Have you thought about using a graphical dataflow environment like Pure Data (Pd) or Max? Max is a commercial product, but Pd is free.
Even if you don't end up using Pd for your final project, it makes an excellent rapid prototyping tool. Whilst the graphics processing capabilities of Pd are limited, there are extensions such as Gridflow and Gem, which may help you. Certainly with Pd you can analyse incoming sound using the [fiddle~] object, which will give you the overall pitch and frequency/amplitude of individual partials and [env~], which will give you RMS amplitude. You could then very easily map changes in sound (pitch, amplitude, timbre) to various properties of an image such as colour, shapes, number of elements and so on in Gem or Gridflow.
10k moving objects sounds like a heck of a lot even on a modern desktop GPU! Calculating all of those positions on-the-fly is going to consume a lot of resources. I think even with a dedicated C++ graphics library like openFrameworks, this might be a struggle. You might want to consider an optimisation strategy like pre-rendering aspects of the image, and using the real-time audio control to determine which pre-rendered components are displayed at any given time. This might give the illusion of control over 10k objects, when in reality much of it is pre-rendered.