Does OpenGL provide some API, which
can "forward" these calculations to
GPU?

I would look at GLSL, OpenGL Shading Language.

Despite what @Jared said, I would think you could program the GPU to compute a Sierpinski carpet in parallel, at least up to a defined number of iterations. (It would be a fun project to try in WebGL.)

**Edit:** Here's a GPU implementation of a Sierpinski carpet, using WebGL, which is based on OpenGL ES 2.0 and uses GLSL for shader programming. An OpenGL implementation would be very similar if not identical.

```
#ifdef GL_ES
precision highp float;
#endif
uniform vec2 resolution;
uniform float time;
uniform sampler2D tex0;
// Sierpinski carpet
void main(void)
{
ivec2 sectors;
vec2 coordOrig = gl_FragCoord.xy / resolution.xy;
const int lim = 5;
/* If you want it to spin, just to prove that it is redrawing
the carpet every frame: */
vec2 center = vec2(0.5, 0.5);
mat2 rotation = mat2(
vec2( cos(time), sin(time)),
vec2(-sin(time), cos(time))
);
vec2 coordRot = rotation * (coordOrig - center) + center;
vec2 coordIter = coordRot;
for (int i=0; i < lim; i++) {
sectors = ivec2(floor(coordIter.xy * 3.0));
if (sectors.x == 1 && sectors.y == 1 ||
// rotation can put us out of bounds
sectors.x < 0 || sectors.x > 2 ||
sectors.y < 0 || sectors.y > 2) {
// make a hole
gl_FragColor = vec4(texture2D(tex0, coordOrig).xyz, 1.0);
return;
} else {
// map current sector to whole carpet
coordIter.xy = coordIter.xy * 3.0 - vec2(sectors.xy);
}
}
gl_FragColor = vec4(coordRot.x, 0.5, coordRot.y, 1.0);
}
```

To test this, go to Shader Toy using a WebGL-enabled browser, and paste the above code into the "Source" window. Hit Alt+Enter: Presto! On my laptop, which is no great shakes but does have a graphics accelerator card, it runs at 45-60 fps.

To get the background texture shown in the screenshot, I used this texture for Unit 0 under Inputs: http://www.iquilezles.org/apps/shadertoy/presets/tex3.jpg

As you can see, I set the lim (number of levels of iteration) to 5... at the resolution I was testing with, that was approaching sub-pixel precision.

So the answer to your question, "I wonder if OpenGL can use GPU for typical graphic calculations, like calculating coordinates," is definitely yes. Technically, the above uses a pixel shader, which calculates color in order to produce the Sierpinski carpet. If you actually need to adjust coordinates of vertices, you would use a vertex shader. The process is similar.