One of the more intriguing mysteries in the Apple ecosystem has been the question over what process the company would use for the A10X SoC, which is being used in the newly launched 2017 iPad Pro family. Whereas the A10 used in the iPhone was much too early to use anything but 16nm/14nm, the iPad Pro and A10X is coming in the middle of the transition point for high-end SoCs. 16nm is still a high performance process, but if a company pushes the envelope, 10nm is available. So what would Apple do?

The answer, as it turns out, is that they’ve opted to push the envelope. The intrepid crew over at TechInsights has finally dissected an A10X and posted their findings, giving us our first in-depth look at the SoC. Most importantly then, TechInsights is confirming that the chip has been fabbed on TSMC’s new 10nm FinFET process. In fact, the A10X is the first TSMC 10nm chip to show up in a consumer device, a very interesting turn of events since that wasn’t what various production roadmaps called for (that honor would have gone to MediaTek’s Helio X30)


Image Courtesy TechInsights

Apple is of course known for pushing the envelope on chip design and fabrication; they have the resources to take risks, and the profit margins to cover them should they not pan out. Still, that the A10X is the first 10nm SoC is an especially interesting development because it’s such a high-end part. Traditionally, smaller and cheaper parts are the first out the door as these are less impacted by the inevitable yield and capacity challenges of an early manufacturing node. Instead, Apple seems to have gone relatively big with what amounts to their 10nm pipecleaner part.

I say “relatively big” here because while the A10X is a powerful part, and big for a 10nm SoC, in terms of absolute die size it’s not all that big of a chip. In fact by Apple X-series SoC standards, it’s downright small: just 96.4mm2. This is 24% smaller than the 16nm A10 SoC (125mm2), and in fact is even 9% smaller than the A9 SoC (104.5mm2). So not only is it smaller than any of Apple’s 16nm SoCs, but it’s also about 20% smaller than the next-smaller X-series SoC, the A6X. Or, if you want to compare it to the previous A9X, Apple’s achieved a 34% reduction in die size. In other words, Apple has never made an iPad SoC this small before.

One key difference here however is that the X-series SoCs have never before been the leading part for a new process node. It has always been iPhone SoCs that have lead the charge – A9 at 16nm, A8 at 20nm, A7 at 28nm, etc. This does mean that as a pipecleaner part, Apple does need to be especially mindful of the risks. If an X-series SoC is to lead the charge for the 10nm generation, then it can’t be allowed to be too big. Not that this has stopped Apple from packing in three CPU cores and a 12-cluster GPU design.

Speaking of size, TechInsights’ estimates for area scaling are quite interesting. Based on their accounting, they believe that Apple has achieved a 45% reduction in feature size versus 16nm, which is consistent with a full node’s improvement. This is consistent with TSMC’s earlier statements, but given the challenges involved in bringing newer processes to market, it’s none the less exciting to actually see it happening. For chip vendors designing products against 10nm and its 7nm sibling, this is good news, as small die sizes are the rule for pretty much everyone besides Apple.

A10X Architecture: A10 Enlarged

Diving a bit deeper, perhaps the biggest reason that A10X is as small as it is, is that Apple seems to have opted to be conservative with its design. Which again, for a pipecleaner part, is what you’d want to do.

Apple SoC Comparison
  A10X A9X A8X A6X
CPU 3x Fusion
(Hurricane + Zephyr)
2x Twister 3x Typhoon 2x Swift
CPU Clockspeed ~2.36GHz 2.26GHz 1.5GHz 1.3GHz
GPU 12 Cluster GPU PVR 12 Cluster Series7 Apple/PVR GXA6850 PVR SGX554 MP4
Typical RAM 4GB LPDDR4 4GB LPDDR4 2GB LPDDR3 1GB LPDDR2
Memory Bus Width 128-bit 128-bit 128-bit 128-bit
Memory Bandwidth TBD 51.2GB/sec 25.6GB/sec 17.1GB/sec
L2 Cache 8MB 3MB 2MB 1MB
L3 Cache None None 4MB N/A
Manufacturing Process TSMC 10nm FinFET TSMC 16nm FinFET TSMC 20nm Samsung 32nm

We know from Apple’s official specifications that the A10X has 3 Fusion CPU core pairs, up from 2 pairs on A10, and 2 Twister CPU cores on A9X, all with 8MB of L2 cache tied to the CPU. Meanwhile the GPU in A10X is relatively unchanged; A9X shipped with a 12 cluster GPU design, and so does A10X. This means that Apple hasn’t invested their die space gains from 10nm in much of the way of additional hardware. To be sure, it’s not just a smaller A9X, but it’s also not the same kind of generational leap that we saw from A8X to A9X or similar iterations.

