It’s been a little over three weeks since Apple unveiled the new iPhone XS, XS Max and the XR. The new flagship line-up is one of Apple’s most important ones to date; this year we’re seeing the company expand last year’s new iPhone X design across all of its new models, meaning big changes for all users. 2018 has been an odd year for the smartphone market as more than ever before we saw the competition try to react and also mimic the iPhone X – the design language especially has been something that we saw replicated across a lot of various designs.

Instead of iterating on the design, Apple has stayed true to its “S” generation release tradition and doubled down on what we saw last year with the iPhone X, all the while expanding the design across new form-factor phones as well. Today we review the first two of this year’s three new models: the iPhone XS, and its bigger brother the iPhone XS Max. The iPhone XR unfortunately releases later on this month – so we'll be taking a look at it separately.

Today we’ll be going into the detail of all aspects of the phone, included a much awaited deep dive of the new A12 SoC. Given Apple's ever-growing focus on the camera capabilities of their phones, I have also prepared an extensive camera comparison for this review – comparing shots across different modes on 14 devices. Hang in tight, this is a long one.

Starting off, let’s go over the specifications of the new iPhone XS and XS Max:

Apple 2018 iPhone XS Specifications
  iPhone XS iPhone XS Max
SoC Apple A12 Bionic

2 × Vortex @ 2.5GHz
4 × Tempest @ 1.59GHz
GPU 4-core "G11P" @ >~1.1GHz
DRAM 4GB LPDDR4X
Display 5.8-inch OLED
2436×1125
DCI-P3/True Tone
625 cd/m² brightness
1M:1 contrast ratio
3D Touch
6.5-inch OLED
2688×1242
DCI-P3/True Tone
625 cd/m² brightness
1M:1 contrast ratio
3D Touch
Size Height 143.6 mm 157.5 mm
Width 70.9 mm 77.4 mm
Depth 7.7 mm 7.7 mm
Weight 177 grams 208 grams
Battery Capacity 2658mAh / 10.13Wh 3174mAh / 12.08Wh
Wireless Charging Qi
Rear Cameras 12 MP 1.4µm pixels, f/1.8, OIS
Wide Color Gamut
Quad LED True Tone Flash
Portrait Mode, Portrait Lighting, Depth Control
12 MP f/2.4 Telephoto, OIS
2x Optical Zoom
Portrait Mode, Portrait Lighting, Depth Control
Front Camera 7MP f/2.2
Wide Gamut, Retina Flash, Portrait Mode,
Portrait Lighting, Depth Control
Storage 64 GB
256 GB
512 GB
64 GB
256 GB
512 GB
I/O Apple Lightning
Wireless (local) 802.11ac Wi-Fi with 2x2 MIMO + Bluetooth 5.0 + NFC
Cellular Intel XMM7560 Modem
UE Category 16 LTE (1Gbps) with 4x4 MIMO and LAA
Splash, Water, Dust Resistance IP68
up to 2 meters, up to 30 minutes
Dual-SIM nano-SIM + eSIM
nano-SIM + nano-SIM (China model)
Launch Price 64 GB: $999
256 GB: $1149
512 GB: $1349
64 GB: $1099
256 GB: $1249
512 GB: $1449

At the heart of the new iPhones is the brand new Apple A12 SoC. The new chipset is the very first consumer piece of silicon that is being manufactured on TSMC’s new 7nm process. The new process promises greater transistor density and reduced die area of the chip, which gives Apple the ability to cram in more transistors in the same area, ultimately increasing the complexity and capabilities of the new SoC. We’ll go into more detail about the process node in a dedicated section, but least to say, in terms of sheer transistor counts it’s a healthy jump for Apple’s newest design.

The SoC’s CPU complex is now powered by two new “Vortex” CPU cores running at up to 2.5GHz, providing new levels of high performance. Apple claims the new CPUs perform around 15% better than last year’s A11 Monsoon cores – here it seems the company’s marketing was a tad conservative as the real performance figures of the new CPU are significantly higher. Alongside the performant Vortex cores, we see four new smaller efficiency cores named “Tempest”. The new small cores bring some performance improvements, but it’s mostly in terms on power and power efficiency where we see Tempest make some bigger leaps.

