: It treats rasterization as a point inversion problem , using Newton-type iterations on the GPU to achieve real-time, high-precision rendering.
The paper introduces a high-performance designed to render complex parametric surfaces directly, bypassing the traditional need for hardware tessellation into flat triangles. Paper Highlights S0010 mp4
: The framework is particularly effective for triangular Bézier patches and rational Bézier patches , which are standard in industrial modeling and high-precision CAD applications. : It treats rasterization as a point inversion
: The supplemental MP4 file contains a technical presentation and demonstration of the rasterizer's capabilities, typically showcasing real-time manipulation of high-order patches. PaRas: A Rasterizer for Large-Scale Parametric Surfaces : The supplemental MP4 file contains a technical
: Results show it is more efficient and accurate than traditional hardware tessellation pipelines for large-scale smooth surfaces.
The technical paper associated with the designation and the mp4 supplemental video is likely the SIGGRAPH 2025 paper titled "PaRas: A Rasterizer for Large-Scale Parametric Surfaces" .