The Input rollout determines the path of the input cache files for rendering and previewing, as well as provides controls for playback effects.
Note that some playback settings require a fractional input frame, in which case, the frame is blended between the previous and the next one.
To set up rendering and simulation cache paths manually, see Changing the Default Phoenix Paths in the Tips and Tricks page. |
UI Path: ||Select Fire Smoke Simulator | FireSmokeSim object|| > Modify panel > Input rollout |
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The default rendering settings are tuned to Phoenix simulations, and they might not work well for imported 3rd party cache files.
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You can suppress showing of the dialogues offering presets using the inDontOfferPresets attribute of the Simulator. Setting inDontOfferPresets to 1, as shown in the image below, will disable the presets pop-up window displayed when a VDB or Field3D cache files are loaded. |
Clicking the "..." button will open a menu with the following options:
Browse – Opens a dialog for choosing one of several cache file types. Phoenix can import *.aur, *.f3d, *.vdb and *.prt files from other fluid simulator software products. See How to import and render simulations from FumeFX, Houdini and Maya. Supported file formats are:
Reset to Default – Resets the cache path to the default value of $(same_as_output). Show File Name... – Displays the full cache file path for the current frame. 3rd Party Channel Mappings... – This option is available when a .f3d or .vdb cache is loaded. It launches the Channel Mappings dialog for mapping 3rd party cache channels. See the Channel Mappings section below for more information. Help - Opens this Help page. |
This section contains playback options you can use for retiming a simulation after it has already finished. Using these, you can speed up, slow down or animate the motion of the simulated sequence. When retiming an existing simulation from this section without re-simulating, additional RAM might be used, and loading a new timeline frame may take longer when the frame must be obtained by creating a new one between two adjacent cache files. We will refer to the process of creating an intermediate frame from two caches as Blending. Some of the settings in this section might require specific grid or particle channels to be saved to the cache files during simulation from the Output rollout.
In order to blend Drag particles, you must enable the export of the Particle ID channel from the Particles section of the Phoenix Source used to add them into the Simulation. |
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Example: Timeline Origin
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Example: Cache Origin and Play Speed
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Example: Looping a Simulation
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Grid Smoothing is performed after the cache file is loaded for the current frame, so for large grids it could cause significant lag when changing frames. To prevent this from occurring, switch it off during the design process and re-enable it again before rendering. |
The controls in this section allow you to smooth the grid channels loaded from cache files for preview and rendering. You can use this to prevent grid artifacts on meshed grid channels such as the Temperature or Smoke, to remove unwanted noise in these channels or to get smooth motion blur by smoothing the Velocity grid channel.
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Different applications use different channels and might have different names for them. When loading f3d/vdb files, Phoenix tries to automatically make the conversion to the supported channels. If a channel is not mapped by default, a channel can be manually set from the dropdown menu. It can be accessed from the Cache Path menu when a 3rd party cache is loaded (e.g. .f3d or .vdb files).
All mappings are kept in a single string parameter, accessible by the name "usrchmap". An example mapping string is:
2,density;10,fuel;1,temperature;4,vel.x;5,vel.y;6 ,vel.z;
The string is composed of pairs of a Phoenix channel index and a string channel name. Phoenix supports the following channels with the respective indices:
Smoke - 2
Temperature - 1
Fuel - 10
Velocity.x - 4
Velocity.y - 5
Velocity.z - 6
Red - 7
Green - 8
Blue - 9
Viscosity - 22
Wavelet Energy - 14
Wavelet.u - 19
Wavelet.v - 20
Wavelet.w - 21