This page provides a tutorial for setting up progressive path tracing for rendering.
In this tutorial we will discuss an alternative method for computing the final image with V-Ray called progressive path tracing.
The method described in this tutorial is somewhat deprecated; newer versions of V-Ray include the Progressive image sampler which can be used for a similar purpose.
Typically, computing the image goes through several separate tasks - for example, caustics calculations, light cache computation, irradiance cache computation, and final image sampling. While the user receives visual feedback through some of these stages, the final image is completed only at the end of the last stage - the intermediate results cannot be used.
Progressive path tracing, on the other hand, is a method for incremental computation of the whole image at once. The user can stop the calculation at any time and use the intermediate results, if they are good enough. In addition, with path tracing, the user has only a few controls to worry about and it is very easy for set up.
V-Ray builds upon the foundation of the light cache algorithm to perform progressive path tracing. This has the advantage of using the light cache for noise reduction during the path tracing process for cleaner results and faster light propagation. Using the light cache ensures that the number of light bounces is not limited and that the result converges to the correct lighting solution for the scene. In addition, the light cache from a path traced image can be saved and re-used later on for a normal rendering.
To download the scene used in this tutorial, click on the button below.
Step 1: Initial setup.
Setting up progressive path tracing is fairly easy:
1.1. Open the starting scene.
1.2. Set V-Ray as the current rendering engine.
1.4. Turn Indirect illumination on and set both the primary and the secondary GI engines to Light cache .
1.5. Set the light cache mode to Progressive path tracing.
1.6. Optionally, you can turn on the Frame stamp to print the render time on the image.
1.7. Check the Enable built-in frame buffer option in the V-Ray virtual frame buffer rollout. This is not necessary, but allows you to safely zoom and pan through the rendered image during the rendering process. Using the 3dsmax VFB may cause 3dsmax to crash if you zoom/pan during rendering.
1.8. Render the scene. You should see the image being gradually sampled, more noisy at first, but getting better as more samples are added:
Step 3: Adjusting the noise level
(You are correct in noticing there was no Step 2.)
The image above is fairly noisy, although it is computed quite quickly and can be used for previews. However, for final renderings, we would like to reduce the noise. This is done by adjusting the light cache Subdivs parameter.
3.1. Set the light cache Subdivs to 2000.
3.2. Render. Rendering now takes more time, as V-Ray computes more samples. Since we increased the Subdivs twice, render time will approximately quadruple:
3.3. If you want to reduce noise even further, increase the Subdivs even more. For rendering stills, you can set this to a very high value and wait for as long as you like before cancelling the render and using the result. Here is a render with 20000 subdivs which was cancelled after one hour:
Step 4: Adjusting the bias of the GI solution
For the images above, we used the default settings for the light cache (except for the Subdivs parameter). The default settings use the light cache as an aid during GI calculations. This helps to reduce noise in the final image, at the cost of introducing bias to the GI solution. This bias may show up as light leaks under thin walls or splotchy secondary GI. In most cases however, the difference between a biased and an unbiased solution is minimal.
You can use the light cache Sample size parameter to control bias. Larger values will use larger light cache samples and will increase the bias. Smaller values will decrease bias but may use more memory. A value of 0.0 will not use any caching at all and will produce an unbiased solution. Here are three renderings with different values for the Sample size and with the same Subdivs value (1000). There isn't much of a difference in this simple scene, but in more complicated situations, the noise reduction can be significant.
Sample size = 0.04
Sample size = 0.02
Sample size = 0.0 (unbiased solution)
Rendering with Materials
Step 1: Rendering with materials
1.1. Turn off the Override mtl option from the Global switches rollout.
1.2. For faster previews, return the Subdivs for the light cache to 1000.
At this point, you can adjust material settings etc, while getting relatively fast feedback.
Step 2: Better quality with materials.
Since the noise level is determined by the Subdivs parameter, we only have to increase that. Individual Subdivs for materials (i.e. glossy reflections/refractions) do not matter.
2.1. Increase the Subdivs parameter to 2000 and render. Rendering now takes more time, but the noise is reduced:
By default, V-Ray does not compute reflective GI caustics, since these tend to add noise to the image. Sometimes however, they are important for the final result.
2.2. Turn Reflective GI caustics on from the Indirect illumination rollout.
2.3. Render the image. Reflective caustics can be seen on the green patch and the sphere, as well as a general brightening of the scene. Notice that the image is also noisier in places where there are caustics:
2.4. To reduce the noise in the image, we will need more Subdivs for the light cache, for example, 4000. Since we increased the value twice, render time will again approximately quadruple:
Note that you cannot obtain GI caustics from perfectly specular surfaces with point light sources. Either the light source must be an area source, or the material must be glossy, or both. You can also use photon mapping to generate the caustics through the settings in the Caustics rollout. This method is not as precise as the GI caustics, but can handle point light sources with perfect specular surfaces.
Increasing the Image Size
The only thing to remember when changing the image size is that larger images are noisier compared to smaller ones for the same light cache Subdivs value. This is because the samples are distributed over more pixels, and so each pixel gets fewer samples. To compensate for this, you will need to increase the Subdivs value. Increasing the resolution twice means that you will also have to increase the Subdivs twice to get the same quality (and it means that the render time will again quadruple). Here is the last image rendered at 800x600 with 8000 Subdivs (click for the full version):
- The image sampler type (Fixed, Adaptive DMC, Adaptive subdivision) is ignored in this mode, since the path tracing algorithm does pixel supersampling automatically. After the image is complete, V-Ray will print the minimum and maximum paths that were traced for the pixels in the image.
- The antialiasing filter however, is taken into consideration. Note that sharpening filters (Mitchell-Netravali, Catmull-Rom) may introduce noise and will require more samples to produce a smooth image. Larger filters like Blend may also take more time to converge. Turning the antialiasing filter off produces the least noise.
- Subdivs parameters in materials, textures, lights, camera settings, etc. are ignored in this mode. Noise and quality is controlled entirely through the light cache Subdivs parameter.
- The only parameters of the Global DMC Settings that are taken into consideration are Adaptive amount and Time-independent. Never set the Adaptive amount parameter to 0.0 when using path tracing, since this will bring the rendering to a halt.
- At present, only the RGBA channel is generated by the path tracing algorithm. Any additional G-Buffer channels are ignored.
- The light cache has no limitation on the number of diffuse light bounces in the scene. The number of specular bounces (through reflections/refractions) is controlled either per material, or globally from the Global Switches rollout.
- At present, the path tracing mode does not work properly when rendering to fields.
- At present, the path tracing mode does not work with matte objects/materials.