We present DIAGSPLIT, a parallel algorithm for adaptively tessel- lating displaced parametric surfaces into high-quality, crack-free micropolygon meshes.
We present DiagSplit, a parallel algorithm for adaptively tessellating displaced parametric surfaces into high-quality, crack-free micropolygon meshes.
Sep 11, 2009 · We present DiagSplit, a parallel algorithm for adaptively tessellating displaced parametric surfaces into high-quality, crack-free micropolygon meshes.
Oct 22, 2024 · We present DiagSplit, a parallel algorithm for adaptively tessellating displaced parametric surfaces into high-quality, crack-free ...
It is demonstrated that DiagSplit produces output that is better (in terms of image quality and number of micropolygons produced) than existing parallel ...
We present DiagSplit, a parallel algorithm for adaptively tessellating displaced parametric surfaces into high-quality, crack-free micropolygon meshes.
DiagSplit: adaptive, crack-free, sub-patch parallel. Page 38. DiagSplit adapts ... DiagSplit adaptive tessellation: Reduces rendered vertex count.
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@inproceedings{fisher2009diagsplit, title={DiagSplit: parallel, crack-free, adaptive tessellation for micropolygon rendering}, author={Fisher, Matthew and ...
We present DiagSplit, a parallel algorithm for adaptively tessellating displaced parametric surfaces into high-quality, crack-free micropolygon meshes.
Our par- allel algorithm generates crack-free tessellation from a parametric surface, which is also free of sudden tempo- ral changes under animation.