Login Information: http://wiki.pixar.com/display/RND/User-oriented+Docs
Do you need help rendering Xgen hair? Try this example file for Maya.XgenExample.zip
PxrMarschner is a material designed to render realistic hair, fur, and fibers.
This is the same material and design used in many of Pixar's animated features provided to users rendering their own scenes. The controls are minimal and artist friendly. The material is also physically plausible so that artists can begin with a realistic result and refine their options based on art direction.
If you would like to dive into the technical details of the material you can see the Pixar Technical Memo 15-02 "A Data-Driven Light Scattering Model for Hair" by Leonid Pekelis, Christophe Hery, Ryusuke Villemin, Junyi Ling for more information. This document will describe the parameters with examples so that artists can begin creating immediately!
The examples below will illustrate how changing parameters affects the look of the hair.
There are two choices of diffuse models: Zinke and Kajiya. By default, it is set to Zinke diffuse model which is for bidirectional scattering. See Importance Sampling for Physically-Based Hair Fiber Models.
This parameter is a multiplier to the Diffuse Color. 0.0 means no diffuse color while 1.0 is the full affect. The default is 0.0 which provides a very realistic dark to medium hair but with potentially higher rendering cost. You may need to use higher amounts for lighter hair like platinum blond or grey hair.
This is the diffuse color of the hair itself. Even for blond hair this is a darker shade than other color parameters for most realistic hair. For the best realism we recommend this be the same color as your Secondary Specular Color and adjust the gain alone. The default is middle grey.
The bulk of your controls can be found under the Specular Parameters. Each of these relates in some way to the description below.
The Marschner specular model consists of three specular lobes using multiple specular transport paths shown above as directional arrows:
- Primary Specular: R is for "reflect" where light hits the surface of the hair and reflects. This is the strong primary colorless specular.
- Secondary Specular: TRT is for "transmit", "reflect", and "transmit" where light transmits through the hair surface, then it reflects from inside the hair and exits the front of the hair. This is the secondary colored specular.
- Transmit Specular: TT is for "transmit" and "transmit" where light transmits into the hair surface and then exits through the other side. This is the colored transmission that responds to rim lighting.
The Specular Gain controls allow the artist to break energy conservation for artistic purposes. If the values entered add to greater than 1.0 then the hair is not energy conserving. This is only important if you are unsatisfied with the look (it's too "hot") or are interested in starting with physically realistic shading.
The default gain for the below Specular parameters is 0.33, however, they can all be set to 1.0 and that is preferred as they are not additive. This default will change to 1.0 in a future release.
Primary Specular Gain
Gain for the R lobe of Marschner specular. This is like a clearcoat where the specular is fairly sharp and glossy and normally not colored. This specular is a direct reflection which is not tinted by any volume attenuation. Modifications of the R lobe help to make a hair look "wet" as well.
Secondary Specular Gain
Gain for the TRT lobe of Marschner specular. This is a rougher and colored specular. This goes through the hair fiber volume twice.
Transmit Specular Gain
Gain for the TT lobe of Marschner specular. This is a transmission-type (refraction) specular with some volume attenuation. It goes through the fiber volume once. High values may increase noise.
Gain for glints. This is a multiplier for the effect of Glints and operates like the other gain controls.
Primary Specular Color
Specular color for tinting the Primary Specular (the R lobe).
Secondary Specular Color
Specular color for the TRT and glints lobes.
Because it represents two paths inside the hair fiber, it should be darker and more saturated than the Transmit Specular Color which technically is the square root of the Secondary Specular Color. For more realistic hair this should match with the Diffuse Color.
Transmit Specular Color
Specular color for the TT lobe. The below examples are set to Transmit Specular Gain of 1.0 with all other gain at 0.0
Primary Cone Angle
Cone angle (theta) for the R lobe in degrees. The broader the angle, the softer and broader the highlight.
Secondary Cone Angle
Cone angle (theta) for the TRT lobe in degrees. The broader the angle, the softer and broader the highlight.
Transmit Cone Angle
Cone angle (theta) for the TT lobe in degrees. The broader the angle, the softer and broader the highlight. Note that high gain for this parameter makes for soft and light colored hair but generates quite a bit of noise. This may increase render times at higher angles.
Cone offset in degrees, this can be used to shift the specular result along the hair.
The refractive index (ior) of the hair. Higher numbers increase the specularity similar to how this would work on opaque surfaces. This can make for an almost metallic looking hair fiber.
This control is to balance the fresnel energy attenuation along the hair.
This parameter smooths the Secondary Specular (TRT) and Glints distribution. This value should typically remain between 10 and 25 for realistic hair.
This is the cross-section aspect ratio of the hair and is usually between 0.85 and 1.0 for realistic hair. This is most often used when rendering curly hair. (Note this depends on the hair normals.)
Glow can be used to create hair fibers that appear to emit light or "glow" in the scene.
Glow gain or weight. Below we go from the typical black hair and increase the gain (using white color) to 0.5 and then 1.0.
Controls the incandescence color, or glow, of the material. Below are various examples of textured inputs to the Color parameter.
This section provides global controls for the entire material. Presence is also a global parameter that will mask out or "cutout" all the lobes as-if the object isn't present where the mask has a value of 0.0
Specular Energy Compensation
This control allows the darkening of the diffuse result as energy is taken by the specular response with leftover energy used to light the diffuse lobe. Setting this to 1.0 corresponds to the physical effect. The default is off (artistic control) and does not conserve energy.
Connect a mask here to apply a cutout pattern to your object. Presence is defined as a binary (0 or 1) function that can take on continuous values to anti-alias the shape. Useful for cutouts like creating leaves and other thin, complex shapes.
This value should be either 0 or 1. A value between 0 and 1 will produce unwanted noise!
This parameter can be used to override the geometric normals for controlling the Eccentricity parameter.
Specify shadow color. This parameter is useful for faking a shadow color for art direction purposes.
Below are the named and user lobes from PxrMarschnerHair.
Named Diffuse Lobe
Named Specular Lobes