GPU Performance & Power

We covered the CPUs of the A13 in detail, but there’s also the GPU we have to consider. Apple’s performance improvement claims for this year have been a little more conservative, with the company promising a 20% performance increase or a 40% decrease in power at the same performance as the A12. Last year’s jump was a rather large one, and we don’t expect Apple (or any vendor for that matter) to repeat it any time soon, especially as we saw both major microarchitectural changes as well as the adoption of the new 7nm manufacturing node at the same time.

Beyond the raw performance of the chipset and the GPU, what’s important for gaming is the actual device’s thermal characteristics and how it’s able to dissipate and sustain the high heat generation of the SoC. For the A12 I did criticize Apple in terms of being extremely aggressive on the peak power that the phones were allowed to start off with in 3D workloads. This resulted in the phones not really able to sustain these performance levels more than 2-3 minutes before having to throttle down.

This year beyond the promised efficiency gains, Apple has said they’ve improved the device’s SoC cooling capabilities, being able to better spread the heat from the SoC to the body of the phone and as such allow the silicon to retain higher performance states.

3DMark Sling Shot 3.1 Extreme Unlimited - Physics

Starting off with the physics test in 3DMark, this is actually more of a CPU workload when power constrained during a GPU workload. In this scenario, the iPhone 11’s fare a bit better in terms of peak performance compared to last year’s iPhones, however they weren’t quite able to maintain the same sustained performance as we saw on the A12 iPhones.

The iPhone 11 Pro Max showcased the better scores than its siblings, and that’s not too much of a surprise given that the phone has the biggest form-factor and thermal envelope to be able to dissipate larger amounts of heat.

3DMark Sling Shot 3.1 Extreme Unlimited - Graphics

Switching over to the graphics workload which puts a maximum amount of stress on the GPU, we here now see major changes in the scores and rankings. First of all, the new iPhone 11s and the A13 now showcase significant performance increases compared to the A12 devices last year. I’ve noted that Apple was oddly weak in 3DMark when we analyzed the chip, and it looks like Apple was able to resolve whatever the bottleneck was this generation, showcasing a 38% increase in performance. I’ve actually gone back and quickly retested the iPhone XS on iOS13 and did see a 20% increase in performance compared to what we see in the graphs here; I’ll be updating those device’s scores as soon as I have more time.

The iPhone 11 Pros are doing much better than the regular iPhone 11 when it comes to the sustained performance results. I’m actually a bit surprised here given that these are the phones which have the SoC sandwiched between two stacked PCBs, but it seems Apple is able to cool off that whole assembly decently enough. The iPhone 11's scores here are a bit disappointing as it represents an almost 50% degradation in performance.

The new iPhones don’t score quite as well as some Snapdragon 855(+) devices, but this is rather because Apple does not allow the iPhones to get nearly as hot as some of these other devices. I wasn’t able to measure skin temperatures above 41°C on any of the new iPhones.

GFXBench Aztec Ruins - High - Vulkan/Metal - Off-screen

In the GFXBench Aztec High test, Apple’s microarchitecture is better able to flex its muscles and more clearly takes the lead in terms of both peak and sustained performance. Comparing the iPhone 11 Pro to the iPhone XS, we see a 23% increase in peak performance, and most importantly a much more impressive 50% increase in sustained performance.

GFXBench Aztec High Offscreen Power Efficiency
(System Active Power)
  Mfc. Process FPS Avg. Power
(W)
Perf/W
Efficiency
iPhone 11 Pro (A13) Warm 7FFP 26.14 3.83 6.82 fps/W
iPhone 11 Pro (A13) Cold / Peak 7FFP 34.00 6.21 5.47 fps/W
iPhone XS (A12) Warm 7FF 19.32 3.81 5.07 fps/W
iPhone XS (A12) Cold / Peak 7FF 26.59 5.56 4.78 fps/W
Galaxy 10+ (Snapdragon 855) 7FF 16.17 4.69 3.44 fps/W
Galaxy 10+ (Exynos 9820) 8LPP 15.59 4.80 3.24 fps/W

Measuring the power consumption, we again see that the A13 devices are extremely aggressive in their peak power, exceeding 6.2W. What is interesting here is even at this peak power-hungry performance state, the A13 is more efficient than the A12, and massively more efficient than the competition.

As usual, running a workload for a few minutes until the phone gets lukewarm (not to be mistaken with the longer sustained performance states in the benchmark graphs) will lower the performance and power to more reasonable levels. We’re able to make almost apples-to-apples comparisons here between the A13 and A12 iPhones: at roughly the same 3.8W power usage, the new A13 based device is able to showcase a 35% increase in performance. This performance state of the A13 actually corresponds to the peak performance of the A12, so that’s really nice as we’re able to do the same comparison but for the performance axis: At the same performance of the A12, the A13 is able to use 32% lower power. Not quite the 40% that Apple promised, but that could vary depending on workloads (Or it could be that Apple is quoting GPU power only, while we’re measuring whole system active power here).