Unfortunately TechInsights’ public die shot release isn’t quite big enough or clean enough to draw a detailed floorplan from, but at a very high level we can make out the 12 GPU clusters on the left, along with the CPU cores to the right. Significantly, there aren’t any real surprises here. TechInsights heavily compares it to the A9X and there’s good reason to do so. IP blocks have been updated, but the only major change is the CPU cores, and those don’t take up a lot of die space relative to the GPU cores. This is what allows A10X to be more powerful than A9X while enjoying such a significant die size decrease.

As for the GPU in particular, Apple these days is no longer officially specifying whether they’re using Imagination’s PowerVR architecture in their chips. Furthermore we know that Apple is developing their own GPU, independent from Imagination’s designs, and that it will be rolled out sooner than later. With that said, even prior to today’s die shot release it’s been rather clear that A10X is not that GPU, and the die shot further proves that.

Apple’s developer documentation has lumped in the A10X’s GPU with the rest of the iOS GPU Family 3, which comprises all of the A9 and A10 family SoCs. So from a feature-set perspective, A10X’s GPU isn’t bringing anything new to the table. As for the die shot, as TechInsights correctly notes, the GPU clusters in the A10X look almost exactly like the A9X’s clusters (and the A10’s, for that matter), further indicating it’s the same base design.


Image Courtesy TechInsights

Ultimately what this means is that in terms of design and features, A10X is relatively straightforward. It’s a proper pipecleaner product for a new process, and one that is geared to take full advantage of the die space savings as opposed to spending those savings on new features/transistors.

Otherwise I am very curious as to just what this means for power consumption – is Apple gaining much there, or is it all area gains? A10X's CPU clockspeed is only marginally higher than A9X's, and pretty much identical to A10, so we can see that Apple hasn't gained much in the way of clockspeeds. So does that mean that Apple instead invested any process-related gains in reducing power consumption, or, as some theories go, has 10nm not significantly improved on power consumption versus 16nm? But the answer to that will have to wait for another day.

Source: Capped A10X Photo Courtesy iFixit

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  • melgross - Friday, June 30, 2017 - link

    The clock is only about 5% higher for a 40% improvement in performance. Reply
  • kfishy - Friday, June 30, 2017 - link

    Might be much faster memory performance, mobile GPUs nowadays are pretty bandwidth hungry. Reply
  • StrangerGuy - Friday, June 30, 2017 - link

    Because Apple's SoC design team is has been far and away the best in the entire industry. They also just killed ImgTec in GPU, the rumors are the guys next on the Apple custom design chopping block is Qualcomm and Dialog on baseband and power management IC respectively. Reply
  • melgross - Friday, June 30, 2017 - link

    It’s a later series. Reply
  • Ppietra - Friday, June 30, 2017 - link

    They aren’t the same GPU cores of the A9X. It should use a similar GPU core to the A10 which was a tweaked version from the previous A9 GPU.
    We don’t know if they have a similar clock speed, the numbers that are shown are for the CPU not the GPU.
    Reply
  • blackcrayon - Friday, June 30, 2017 - link

    Does it say the cores are clocked similarly though? I thought they could have a different relative clock speed to the overall SoC clock. Also, are we sure they are the exact same cores? Or just that there are the same number of them and they have no new "features" from Apple's software standpoint. Reply
  • Nokiya Cheruhone - Tuesday, July 04, 2017 - link

    Apple doesn't use the same GPU, its (now designed in-house) design is evolving constantly. Reply
  • tipoo - Friday, June 30, 2017 - link

    Soo, any chance of a deep dive? Merged into the a10 one? Reply
  • melgross - Friday, June 30, 2017 - link

    What’s really interesting here is that with such a major shrinkage in t gives Apple a chance to add a lot more to the chip. I imagine that the soon to appear A11 is taking advantage of the same process. Since it’s going to be the second chip using the 10nm process, possibly Apple will feel that they can advance it even more.

    Generally, we find that the next generation phone SoC from them has GPU performance about equal to the previous generations iPad GPU, that had double the cores.

    It’s will be interesting to see whether the A11 has performance exceeding the CPU of the A10x, and GPU performance at almost the same level. Of course, it’s not likely to have 3/3 CPU cores - or will it?
    Reply
  • Kevin G - Friday, June 30, 2017 - link

    This makes me wonder what they have in store for the A11 in the next iPhone due later this year. I think this sets up the expectation that Apple will use 10 nm there as well. I'd still expect a dual big + dual little design. The change maybe that Apple could enable all four cores simultaneously under heavy load. More cache as we've seen on the A10X is probably a given, I'd guess 6 MB. GPU side is where I'd see the big changes happening for the A11 with a new cluster design. I don't think they'll have their custom GPU ready by then but Apple has been known to surprise. I see Apple adopting the latest PowerVR design and increasing the cluster count. Reply

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