基于递归sah的边界体层次结构构建

Proceedings. Graphics Interface (Conference) Pub Date : 2016-06-01 DOI:10.20380/GI2016.13

Dominik Wodniok, M. Goesele

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引用次数: 5

摘要

对边界体积层次结构(BVHs)质量指标的研究进展表明，尽管最终的SAH值高于更复杂的构建器所创建的值，但贪婪的自顶向下SAH构建器构建的BVHs具有更好的遍历性能。基于这一观察结果，我们研究了一种构建算法，该算法使用临时构建的SAH构建的bvh的递归SAH值来指导构建。与不应用空间分割的标准平面扫描相比，BVHs对初级光线的跟踪性能提高28%，对次级漫射光线的跟踪性能提高24%。在允许空间分割的情况下，我们仍然可以达到20%的响应速率。性能提高19%。虽然我们的方法不适合实时BVH构建，但我们表明，所提出的算法在原语数量上具有次二次的计算复杂度，这使得它在实际应用中可用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Recursive SAH-based Bounding Volume Hierarchy Construction

Advances in research on quality metrics for bounding volume hierarchies (BVHs) have shown that greedy top-down SAH builders construct BVHs with superior traversal performance despite the fact that the resulting SAH values are higher than those created by more sophisticated builders. Motivated by this observation we examine a construction algorithm that uses recursive SAH values of temporarily constructed SAH-built BVHs to guide the construction. The resulting BVHs achieve up to 28% better trace performance for primary rays and up to 24% better trace performance for secondary diffuse rays compared to standard plane sweeping without applying spatial splits. Allowing spatial splits we still achieve up to 20% resp. 19% better performance. While our approach is not suitable for real-time BVH construction, we show that the proposed algorithm has subquadratic computational complexity in the number of primitives, which renders it usable in practical applications.

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