Once converted, the scene will be set to use the ART renderer by default. Therefore, you will need to choose Arnold from the Render Setup. The house model ships with Revit and is free to use and share as a sample model owned by Autodesk.
The Revit project files for this tutorial can be freely downloaded here. If you are a Revit user, you can import the Revit file from within the Revit install.
Information about how to export a scene from Revit to 3ds Max can be found here.
Revit House Project
- Typically, the first thing you should do when starting a new project in 3ds Max is to create a folder for that project. Rename the folder to 'Revit House'.
- Set 3ds Max's project to that folder.
- Copy the Revit scene to the 'import' folder of the project.
The use of Projects eliminates the need for modifying the User Paths in 3ds Max to handle every file or path you might need. It will automatically look in the .\sceneassets\images folder for any project-specific maps. The “.\” at the start of a path string means that it is relative to the project.
- Start by importing the Revit file: rac_basic_sample_project.rvt. If you do not have Autodesk Revit Interoperability installed for 3ds Max, try importing the .fxb file from Revit.
Information about linking a Revit file to 3ds Max can be found here.
- Open the Scene Converter window - Rendering -> Scene Converter. The Scene Converter should default to Convert to ART Compatible Features using the ART.ms preset script. We will use this script as MAXtoA supports the Physical cameras and shaders provided by this script.
- Select Convert Scene. The script will convert the Autodesk Materials into Physical shaders, the Daylight/Exposure into a Sun Positioner and Physical Sky, and the cameras into Physical Cameras. The Max Photometric lights are now supported in Arnold and so will not need to be changed.
A video about using the Scene Converter can be found here.
The current scene uses the Physical Sun and Sky Environment. This will need to be replaced with the Arnold Physical Sky shader.
Rendering the scene reveals some fireflies. In this situation, they are caused by the bright sun disc from the Physical Sky shader. This kind of noise is difficult to remove by simply increasing the number of samples in the Render Setup. A simple way to remove them is to use Clamping.
An alternative method for avoiding fireflies caused by the sun in the Physical Sky is to add a different Physical Sky shader to Render Setup window -> Arnold Renderer -> Environment & Background -> Background (Backplate) -> Custom Map and disable 'Enable Sun'. That way the sun will not be visible in any glossy reflective surfaces, and therefore no fireflies will be visible.
Once we are happy with the shaders and lighting, we can progress onto adjusting the sampling for final frame rendering.
Diffuse (Gi) Sampling
We can remove noise from the indirectly lit surfaces in the scene by increasing this value. In the example images below, we can see that there is some noise in the indirectly lit roof beams in the ceiling. Increasing the number of Diffuse Samples reduces this type of noise. Note that increasing this value will increase render times.
Camera (AA) Samples
Once we are done finished refining the light and diffuse samples we can now increase the Camera (AA) value for final frame rendering. A Camera (AA) value of 3 is suitable for test rendering. However, when we are ready for final frame rendering, we will want to increase this value. In this example scene, a value of 5 or 6 was sufficient.