I have found lots of references that say that there is no interaction between P-states and C-states, but I am curious about one specific case that might have an interaction.
In the C1 state, the core clocks are stopped, but the private caches remain active.
If a processor is in a low-frequency P-state (e.g., 1.2 GHz on a 2.7 GHz Sandy Bridge core) when it enters C1 (via MONITOR/MWAIT), do the caches continue to operate at the low frequency? Or do the caches not pay attention to the core multiplier ratios?
If the caches do run slower at the higher-numbered P-states, then I have questions about how the L2 to System Agent manages the (presumably) asynchronous clock boundary with the Rings, since the Rings appear to run at the speed of the fastest core -- but that is probably too much detail for a public forum. Actually, I have no experimental evidence that the cores in my Xeon E5-2680 (Sandy Bridge EP) are capable of running at different frequencies at the same time. I can statically set then to different frequencies, and they report to be running at different frequencies, but when I run a benchmark they all seem to speed up to match the frequency of the fastest core. I have not yet checked to see if that is due to the uncore Power Control Unit (PCU) over-riding my frequency selections for one reason or another....