SPEC - Single Threaded Performance

We have some great expectations for the single-threaded performance of the Graviton2 and the Neoverse N1 CPU. In the mobile space, we’ve already seen the Cortex-A76 showcase some extremely competitive performance when compared to x86 platforms running at server frequencies. In particular, the comparison against the first-generation Graviton SoC and its Cortex-A72 cores should be interesting, so I also went ahead and also included comparison numbers on that platform – these figures should put better context into the massive generational uplift that Arm has achieved.

The performance figures tested here are not on a full vCPU instance of the platforms, but rather on “xlarge” variants with only 4 vCPUs, reason for this was simply we didn’t feel too much like paying 95% more for the computing time while the rest of the cores were sitting idle. This isn’t exactly the most optimal method for testing single-threaded performance though, depending on the platform.

One thing to consider in such a small vCPU instance is that you’re only using a fraction of the hardware platform for yourself, while there’s a possibility that there’s other users on other VMs running on the same platform. Such a setup is called having “noisy neighbours”, essentially meaning you’re co-hosted with other users on the same hardware. I did try to verify the figures by running them a few times, and the numbers were consistent on the Graviton2 and AMD platforms. The Graviton2 is still on preview availability so I don’t expect many users using up Amazon’s current deployments, and the AMD unit seemingly didn’t have issues and looked to remain at 2.9GHz throughout most of the testing. On the Intel Xeon platform however, I did see some larger variations, and I think that was mostly due to noisy neighbours brining down the boost clocks of the system down from its 3.2GHz peak. The published numbers here is the higher result set which should be running at around 3.2GHz.

SPECint2006 Speed Estimated Scores

Starting off with SPECint2006, the Graviton2 and N1 CPU are doing extremely well. It’s showcasing almost double the ST performance across the table compared to the A72 based SoC, and it’s even beating the EPYC 7571 across most benchmarks, slightly lagging behind the Xeon instance in some benchmarks.

The Graviton2 is doing particularly well in the memory tests, and latency sensitive tests like 429.mcf are faring significantly better than what we see on the mobile Cortex-A76 SoCs.

SPECfp2006(C/C++) Speed Estimated Scores

In the C/C++ tests of SPECfp2006 (identical set to what se test on mobile, no Fortran compiler available on those platforms), we see the Graviton2 do even better. The delta to the Cortex-A72 platform is even bigger thanks to the more memory sensitive nature of these tests. Here, the Graviton2 is also a lot closer to the x86 competition, staying neck-in-neck with the AMD and Intel platforms.

SPEC2006 Speed Estimated Total (xlarge)

For the aggregate stores in SPEC2006, the performance uplift compared to the first-gen Graviton is 2x in integer workloads, and 2.2x in FP workloads. Intel is slightly ahead in integer ST performance here, but that gap is reduced to a very thin margin on the FP tests. It’s a great showcase of the Neoverse N1’s IPC capabilities, as the cores are only running at 2.5GHz compared to ~2.9GHz for the AMD system and ~3.2GHz for the Intel system.

Compared to a mobile Cortex-A76 such as in the Kirin 990 (which is the best A76 implementation out there), the resulting IPC is 32% better for the Graviton2 in SPECint2006, and 10% better for SPECfp2006. This goes to show what kind of a massive difference the memory subsystem can have on a system that is otherwise similar in terms of the CPU microarchitecture. We must not forget that the N1 here has the whole 32MB L3 cache available all to itself, even when using a smaller two core vCPU instance.

SPECint2017 Rate-1 Estimated Scores

We’re also covering the SPEC2017 results. In general, the new suite slightly changes up the workloads and, in some cases, increases their complexity, but in SPECint2017, there’s also tests which are laxer compared to their 2006 variants, for example 505.mcf is only using half the memory footprint compared to 429.mcf.

Still, the Graviton2 again here is showcasing some extremely good performance across the board, and is largely mimicking the 2006 results.

SPECfp2017 Rate-1 Estimated Scores

The fp2017 results are definitely a more complex set, but again, the Graviton 2 doesn’t have issues keeping up, although this time around it does more often than not lose out to the x86 parts.

SPEC2017 Rate-1 Estimated Total (xlarge)

In SPECint2017 the Graviton2 is able to showcase a better relative positioning compared to the 2006 tests, just shy of keeping up with the 3.2GHz Cascade Lake system, however in the fp2017 results it’s faring a bit worse than the 2006 system, showcasing a larger margin where it falls behind the competition.

Again, compared to the A1 based Graviton1 instances, the new chip essentially showcases double the single-thread performance, signifying that Arm is now able to compete amongst the big boys in the courtyard.

The results here are a bit shy of what Arm had projected for the N1 platform last year, but the reason for that is that Amazon was quite conservative in terms of the clock frequencies of the Graviton2, as well as only employing 32MB of L3 cache versus the 64MB that Arm had envisioned for a 64-core part. At least on the frequency side, Ampere’s new Altra system running at 3GHz should see scores 20% higher than the figures presented by the Graviton2.

Lastly, let’s again not forget that this isn’t the whole competitive landscape as we don’t have AMD Rome-based instances available to us at this point of time, I’m pretty sure those figures will be a larger leap ahead of the pack presented here.

Compiler Setup, GCC vs LLVM SPEC - Multi-Core Performance Scaling
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  • SarahKerrigan - Tuesday, March 10, 2020 - link

    That single-thread performance is extremely impressive. The multithreaded scaling is ugly, though. Back when N1 was announced, ARM seemed to think 1MB/core was a good spot for Neoverse LLC - I wonder why both Graviton and Altra are going for considerably less.
  • shing3232 - Tuesday, March 10, 2020 - link

    it's gonna costly(die and power wise) to build a interconnect for 64C with good performance. by the time, it would lost its power/perf edge I suppose.
  • Tabalan - Tuesday, March 10, 2020 - link

    Scaling might not be optimal, but performance loses are to expected if you greatly reduce available cache. In the end, MT performance is still far ahead of competition.
  • ballsystemlord - Thursday, March 12, 2020 - link

    You have to remember that the competition is not 64 cores, but 64v cpus. The difference is 60% or more. The Arm Graviton2 is being placed into the best possible light by this comparision.
  • ballsystemlord - Thursday, March 12, 2020 - link

    I mean 60% for the cores that are actually 1 thread. As in, the performance boost by turning on SMT is 40% best case scenario.
  • autarchprinceps - Sunday, October 25, 2020 - link

    I have to disagree. You seem to forget that the arm chip is cheaper. It’s an additional win if it manages to integrate more cores and yet still achieve a comparable single threaded performance. It’s not unfair to compare two products with one seeming to have a stat advantage from the start, if it’s still cheaper or costs the same. Why should a customer care?
  • zamroni - Thursday, March 12, 2020 - link

    L caches uses sram which needs 6 transistors per bit.
    So, every 1MB needs all least 48 millions transistors without counting transistors for the controller
  • dianajmclean6 - Monday, March 23, 2020 - link

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  • RallJ - Tuesday, March 10, 2020 - link

    Comparisons made are to the whole core performance of Graviton to just thread performance of Xeon/EPYC. It's very problematic.

    Also TDP rating for the graviton is off by 50% based on what was reported at re:Invent.
  • Andrei Frumusanu - Tuesday, March 10, 2020 - link

    I go over the core/SMT topic in the article, it's only a problem from a hardware comparison aspect, but it's very much the correct comparison from a cloud product offering comparison. The value proposition also does not change depending on core count, the instances are priced at similar tiers.

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