Agree, maybe "changes the physics" was too strong, shared cpu/gpu memory is not new.
What is different then is the combination of
1. UMA memory (and yes, iGPU had this, pre-M1)
2. enough bandwidth / GPU throughput for local inference
3. straightforward `makeBuffer(bytesNoCopy:)` path
So, the novelty isn't the shared memory itself, but the whole chain lining up to make the Wasm linear memory -> Metal-buffer approach practical + performant enough.
(and not saying there's some Apple Silicon magic here either ... it'd work anywhere there was UMA and no-copy host-pointer path)
This is crazy impressive ... the kind of thing that should inspire one to do more, much more, than whatever "mere plumbing" one happens to be doing at the moment
Applied plasma physics (spheromaks, solitons, field topology) to UAP observations. Explains the "five observables" better than the spacecraft model ... though radar signatures and energy density remain problematic (!)
Speculative but grounded in real physics (I used ChatGPT/Gemini as thinking partners, then verified claims)
Nothing wrong with that, it's a good thing that stuff is discovered anew [as opposed to being lost/forgotten], but it did bring a smile to me.