Performance considerations for CPU-GPU interactions are a bit different from in other places, since the devices are considerably uncoupled.
That is, the cost incurred from client-to-device memory copies can be less important than those arising from the asynchronous relationship between CPU & GPU, such as implicit synchronization & in-driver VBO usage verification.
For instance, making a call to
glBufferSubData() on a VBO which is in use by the graphics card may result in a long wait while the driver waits for it to be safe to edit, or a shorter wait while it works out exactly how to behave. Consider that the graphics card may be rendering several frames behind – it may be much better to upload more data rather than less, if in doing so you can upload it to a different buffer which is not going to block your thread.
Graphics drivers will move buffers around to try and position them optimally – i.e. they apply heuristics in-flight, as well as taking into account supplied usage hints. It’s possible to achieve greater optimality, however, by uploading to one of a set buffers in a per-frame round-robin fashion – here is an example in Java using explicitly disabled synchronization and six (!) VBOs to account for the worst case frame lag (stereo, triple buffered).
(There is also orphaning, which is discouraged as in practice it’s not very effective at preventing costly synchronizations.)
Short version: Performance is more about buffer usage patterns than simply the amount of data uploaded :)