Today, Linden Lab has announced a major new open source initiative to improve graphics rendering performance within the viewer. The announcement reads in full:

One of the challenges that virtual world creators face is the trade-off between rich visual detail and geometric complexity. Ideally, by adding more and smaller faces to an object, a designer can model different surface textures and create realistic variations in the interplay of light and shadow. However, adding faces also quickly increases the size of the model and its rendering cost. Normal and Specular Maps are ways to address this by allowing for the appearance of a complex surface without actually modelling fine scale geometry.

A Normal Map is an image where the color codes indicate how the renderer should reflect light from each pixel on a surface by modifying the direction that the pixel “faces” (imagine that each pixel could be turned on tiny pivots). This means that pixels on a simple surface can be rendered so that they appear to have much more detail than the actual geometry and at much lower rendering cost. Light and shadow are rendered as though the surface had depth and physical texture, simulating roughness, bumps, and even edges and additional faces.

Similarly, a Specular Map allows each pixel to have its own degree of reflectivity, so that some parts of a single face reflect sharply, while adjacent pixels can be dull.

The open source developers of the Exodus Viewer are contributing Viewer support for Normal and Specular Maps, as well as some additional controls for how light reflects from faces. Linden Lab is developing the server side support so that this powerful tool will be available in Second Life.

Design and development are under way. Watch this blog and the Snowstorm Viewers page for information on when test Viewers with these new capabilities become available.

For additional information, or to learn more about how you can participate in the open source program, please contact Oz@lindenlab.com.

A video has also been released, demonstrating the capabilities.

With thanks to Pete Linden for the heads-up