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Dynamo: Visual Programming for Design

"Dynamo: Visual Programming for Design" will demonstrate how to use Dynamo Visual Programming forautodesk® revit® software and autodesk vasari. The lab will provide users with resources and step by step examples for automating geometry creation, adjusting family parameters using external data, and sharing information with different design platforms. | Dynamo Visual Programming for Design Contents Description.3 Dynamo Visual Programming.3 Getting Around in Dynamo.4 The Basics.4 The Dynamo Interface.4 A. Pulldown Menus.5 B. Search Bar.5 C. Node Library . 5 D. Workspace. 5 E. Execution Bar . 5 Concepts Definitions Terminology.5 Workspace. 5 Nodes.6 Wires.7 Ports.7 Dynamo Visual Programming for Design Program Flow.7 Directionality of Execution.8 Custom Nodes.8 Examples.9 Create a Point or Hello World In Dynamo.10 Placing Families with Sequences Ranges Lines and Grids.14 Nested Lists and Basic Data Management.19 Advanced Family Placement Adaptive Components.22 Get and Set Family Instance Parameters.26 Basic Math with the Formula Node.28 Color.32 Data Interop.36 Attractor Pattern.42 Python Script a Sine Wave.46 Sharing and Reusing Algorithms with the Package Manager.50 Many More Examples.55 What Else Can Dynamo Do .55 Where to Learn More about Dynamo.56 Page 2 of 56 Dynamo Visual Programming for Design Description These tutorial will demonstrate how to use Dynamo Visual Programming for Autodesk Revit software and Autodesk Vasari. The lab will provide users with resources and step-by-step examples for automating geometry creation adjusting family parameters using external data and sharing information with different design platforms. Dynamo Visual Programming Computational Design refers to the ability to link creative problem solving with powerful and novel computational algorithms to automate simulate script parameterize and generate design solutions. Computational Design has had a profound impact on Architectural practice in recent years. Design practices large and small have begun to invest in new computational capabilities that allow them to customize their process and pursue new innovative design agendas. Computation might be leveraged for a variety of tasks such as automating a redundant production process or to construct an expressive form-generator. Regardless of the end-use what is clear is that designers need