Intel Disabled AVX-512, but Not Really

One of the more interesting disclosures about Alder Lake earlier this year is that the processor would not have Intel’s latest 512-bit vector extensions, AVX-512, despite the company making a big song and dance about how it was working with software developers to optimize for it, why it was in their laptop chips, and how no transistor should be left behind. One of the issues was that the processor, inside the silicon, actually did have the AVX-512 unit there. We were told as part of the extra Architecture Day Q&A that it would be fused off, and the plan was for all Alder Lake CPUs to have it fused off.

Part of the issue of AVX-512 support on Alder Lake was that only the P-cores have the feature in the design, and the E-cores do not. One of the downsides of most operating system design is that when a new program starts, there’s no way to accurately determine which core it will be placed on, or if the code will take a path that includes AVX-512. So if, naively, AVX-512 code was run on a processor that did not understand it, like an E-core, it would cause a critical error, which could cause the system to crash. Experts in the area have pointed out that technically the chip could be designed to catch the error and hand off the thread to the right core, but Intel hasn’t done this here as it adds complexity. By disabling AVX-512 in Alder Lake, it means that both the P-cores and the E-cores have a unified common instruction set, and they can both run all software supported on either.

There was a thought that if Intel were to release a version of Alder Lake with P-cores only, or if a system had all the E-cores disabled, there might be an option to have AVX-512. Intel shot down that concept almost immediately, saying very succinctly that no Alder Lake CPU would support AVX-512.

Nonetheless, we test to see if it is actually fused off.

On my first system, the MSI motherboard, I could easily disable the E-cores. That was no problem, just adjust the BIOS to zero E-cores. However this wasn’t sufficient, as AVX-512 was still clearly not detected.

On a second system, an ASUS motherboard, there was some funny option in the BIOS.

Well I’ll be a monkey’s uncle. There’s an option, right there, front and centre for AVX-512. So we disable the E-cores and enable this option. We have AVX-512 support.

For those that have some insight into AVX-512 might be aware that there are a couple of dozen different versions/add-ons of AVX-512. We confirmed that the P-cores in Alder Lake have:

  • AVX512-F / F_X64
  • AVX512-DQ / DQ_X64
  • AVX512-CD
  • AVX512-BW / BW_X64
  • AVX512-VL / VLBW / VLDQ / VL_IFMA / VL_VBMI / VL_VNNI
  • AVX512_VNNI
  • AVX512_VBMI / VBMI2
  • AVX512_IFMA
  • AVX512_BITALG
  • AVX512_VAES
  • AVX512_VPCLMULQDQ
  • AVX512_GFNI
  • AVX512_BF16
  • AVX512_VP2INTERSECT
  • AVX512_FP16

This is, essentially, the full Sapphire Rapids AVX-512 support. That makes sense, given that this is the same core that’s meant to be in Sapphire Rapids (albeit with cache changes). The core also supports dual AVX-512 ports, as we’re detecting a throughput of 2 per cycle on 512-bit add/subtracts.

For performance, I’m using our trusty 3DPMAVX benchmark here, and compared to the previous generation Rocket Lake (which did have AVX-512), the score increases by a few percent in a scenario which isn’t DRAM limited.

(2-2) 3D Particle Movement v2.1 (Peak AVX)

Now back in that Rocket Lake review, we noted that the highest power consumption observed for the chip was during AVX-512 operation. At that time, our testing showcased a big +50W jump between AVX2 and AVX-512 workloads. This time around however, Intel has managed to adjust the power requirements for AVX-512, and in our testing they were very reasonable:

In this graph, we’re showing each of the 3DPM algorithms running for 20 seconds, then idling for 10 seconds. Each one has a different intensity of AVX-512, hence why the power is up and down. IN each instance, the CPU used an all-core turbo frequency of 4.9 GHz, in line with non-AVX code, and our peak power observed is actually 233 W, well below the 241 W rated for processor turbo.

Why?

So the question then refocuses back on Intel. Why was AVX-512 support for Alder Lake dropped, and why were we told that it is fused off, when clearly it isn’t?

Based on a variety of conversations with individuals I won’t name, it appears that the plan to have AVX-512 in Alder Lake was there from the beginning. It was working on early silicon, even as far as ES1/ES2 silicon, and was enabled in the firmware. Then for whatever reason, someone decided to remove that support from Intel’s Plan of Record (POR, the features list of the product).

By removing it from the POR, this means that the feature did not have to be validated for retail, which partly speeds up the binning and testing/validation process. As far as I understand it, the engineers working on the feature were livid. While all their hard work would be put to use on Sapphire Rapids, it still meant that Alder Lake would drop the feature and those that wanted to prepare for Alder Lake would have to remain on simulated support. Not only that, as we’ve seen since Architecture Day, it’s been a bit of a marketing headache. Whoever initiated that dropped support clearly didn’t think of how that messaging was going to down, or how they were going to spin it into a positive. For the record, removing support isn’t a positive, especially given how much hullaballoo it seems to have caused.

We’ve done some extensive research on what Intel has done in order to ‘disable’ AVX-512. It looks like that in the base firmware that Intel creates, there is an option to enable/disable the unit, as there probably is for a lot of other features. Intel then hands this base firmware to the vendors and they adjust it how they wish. As far as we understand, when the decision to drop AVX-512 from the POR was made, the option to enable/disable AVX-512 was obfuscated in the base firmware. The idea is that the motherboard vendors wouldn’t be able to change the option unless they specifically knew how to – the standard hook to change that option was gone.

