I ran test 19 and 26 on Skylake-W this is a test with cache misses and a long series of independent vpxor ops in beteween so you just look for the jump to see how big the PRF is
26 is a new test I added that uses zmm regs
both tests spike right around 150 which is the same as my SKL box
so I don't see any evidence of early freeing of physical registers (since this test should show it since we continually overwrite the same 8 regs), and also no evidence of some kind of combining 256-bit regs to make a 512-bit zmm (halving the PRF size)
I changed my test to use floating-point instead. Since it takes 8 parallel FP instructions to saturate the ports, it extends the range of the test. My observations are: - If the sequence is too large to fit in the ROB, the difference between 256-bit and 512-bit is 18%. - If the sequence fits into the ROB, the difference is 23%.
They both seem to degrade together.
IOW, evidence that either the 512-bit register file is in fact the full thing (and not pairwise combined of 256-bit parts).
Or even the reduced size of the 512-bit PRF is still large enough.
But running a few numbers, it does seem to hint at it being able to handle 160+ live 512-bit values.
