On 19 April 2024 18:13:16 BST, "Chen, Zide" zide.chen@intel.com wrote:
I'm wondering what's the underling theory that we definitely can achieve ±1ns accuracy? I tested it on a Sapphire Rapids @2100MHz TSC frequency, and I can see delta_corrected=2 in ~2% cases.
Hm. Thanks for testing!
So the KVM clock is based on the guest TSC. Given a delta between the guest TSC T and some reference point in time R, the KVM clock is expressed as a(T-R)+r, where little r is the value of the KVM clock when the guest TSC was R, and (a) is the rate of the guest TSC.
When set the clock with KVM_SET_CLOCK_GUEST, we are changing the values of R and r to a new point in time. Call the new ones Q and q respectively.
But we calculate precisely (within 1ns at least) what the KVM clock would have been with the *old* formula, and adjust our new offset (q) so that at our new reference TSC value Q, the formulae give exactly the same result.
And because the *rates* are the same, they should continue to give the same results, ±1ns.
Or such *was* my theory, at least.
Would be interesting to see it disproven with actual numbers for the old+new pvclock structs, so I can understand where the logic goes wrong.
Were you using frequency scaling?