However, some motherboard vendors have figured it out. In our discoveries, we have learned that this works on ASUS, GIGABYTE, and ASRock motherboards, however MSI motherboards do not have this option. It’s worth noting that all the motherboard vendors likely designed all of their boards on the premise that AVX-512 and its high current draw needs would be there, so when Intel cut it, it meant perhaps that some boards were over-engineered with a higher cost than needed. I bet a few weren’t happy.

Update: MSI reached out to me and have said they will have this feature in BIOS versions 1.11 and above. Some boards already have the BIOS available, the rest will follow shortly.

But AVX-512 is enabled, and we are now in a state of limbo on this. Clearly the unit isn’t fused off, it’s just been hidden. Some engineers are annoyed, but other smart engineers at the motherboard vendors figured it out. So what does Intel do from here?

First, Intel could put the hammer down and execute a scorched earth policy. Completely strip out the firmware for AVX-512, and dictate that future BIOS/UEFI releases on all motherboards going forward cannot have this option, lest the motherboard manufacturer face some sort of wrath / decrease in marketing discretionary funds / support. Any future CPUs coming out of the factory would actually have the unit fused out, rather than simply turned off.

Second, Intel could lift the lid, acknowledge that someone made an error, and state that they’re prepared to properly support it in future consumer chips with proper validation when in a P-core only mode. This includes the upcoming P-core only chips next year.

Third, treat it like overclocking. It is what it is, your mileage may vary, no guarantee of performance consistency, and any errata generated will not be fixed in future revisions.

As I’ve mentioned, apparently this decision didn’t go down to well. I’m still trying to find the name of the person/people who made this decision, and get their side of the story as to technically why this decision was made. We were told that ‘No Transistor Left Behind’, except these ones in that person’s mind, clearly.

 

The Intel 12th Gen Core i9-12900K Review: Hybrid Performance brings Hybrid Complexity Fundamental Windows 10 Issues: Priority and Focus
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  • ButIDontWantAUsername - Wednesday, November 10, 2021 - link

    How's that validation with Denuvo going? Nothing like upgrading to Intel and having your games suddenly start crashing. Reply
  • Iketh - Tuesday, November 30, 2021 - link

    please, no more comments from you Reply
  • tuxRoller - Friday, November 5, 2021 - link

    Most desktops at enterprise companies could be replaced with terminals given that most of the people are really just performing data entry & retrieval. The network is the bit doing the work.
    For people who need old school workstations, then I agree, but that's a damn small (but high margin) market.
    Reply
  • blanarahul - Thursday, November 4, 2021 - link

    Alder Lake is extremely efficient when gaming - https://www.igorslab.de/en/intel-core-i9-12900kf-c...

    Scroll down and you'll find a graph detailing total gaming power consumption (CPU + GPU) and CPU power consumed per fps. In both metrics, Alder Lake is doing better than Zen 3 and much better than Rocket Lake.

    PC World's review - https://www.pcworld.com/article/548999/12th-gen-co... - conveys that while 12900K goes volcanic in Cinebench, it sips power in a real world workload.

    It seems like Alder Lake for desktop has been clocked way beyond its performance/watt sweet spot. It should be very interesting to compare Alder Lake for laptops v/s Zen 3 for laptops.
    Reply
  • blanarahul - Thursday, November 4, 2021 - link

    To give a short summary for (only) CPU power consumption v/s FPS when playing Horizon Zero Dawn

    11900K consumes 100 watts for 143 fps
    5950X consumes 95 watts for 145 fps
    5800X consumes 59 watts for 144 fps
    12900K consumes 52 watts for 146 fps
    12700K consume 43 (!) watts for 145 fps

    Intel is very, very competent with AMD. Considering that 12700K has less E cores and consumes less power, I am very curious how it would do with all E cores disabled and running only on P cores.
    Reply
  • Netmsm - Thursday, November 4, 2021 - link

    Sounds like there is only gaming world!
    In PCs it may not be considered as a egregious blunder however you're right Intel is now competitive but to previous AMD's if and only if we wink at Intel's guzzling power.

    Some examples from Tom's benches:
    y-cruncher
    12900k DDR5 consumes 197 watts whereas 5950x consumes 103 watts.

    handbrake
    12900k DDR5 consumes 224 watts whereas 5950x consumes 124 watts.

    blender bmw27
    12900k DDR5 consumes 205 watts whereas 5950x consumes 125 watts.

    Will you calculate power efficiency, please?
    Reply
  • geoxile - Thursday, November 4, 2021 - link

    My 5950X uses 130-140W in y-cruncher. And @TweakPC on twitter tested lower PL1 and found the 12900k was only around 5% slower using 150W than 218W. Alderlake being power hungry is only because Intel is pushing 8 P-cores and 8 E-cores (collectively equal to around 4 P-cores according to Intel) to the limit, to compete against 16 Zen 3 cores. You can argue that it's still not as good as the 5950X but efficiency in this case is purely a problem of how much power Intel is allowing by default Reply
  • flyingpants265 - Thursday, November 4, 2021 - link

    Because they need all that extra power to increase their performance a tiny bit. They're not just doing it for fun. Reply
  • Netmsm - Saturday, November 6, 2021 - link

    Exactly 👍 Reply
  • Netmsm - Thursday, November 4, 2021 - link

    Even Ian has "accidentally" forgotten to put nominal TDP for 12900k in results =))
    All CPUs in "CUP Benchmark Performance: Intel vs AMD" are mentioned with their nominal TDP except 12900k.
    It sounds there's some recommendations! How venal!
    Reply

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