Section by Ryan Smith

M1 GPU Performance: Integrated King, Discrete Rival

While the bulk of the focus from the switch to Apple’s chips is on the CPU cores, and for good reason – changing the underlying CPU architecture if your computers is no trivial matter – the GPU aspects of the M1 are not to be ignored. Like their CPU cores, Apple has been developing their own GPU technology for a number of years now, and with the shift to Apple Silicon, those GPU designs are coming to the Mac for the very first time. And from a performance standpoint, it’s arguably an even bigger deal than Apple’s CPU.

Apple, of course, has long held a reputation for demanding better GPU performance than the average PC OEM. Whereas many of Intel’s partners were happy to ship systems with Intel UHD graphics and other baseline solutions even in some of their 15-inch laptops, Apple opted to ship a discrete GPU in their 15-inch MacBook Pro. And when they couldn’t fit a dGPU in the 13-inch model, they instead used Intel’s premium Iris GPU configurations with larger GPUs and an on-chip eDRAM cache, becoming one of the only regular customers for those more powerful chips.

So it’s been clear for some time now that Apple has long-wanted better GPU performance than what Intel offers by default. By switching to their own silicon, Apple finally gets to put their money where their mouth is, so to speak, by building a laptop SoC with all the GPU performance they’ve ever wanted.

Meanwhile, unlike the CPU side of this transition to Apple Silicon, the higher-level nature of graphics programming means that Apple isn’t nearly as reliant on devs to immediately prepare universal applications to take advantage of Apple’s GPU. To be sure, native CPU code is still going to produce better results since a workload that’s purely GPU-limited is almost unheard of, but the fact that existing Metal (and even OpenGL) code can be run on top of Apple’s GPU today means that it immediately benefits all games and other GPU-bound workloads.

As for the M1 SoC’s GPU, unsurprisingly it looks a lot like the GPU from the A14. Apple will have needed to tweak their design a bit to account for Mac sensibilities (e.g. various GPU texture and surface formats), but by and large the difference is abstracted away at the API level. Overall, with M1 being A14-but-bigger, Apple has scaled up their 4 core GPU design from that SoC to 8 cores for the M1. Unfortunately we have even less insight into GPU clockspeeds than we do CPU clockspeeds, so it’s not clear if Apple has increased those at all; but I would be a bit surprised if the GPU clocks haven’t at least gone up a small amount. Overall, A14’s 4 core GPU design was already quite potent by smartphone standards, so an 8 core design is even more so. M1’s integrated GPU isn’t just designed to outpace AMD and Intel’s integrated GPUs, but it’s designed to chase after discrete GPUs as well.

A Educated Guess At Apple GPU Specifications
ALUs 1024
(128 EUs/8 Cores)
Texture Units 64
ROPs 32
Peak Clock 1278MHz
Throughput (FP32) 2.6 TFLOPS
Memory Clock LPDDR4X-4266
Memory Bus Width 128-bit

Finally, it should be noted that Apple is shipping two different GPU configurations for the M1. The Mac Mini and MacBook Pro get chips with all 8 GPU cores enabled. Meanwhile for the Macbook Air, it depends on the SKU: the entry-level model gets a 7-core configuration, while the higher-tier model gets 8 cores. This means the entry-level Air gets the weakest GPU on paper – trailing a full M1 by around 12% – but it will be interesting to see how the shut-off core influences thermal throttling on that passively-cooled laptop.

Kicking off our look at GPU performance, let’s start with GFXBench 5.0. This is one of our regular benchmarks for laptop reviews as well, so it gives us a good opportunity to compare the M1-based Mac Mini to a variety of other CPU/GPU combinations inside and outside the Mac ecosystem. Overall this isn’t an entirely fair test since the Mac Mini is a small desktop rather than a laptop, but as M1 is a laptop-focused chip, this at least gives us an idea of how M1 performs when it gets to put its best foot forward.

GFXBench 5.0 Aztec Ruins Normal 1080p Offscreen

GFXBench 5.0 Aztec Ruins High 1440p Offscreen

Overall, the M1’s GPU starts off very strong here. At both Normal and High settings it’s well ahead of any other integrated GPU, and even a discrete Radeon RX 560X. Only once we get to NVIDIA’s GTX 1650 and better does the M1 finally run out of gas.

The difference compared to the 2018 Intel Mac Mini is especially night-and-day. The Intel UHD graphics (Gen 9.5) GPU in that system is vastly outclassed to the point of near-absurdity, delivering a performance gain over 6x. And even other configurations such as the 13-inch MBP with Iris graphics, or a PC with a Ryzen 4700U (Vega 7 graphics) are all handily surpassed. In short, the M1 in the new Mac Mini is delivering discrete GPU-levels of performance.

