Every Redshift light shares the features below with the exception of some paramters depending on the light type in which case they are called out.
Enable or disable diffuse contribution on shaders. By default physical lights affect the diffuse component of shaders.
Enable or disable specular contribution on shaders. By default physical lights affect the specular component of shaders.
Specifies whether the light can illuminate 'Matte Shadow' surfaces (see Common Redshift Light Parameters shader).
Matte Shadow Illuminator is only available for Redshift Physical and Redshift IES lights.
This option allows you to control how specular reflections are affected by rough/refractive objects that block the light and whether or not the light rays bend as they pass through. Prior to 2.6.10 this option was not available and the light rays would never bend. Specular ray bending is an important effect for rendering realistic-looking glass and lenses.
This effect is available only for area lights and dome lights. Spot and IES lights can not be seen through bent rays because their source is infinitesimally small.
Care must be taken when using 'Always', as this can disable Multiple Importance Sampling, which is a crucial technique for getting clean renders for rough surfaces.
Light/Shadow linking is not available for specular rays that have been bent.
This option lets you override the maximum trace depth for GI rays on a per-light basis.
The light scale parameters covered below allow you to tweak a lights contribution to different shading elements individually. These parameters give you full creative control to adjust exactly how much a light impacts a shaders various elements, they can even bet set above 1.
The example scene used below contains 3 capsules with different shaders that collectively showcase diffuse, reflection, refraction/single-scattering, and multiple sub-surface scattering shading elements. At the top of the room is a Redshift Physical Area light with a ray contribution of 1 for all values unless otherwise specified and a small amount of volume scattering. For reference, here is an example of what those elements look like on their own so you can better understand what the scale example images are affecting.
Scales the intensity of the light's diffuse contribution.
In the first image since diffuse scale is set to 0 there is also no global illumination contribution.
Scales the intensity of the light when seen through reflections/specular or refractions.
Sometimes very bright lights can appear noisy when seen through 'rough' reflections/refractions, even with hundreds of samples. Bringing down the intensity can help reduce noise.
Scales the intensity of the light when seen through sub-surface single scattered materials. A value of 0.0 disables single scattered lighting.
Scales the intensity of the light when seen through sub-surface multiple scattered materials. A value of 0.0 disables multiple scattered lighting.
Scales the intensity of the light's global illumination contribution. A value of 0.0 disables global illumination lighting.
Enable or disable shadow casting.
Specifies the transparency of the shadows cast by the light. Smaller values yield darker shadows. The default value of 0 will produce a completely black shadow. A value of 1 will produce no shadow at all.
The example below shows how a completely opaque sphere's shadow transparency can be controlled by this light setting.
Specifies edge softness for non-area light shadows. A value of 0 means no softness and will yield sharp shadows. Values above 0 will produce softer shadow edges.
Softness is only available for Redshift Physical and Redshift IES lights.
Specifies the number of ray samples for non-area light soft shadows. The higher the value of the Softness parameter, the more samples will be necessary to achieve noise-free results.
Enables soft gobo texture projection, to match the softness of the shadows, giving the same appearance as if the light was an area light.
Softness Affects Gobo is only available for Redshift Physical and Redshift IES lights.
Scales the intensity of the light's global volume scatter contribution. The default value of 0 disables volume scattering for the light.
Specifies the number of samples to use for the volume scattering effect. Increasing the number of samples will reduce noise, but at the cost of performance.
This is the name of the AOV light group this light is associated with.
For more information on Light Groups and how to set them up and use them please see here.
Enables caustic photon casting for the light.
Has no effect if Enable Caustics is not enabled in the Redshift Render Options under the Photon Mapping tab.
Specifies a multiplier for the caustic photon intensity, relative to the intensity of the light. A value of 1 will cause the emitted photons have the same intensity as the light. Smaller values will yield photons with relatively less intensity than the light, while larger values will yield photons with relatively more intensity.
Specifies the number of caustic photons to shoot for the light.
Enables GI photon casting for the light.
This has no effect if Enable GI is not enabled in the Redshift Render Options under the Photon Mapping tab.
Specifies a multiplier for the GI photon intensity, relative to the intensity of the light. A value of 1 will cause the emitted photons have the same intensity as the light. Smaller values will yield photons with relatively less intensity than the light, while larger values will yield photons with relatively more intensity.
Specifies the number of GI photons to shoot for the light.
In this tab, objects-specific lighting behavior can be specified.
Specifies whether the objects in the list should be excluding or included with respect to the light settings.
The list of objects that should be affected (in Include Mode) or not affected (in Exclude mode). For each object in the list the light behavior can modified to receive light, receive shadows, and to affect the object's children.
Certain light types can be previewed in the Cinema 4D editor viewport.For these lights the following options will become available in the General Tab
Displays a wireframe representation of the light decay or light direction in the viewport. When this option is checked, some light types allow manipulation of certain parameters directly in the viewport.
Provides an approximation of the illumination of the light in the viewport.
Adjusts the viewport illumination scale.