System Performance

Pixel phones have been known to be among the best performing Android devices in the market. This is mainly due to the Pixel’s performance team taking the time and attention to tweak the software stack – kernel and userspace alike. This is one of the benefits of being one of the last flagships out of the gate for a given generation, as it gives time to optimize the performance. The Pixel 3 comes with the Snapdragon 845, and I’ve written many times this year how Qualcomm’s software, and in particular the kernel scheduler was a very significant factor as to why this year’s Snapdragon phones performed so marvellously.

One of the big questions I posed myself early in the year is exactly how Google planned to handle Qualcomm’s great divergence from upstream, and the divergence from the Google common kernel. As a reminder, the Google common kernel is now the “official” branch on which SoC vendors should be basing their BSP (board support packages, essentially the software stack) for their own products. This is a collaborative effort between vendors (Mainly Google, Qualcomm and Arm), and it’s also the target where Arm pushes its own EAS patches.

The matter of fact is, for the Pixel 3, Google is simply using Qualcomm’s custom scheduler. This is both a great win for Qualcomm given the expected device performance of the Pixel 3, and quite a blow to Arm’s own efforts, as the EAS improvements over the last year are just simply not being used. Qualcomm’s efforts as well as the resulting product are just too good to pass on, and I’m very much expecting next year to finally be a watershed moment where other vendors finally abandon attempts to keep things minimalistic, and in line with upstream Linux, and finally see the immense value in investing in actual immediate benefits for consumer devices of a given generation.

PCMark Work 2.0 - Web Browsing 2.0

Starting with PCMark’s Web Browsing 2.0 test, the Pixel 3 leads the pack, with a slight advantage over other Snapdragon 845 phones. The reason here is that Google seemingly uses the most up-to-date scheduler, as well as has some possible file I/O advantages which I’ll get into a bit later. There are also possible OS side improvements in the libraries, as the Pixel 3’s ship with Android 9.

I’ve updated the performance results for past Pixels with the newest OS updates, as well as for devices like the OnePlus 6 as these have received their OS updates as well.

PCMark Work 2.0 - Video Editing PCMark Work 2.0 - Writing 2.0

In the writing test, which is probably PCMark’s most important as well as representative benchmark, the Pixel 3 saw a big leap in performance over the previous Pixels – however I think this was due to Android 9 itself, as we also saw a big jump in the OnePlus 6’s performance with the latest OS update.

PCMark Work 2.0 - Photo Editing 2.0

The photo editing test is very much a scheduler responsivity test as modern devices are able to complete the workloads relatively fast at their peak performance states. Here the score wildly fluctuates depending on how fast the DVFS mechanism is, and we see the Pixel 3 among the best performers.

PCMark Work 2.0 - Data Manipulation

The data manipulation score is extremely high on the Pixel 3 compares to other phones, including the OnePlus 6. I wasn’t able to verify this empirically, but glancing over the scheduler the Pixel has some unique updates to it which facilitate better responsiveness and scheduling of single big tasks, and the data manipulation test is such a workload with a big single-threaded component.

PCMark Work 2.0 - Performance

Overall, the Pixel 3 takes the top position in PCMark, all thanks to its scheduler improvements as well as a slight advantage due to it running Android 9.

Speedometer 2.0 - OS WebView

Moving onto web browser tests, the Pixel 3 largely matches the other Snapdragon 845 devices. This is no surprise as Speedometer 2.0 is a high constant throughput ST benchmark, and as such isn’t as affected by scheduler as PCMark.

Apple still has a considerable performance lead here. After our recent iPhone XS review and SoC deep-dive, I’m more leaning towards the explanation that a big part of the advantage here is purely due to hardware and the microarchitectural advantages of Apple’s CPUs, with part of it also being Apple’s Nitro JS engine.

WebXPRT 3 - OS WebView

WebXPRT also looks in line with other Snapdragon 845 devices.

Pixel 3 – Now using F2FS

Section with credit and input by Park Ju Hyung (@arter97)

The Pixel 3 now has switched over from an EXT4 filesystem, to the F2FS filesystem. Google explains this switch due to the fact that F2FS now supports inline block encryption which has been the last major roadblock as to why Google hadn’t made the switch earlier.

Inline block encryption uses the SoC’s inline cryptographic engines, which just serve as an intermediate hardware layer to the NAND and offload any encryption workloads that were initially in past devices performed by the CPU.

The switch to F2FS now gives the Pixel 3 a number of advantages over previous filesystem; Previously, SQLite (which is used by almost all database files under Android) used another 'journaling' on its own to prevent corruption. This caused “double journaling” on top of EXT4, which in itself is a journaling filesystem. Since F2FS doesn’t need this kind of protection and the Pixel 3 includes Google’s SQLite changes in Android 8.1, the Pixel 3 is able to take advantage of this, as well as any other F2FS based device from other vendors which have the corresponding OS patches.

