Optimizing Graphics Performance
3D formats
Suggest a change
Success!
Thank you for helping us improve the quality of Unity Documentation. Although we cannot accept all submissions, we do read each suggested change from our users and will make updates where applicable.
Close
Sumbission failed
For some reason your suggested change could not be submitted. Please try again in a few minutes. And thank you for taking the time to help us improve the quality of Unity Documentation.
Close
Importing meshes into Unity can be achieved from two main types of files:
-
Exported 3D file formats, such as .FBX or .OBJ
-
Proprietary 3D application files, such as
.Max
and .Blend
file formats from 3D Studio Max or Blender for example.
Either should enable you to get your meshes into Unity, but there are considerations as to which type you choose:
Exported 3D files
Unity can read .FBX, .dae (Collada), .3DS, .dxf and .obj files, FBX exporters can be found here and obj or Collada exporters can also be found for many applications
Advantages:
- Only export the data you need
- Verifiable data (re-import into 3D package before Unity)
- Generally smaller files
- Encourages modular approach - e.g different components for collision types or interactivity
- Supports other 3D packages whose Proprietary formats we don’t have direct support for
Disadvantages:
- Can be a slower pipeline for prototyping and iterations
- Easier to lose track of versions between source(working file) and game data (exported FBX for example)
Proprietary 3D application files
Unity can also import, through conversion: Max, Maya, Blender, Cinema4D, Modo, Lightwave & Cheetah3D files, e.g. .MAX, .MB, .MA etc.
Advantages:
- Quick iteration process (save the source file and Unity reimports)
- Simple initially
Disadvantages:
- A licensed copy of that software must be installed on all machines using the Unity project
- Files can become bloated with unnecessary data
- Big files can slow Unity updates
- Less validation, so it is harder to troubleshoot problems
Optimizing Graphics Performance