Yeah, I looked at Klipper a few months ago and really liked what I saw. Haven't had a chance to try it out yet but like you say they seem to have nailed the interface boundary between "things that should run fast" (on an embedded computer) and "things that need precise timing" (on a microcontroller).
One thing to keep in mind for people looking at the RT patches and thinking about things like this: these patches allow you to do RT processing on Linux, but they don't make some of the complexity go away. In the Klipper case, for example, writing to the GPIOs that actually send the signals to the steppers motors in Linux is relatively complex. You're usually making a write() syscall that's going through the VFS layer etc. to finally get to the actual pin register. On a microcontroller you can write directly to the pin register and know exactly how many clock cycles that operation is going to take.
I've seen embedded Linux code that actually opened /dev/mem and did the same thing, writing directly to GPIO registers... and that is horrifying :)
At the same time, RT permits some more offload to the computer.
More effort can be devoted to microsecond-level concerns if the microprocessor can have a 1ms buffer of instructions reliably provided by the computer, vs if it has to be prepared to be on its own for hundreds of ms.
One thing to keep in mind for people looking at the RT patches and thinking about things like this: these patches allow you to do RT processing on Linux, but they don't make some of the complexity go away. In the Klipper case, for example, writing to the GPIOs that actually send the signals to the steppers motors in Linux is relatively complex. You're usually making a write() syscall that's going through the VFS layer etc. to finally get to the actual pin register. On a microcontroller you can write directly to the pin register and know exactly how many clock cycles that operation is going to take.
I've seen embedded Linux code that actually opened /dev/mem and did the same thing, writing directly to GPIO registers... and that is horrifying :)