So I read the OpenGL info page on textureGrad but it doesn't really explain anything. So you can explicitly specify the partial derivatives of P relative to X and Y

  • What does this actually do?
  • How does OpenGL calculate the derivatives when you sample without specific partial derivatives?
  • Why does texture sampling use or even need derivatives?

My mind has been blown.

  • Because I tried, with little luck. I was hoping someone on here would actually understand it and be able to explain. You know, like the site is for? Jan 9, 2014 at 1:40
  • This document will thoroughly answer all your questions: Paul S. Heckbert. Fundamentals of texture mapping and image warping. Technical report, 1989 ------------------------------------------------------------------------
    – a.lasram
    Jan 9, 2014 at 2:27
  • I don't get why my comments got removed, am I really the only one here on Stack Overflow actually reading the guidelines and/or help/tour page? ... Stack Overflow Quote: "Focus on questions about an actual problem you have faced. Include details about what you have tried and exactly what you are trying to do."
    – vallentin
    Jan 9, 2014 at 15:10
  • @Vallentin: I believe it has to do with the general tone in your comments as of late... what you stated is very much true, but not particularly constructive. Even so, there are plenty of quality questions on Stack Overflow that pertain more to the purpose/function of a new/under-documented feature of some language/API than actual coding problems. I tend to answer questions that are not a perfect fit for SO's model in comments; it may not be right for a full-blown answer, but if I can help at all I generally will. Jan 9, 2014 at 21:16
  • 1
    Possible duplicate of What is, in simple terms, textureGrad()?
    – Rabbid76
    Oct 24, 2018 at 21:02

1 Answer 1


When you invoke a texture sample operation on the GPU, the GPU does the following:

  1. The texture request is broadcasted to neighboring pixels in a 2x2 quad fragment
  2. The partial derivatives of the texture coordinates with respect to x and y are computed
  3. These partials are used to compute the MIP level (accounting for level of detail and anisotropic filtering)
  4. Finally, the relevant texels are fetched (possibly from a texture cache) and interpolated to produce the final sampled result

Now, suppose you have different neighboring fragments that branch (say due to some material or something) such that on invocation of that shader, sample requests to different textures are made at the same time. You run into a problem if the tiling rates for these textures are different which will break the MIP selection (the incoherence of this undefined operation will result in a noisy render). The solution is to query for the gradients yourself using dFdx and dFdy outside of the branch and use the textureGrad function within the branch, applying the correct tiling multipliers to your gradients.

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