Today we’re covering some news of the more unusual type, and that is a roadmap update from Ampere, and having a closer look what the company is planning in terms of architectural and microarchitectural choices of their upcoming next-generation server CPUs in 2022 and onwards.

For people not familiar with Ampere, the company was founded back in 2017 by former Intel president Renée James, notably built upon a group of former Intel engineers who had left along with her to the new adventure. Initially, the company had relied on IP and design talent from former AppliedMicro’s X-Gene CPUs and still supporting legacy products such as the eMAG line-up.

With Arm having starting a more emphasised focus on designing and releasing datacentre and enterprise CPU IP line-ups in the form of the new Neoverse core offerings a few years back, over the last year or so we had finally seen the fruits of these efforts in the form of the release of several implementations of the first generation Neoverse N1 server CPU cores products, such as Amazon’s Graviton2, and more importantly, Ampere’s “Altra Quicksilver” 80-core server CPU.

The Altra Q line-up, for which we reviewed the flagship Q80-33 SKU last winter, was inarguably one of the most impressive Arm server CPU executions in past years, with the chip being able to keep up or beat the best AMD and Intel had to offer, even extending that positioning against the latest generation Xeon and EPYC generation.

Ampere’s next generation "Mystique" Altra Max is the next product on the roadmap, and is targeted to be sampling in the next few months and released later this year. The design relies on the same first generation Arm Neoverse N1 cores, at the same maximum 250W TDP as a drop-in replacement on the same platform, however with an optimised implementation that now allows for up to 128 CPU cores – 60% more cores than the first iteration of Altra we have today, and double the amount of cores of competitor systems from AMD or Amazon’s Graviton2.

For the future for designs beyond the Altra Max, Ampere is promising that they will be continuing emphasis of what they consider “predictable performance” for workloads with scaling socket load, increasing core counts with a linear increase in performance, and what I found interesting as a metric, to continue to reduce power per core – something to keep in mind as we’re discussing the next big news today:

Replacing Neoverse with Full Custom Cores

Today’s big reveal comes in regard to the microarchitecture choices that Ampere is going to be using starting in their next generation 2022 “Siryn” design, successor to the Altra Max, and relates to the CPU IP being used:

Starting with Siryn, Ampere will be switching over from Arm’s Neoverse cores to their new in-house full custom CPU microarchitecture. This announcement admittedly caught us completely off-guard, as we had largely expected Ampere to continue to be using Arm’s Neoverse cores for the foreseeable future. The switch to a new full custom microarchitecture puts Ampere on a completely different trajectory than we had initially expected from the company.

In fact, Ampere explains that what the move towards a full custom microarchitecture core design was actually always the plan for the company since its inception, and their custom CPU design had been in the works for the past 3+ years.

In terms of background - the design team leading the effort is lead by Ampere’s CTO Atiq Bajwa, who is also acting as the chief architect on the project. Bajwa and the team surrounding him appear to be mostly comprised of high-profile ex-Intel engineers and veterans which had left the company along with Renée James in 2017, topped-off with talent from a slew of other companies in the industry who joined them in the effort. The pedigree and history of the team is marked by achievements such as working on Intel’s Haswell and Broadwell processors.

Ampere’s explanation and rationale for designing a full custom core from the ground up, is that they are claiming they are able to achieve better performance and better power efficiency in datacentre workloads compared to what Arm’s Neoverse “more general purpose” designs are able to achieve. This is quite an interesting claim to make, and contrasts Arm’s projections and goals for their Neoverse cores. The recent Neoverse V1 and N2 cores were unveiled in more detail last month and are claimed to achieve significant generational IPC gains.

For Ampere to relinquish the reliance on Arm’s next-gen cores, and instead to rely on their own design and actually go forward with that switch in the next-gen product, shows a sign of great confidence in their custom microarchitecture design – and at the same time one could interpret it as a sign of no confidence in Arm’s Neoverse IP and roadmap. This comes at a great juxtaposition to what others are doing in the industry: Marvell has stopped development of their own ThunderX CPU IP in favour of adopting Arm Neoverse cores. On the other hand, not specifically related to the cloud and server market, Qualcomm earlier this year have acquired Nuvia, and their rationale and explanation was similar to Ampere’s in that they’re claiming that the new in-house design capabilities offered performance that otherwise wouldn’t have been possible with Arm’s Cortex CPU IP.