The A12’s GPU is the G11P – here Apple has made the biggest performance claims, advertising up to 50% higher figures. We’ll see how the new successor to last year’s A11 GPU in its dedicated section.

On the memory and storage side of things, we now finally see a significant boost in main memory capacity, as both the iPhone XS and XS Max sport 4GB of LPDDR4X RAM, up from 2GB and 3GB in the iPhone 8/X family. In terms of storage capacity, the new models come in 64, 256 and 512GB tiers. Here it’s a tad disappointing to see the base model come in at only 64GB, I think offering 128GB would have resulted in a much more even distribution in the models.

Front and centre of the new iPhones is the new “Super Retina” OLED display. Apple first introduced OLED displays in its lineup in the iPhone X – and the new iPhone XS and XS Max are a continuation of that panel, with an obviously bigger iteration for the Max. The displays are outright fantastic and among the best in the market, offering a fully colour managed wide "Display P3" gamut, very high brightness up to 650 cd/m², and excellent viewing angles. The iPhone XS has the same resolution as last year’s iPhone X, at 2436 x 1125 pixels, while the XS Max maintains the same pixel density by increasing the pixel count to 2688 x 1242.

On the back side, both phones are again a continuation of the iPhone X design. The glass back offers NFC and wireless charging capabilities. Wireless charging has seen an upgrade and claims to be able to charge faster, and also improve on the off-centre and off-axis charging performance.

Apple has worked with Corning to create a new formulation that is said to improve durability and scratch resistance. I’ll leave the testing of this to other people!

The sides of the phones come in highly glossy “surgical grade” steel. While I do appreciate Apple’s intent here, and I understand some people have personal preferences, I’m not a big fan of such finishes as I find them impractical and more slippery than the anodised aluminium of previous generation iPhones. It’s also a hell of a fingerprint magnet.

While the iPhone XS is more or less indistinguishable from the iPhone X – the one visual difference between the new and old is found in the lower left and upper right corners. The left microphone grill has halved its size and is only three holes wide now. Here Apple has introduced two new antenna cut-outs in the corners that serve the two new cellular antennas which enable the iPhone XS’ to achieve 4x4 MIMO.

Indeed in terms of cellular connectivity, the new iPhones boast a significant jump as we’ve seen an upgrade in download speeds to a gigabit for LTE networks. In terms of internals, this was achieved by now exclusively adopting Intel’s new XMM7560 baseband platform. This is Intel’s first chipset to support CDMA and also the first modem to be manufactured on Intel’s own 14nm process.

On the camera side of things we see the same dual 12MP camera module configuration as on the iPhone X – a normal wide angle and a zoom lens. The big difference with the XS is the upgrade in sensor size from an area of 32.8mm² to 40.6mm². Because the lens has remained the same and also offers the same f/1.8 aperture, the increase of the sensor size results in a slightly wider field of view than last year’s models. Light sensitivity has been increased thanks to the bigger sensor, and hence, the bigger pixels, increasing in size from 1.22µm to 1.4µm. The telephoto lens remains largely similar, with a 12MP 2x zoom module.

The iPhone XS Max in contrast to the iPhone XS is just a much bigger device. Apple noted that it’s calling it the “Max” instead of the “Plus” denomination, because it has no added features, and is just a bigger variant of the smaller XS. Here I applaud Apple for not making any feature discrepancies based on the model size – something I really hated in the past with the dual camera being found only on the Plus models.

The iPhone XS Max has a 3174mAh/12.08Wh battery while the smaller XS features a 2658mAh/10.13Wh battery. While Apple calls this the biggest battery ever in an iPhone, and that’s true, Apple is still a tad behind the battery densities that Android manufacturers have now come to commonly use in larger form factor phones.

 

Again, in a comparison between the iPhone X and the new iPhone XS – you’ll be hard pressed to see the difference and you’ll really have to focus to find the new antenna cut-outs to tell them apart.  