The result is that this will enable much higher write/commit speeds for SQLite, not to mention less wear and tear to the underlying UFS storage. Also, the Pixel 3 turned off barriers for fsync() system calls, which will improve general random I/O write speeds by a significant margin.

Another big improvement for file I/O is the implementation of “Host Performance Booster” in the kernel and UFS controller firmware stack. HPB is essentially caching of the NAND chip’s FTL (flash translation layer) L2P (logical to physical) mapping tables into the hosts (SoCs) main memory. This allows the host driver to look up the target L2P entry directly without betting on UFS’s limited SRAM to have a cache-hit, reducing latency and greatly increasing random read performance. The authors of the feature showcase an improvement of 59-67% in random I/O read performance due to the new feature. It’s worth to mention that traditional Android I/O benchmarks won’t be able to show this as as those tend to test read speeds with the files they’ve just created.

Overall, the Pixel 3 is the fastest Android device on the market right now. The one thing that puts it above other devices such as the OnePlus 6 is a noticeable faster response-time when opening applications – either a framework related boost or just an effect of the faster file I/O.

Introduction & Design GPU Performance
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  • s.yu - Sunday, November 11, 2018 - link

    Oh, I don't know what happened to the site but I'm experiencing frequent problems trying to view samples in full size, I see the correct URL when I hover my cursor over the sample but when I shift-click it(any other sample) only the first sample of the group is opened.
  • s.yu - Sunday, November 11, 2018 - link just gets stuck at the first sample of the group that I clicked, if I click say the XS sample then I only get the XS sample, click on another sample and I wouldn't be able to open the full sized version of that in a new tab, the new tab would load the XS sample instead.
  • Impulses - Friday, November 2, 2018 - link

    As long as you aren't photographing anything moving... The shutter speeds used will lead to more blurring.
  • Badelhas - Sunday, November 4, 2018 - link

    Andrei, didn't Google say that the "Night Shot" feature will eventually come to the Pixel 2? If so, the main advantage is gone, we can just buy a Pixel 2, which is much cheaper...
  • s.yu - Sunday, November 11, 2018 - link

    There's only one minor issue I'd like to bring up, I don't think Pixel3 clipped more highlight in night mode than Mate20P, all the blue areas are in fact not clipped, only, well, in highlight territory. Only pure white is clipped and from my preliminary examination of the sample with the spotlights illuminating the tree in the center, I'd say Pixel clipped a little less highlight.
    So I then downloaded the samples to view them in lightroom(the issue I mentioned seems to have been limited to page 7, I'm not having problems on page 8). When checking for clipping with the inbuilt tool I noticed that the Mate20P shot had unnatural readings, the tool only labeled two jagged streaks across the surface of the nearest spotlight, while a proper clipping of something like that should at least look remotely round, so I determined that to be software artifacts and added a slight 5 to the global highlight slider, which would just label whatever looked like pure white on that spotlight as clipped.
    On the pixel sample I did the same thing only slightly less, adding 2 to the slider already made pixel's clipping area look properly round(and the same size as Mate20P's). Then I went back to examine the clipping on the tree branches, it was too close to call. So I believe that Pixel and Mate20P retain the same amount (within 1/6 of a stop difference) of highlight DR, only Huawei's algorithm favors aggressively suppressing whatever it has available which Pixel does not.
    Adding that to the far superior detail retention I say Pixel's clearly the new night king.
  • chief-worminger - Friday, November 2, 2018 - link

    Hello Andrei,

    Thank you for the thorough review. I wonder when you say in the battery life section that "SoC efficiency can go either way", do you mean that some 845 chips might be more efficient than some 835 chips, and vice versa? If not can you please clarify?
  • Andrei Frumusanu - Friday, November 2, 2018 - link

    In synthetic tests, the S845 was about equally efficient in terms of energy usage as the S835 - so only minor factors such as software scheduling might push the efficiency in one direction or the other.
  • saleri6251 - Friday, November 2, 2018 - link

    Hello Andrei, I remember a few months ago on twitter you mentioned that a lot of people thought the S845 was going to have massive improvements on battery life, but the logic was very flawed. What was the flaw in the logic?

    Also any hopes for next year when everyone will be on the 7nm chips?
  • eurico - Friday, November 2, 2018 - link

    I'd love to see some Sony phones used in comparisons, I understand that Sony's been lagging a bit behind lately, but still they do have some decent references in battery life and camera performance.
  • Samus - Friday, November 2, 2018 - link

    Sony has one of the, if not the best, camera UI. But the phones and sensors leave a lot to be desired.

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