There are two "parts" to OpenGL - the specification that's updated by the Khronos Group once every few months, and the driver that's written by your graphics card manufacturer specifically for your graphics card model.
The OpenGL specification essentially details how everything about the OpenGL API should work - what the expected behavior should be, when something is considered unexpected behavior, when to throw which errors, etc. The specification lets the driver writers know exactly what they need to do and lets application writers know what to expect from a driver. This is what OpenGL really "is" - the glue that holds applications and drivers together. You can read all the specifications for each version here.
Then there's drivers that implement the OpenGL API and are considered compliant to the specification. The driver does exactly what you'd expect it to do - copy data to and from the graphics card's memory, write data to graphics card registers, keep track of state, process vertices, compile shaders, instruct hundreds of stream processors to simultaneously transform vertices and fill pixels, etc. Without OpenGL, each graphics card model would have a separate, slightly faster API that would only work for that one graphics card because of the way it was structured. With OpenGL, the drivers are all written against the same API and an application's code will run on all graphics cards.
Compliance to the OpenGL specification doesn't change with driver updates. Most driver updates will either fix minor bugs or do some internal optimizing.
I know at one point there was a small bug with ATI driver where you had to call
glEnable(GL_TEXTURE_2D); before you could generate mipmaps the OpenGL 3 way (
GL_TEXTURE_2D being deprecated as a possible value for
glEnable(). I'm not sure if it's fixed now, but it's certainly the type of edge case that can easily be overlooked by driver writers.
As for optimizations, there's a lot to optimize. Maybe there's another way to optimize shaders when they're being compiled, maybe there's a more efficient way to distribute work between the stream processors, I don't know.