In our talks with Jeff Wittich, Ampere’s Chief Product Officer, he explains that today’s announcement should hopefully help paint a better picture of where Ampere is heading as a company – whether they’d continue to be content on “just” being an Arm IP integrator, or if they had plans for more. Jeff was pretty clear that in a few years’ time they’re envisioning and aiming for Ampere to be a top CPU provider for the cloud market and major player in the industry.

In terms of technical details as to how Ampere’s CPU microarchitecture will be different in terms of approach and how and why they see it as a superior performer in the cloud, are questions to which we’ll have to be a bit more patient for hearing answers to. The company wouldn’t comment on the exact status of the Siryn design right now – on whether it’s been taped in or taped out yet, but they do retierate that they’re planning customer sampling in early 2022 in accordance to prior roadmap disclosures. By the tone of the discussions, it seems the design is mostly complete, and Ampere is doing the finishing touches on the whole SoC. Jeff mentioned that in due time, they also will be doing microarchitectural disclosures on the new core, explaining their design choices in things like front-end or back-end design, and why they see it as a better fit for the cloud market.

Altra Max later this year, more cloud customer disclosures

Beyond the longer-term >2022 plans, today’s roadmap updates also contained a few more performance claim reiterations of Ampere’s upcoming 128-core Altra Max product, which is planned to hit the market later in the second half of the year and customers being sampled in the next few months.

The “Mystique” code-named Altra Max design will be characterised in that it’s able to increase the core-count by 60% versus the current generation Altra design, all while remaining at and below the same 250W TDP. The performance slides here are showcasing comparisons and performance claims against what is by now the previous generation competitor products, Ampere here simply explains they haven’t been able to get their hands on more recent Milan or Ice Lake-SP hardware to test. Nevertheless, the relative positioning against the Altra Q80-30 and the EPYC 7742 would indicate that the new chip would easily surpass the performance of even AMD’s latest EPYC 7763.

In the slide, Ampere actually discloses the SKU model name being used for the comparison, which is the "Altra Max M128-30" – meaning for the first time we have confirmation that all 128 cores are running at up to 3GHz clock speed, which is impressive given that we’re supposed to be seeing the same TDP and power characteristics between it and the Q80-33. We’ll be verifying these figures in the next few months once we get to review the Altra Max.

Today’s announcement also comes with an update on Ampere’s customers. Oracle was notably one of the first Altra adopters, but today’s disclosure also includes a wider range of cloud providers, with big names such as ByteDance and Tencent Cloud, two of the biggest hyperscalers in China.

Microsoft in particular is a big addition to the customer list, and while Ampere’s Jeff Wittich couldn’t comment on whether Microsoft has other internal plans in the works, he said that today’s announcement should give more clarity around the rumours of the Redmond company working on Arm-based servers, reports of which had surfaced back in December. Microsoft’s Azure cloud service is only second to Amazon’s AWS in terms of size and scale, and the company onboarding Altra products is a massive win for Ampere.

Taking control of one’s own future

Today’s announcements by Ampere of them deploying their own microarchitecture in future products is a major change in the company’s prospects. The news admittedly took us by surprise, but in the grand scheme of things it makes a lot of sense given that the company aims to be a major industry player in the next few years – taking full control of one’s own product future is critical in terms of assuring that success.

While over the years we’ve seen many CPU design teams be disbanded, actually having a new player and microarchitecture pop up is a much welcome change to the industry. While the news is a blow to Arm’s Neoverse IP, the fact that Ampere continues to use the Arm architecture is a further encouragement and win for the Arm ecosystem.

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  • Wilco1 - Thursday, May 20, 2021 - link

    Besides NAMD, Altra also wins most benchmarks in SPEC_rate - I count 12 wins in 22 int+fp benchmarks, often by a good margin. Altra Max will do even better. The only big loss is SPECjjb (and likely will be only loss for Altra Max) - I guess Ampere is not optimizing for that workload. Reply
  • deltaFx2 - Thursday, May 20, 2021 - link

    Namd happens to have a tiny data cache footprint of less than an MB. Not surprisingly, it scales linearly in the number of cores. In every review of late, the AT authors say they don’t like this benchmark but they post it regardless for reasons I don’t understand.