As an aside, I also took the liberty of running the x86 version of the benchmark through Rosetta, in order to take a look at the performance penalty. In GFXBench Aztec Ruins, at least, there is none. GPU performance is all but identical with both the native binary and with binary translation.

Futuremark 3DMark Ice Storm Unlimited - Graphics

Taking one last quick look at the wider field with an utterly silly synthetic benchmark, we have 3DMark Ice Storm Unlimited. Thanks to the ability for Apple Silicon Macs to run iPhone/iPad applications, we’re able to run this benchmark on a Mac for the first time by running the iOS version. This is a very old benchmark, built for the OpenGL ES 2.0 era, but it’s interesting that it fares even better than GFXBench. The Mac Mini performs just well enough to slide past a GTX 1650 equipped laptop here, and while this won’t be a regular occurrence, it goes to show just how potent M1 can be.

BaseMark GPU 1.2.1 - Medium

BaseMark GPU 1.2.1 - High

Another GPU benchmark that’s been updated for the launch of Apple’s new Macs is BaseMark GPU. This isn’t a regular benchmark for us, so we don’t have scores for other, non-Mac laptops on hand, but it gives us another look at how M1 compares to other Mac GPU offerings. The 2020 Mac Mini still leaves the 2018 Intel-based Mac Mini in the dust, and for that matter it’s at least 50% faster than the 2017 MacBook Pro with a Radeon Pro 560 as well. Newer MacBook Pros will do better, of course, but keep in mind that this is an integrated GPU with the entire chip drawing less power than just a MacBook Pro’s CPU, never mind the discrete GPU.

Rise of the Tomb Raider - Value

Rise of the Tomb Raider - Enthusiast

Finally, putting theory to practice, we have Rise of the Tomb Raider. Released in 2016, this game has a proper Mac port and a built-in benchmark, allowing us to look at the M1 in a gaming scenario and compare it to some other Windows laptops. This game is admittedly slightly older, but its performance requirements are a good match for the kind of performance the M1 is designed to offer. Finally, it should be noted that this is an x86 game – it hasn’t been ported over to Arm – so the CPU side of the game is running through Rosetta.

At our 768p Value settings, the Mac Mini is delivering well over 60fps here. Once again it’s vastly ahead of the 2018 Intel-based Mac Mini, as well as every other integrated GPU in this stack. Even the 15-inch MBP and its Radeon Pro 560 are still trailing the Mac Mini by over 25%, and it takes a Ryzen laptop with a Radeon 560X to finally pull even with the Mac Mini.

Meanwhile cranking things up to 1080p with Enthusiast settings finds that the M1-based Mac Mini is still delivering just shy of 40fps, and it’s now over 20% ahead of the aforementioned Ryzen + 560X system. This does leave the Mini well behind the GTX 1650 here – with Rosetta and general API inefficiencies likely playing a part – but it goes to show what it takes to beat Apple’s integrated GPU. At 39.6fps, the Mac Mini is quite playable at 1080p with good image quality settings, and it would be fairly easy to knock down either the resolution or image quality a bit to get that back above 60fps. All on an integrated GPU.

Update 11-17, 7pm: Since the publication of this article, we've been able to get access to the necessary tools to measure the power consumption of Apple's SoC at the package and core level. So I've gone back and captured power data for GFXBench Aztec Ruins at High, and Rise of the Tomb Raider at Enthusiast settings.

Power Consumption - Mac Mini 2020 (M1)
  Rise of the Tomb Raider (Enthusiast) GFXBench Aztec
Package Power 16.5 Watts 11.5 Watts
GPU Power 7 Watts 10 Watts
CPU Power 7.5 Watts 0.16 Watts
DRAM Power 1.5 Watts 0.75 Watts

The two workloads are significantly different in what they're doing under the hood. Aztec is a synthetic test that's run offscreen in order to be as pure of a GPU test as possible. As a result it records the highest GPU power consumption – 10 Watts – but it also barely scratches the CPU cores virtually untouched (and for that matter other elements like the display controlller). Meanwhile Rise of the Tomb Raider is a workload from an actual game, and we can see that it's giving the entire SoC a workout. GPU power consumption hovers around 7 Watts, and while CPU power consumption is much more variable, it too tops out just a bit higher.

But regardless of the benchmark used, the end result is the same: the M1 SoC is delivering all of this performance at ultrabook-levels of power consumption. Delivering low-end discrete GPU performance in 10 Watts (or less) is a significant part of why M1 is so potent: it means Apple is able to give their small devices far more GPU horsepower than they (or PC OEMs) otherwise could.

