The primary goal with this new map type is to provide a map that can be used with a new method for bump mapping that

**does not use tangent spaces**. There are many advantages to using this method.

1. Reduces foot-print

2. Is much better suited for synthesized surfaces/tessellation

3. Does not distinguish between regular geometry and tessellation.

4. Works with per pixel generated texture coordinates such as Tri-Planar Texturing.

5. No issues regarding multiple standards for implementation of tangent space generation.

6. Mirroring trivially works.

7. No need to recalculate tangent spaces on meshes with complex geometric deformations.

So how do you do this? It's actually fairly simple to throw into your own shader.

First I'd like to point out that the method is much more closely related to Blinn's bump mapping than it is to normal mapping. This implies that there is a bump scale, however, I'll explain in a moment how this can be auto-generated to work with derivative maps generated using xNormal.

So the shader code you use for derivative maps is still, essentially, listing 1 in my paper "Bump Mapping Unparametrized Surfaces on the GPU". The variables dBs and dBt are the derivatives of the height value with respect to screen-space. Now the screen-space derivative of the height map can be evaluated from a derivative map using the chain rule which I explained in my previous blog post. You don't have to understand

the math behind it. Using it is trivial since all you do is copy the shader code from the blog post and use it to replace the dBs and dBt in listing 1 (in the paper).

The one thing I forgot to mention in my previous blog post is that you need a bump scale that you apply to dBs and dBt. This can either be a user-defined one or an auto-generated one. Auto-generating the bump scale will make the work-flow more like what artists are used to with normal maps. To do this get the xNormal sdk and open the file

**examples\mikktspace\CMIKK_TangentBasisCalculator.cpp**and grab the small function SuggestInitialScaleBumpDerivative() which returns fUseAsRenderBumpScale. Then you adapt this function to your own tools pipeline.

As for the dependency on texture resolution you can postpone the divide by

*sqrt(width*height)*until the shader which will allow you to use the same mesh specific bump_scale as a constant for many different textures should you want to mix derivatives in the pixel shader. In fact height maps and derivative maps are much better suited for mixing than normal maps. Another option you have is keeping some maps as derivative maps and others as height maps. The screen space derivative of a height map is determined using a different approach such as listing 2 in the paper. But all of the final screen-space derivatives can be mixed together whether they came from one map type or the other.

Also note that if width and height are the same then the dependency on width and height is canceled since we also scale by these to obtain dBs and dBt as was shown in the shader code from my previous post.

Another thing I'd like to point out is that if you make your own implementation that auto-generates the bump scale and it's not the exact same method that is entirely ok. It will not result in any disasters unlike tangent space generation mismatch in normal mapping which results in unwanted hard edges in the lighting.

Finally, for those curious about the distinction between a derivative map and a normal map the derivative map represents the derivatives of the height map

*(dBdu, dBdv)*while the normal map represents the normal of the height map

*normalize( (-dBdu, -dBdv, 1) )*. However, in the context of baking from a hi-res model the distinction is more interesting. Unlike the conventional approach where the derivatives of the surface position (tangent and bitangent) are perceived to be normalized and perpendicular to each other we don't make this approximation for baking a derivative map. The reason is that using the more accurate non orthonormal basis is significantly more compliant with the synthesized basis used to perturb the normal in the pixel shader.