 

Meanwhile the iPhone XS Max is largely the same form-factor as the iPhone 8 Plus, although the Max is technically 0.7mm narrower and 0.9mm shorter. For users opting for the larger models, the biggest difference is of course the massive increase in screen size, and I have to say, the XS Max does look very good due to its sheer screen-to-body ratio, which is higher than the smaller XS.

Finally the last big mention before we go deep into our review the price of the new phones. These new models are not successors to the iPhone 8 and 8 Plus – something I imagine the iPhone XR will have much more success in achieving – but rather continuation of the new high price points of the iPhone X. The higher storage capacity price points in particular are exceptional, coming in at $1349 for the XS and $1449 for the XS Max. If the price is worth it for you, is something you best decide along with us as we go deeper into the hardware of the new phones.

The Apple A12 - First Commercial 7nm Silicon
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  • NICOXIS - Friday, October 5, 2018 - link

    I wonder how A12 would do on Android or Windows... I'm not into Apple but they have done a fantastic job with their SoC
  • LiverpoolFC5903 - Tuesday, October 9, 2018 - link

    Probably nowhere as good as it is projected here.
    What is the bloody point of these supposedly super fast SOCs with massive caches and execution units when the OS running on it will be the highly limited, crippled and locked OS like the IOS. No emulators, no support for USB peripherals like gamepads, mice or keyboards, poor excuse for file management, no access to outside apps, no ability to run non webkit based browsers, no ability to seamlessly transfer data to and from windows desktops and multiple other limitations.

    All and well getting excited over this SOC but its like Having a 450 BHP ferrari running on a 80 mile speed limiter with an automatic transmission. All that power is useless and will remain unutilised.

    Until they allow other OS to run on their hardware, the comparisons are meaningless. I can do a hell lot more on a pithy 835 than I will ever be able to do on an A11 or A12.
  • iSeptimus - Tuesday, October 9, 2018 - link

    Wow, so much wrong with this statement.
  • bulber - Friday, October 12, 2018 - link

    You are wrong and I know you are too narcissistic to realize that. I would pity you but your username tells me you don't deserve any pity.
  • Barilla - Friday, October 5, 2018 - link

    Fantastic hardware (well, except the notch), shame it's only locked to one OS. Would love to see an Android phone with hardware like that.
  • Matte_Black13 - Friday, October 5, 2018 - link

    Well Qualcomm is working on quite a few things, new SoC, NPU, and Samsung is totally redesigning their GPU, so...maybe sooner than later (S10)
  • varase - Friday, October 5, 2018 - link

    It'll be interesting to see what comes of that effort - so much of the Android market is feature phone replacements - the actual percentage which represents high end flagship phones is pretty slim.

    If a bigger percentage of the Android market is willing to pay for silicon with that increased compute capacity, there may be hope.
  • melgross - Saturday, October 6, 2018 - link

    But will they? Microprosser Reports says that each new SoC from Apple cost, the year of introduction, between $34-38. Top Android SoCs cost between $24-28. That’s a big difference. These phones compete wither each other, and price while Apple mostly competes against itself.
  • melgross - Saturday, October 6, 2018 - link

    The reason, or I should say, one of the reasons why other manufacturers are copying Apple’s notch, is because it allows a full screen phone. Notice that Samsung has edge to edge, but still retains a shorter screen on both the top and bottom. The notch removes 2-3% of the screen area, depending on screen size, which is very little. Now take the Galaxy 9+, and you’ll notice that when the entire top and bottom cutoffs are added together, it amounts to about 10% of the possible screen size.

    It’s why the new Pixel and others are moving to the notch. In the cases where the notch is just being copied, it’s ridiculous, because those companies are still using a chin on the bottom, and the notch is just there to copy the iPhone.
  • id4andrei - Saturday, October 6, 2018 - link

    No. They are copying the iphone for the look. If they were copying to maximize screen area they would copy Essential. Apple removed the chin and the notch is needed for face id - they have a good reason. Some copycats(not all) ape the look and keep the chin. A good compromise is the impending OnePlus T. It has teardrop notch and minimized chin that makes it look actually good. Asus is on the other side of the spectrum. They even bragged they wanted to copy the look of the iphone X.

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