Intel engineers wrote that we should use VZEROUPPER/VZEROALL to avoid costly transition to non-VEX state on all processors, including future Xeon processor, but not on Xeon Phi: https://software.intel.com/pt-br/node/704023
People have also measured and found out that VZEROUPPER and VZEROALL are expensive on Knights Landing:
36 clock cycles for both instructions in 64-bit mode (30 clock in 32-bit mode).
See the above link.
So my code will be the following, if I have just used ymm0 and ymm1:
if [we are running on a Xeon Phi] vpxor ymm0,ymm0,ymm0 vpxor ymm1,ymm1,ymm1 else vzeroall endif
How can I detect Xeon Phi (Knights Landing and later Xeon Phi processors) to implement the above code?
We now have the following situation now about the VZEROUPPER/VZEROALL:
- These instructions are not needed and are very costly on Xeon Phi Knight Landing 36 clock cycles for both instructions in 64-bit mode (30 clock in 32-bit mode).
- These instructions are very cheap and are needed on Xeon and Core processors (Skylake/Kaby Lake) and will be needed for Xeon in the foreseeble future, to avoid costly transition to non-VEX state.
The advertising materials claim that Xeon Phi (Knights Landing) is fully compatible with other Xeon processors.
Is there a reliable way to detect Xeon Phi, for the purpose of avoiding VZEROUPPER/VZEROALL?
There is an article "How to detect Knights Landing AVX-512 support (Intel® Xeon Phi™ processor)" by James R., Updated February 22, 2016, but it only focuses specific new instructions that became available on the Knights Landing. So it is still not very clear about the VEX transitions.
It would have been good to know whether Intel plans to implement a CPUID bit to show whether non-VEX state are costly? For example:
- Bit is set to 0 - VEX state transitions are costly, but VZEROUPPER/VZEROALL are cheap and should be used to clear the state;
- Bit is set to 1 – there is no transition penalty, VZEROUPPER/VZEROALL is not needed.
The above mentioned article about detecting Knights Landing suggests to check the bits AVX-512F+CD+ER+PF as introduced in Knights Landing.
So the code suggests to check all these bits at once, and if all are set, then we are on the Knights Landing:
uint32_t avx2_bmi12_mask = (1 << 16) | // AVX-512F (1 << 26) | // AVX-512PF (1 << 27) | // AVX-512ER (1 << 28); // AVX-512CD
It would have been good to know whether Intel plans to add these all bits to a simple Xeon (non Phi) or Core processors in the near future, so they will also support the AVX-512F+CD+ER+PF features introduced in the Knight Landding?
In case that Xeon and Core processor will support AVX-512F+CD+ER+PF, we won’t be able to distinguish Xeon from Xeon Phi.