OpenCL GPGPU Spatial Partitioning Raytracing
Contact "brlcad" on irc.freenode.net
BRL-CAD has one of the oldest and fastest parallel ray tracing implementations around but we don't currently leverage the GPU. With implicit geometry and constructive solid geometry (CSG) Boolean operations, we also have a very different approach to ray tracing that has its own set of academic challenges.
Your project is to help us introduce a GPGPU pipeline into BRL-CAD using OpenCL. You're welcome to use a library that encapsulates OpenCL.
Currently we use a Bounding Volume Hierarchy (BVH), an object partitioning scheme, to reduce the amount of intersections that we need to compute on the OpenCL librt. The advantage of the BVH is that it does not compute duplicate intersections, which is typically an issue with spatial partitioning schemes. This allows us to use less per thread memory since we do not require the use of mailboxing . But an issue with the BVH is that it requires computing all the primitive intersections along the ray path. This is an issue in scenes with high depth complexity like Goliath or architectural scenes.
This task requires you to write an ANSI C prototype of a new spatial partitioning acceleration structure for BRL-CAD and to port this prototype to OpenCL.
The ANSI C librt uses a BSP tree (really a Kd-tree) so that can be used an initial example. You can also use the PBRT Kd-tree source code as an initial example. Since we do not want to have duplicate intersections (we have complex primitives which can take a long time to intersect, also duplicates would needlessly complicate CSG processing), you would need to use some kind of Kd-tree hybrid in order to prevent the need for mailboxing. The issue with mailboxing is that it uses one bit per primitive in the model. Imagine you have a model with a million primitives. This would reduce the amount of threads you can have in-flight (i.e. which can run simultaneously) because of the reduced cache memory available on a platform like a GPU.
A suitable Kd-tree hybrid which does not compute duplicate intersections would be either the Bounding Interval Hierarchy (BIH), or a Kd-tree which stores the larger primitives in the inner nodes, instead of only storing primitives at the leaf nodes (like the Kd-tree described by Choi, et al).
- https://github.com/mmp/pbrt-v3/tree/master/src/accelerators - PBRT source code.
- http://grmanet.sogang.ac.kr/ihm/webpapers/1310PG2013.pdf - Choi's Kd-tree presentation.
Languages: C and OpenCL (or other GPGPU API)