Hit render to view the new IES profile in your scene.
Download the zip of IES files here and link to one. Open the material editor of your Indigo Plugin, under Emitter Attributes you will find the IES path. Render with no IES profile Adding an IES profile Hit render and you will get the standard Indigo light render like so: Since we are working with artificial lighting, go to your environment settings and disable the sun and set a black background. The plane will be our light-source, so select the it and assign it an emitting material in your Indigo plugin. For this I have made a flat ground plane, to catch the light, and a small, single plane mesh above and perpendicular to it.Ī single plane mesh raised off the ground There is a very good viewing program made by Andrey Legotin that can be found here: Setting up the sceneįirstly, we will set up a simple scene to show off the light effects.
You can use an IES viewer to preview these profiles. Duplicate the row and rotate them so that they are pointing downwards as. Duplicate the lights so that there are twenty-four in a row.
Start off by creating a Photometric light and position it above the LCD board above the far left LCD hole. Many manufactures provide IES files for their lights, and it is a great way to add realism to your scene. IES light profile rendered with MtoaA (left) and viewed with a Photometric light viewer (right). While Indigo is capable of creating real refractions of an accurately modelled light fixture to create this effect, it is far easier to use an IES profile, and the result is much the same. With the basic Indigo profile Left, and an IES profile Right. Using only a small, simple emitter such as a single quad, an IES profile will shape the distribution of light emitted from it to match that of a much more complicated light fixture, such as in the examples below:ĭigital Photometric data. IES stands for the Illuminating Engineering Society, which has defined a file format for describing the distribution of light from a light source.