    Ampere altra is designed to “win” in spec rate at all costs. Rumors on the internet (somewhat credible) indicate that they cut the L3 cache to 16MB to fit 128cores. 60% more cores apparently give 19% more perf. See how nonlinear that is? I told you so a while ago… spec rate scales in number of virtual cpus until you run out of dram bandwidth. Cache capacity does not matter. Just add cors and watch it fly. Memory bw saturation has already been hit around 64c beyond which additional cores become less effective. Milan is also affected by this, where higher IPC does not buy as much throughput in 64c configs. Ampere crippled themselves further by removing cache and increasing dram pressure. All to win at a benchmark that is maybe vaguely representative of latency-insensitive homogeneous batch processing.
    Spec jbb, on the other hand is a latency sensitive server load and amperes 80c design in a 2p config is barely ahead of a 1Pmilan in the AT review. I expect the 128c version to suck even more but let’s see.
    Reply
  • mode_13h - Friday, May 21, 2021 - link

    > I count 12 wins in 22 int+fp

    Ah, so *now* you mention fp, when you can skirt around its big *loss* on the aggregate score.

    And just to reiterate, my count is 10 wins + 3 ties for Altra.

    I don't pretend to know why, but you're really spinning Altra's results pretty hard. At this point, I'd say you have a clear bias.
    Reply
  • Wilco1 - Friday, May 21, 2021 - link

    If anything, you have a clear bias. You are the one who falsely claimed that x86 wins both on per-core and per-thread performance despite clear evidence of the contrary. Reply
  • mode_13h - Friday, May 21, 2021 - link

    > You are the one who falsely claimed that x86 wins both on per-core and per-thread performance

    No, I explicitly said it wins on per-core performance, NOT per-thread. Learn to read, please.
    Reply
  • ballsystemlord - Wednesday, May 19, 2021 - link

    Pity we'll only be able to play with the new arch on servers. Other than that, it sounds very interesting. Reply
  • Kangal - Thursday, May 20, 2021 - link

    I agree.
    I think we need someone like ASUS to start selling motherboards that take in a new CPU-Socket. However, this one is designed for ARM processors, and the socket details are open-source for any company to design for. Let's say it scales from 1-core upto 32-cores, and the kit is reasonably (USD $200) priced. On top, it comes with an open-source Stable Debian OS.

    Now everyone can get their hands on an ARM kit, and do development straight on the product. Wether that's a Qualcomm chip, Samsung, HiSilicon, MediaTek, Rockchip, Unisoc, VIA, AMLogic, or Allwinner doesn't matter.

    And I suspect very quickly we would see an official Windows10-ARM build, AndroidOS, Custom ROMs, and lots of Linux Distros. Perhaps even a Hackintosh. With this comes the mainstream transition of "big programs" that usually live in Windows, to get officially ported to ARM, without the need for dumbing things down for mobile.

    It would be extremely handy for companies to get their hands on this kit, mainstream, with good support, cheap pricing.... to basically just play with it, and find out if their software (or solutions) are adequately fulfilled. I suspect for most it would be. Which makes it much easier decision for them to transition away from x86-server to an ARM-server. They could potentially change out their Server-Connected Tiny Office PCs (eg NUC) to be running from a small ARM box as well. If or when this happens, we should see IT/Software Professionals getting better and better work market, and the older AMD/Intel duopoly having to massively cut retail costs (-70% ?) to remain profitable.
    Reply
  • arashi - Friday, May 21, 2021 - link

    What, and get rid of product lock in, and have to compete fairly? You must be drunk to even think the industry players would even consider it. Reply
  • Kangal - Sunday, May 23, 2021 - link

    Alright, alright, that made me chuckle.

    PS: I know about the Altra Workstations, but they're more of a niche from a niche company. And priced ridiculous, with lots of lock-in options. I wanted something that's reasonable, well-priced, aimed at the mainstream, by a reputable mainstream company (eg ASUS, Gigabyte, MSI, etc etc).
    Reply
  • mode_13h - Monday, May 24, 2021 - link

    > I wanted something that's reasonable, well-priced, aimed at the mainstream,
    > by a reputable mainstream company

    Agreed. Even if one of these guys would just take a Qualcomm 8cx and put it in a SFF PC, at least that'd be a good step up from a Pi v4.
    Reply

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