.5 Generating Automated Structural Documentation
4.9 Optimizing Hull Shape for Resistance
4.9 Parametric Design of Propellers and Rudders
4.3 Optimizing Energy Efficiency
4.4 Hydrostatic and Dynamic Stability Analysis
4.5 Evaluating Different Configurations Design
5.9 CFD Flow Simulation in Dynamo and Grasshopper
5.9 ​​Drag and Wake Analysis
5.3 Implementation of Finite Element Analysis (FEA)
5.4 Design Optimization to Reduce Drag
5.5 Propulsion Efficiency Evaluation
6.9 Automation of Complete Ship Design
6.9 Parametric Modeling of Propulsion Systems
6.3 Space Design and Equipment Layout
6.4 Optimization of Load Capacity and Performance
6.5 Automated Generation of Drawings and Documentation
7.9 Parametric Design of Piping and Ducting Systems
7.9 Parametric Modeling of Deck and Superstructure Components
7.3 Component Layout Optimization
7.4 Automation of Bill of Materials (BOM) Generation
7.5 Integration with Naval Component Design Software
8.9 Parametric Design of Bulkheads and Partitions
8.9 Parametric Modeling of Ventilation and Climate control
8.3 Automation of the design of mooring systems
8.4 Optimization of component weight and cost
8.5 Integration with manufacturing and production tools
8.1
Proyectos tipo capstones
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