Section by Andrei Frumusanu

SPEC2017 - ST & MT Performance

Starting off with SPEC, we’re trying to analyze the AMD and Intel systems in direct comparison to each other in a wide variety of workloads. In general, we shouldn’t be expecting too big surprises in the results as earlier this summer we had the opportunity to cover Intel’s Ice Lake CPUs, and the Surface Laptop 3 implementation of the Core i7-1065G7 should pretty much fall in line with those scores.

On AMD’s side, we hadn’t tested the company’s mobile processors in SPEC so this should represent a good opportunity to showcase the two companies’ products side-by-side. As a reminder, the Ryzen 7 3870U tested today is based on AMD’s Picasso chip, a 12nm implementation of the Zen+ microarchitecture, which isn’t quite as up-to-date as the 7nm Zen2 silicon that the company offers in its desktop Ryzen 3000 chips. In a sense, while both products tested today represent the companies’ best mobile products, for Intel it also represents the company’s best technologies, and thus the ICL part has a generational advantage over AMD's current product-line.

We’re limiting our testing this time around to SPEC2017 as it represents the more modern workload characterisations, and we’ve already covered the microarchitectural giveaways presented by SPEC2006 in past articles. We’re testing under WSL1 in Windows due to simplicity of compilation and compatibility, and are compiling the suite under LLVM compilers. The choice of LLVM is related to being able to have similar code generation across architectures and platforms. Our compiler versions and settings are as follows:

clang version 8.0.0-svn350067-1~exp1+0~20181226174230.701~1.gbp6019f2 (trunk)
clang version 7.0.1 (ssh:// 

-Ofast -fomit-frame-pointer
-mfma -mavx -mavx2

Our compiler flags are straightforward, with basic –Ofast and relevant ISA switches to allow for AVX2 instructions.

Single-Threaded Performance: Intel Dominance

Starting off with single-threaded tests, we’re having a closer look at the integer SPEC20017 suite results.

We’re also adding in AMD and Intel’s top-performing desktop chips into the mix to better convey a context as to where these mobile parts fall in terms of absolute performance, which I think is a major consideration point for the Surface Laptop 3, particularly the Ice Lake models.

SPECint2017 Rate-1 Estimated Scores

The first thing that comes to mind when looking at these results is that there’s a huge discrepancy between what the Intel and AMD models of the Surface Laptop 3. It’s very evident that Intel’s new Ice Lake CPUs and the Sunny Cove microarchitecture have quite a large lead over the Zen+ based Picasso SoC.

The Intel model's performance is near identical to what we’ve measured back in August on Intel’s development platform: we again see the chip being able to keep up with even Intel’s best performing desktop solutions which are running at far higher frequencies and larger power draw.

The Ryzen 7 3780U isn’t quite able to showcase a similar positioning, as it’s notably further behind the Ryzen 9 3950X with the newer Zen2 microarchitecture and faster memory configuration.

SPECfp2017 Rate-1 Estimated Scores

The situation in the floating-point suite is very similar, with the Core i7-1065G7 taking a quite considerable lead over the Ryzen 7 3780U. The 519.lbm results here are interesting due to the fact that AMD’s platform is behind by a factor greater than 2x – the test is memory bandwidth and subsystem limited so it’s possibly a bigger bottleneck on the slower DDR4-2400 memory that the system has to make due with. Intel’s LPDDR4X-3733 is able to well keep up with the desktop platforms in such situations.

But even in less memory intensive workloads such as 511.povray, AMD’s IPC disadvantage is too great and even with a theoretical higher peak frequency of 500MHz, the Zen+ based design is too far behind Intel’s new microarchitecture.

SPEC2017 Rate-1 Estimated Total

The overall SPEC2017 ST scores are pretty one-sided, with the Intel variant of the Surface Laptop 3 being ahead by 37% in the integer suite, and 46% in the floating-point suite. We hadn’t really expected the AMD system to be able to keep up with the Intel CPU, but these results really just expose the technological differences between the two designs. AMD’s Zen2 and LPDDR4X APUs can’t come early enough, as this is a gap that the company needs to close as soon as possible if it wants to compete in high-end laptop designs.

Multi-Threaded Performance: Continued Intel Advantage

While it’s clear that Intel has a large single-threaded performance advantage, we wanted to also see the competitive situation in a multi-threaded/multi-process comparison between the two chips. In the Rate-N test configuration of SPEC, we’re launching 8 instances on both platforms to fully saturate the system and have two processes per physical CPU.

In the MT tests, the AMD system ran at frequencies between 2.9-3.35GHz, whilst the Intel platform ran between 2.6-3.5GHz, depending on workload. TDP, or better said, peak power consumption, plays a bigger role in these tests as the 4-6 hours runtime of the test means we’re really stressing the cooling solutions of the laptops. Intel’s chip here is allowed to draw up to 44W for short durations before it falls down to a sustained 25W. We weren’t able to accurately measure the power draw for the AMD platform but we do note that it looks like under prolonged stress the CPU was around 10°C colder than the Intel variant, with ~70°C at 2.9GHz for the Ryzen system versus 80°C at 2.6GHz for the Intel system, which could point out to a lower sustained power draw for the AMD system.

