I'm reading this and there is something that I don't understand :
So that covers the vertex enabled test. But if you were paying attention earlier, you may also have noticed that I glossed over another point, perhaps more important: during Update(), how do we know whether to subdivide a quadrant or not? The answer is to do what I call a "box test". The box test asks the question: given an axis-aligned 3D box enclosing a portion of terrain (i.e. a quadtree square), and the maximum vertex error contained within that box, and no other information about what's inside the box, is it possible that the vertex enable test would return true? If so, then we should subdivide the box. If not, then there's no reason to subdivide.
The beauty of it is, by doing the box test, we can potentially trim out thousands of vertices from consideration in one fell swoop. It makes Update() completely scalable: its cost is not related to the size of the full dataset, only to the size of the actual data that's included in the current LOD mesh. And as a side benefit, the precomputed vertical box extent can be used during Render() for frustum culling.
I don't understand the trick to decide when a quadrant needs to be subdivide.
He says that to know when a quadrant needs to be subdivide, we only look at the vertex error of the data of the current LOD mesh and not to all the point of the full heightmap. I don't understand how it can works : if we don't look at all the points, we will skip points that have a vertex enable test which returns true and that should be displayed ?