GFXBench Aztec Ruins - Normal - Vulkan/Metal - Off-screen

GFXBench Aztec Normal Offscreen Power Efficiency
(System Active Power)
  Mfc. Process FPS Avg. Power
(W)
Perf/W
Efficiency
iPhone 11 Pro (A13) Warm 7FFP 73.27 4.07 18.00 fps/W
iPhone 11 Pro (A13) Cold / Peak 7FFP 91.62 6.08 15.06 fps/W
iPhone XS (A12) Warm 7FF 55.70 3.88 14.35 fps/W
iPhone XS (A12) Cold / Peak 7FF 76.00 5.59 13.59 fps/W
Galaxy 10+ (Snapdragon 855) 7FF 40.63 4.14 9.81 fps/W
Galaxy 10+ (Exynos 9820) 8LPP 40.18 4.62 8.69 fps/W

The “Normal” Aztec benchmark, which uses a lower resolution and has less workload complexity, actually fares even better for the iPhone 11s. Peak performance has improved by 21%. At roughly the same power, the A13 is 31% faster, while at almost the same performance, it’s again 32% more efficient.

GFXBench Manhattan 3.1 Off-screen

GFXBench Manhattan 3.1 Offscreen Power Efficiency
(System Active Power)
  Mfc. Process FPS Avg. Power
(W)
Perf/W
Efficiency
iPhone 11 Pro (A13) Warm 7FFP 100.58 4.21 23.89 fps/W
iPhone 11 Pro (A13) Cold / Peak 7FFP 123.54 6.04 20.45 fps/W
iPhone XS (A12) Warm 7FF 76.51 3.79 20.18 fps/W
iPhone XS (A12) Cold / Peak 7FF 103.83 5.98 17.36 fps/W
Galaxy 10+ (Snapdragon 855) 7FF 70.67 4.88 14.46 fps/W
Galaxy 10+ (Exynos 9820) 8LPP 68.87 5.10 13.48 fps/W
Galaxy S9+ (Snapdragon 845) 10LPP 61.16 5.01 11.99 fps/W
Huawei Mate 20 Pro (Kirin 980) 7FF 54.54 4.57 11.93 fps/W
Galaxy S9 (Exynos 9810) 10LPP 46.04 4.08 11.28 fps/W
Galaxy S8 (Snapdragon 835) 10LPE 38.90 3.79 10.26 fps/W
Galaxy S8 (Exynos 8895) 10LPE 42.49 7.35 5.78 fps/W

Manhattan 3.1 largely showcases similar results to the Aztec Normal scores.

GFXBench T-Rex 2.7 Off-screen

Finally, the older T-Rex benchmark has the new iPhone 11’s showcase significant improvements in terms of the sustained performance scores around 59% compared to last year’s XS devices.

GFXBench T-Rex Offscreen Power Efficiency
(System Active Power)
  Mfc. Process FPS Avg. Power
(W)
Perf/W
Efficiency
iPhone 11 Pro (A13) Warm 7FFP 289.03 4.78 60.46 fps/W
iPhone 11 Pro (A13) Cold / Peak 7FFP 328.90 5.93 55.46 fps/W
iPhone XS (A12) Warm 7FF 197.80 3.95 50.07 fps/W
iPhone XS (A12) Cold / Peak 7FF 271.86 6.10 44.56 fps/W
Galaxy 10+ (Snapdragon 855) 7FF 167.16 4.10 40.70 fps/W
Galaxy S9+ (Snapdragon 845) 10LPP 150.40 4.42 34.00 fps/W
Galaxy 10+ (Exynos 9820) 8LPP 166.00 4.96 33.40fps/W
Galaxy S9 (Exynos 9810) 10LPP 141.91 4.34 32.67 fps/W
Galaxy S8 (Snapdragon 835) 10LPE 108.20 3.45 31.31 fps/W
Huawei Mate 20 Pro (Kirin 980) 7FF 135.75 4.64 29.25 fps/W
Galaxy S8 (Exynos 8895) 10LPE 121.00 5.86 20.65 fps/W

We see the warmed up power draw for the phone here as being quite a bit higher than the other tests. It’s possible that the difference in here is the more CPU load due to the very high FPS figures we’re running the test at nowadays.

GPU Performance: Best In Class

Last year the A12 had some extremely impressive GPU improvements and it was the first time that Apple had been able to very clearly jump ahead of Qualcomm in terms of performance and efficiency. I didn't have as large expectations for the A13 this year as a follow-up, but Apple was very much able to impress and improve by greater margins than their marketing materials led me to believe.

