In the most straightforward, simple case;
The vertex shader is called for every vertex of a primitive. 100 Vertices = 100 invocations of the active vertex shader. A latter stage then generates triangles from the vertices.
Now, for each triangle generated by the vertex shader, it gets rasterized to generate fragments (i.e. potential pixels). The rasterizer linearly interpolates between each vertex of a triangle to generate the fragment locations of the triangle. Where you are getting confused is probably thinking that the fragment shader is called 1-to-1 along with the vertex shader. Nope, there can be zero to millions of fragments generated - it depends upon how big (visually) the resulting triangle is going to be. The fragment shader is called on each fragment generated. it depends on the vertices output by the vertex shader.
If a triangle is far away from the viewpoint, it may be a few fragments. If it's close to the screen it can take up the whole viewport.