The blog post and the companion video (and shader source code) explain an erosion technique which emulates gorgeous branching gullies and ridges without simulation, while still allowing every point to be evaluated in isolation, which means it’s fast, GPU-friendly, and trivial to generate in chunks.
You can play with the interactive example here: <a href="https://www.shadertoy.com/view/sf23W1" rel="nofollow">https://www.shadertoy.com/view/sf23W1</a><p>Click and drag your mouse around the preview to see how fast it runs
I enjoyed Dwarf Fortress random map generation because it simulated erosion pretty well. Small creeks started in the mountains and flowed to the ocean getting larger as it went. Deep valleys and waterfalls too in places made for interesting maps.<p>Be interesting if we can start getting 3D games with random maps that are realistically generated and have interesting features in the future.
It is worth noting that although the result here is visually impressive for erosion aesthetics, it is also not practical for the generation of physically-plausible lakes and rivers. Proper hydrological simulation is required because non-local information is crucial, something which this shader technique doesn't attempt to simulate. Without that, you're likely to end up with rivers flow uphill and lakes that don't properly overflow from valley passes and suchlike.<p>Source: I'm a core dev for Veloren, which uses a very detailed hydrological simulation for its world generation. More info here: <a href="https://veloren.net/blog/devblog-43/" rel="nofollow">https://veloren.net/blog/devblog-43/</a>
Truly fantastic work! "Holy Grail" is right! Terrain generation just got an upgrade so the tooling is about to start producing some really beautiful results in real time. That's going to be a blast to work with. Thanks!
Thank you for writing this up, it was great to see all of the comparisons. Very well put together!
Being able to process separate chunks in parallel is the killer feature for any procgen algorithm - nice.
Any remember the 90s software Terragen and Vue3d?
Amazing work!
Great write-up. Results are quite stunning.
might be fun to try to find parameters that agree well with the statistics of hi res lidar data, perhaps conditioned on geological maps. E.g. describe a geological history with layers of different formations and a pattern of uplift, and get a terrain which agrees with it statistically.<p>Without simulating erosion you're not going to get a faithful recreation of any particular geological history, but you could get something that looked consistent by virtue of being consistent with the statistics of that topography.