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Custom Nodes
Create custom functionality to reuse it.
Note: This video uses Dynamo inside of the Revit application, but the workflow’s logic can be applied to any other application environment.
Unit1: Introduction
In this lesson we will introduce the building mass for the course, demonstrate its parametric flexibility, and explain the geometric applications of its parameters. This introduction will be entirely in Revit.
Unit 1: Editing Elements in Revit
In this lesson we will introduce the building mass for the course, demonstrate its parametric flexibility, and explain the geometric applications of its parameters. This introduction will be entirely in Revit.
Unit 1: Editing Elements in Dynamo
In this lesson we will edit building mass parameters from within the Dynamo environment. Run Automatically will be checked so the user can visualize a range of building mass options.
Unit 1: Editing Multiple Parameters
In this lesson we will edit multiple parameters for the building mass in dynamo. In order to do this properly, we’ll introduce lists into our workflow. Lists will be a critical focus for the remainder of the lesson.
Unit 1: Editing with Formulas
In this lesson we will set several parameters for our building mass in Dynamo. Without geometric constraints explicitly defined in the mass family, we will introduce numerical constraints to create new parameters. Formulas and conditional statements will also be introduced.
Unit 2: Structural Framing – Part 1
In this lesson we will introduce Dynamo’s basic tools for adding Structural Framing Elements to a Revit document. The end result will be a linear array of beams across the atrium of our building mass. Part 1 of 2.
Unit 2: Structural Framing – Part 2
In this lesson we will introduce Dynamo’s basic tools for adding Structural Framing Elements to a Revit document. The end result will be a linear array of beams across the atrium of our building mass. Part 2 of 2.
Unit 2: Family by Point – Part 1
In this lesson we will introduce Dynamo’s family by point node. The end result will be a two-dimensional array of photovoltaic panels on the roof of our building. Part 1 of 3.
Unit 2: Family by Point – Part 2
In this lesson we will introduce Dynamo’s family by point node. The end result will be a two-dimensional array of photovoltaic panels on the roof of our building. Part 2 of 3.
Unit2: Family by Point – Part 3
In this lesson we will introduce Dynamo’s family by point node. The end result will be a two-dimensional array of photovoltaic panels on the roof of our building. Part 3 of 3.
Unit 2: Adaptive Components – Part 1
In this lesson we will introduce Dynamo’s Adaptive components by point node. The end result will be a series of vertical trusses along a doubly skinned façade system. This will take a closer look at plane/solid intersection and list management. Part 1 of 2.
Unit 2: Adaptive Components – Part 2
In this lesson we will introduce Dynamo’s Adaptive components by point node. The end result will be a series of vertical trusses along a doubly skinned façade system. This will take a closer look at plane/solid intersection and list management. Part 2 of 2.
Unit 2: Adaptive Levels
In this lesson we will use the Set Parameter Node to parametrically control a level in our Revit Project. We’ll refer to the great potential behind using Dynamo to control documentation sets, views, and sheets. Dynamic level adjustment will show changes in the 3D model, as well as sheet adjustments with automated visibility settings. Part 1 of 2.
Unit 3: Working with SATs – Part 1
In this lesson we will perform geometric operations on imported SAT files with Dynamo. A complex surface will be introduced to the Revit project, and we will use Dynamo to create a rationalized waffle grid from the shape. Bounding box operations and plane intersections will be dealt with on a more in-depth level. Part 1 of 3.
Unit 3: Working with SATs – Part 2
In this lesson we will perform geometric operations on imported SAT files with Dynamo. A complex surface will be introduced to the Revit project, and we will use Dynamo to create a rationalized waffle grid from the shape. Bounding box operations and plane intersections will be dealt with on a more in-depth level. Part 2 of 3.
Unit 3: Working with SATs – Part 3
In this lesson we will perform geometric operations on imported SAT files with Dynamo. A complex surface will be introduced to the Revit project, and we will use Dynamo to create a rationalized waffle grid from the shape. Bounding box operations and plane intersections will be dealt with on a more in-depth level. Part 3 of 3.
Unit 3: Dynamo Geometry to Revit
In this lesson we will use the geometry created in the prior tutorial and export it to an external SAT file. We will also use a similar operation to import from Dynamo directly into the Revit environment, using the Instance By Geometry node.
Unit 4: Import SATS into Dynamo
In this lesson we will show how to import SATs file directly into your Dynamo or Revit environment. Referencing these file types allows us to create a fluid workflow between Revit and other programs.
Unit 4: Excel Read – Part 1
Arguably the most important lesson about interoperability, this tutorial will show how to import Excel data into Dynamo to array adaptive components. Part 2 of 4.
Unit 4: Excel Read – Part 2
Arguably the most important lesson about interoperability, this tutorial will show how to import Excel data into Dynamo to array adaptive components. Part 2 of 4.
Unit 4: Excel Read – Part 3
Arguably the most important lesson about interoperability, this tutorial will show how to import Excel data into Dynamo to array adaptive components. Part 3 of 4.
Unit 4: Excel Read – Part 4
Arguably the most important lesson about interoperability, this tutorial will show how to import Excel data into Dynamo to array adaptive components. Part 4 of 4.
Unit 4: Image Read – Part 1
This lesson will introduce users to the image sampler, and use a sampled image’s brightness to set parameters and override colors in view. Part 1 of 2.
Unit 4: Image Read – Part 2
This lesson will introduce users to the image sampler, and use a sampled image’s brightness to set parameters and override colors in view. Part 2 of 2.
Unit 5: Panel Deviation
This lesson will expand on overridden colors in a Revit view and will look at analysis of panels on a doubly curved surface. The user will learn how to color code a panel based on area or plane deviation.
Unit 5: Excel Write
This lesson will focus on writing Panel Deviation values to excel to complete the feedback loop. Geometry is generated from Excel data, analyzed in Dynamo, and then written back to Excel.
Unit 6: Solar Orientation
This lesson will focus on preliminary analysis of panel orientation relative to the sun at a given point in time.
Unit 7: Code Block Part 1
This lesson will take the power of the code block a step further. A complicated Dynamo graph from earlier in this course will be reduced to a few code block nodes, using Design Script and functions. Part 1 of 2.
Unit 7: Code Block Part 2
This lesson will take the power of the code block a step further. A complicated Dynamo graph from earlier in this course will be reduced to a few code block nodes, using Design Script and functions. Part 2 of 2.
Unit 7: Python
The final lesson in this series will use Python to create basic conditional statement within a loop function.