Ultimately, these benchmarks are very solid proof that the M1’s integrated GPU is going to live up to Apple’s reputation for high-performing GPUs. The first Apple-built GPU for a Mac is significantly faster than any integrated GPU we’ve been able to get our hands on, and will no doubt set a new high bar for GPU performance in a laptop. Based on Apple’s own die shots, it’s clear that they spent a sizable portion of the M1’s die on the GPU and associated hardware, and the payoff is a GPU that can rival even low-end discrete GPUs. Given that the M1 is merely the baseline of things to come – Apple will need even more powerful GPUs for high-end laptops and their remaining desktops – it’s going to be very interesting to see what Apple and its developer ecosystem can do when the baseline GPU performance for even the cheapest Mac is this high.

Benchmarks: Whatever Is Available SPEC2006 & 2017: Industry Standard - ST Performance
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  • Ppietra - Friday, November 27, 2020 - link

    ARM was really founded as a joint venture between Apple, Acorn and another company.
    The technology behind it was based on technology from Acorn, but the company was established as a joint venture to develop the processor for Newton. That was the objective for the company creation.
  • darwinosx - Wednesday, November 18, 2020 - link

    Money talks and bullshit walks.
  • lilmoe - Tuesday, November 17, 2020 - link

    Not sure how you came to this conclusion with such a poor and unprofessional review. It seemed to me that AMD is killing it on all fronts, but the folks here made it really hard to tell with all these purposefully misleading charts.

    AMD wins. Come 5nm with Zen4 on laptops, poof goes all the drivel currently in the tech media.

    It's disappointing to see this from Andre non-the-less. Very poor quality, and very misleading benchmarks.
  • ws3 - Tuesday, November 17, 2020 - link

    Stage One: denial
  • Hifihedgehog - Tuesday, November 17, 2020 - link

    Stage One: Comparing Apples to Apples, or 5nm to 5nm. AMD 7nm Zen 2, not even their latest and greatest, is doing admirably against a 5nm product. Pit Zen 3, still held back by 7nm, against it which is a good deal faster than Zen 2 and you have a totally different outcome. Pit Zen 4 where the Zen microarchitecture is given the legs to run with 5nm and it's no contest.
  • defferoo - Tuesday, November 17, 2020 - link

    show me a 5nm Zen 4 CPU to test against then, oh, it doesn't exist. I guess we can't do that comparison yet. what matters here is availability, and Zen 4 won't come for another year, M1 is here now.

    the closest thing to apples to apples now is to use the same TDP for comparison. stack up the Ryzen 7 4800U against the M1 in a Macbook Pro (~15W). M1 is faster in both ST and MT despite the 4800U having 8 cores with SMT.

    when AMD was kicking Intel's butt on the 7nm process and Intel was on 14nm, nobody said, "but you need to compare like to like!" except for Intel fans. now it's Intel/AMD vs. Apple, and only those in denial are demanding a fair comparison on the same process node.
  • YesYesNo - Tuesday, November 17, 2020 - link

    I don't see the M1 having faster multicore than the 4800U, which benchmark am i missing?
  • Kuhar - Wednesday, November 18, 2020 - link

    You are absolutely right! All that hype around M1 was just overexaggerated.
  • defferoo - Wednesday, November 18, 2020 - link

    Spec2017 MT in this very article, Geekbench. We should not over index on one very specific benchmark (Cinebench r23) when we have more comprehensive ways to measure performance.
  • halo37253 - Tuesday, November 17, 2020 - link

    Actually the Ryzen 4800U is not only beating the M1 in MultiThread in cinebench. But doing so with similar power usage. This is Zen2. Zen 3 will easily compete with apple silicon in terms of performance/watt, and in most cases beat it. At 7nm no less. Only makes we wonder why Apple is so willing to fracture their already pretty small Mac OS fanbase.

    The 4800U in 15w mode uses around 20-25watts of power running cinebench, vs the m1 using around 22watts. Sure it doesn't have the lead in single thread performance, but pretty close when the m1 is running x86 apps. Zen3 as we know is a massive improvement in this area. And the 4800U single thread wise is largely clock limited to keep it in check power usage wise.

    I just dont see apple beating out AMD any time soon.

    The 4800u still uses GCN graphic cores, so expect a huge gain when they move up to RDNA or RDNA2 (Hopefully they jump to 2).

    Apple does have years of experience building tightly integrated SOCs, and this is where this chip shines. It clearly shows how well ARM can perform. But this is about as cutting edge as apple has been able to get their chip. AMD's focus is still mostly on the data center, so the fact their mobile devices do so well is a testament to how well suited Zen is to scale down.

    Geekbench is a joke of a benchmark and was only ever good comparing devices in the same family. There is wide score changes with the same hardware when taking into the OS its running on. Never use it to compare different CPU Archs or even two different operation systems.

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