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I am working with OpenGL transform feedback. I have to catch several varyings from a Vertex Shader into buffers. I am using glTransformFeedbackVaryings to define the ones I need.

Currently, I am using n different buffers, for instance, n=3 : vertex, normal and tangent coordinates in world space. Each one contains only one kind of data, as specified by the GL_SEPARATE_ATTRIBS mode. Then I re-use these data in a later Fragment Shader. All these buffers are managed with a VAO.

My question : would it be globally faster to use GL_INTERLEAVED_ATTRIBS and only one buffer of interlaced data? I am wondering which mode is the fastest?

I cannot test both choices, it would require a lot of modification of my data structures (because all of this is part of a process of several steps like this) -- but I will if it is worth. Is it possible to have an idea of which one is the most efficient in modern graphic cards? Or what is the choice generally made by the developers?

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You shouldn't be wondering. You should be profiling. If you want reliable numbers, just implement both paths and see what works best with your configuration. My guess is that interleaved attribs will be faster, but I can't make a fact out of an assumption. –  thokra Sep 26 '13 at 10:15

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