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I'm having issues with my skeletal animation vertex shader. When animating about 32 models at once I can only get 60 fps, and on low end computers I get even less. Vertex shader below:

uniform mat4 boneMatrixes[128];

void main(){

  vec4 a = gl_Vertex;

  // Apply bone transformation
  a = boneMatrixes[int(gl_Normal.x)] * gl_Vertex;

  gl_Position = gl_ModelViewProjectionMatrix * a;
  gl_TexCoord[0] = gl_MultiTexCoord0;

}

Parameters are bound like this (please note that this is Java, I am using the LWJGL OpenGL binding:)

int boneMatrixesName = ARBShaderObjects.glGetUniformLocationARB(mProgramShader, "boneMatrixes");

// matrixFloatBuffer is a FloatBuffer of size 128 * 16
ARBShaderObjects.glUniformMatrix4ARB(boneMatrixesName, false, matrixFloatBuffer);

Commenting out the a = boneMatrixes[int(gl_Normal.x)] * gl_Vertex; line increases performance by about 500%. How can I increase performance for this vertex shader? It looks as simple and fast as possible.

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"Commenting out the ... line increases performance by about 500%." Why does this surprise you? Your shader consists of two matrix multiplies and a copy. It's no surprise that your vertex shader runs faster if take away half of its work. Plus, the compiler can optimize boneMatrixes out, so it doesn't have to upload your matrix data. What you need to do is better localize the source of the actual problem. Also, stop using ARBShaderObjects. Use the core GLSL functionality. –  Nicol Bolas Apr 2 '12 at 21:12
    
@NicolBolas: I have found that if I use a constant in the boneMatrixes reference (i.e. boneMatrixes[0] or boneMatrixes[1] etc...) it speeds up to the same level as if I just commented out the code. Do you know why it does that? –  Isaac Waller Apr 3 '12 at 21:43

1 Answer 1

Depending on the GPU vendor and model, these 128 4x4 matrices may use as many as 512 uniform components. That is an awful lot, and also a lot of that space is wasted, as the part that's actually useful is 3x4. You may want to check out quaternions as a method of uploading skinning information to the GPU and converting them to matrices in the shader.

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Just out of interest, is sending the bone matrices as uniforms the generally done thing, or is there a way of doing it with a second vertex stream? I think I read about this somewhere, but I've forgotten the details.. :-(. –  Robinson Apr 2 '12 at 21:57

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