First of all, the peak performance of the of the A13 is indeed improved by roughly ~20%. However this is not the metric that people should be paying most attention to. Apple’s sustained performance score improvements are a lot more significant and reach 50 to 60% when compared to last year’s iPhones. As things would seem, Apple’s claims to have improved thermal dissipation for the SoC have worked out extremely well.

The regular iPhone 11 does lag a bit behind the Pro models, as it seems it hasn’t been able to profit from the same design changes. Sustained performance here takes a little hit, but given the phone’s very low resolution I have to wonder if that really even matters in real workloads.

Most of all, Apple’s new GPU microarchitecture on the A13 is extremely impressive. Given the meager process node advancements, I had not expected the company to be able to push for such large performance and power efficiency gains. We’ll need to see some major paradigm shifts from the competition in order for them to be able to catch up in the next generation of devices.

Last year I did complain about the phones getting quite hot during the initial load periods at peak performance, and it looks like Apple has resolved this as I wasn’t able to measure skin temperatures above 41°C on any of the new phones. While I still question Apple’s need to drive the power draw near the limits of the power delivery of the phone, at least this time around it doesn’t create any negative drawback for the user experience.

System & ML Performance Display Measurement & Power
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  • HammerStrike - Wednesday, October 16, 2019 - link

    FYI, while al other new models are rated IP68, the pro’s are listed as having a maximum submerged depth of 4 meters for 30 minutes, vs 2 for the non-pro model. Your spec comparison on the first page lists them all at 2 meters. Reply
  • colonelclaw - Wednesday, October 16, 2019 - link

    I think my perfect phone right now would be all of the 11 Pro's hardware shoved into the body the size of the iPhone 5, but obviously with the full-front screen. Unfortunately there doesn't appear to be much will amongst any of the premium phone manufacturers in wanting stuff to be smaller these days :(
    iPhone 11 Pro Nano anyone?
    Reply
  • p1esk - Wednesday, October 16, 2019 - link

    Yes, I’d love a smaller iPhone. Reply
  • nirolf - Thursday, October 17, 2019 - link

    Smaller and lighter! I'm holding on to my 7 until they release something similar in size. Reply
  • Eliadbu - Wednesday, October 16, 2019 - link

    no iphone 11 pro but *rumors* say there is new Iphone SE2 for 399$ with a13 and 3GB of ram
    but I doubt it will be full front screen or AMOLED screen. but imo it will sell like hot buns from the oven. there is huge market for budget phone and a new iphone SE with same SOC as flagship, plenty of ram and IOS for 399$ is really compelling I know many people just lurk for used\old gen Iphones just so they can get Iphone for low price, this phone will draw the masses.
    Reply
  • MamiyaOtaru - Friday, October 18, 2019 - link

    unfortunately the rumors seem to paint Apple as being more interested in the price aspect than the size aspect. Like it will be more modern innards in an iphone 8 body. Which misses a great deal about what I liked in the original SE. Reply
  • Eliadbu - Saturday, October 19, 2019 - link

    I see your point, but you need to understand the current market. Iphone sales and other premium flagship are declining while budget phones are on the rise especially in certain markets where most people can't afford expensive phone so they look for the best phone they can get at the budget lineup. Now there are cheaper options than 399$ but arguably no better options. Apple knows it loses huge market share by not creating option for that price point. Also if they put a13 in that phone it will be overkill. They should either use older chips that cost less now like the a12 or a11 which both are more than enough for budget phones, or they can use smaller more power efficient a13 that would cost less and put the money on newer display design or more cameras which will be better selling point than using a13, imo. Reply
  • Srkifs2021 - Tuesday, November 3, 2020 - link

    Guess you got it now with the 12 and mini! Reply
  • Oyster - Wednesday, October 16, 2019 - link

    I believe it's time for AT to really upgrade its website to be able to make use of the full width of modern displays. It's excruciating to go through these reviews and click through each camera sample without being able to compare things side-by-side. Even the performance graphs are so cramped. I hope an upgrade is on the way... Reply
  • Raqia - Wednesday, October 16, 2019 - link

    "Nevertheless, I do question why Apple decided to be so aggressive in terms of power this generation."

    I imagine it has something to do with the much bigger battery they put into the phone; current draw wearing down the battery isn't as much of a concern when it is larger. The little cores are far more impressive this year with roughly A73-75 levels of performance at much better efficiency. They seemed to have listened to users by making the phone a bit chunkier in exchange for a bigger battery.

    The inefficient modem is still a sore spot this year which should hopefully be addressed next year with the inclusion of Qualcomm parts and IP. More importantly, the impact of a closed ecosystem with management who care more about profit than users is being felt by real customers in places like Hong Kong or vendors like EPIC who have avenues other than the official OS vendor sponsored app store on Android. Regulators should force Apple to offer an open store API for third parties to set up store fronts so that customers could have more choice based on pricing, quality, and reputation.
    Reply

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