OptiX

OptiX
Developer(s) Nvidia
Stable release
4.0.0 / July 25, 2016 (2016-07-25)
Written in C / C++
Operating system Linux, OS X, Windows 7 and later
Type Ray tracing
License proprietary software, free-of-cost for non-commercial use
Website NVIDIA OptiX developer site

Nvidia OptiX (OptiX Application Acceleration Engine) is a general purpose ray tracing API for rendering, baking, collision detection, A.I. queries, etc. OptiX is not a renderer but can implement many types of renderers, it implements a modern shader-centric, stateless and bindless design.[1] The computations are offloaded to the GPUs through either the low-level or the high-level API introduced with CUDA. CUDA is only available for Nvdia's graphics products. Nvidia OptiX is part of Nvidia GameWorks. OptiX is a high-level, or "to-the-algorithm" API, meaning that it is designed to encapsulate the entire algorithm of which ray tracing is a part, not just the ray tracing itself. This is meant to allow the OptiX engine to execute the larger algorithm with great flexibility without application-side changes.

Commonly, video games use rasterization rather than ray-tracing for their rendering.

According to Nvidia, OptiX is designed to be flexible enough for "procedural definitions and hybrid rendering approaches." Aside from computer graphics rendering, OptiX also helps in optical & acoustical design, radiation and electromagnetic research,[2] artificial intelligence queries and collision analysis.[3]

Ray tracing with OptiX

A Julia set drawn with NVIDIA OptiX©. This is also a sample of the SDK

OptiX works by using user-supplied instructions (in the form of CUDA kernels) regarding what a ray should do in particular circumstances to simulate a complete tracing process.[4]

A light ray (or perhaps another kind of ray) might have a different behavior when hitting a particular surface rather than another one, OptiX allows to customize these hit conditions with user-provided programs. These programs are written in CUDA C or directly in PTX code and are linked together when used by the OptiX engine.

In order to use OptiX a CUDA-capable GPU must be available on the system and the CUDA toolkit must be installed.

Using the OptiX engine into a ray tracing application usually involves the following steps:

Several examples for these programs are available with the program's SDK

// Sample code using OptiX APIs //

/* Ray generation program */
rtProgramCreateFromPTXFile( *context, path_to_ptx, "pinhole_camera", &ray_gen_program );
rtContextSetRayGenerationProgram( *context, 0, ray_gen_program );

/* Miss program */
rtProgramCreateFromPTXFile( *context, path_to_ptx, "miss", &miss_program );
rtContextSetMissProgram( *context, 0, miss_program );

/* Bounding box and intersection program */
rtProgramCreateFromPTXFile( context, path_to_ptx, "box_bounds", &box_bounding_box_program );
rtGeometrySetBoundingBoxProgram( *box, box_bounding_box_program );
rtProgramCreateFromPTXFile( context, path_to_ptx, "box_intersect", &box_intersection_program );
rtGeometrySetIntersectionProgram( *box, box_intersection_program );

Bounding box programs are used to define bounding volumes used to accelerate ray tracing process within acceleration structures as kd-trees or bounding volume hierarchies

// Sample code using OptiX APIs //

rtProgramCreateFromPTXFile( context, path_to_ptx, "closest_hit_radiance", &closest_hit_program );
rtProgramCreateFromPTXFile( context, path_to_ptx, "any_hit_shadow", &any_hit_program );

/* Associate closest hit and any hit program with a material */
rtMaterialCreate( context, material );
rtMaterialSetClosestHitProgram( *material, 0, closest_hit_program );
rtMaterialSetAnyHitProgram( *material, 1, any_hit_program );
A sample graph tree for the NVIDIA OptiX© engine

In order to render a complex scene or trace different paths for any ray OptiX takes advantage of gpgpu computing by exploiting NVIDIA CUDA platform. Since the process of shooting rays and setting their behavior is highly customizable, OptiX may be used in a variety of other applications aside from ray tracing.

OptiX Prime

Starting from OptiX 3.5.0 a second library called OptiX Prime was added to the bundle which aims to provide a fast low-level API for ray tracing - building the acceleration structure, traversing the acceleration structure, and ray-triangle intersection. Prime also features a CPU fallback when no compatible GPU is found on the system. Unlike OptiX, Prime is not a programmable API, so lacks support for custom, non-triangle primitives and shading. Being non-programmable, OptiX Prime does not encapsulate the entire algorithm of which ray tracing is a part. Thus, Prime cannot recompile the algorithm for new GPUs, refactor the computation for performance, or use a network appliance like the Quadro VCA, etc.

Software using OptiX

References

  1. "Scheduling in OptiX, the Nvidia ray tracing engine" (PDF). 2009-08-15.
  2. "Electromagnetic wave propagation in the millimeter wave band using the NVIDIA OptiX GPU ray tracing engine". IEEE Xplore. 2012. Retrieved 2013-08-14.
  3. Steven G. Parker; Heiko Friedrich; David Luebke; Keith Morley; James Bigler; Jared Hoberock; David McAllister; Austin Robison; Andreas Dietrich; Greg Humphreys; Morgan McGuire; Martin Stich (2013). "Magazine Communications of the ACM - GPU ray tracing". ACM. Retrieved 2013-08-14.
  4. Steven G. Parker; Heiko Friedrich; David Luebke; Keith Morley; James Bigler; Jared Hoberock; David McAllister; Austin Robison; Andreas Dietrich; Greg Humphreys; Morgan McGuire; Martin Stich (2010). "OptiX: a general purpose ray tracing engine". ACM. Retrieved 2013-08-14.
  5. "Adobe showcasing OptiX in a technology demo for ray tracing motion graphics with GPUs". NVIDIA. 2013. Retrieved 2013-08-14.
  6. "SIGGRAPH 2013 tech talks". NVIDIA. 2013. Retrieved 2013-08-14.
  7. "Nvidia announces Gameworks Program at Montreal 2013; supports SteamOS". NVIDIA. 2013. Retrieved 2013-10-29.
  8. "GPU changes (for CUDA and OpenGL) in After Effects CC (12.1) | After Effects region of interest". Retrieved 2015-02-22.
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