 SPECint2017 Rate-N (8 Instances) Estimated Scores

In the integer suite, we mostly seeing the Intel system being ahead, but this time around AMD also manages to win a few tests. The tests where AMD fared best were workloads which have a higher execution characterization, compared to more strictly memory-bound tests such as mcf or omnetpp, where Intel has a clear lead in. Intel’s lead in 502.gcc is pretty massive as well as surprising – I hadn’t expected such a gap, but then again, it’s quite in line with what we saw in the ST results.

SPECfp2017 Rate-N (8 Instances) Estimated Scores

In the floating-point suite AMD loses the few advantages that it had, and falls further behind the Intel platform. The FP suite is a lot more memory bound, and Picasso’s memory subsystem here just can’t keep up. The 519.lbm and 554.roms results are particularly shocking as they’re essentially almost no faster than the single-threaded results – the system here is utterly bottlenecked and can’t even scale up in performance over multiple cores.

SPEC2017 Rate-N (8 Instances) Estimated Total

The overall results for the Rate-8 tests across all physical and logical cores of both the Ice Lake and Picasso systems see a similar performance discrepancy as showcased in the ST results: The Intel Core i7-1065G7 is ahead by 13.9% in the integer suite and a massive 45.6% in the FP suite. The one bottleneck that’s seemingly holding back the AMD system the most is its memory subsystem, and workloads which particularly stress this part of the CPU microarchitectures are the tests in which the Ryzen system fared by far the worst.

All in all, Intel’s process node, microarchitectural IPC, and memory technology lead in the Ice Lake solution is seemingly just too much for the Picasso chip to be able to compete with. Let’s move on to our standard test suite benchmarks and see if the we can correlate similar results in other workloads…

Introduction System Performance
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  • lmcd - Friday, December 13, 2019 - link

    There was a window where Intel was still mostly shipping dual-core i5s while AMD shipped the 2500U and 2700U for around the same price. Made for an interesting situation where the AMD units were effectively light-weight desktop replacements, while the Intel units served as ultralights, all while theoretically serving the same market.

    Point being, there already was a moment where AMD laptop recommendations have made sense.

    Also worth noting that Intel's H-series laptops would be a great place for AMD to compete. I'm still unconvinced AMD's core design scales down that well, and afaik Ryzen Mobile still uses the desktop process nodes? So this might be an area where Intel still has a manufacturing advantage -- midrange power consumption.
  • Teckk - Friday, December 13, 2019 - link

    Yes. Need more wins with HP and Dell, something like XPS. Not happening till mobile Zen2 at the very least.
  • nathanddrews - Friday, December 13, 2019 - link

    Ice Lake + G7 is giving me flashbacks to the Pentium M/Yonah era buzz.
  • strahinja78 - Friday, December 13, 2019 - link

    yeah,...and that wouldn't be good for AMD
  • GreenReaper - Friday, December 13, 2019 - link

    They need Zen 2 out on mobile. It'd sort at least half of the performance issues. Better memory would help there, on power, and with graphics as well.
  • MBarton - Monday, December 30, 2019 - link

    Zen 2 mobile is a low priority when server and HPDT have much higher margins. AMD needs to offer something competitive when they can afford to, but their margins is key to their financial recovery. Semi-custom CPU's for consoles are low margin, but at least in that case the volumes are so high and they're gaining a potential advantage in gaming by pushing game developers to optimize for RDNA.
  • nathanddrews - Friday, December 13, 2019 - link

    But it would be good for the consumer to get some serious computing power with energy efficiency in the mobile space that has otherwise been stagnant for a while.
  • HStewart - Saturday, December 14, 2019 - link

    The current Lice likes are consider lower watt models and replacements for higher end IceLake are probably in early 2020 - likely 6 and 8 core models and higher end GPU's.

    Not intended as gaming CPU's
  • Korguz - Sunday, December 15, 2019 - link

    " higher end IceLake are probably in early 2020 - likely 6 and 8 core models and higher end GPU's. " um yea ok Hstewart, and you have proof of this how ?? my guess. you dont and this is just more of your pro intel opinions.
  • HStewart - Friday, December 20, 2019 - link

    Well it just base on Intel road maps with 10nm - it might not be Ice Lake and could be next version. There is no difference in this than people saying wait for Zen 3. So do you expect that Intel will be always on 14nm and current processor will only be on 10nm. Intel has expected roadmaps on 7nm and even far less, I believe and it just a feeling that this battle with chip size will be over next year. Just remember what Intel did during the Pentum 4 days with Frequency wars especial with Intel came out with I series. Until the Zen came out Intel was really look like a monopoly but in reality it is not just AMD was doing so poorly But AMD did Intel a blessing, competition helps company from being lazy and ineffective

    But I just and older profession who send technology from the early days including original IBM PC with Intel 8088 cpu.

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