@Fanael I'm gonna use ICC. Since MSVC doesn't have AVX512.

Well, the latest one does, but I don't have it installed.

Just use the intrinsic for it.

I'm not gonna have MinGW installed on that box.

Did they ever fix the AVX stack alignment problem on MinGW?

Assignee: Not yet assigned to anyone

gcc.gnu.org/bugzilla/show_bug.cgi?id=54412

Sounds like a pretty "show stopping bug"

It's the only thing keeping me from building all of the Folding@home software for Windows under Linux. We need AVX for our protein folding simulations.

makes for better security

Security Through Unusability

Security Through Framework Unusability (STFU)

we can do better

@Fanael That's retarded.

@Fanael Looks like ro[lr] is slower than sh[lr]d on Haswell.

Why am I seeing all these 6-cycle instructions on Agner's tables?

oh... ahaha. I'm dumb.

Looks like -march=core-avx2 is enough.

@Fanael I'll need to check, but it wouldn't be above ICC to convert your shift + OR intrinsics into rotates if I compile for AVX512.

I've also noticed that compiling for AVX512 forces the code generate AVX even when the code is not vectorizable which causes the AVX clockdowns.

So I'll need to pay attention the clock speeds.

Thats weird, what signals clockdowns?

@Mikhail The processor is aware of what instructions its executing. And it will clock down when running said instructions to avoid burning up the processor.

In your case they aren't executed, though (I believe that is what you wrote)

@Mikhail I have a feeling something as simple as a vzeroupper will cause the clock down.

But I haven't specifically tested it yet.

Okay, so actually they are executed

yes, it won't clock down unless it gets into the pipeline.

I don't know if bad speculation into an AVX(512) instruction is enough to cause a clockdown.

^ this was my question :-)

FYI, had to assert that several std::vectors<T>.size() matched in size. Was too hard to figure out how to loop over them because T is different and I don't know C++. Used a reinterpret case to one of the types and it worked. One week till I deploy :-)

@Fanael It may take more than one AVX(512) instruction to actually cause the clock down. So if a branch mispredict causes it to execute an AVX instruction once, but not again later, it may not clock down at all.

Though it won't be able to run the lone AVX(512) at full speed since the resources are power-gated and the processor may not be stable running AVX(512) at that higher frequency.

So it can't run AVX(512) at full speed until it clocks down and powers up the resources for them.

Best way to check that 9 vectors that hold different objects have the same number of elements...

too hard, I got 9 of them, instead I reinterpret casted them to form a solid array

Its a code complexity issue, aka how can I save lines, typing

@Fanael "...because it's the only possible state..." because what is the only possible state?

Yes, but I'm also gangsta

Also its completely defined, just might fuck up if the underlying representation of the vector changes

@Mysticial I can almost see where it would make sense for the CPU to play games like the HotSpot JIT does, and keep track of whether a particular sequence executes enough AVX 512 instructions to justify using the "real" AVX 512 unit.