What’s the difference between a 3D render and a raytrace?

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When I’m discussing a project with a new client, I often get asked what the difference is between a “render” (or “rendering”) and a “raytrace.”  Sometimes I use all three terms interchangeably, which I’m sure can be confusing.  But are they actually different?  If so, how?

Answers to these questions could (and do) fill entire books and webpages, but I’ll attempt a very simple explanation here (which will still be way too technical for a lot of folks!).

Computer rendering* is a general term for producing an image from a model constructed with 3D modeling software.  3D modeling involves creating a mathematical representation of a three-dimensional object.   Once the model, or mesh, is created, it is possible to take a “camera view” of the object from any angle (hence the term 3D).  The information from the 3D model is transferred to a rendering program to be processed and output as a digital image file, typically using a simple rasterization or scanline rendering method.  Current processors can produce this type of rendering quickly and efficiently, pretty much in real time, and it is what is used in most computer gaming.

Raytracing is a specific type of rendering technique.  The name refers to the way the computer creates the final image — by analyzing the light sources in the scene and computing the paths of the rays (photons) produced by those lights.  The result is a very realistic image including reflections and caustics (light refractions through glass), resulting in lighting and shadows that are close to what would be observed in the real world.  Raytracing algorithms simulate light realistically as it bounces between different objects, calculating the exact color of each pixel based on its material properties and the amount of light it is receiving.  In raytracing, many different algorithms can factor into the computation of a pixel’s final shade, including the material’s absorption, reflection, transparency, translucency, and refraction characteristics.

Raytracing actually proceeds opposite to the way light normally travels, because it works backward, only calculating the paths of photons that actually intersect the camera’s view frame.  Although this makes the process more efficient than if it actually traced the path of every photon emitted from every light source in the scene, it does not always yield the most realistic results.  Other methods which combine both eye-based and light-based ray paths, such as photon mapping and bidirectional path tracing, can yield superior results, especially in scenes involving indirect lighting or caustics.

Rendering is generally less time- and computer-resource-intensive than raytracing. However, technology is improving rapidly and real-time raytracing will soon be an accessible reality.

* Of course there are also the time-honored “artist’s rendering” architectural illustration methods such as pen and ink, watercolor, colored pencil, pastels, etc.  Nowadays, the look of many of these traditional techniques can be produced using computer graphics and photo-editing software.  More on this topic another day.



So, are you still with me?  What does all this technical stuff mean for someone who wants computer images of their new home or remodeling plans?  An example can demonstrate the differences best.  Here is a comparison of a render versus a raytrace of the same room.  The first image is a Chief Architect rendered camera view of a great room and entryway with curving staircase.  The second image is one I posted the other day, a raytraced image of the same space.

Great room and front hallway - 3D Rendering by CastleView3D.com

3D rendering by CastleView 3D

Great Room and Entry - 3D Raytrace Rendering by CastleView3D.com

3D raytrace by CastleView 3D

In the rendering, you can see that there is some differential shading of surfaces depending on their angle and the amount of light they are receiving.  But overall the scene looks fairly flat.  The lighting in the raytraced image is much more realistic — sunlight coming through the windows, reflections on the polished wood floor, and a greater sense of depth and dimension.

You can view another render-vs-raytrace example here.

Renders are fine for the initial stages of a project, when rough approximations of the look and feel of the space are sufficient for planning purposes.  But once the major decisions have been made, final raytraces are what really bring the space to life and promote confidence in the material and design choices.


So there you have an oversimplified explanation of the differences between rendering and raytracing.  I was enchanted and enthralled the first time I produced a simple rendering with my beginner-level Home Designer software.  But once I learned how to create raytraces with Chief Architect’s POVray, and later on with Kerkythea and Thea Render, it was impossible to feel satisfied with anything less realistic again.

My sincere apologies to anyone who is more expert in this area than I am.  I’m an intelligent, educated person, but thinking about the technical explanations for all this makes my brain hurt.  I’ve done my best to distill a very complicated topic down to a few paragraphs.  However, I realize I’m in way over my head here, and I’d be delighted to hear a more correct or complete explanation of the differences in the Comments.

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3 responses to “What’s the difference between a 3D render and a raytrace?

  1. At the launch of the 3DPlanView.com in 2004, my husband made the point that 3D rendering was not in the general public’s vocabulary. We called our product “3D images” or “3D pictures” and then tried to explain “3D rendering” as we went through a project with a client.

    In recent years, it is clear that the general public has become more familiar with the term 3D rendering, but they are still not clear on what a Raytrace is. Good job explaining the difference.

    While these terms may not be technically correct, 3DPlanView has begun to use the terms “3D renderings” and “photo-real 3D renderings” (Raytrace.)

    The examples you showed are a great way to explain the difference. Here are two more examples…

    Example: 3D rendering, the fastest output from Chief Architect X3 software

    Example: Photo-real 3D rendering (Raytrace) that can take hours of processing time:

  2. Perfect example — thanks, Kay! I’m sure that gorgeous raytrace DID take hours of processing time…….

    And I agree — I think a lot of people have some idea what a rendering is now. Hopefully this blog is helping educate them so they can make more informed choices about which is best for them.

  3. Ray tracing can be defined as a technique that is used for generating an image by tracing the path of light through pixels in an image plane whereas 3D rendering is a technique that is used to convert wire frame models 3D photorealistic effects on a computer. 3D rendering is the one of the leading technique used these days for home renovation.

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