After whipping Intel, Nvidia & AMD in mobile chips, sky's the limit for Apple Inc's silicon design t

Posted:
in Future Apple Hardware edited September 2015
While rumors have long claimed that Apple has plans to replace Intel's x86 chips in Macs with its own custom ARM Application Processors, there are a series of more valuable opportunities available to Apple's silicon design team, each of which has the potential to replicate Apple's history of beating Intel in mobile chips and in building mobile GPUs without the help of Nvidia or AMD.



Building upon How Intel lost the mobile chip business to Apple, a second segment examining how Apple could muscle into Qualcomm's Baseband Processor business a third segment How AMD and Nvidia lost the mobile GPU chip business to Apple and a fourth article examining how AMD and Nvidia could face new competitive threats in the desktop GPU market, this article examines other ways Apple's silicon design team could expand its scope to address new products and markets.

Apple's appetite for sensors, imaging and other custom silicon

Beyond mobile Baseband Processors and GPUs, Apple also appears interested in acquiring and developing strategically selected sensors, cameras, IO interfaces and other component technology--some of which even many technically savvy consumers have never heard of before.

For example, last fall Apple devoted an unusual amount of attention to an esoteric display component called the timing controller or "TCON" in introducing the 5K iMac.

Dan Riccio, Apple's Senior VP of Hardware Engineering, stated during the new iMac's introduction video, "Communicating to all of those pixels requires a lot of brain power. In a display, it's called the timing controller or TCON. The TCON tells every pixel what to do and when to do it. For this new Retina display a TCON didn't exist that could do the job. We had to create it. This single incredibly advanced chip is responsible for directing millions of pixels."



Apple's website further details, "Because iMac with Retina 5K display has four times as many pixels as the standard 27-inch iMac display, the TCON had to be able to handle more information than ever. But even the most powerful timing controllers available couldn't manage this number of pixels, so we had to create a new one with four times the bandwidth of the previous-generation 27-inch iMac -- up to 40 Gbps. Now a single supercharged chip beautifully orchestrates the symphony of all 14.7 million pixels."

In this case, Apple's motivation for creating custom silicon wasn't to save costs, but rather to innovate with new technology ahead of the rest of the industry, delivering a 5K all-in-one Mac before consumer electronics rivals could even bring a 5K monitor to market. This is not an isolated example. In this case, Apple's motivation for creating custom silicon wasn't to save costs, but rather to innovate with new technology ahead of the rest of the industry

Cameras and Imaging


Apple is now building a large swath of the world's premium smartphones, requiring that it also develop advanced custom imaging technology to process photos taken by relatively limited mobile camera sensors.

Camera imaging logic now takes up considerable space in Apple's latest A8. None of the company's investments in camera-related logic benefit Apple's competitors. That has given iPhones a strong competitive advantage in their ability to take superior photos compared to the majority of Android phones on sale.

Apple also developed its own multiple-element LED flash, branded True Tone, to more realistically illuminate subjects in limited light photos. And the company has patented a mechanism for supporting external lenses, which could result in a secondary licensing business similar to its Lightning and other MFi programs.

Apple is also expected to introduce multiple camera sensor photography, achieving better photos using composite, parallel captures in a way that builds upon previous efforts to counteract the limitations inherent in mobile camera sensors, including its acquisitions resulting in HDR imaging and Panorama capture.

With custom designed silicon capable of capturing high quality images from tiny camera sensors--and creating Time Lapse and SloMo (below) captures--it's not a stretch to imagine Apple expanding its reach into the market for GoPro-style sport camcorders or even drone cameras.

A video posted by Daniel Eran (@danieleran) on Jan 9, 2015 at 5:10pm PST

Fingerprint and payment technology

Apple's acquisition of fingerprint sensor maker AuthenTec gave the company exclusive access to advanced Touch ID hardware. And just as with its custom camera processing logic, Apple developed its own Secure Enclave logic in silicon to build a proprietary architecture for securing fingerprint-related data right into the A7 and A8.

If Apple had instead relied upon Samsung to design its Application Processors, every technology advance it paid for would also benefit Samsung's own smartphone sales. As it is, Samsung is still working to catch up, going on two years after Apple first shipped its full-finger touch sensor for iPhone 5s.

Touch ID


That has also enabled Apple to launch its fingerprint-secured Apple Pay before other platforms even had an installed base of devices equipped with functional sensors capable of hosting a competing payment system.

3D scanning and imaging

Apple is likely to also buy up other key manufacturers of motion and environment sensors that gave it a similar, strategic edge in producing difficult to copy products. The 2013 acquisition of PrimeSense appears to be an example of doing just that; future iOS, Mac and Apple TV products are likely to include new cameras and sensors that support 3D scanning and gesture-based interfaces, in addition to advanced camera imaging features (such as the augmented reality concepts PrimeSense demonstrated years ago, below).

Other vendors have already shipped or experimented with similar features already, but the products Apple ships will be likely be built with custom silicon that isn't available as an off the shelf component that competitors can easily copy, because Apple owns the core technologies and the proprietary silicon designs that power them.

It's not hard to imagine Apple developing a TV set top box that combines the features of today's Apple TV with gesture-based navigation and Siri commands, console class video games and home automation features.



With the ability to design its own advanced silicon CPUs, GPUs and custom logic, Apple could also develop advanced upgrades to its current AirPort basestations, enabling mesh networks that stitch together "Internet of Things" sensors for managing everything from home security to inside climate control and outside landscaping.

Solar cells

Apple is also currently pioneering some of the largest deployments of commercial solar and fuel cells at its growing portfolio of data centers.

If it wanted to enter the markets for solar powered outdoor sensors; indoor mapping; iBeacon retail transmitters; public WiFi, electric vehicles or anything else involving off the grid energy, it certainly has a head start in understanding how to manage power supplies and battery charging.


Apple's Maiden, N.C. solar farm. | Source: Apple


Apple also has the ability to flex vast economies of scale to rapidly expand do-it-yourself solar installations among consumers, leveraging some of the same advanced proprietary technology it already uses to achieve industry leading battery life in its laptops and mobile devices. With nearly $200 billion in cash, Apple can enter any market it determines worthy of its time.

Open standards, vertical hardware

At the same time, Apple is also pursuing efforts that use open technologies that its competitors can benefit from. When everyone uses the same technology, it can broadly benefit everyone. Apple's use of Unix and its promotion of WebKit and OpenGL have dramatically helped keep the industry competitive, for example.

Apple's use of open HTML as the core technology in Passbook made it easy for Microsoft to copy in a way that helped establish it as the standard way to distribute tickets, the same way that promoting WebDAV-based CalDAV and CardDAV made it much easier to share contacts and calendar items between platforms. Apple has also worked with the industry to promote video standards such as H.264 and the emerging H.265; JavaScript as the language of the web and Bluetooth 4.0 as a the fabric for wirelessly stitching together nearby devices for Continuity.

Ironically, Google--despite its reputation for being "open"--has worked to subvert all of those standards with its own internally developed alternatives, largely because Google makes its money via advertising and software services, and either doesn't want to contribute to key standards or doesn't have the long-term vision to deploy such enabling technologies.

Conversely, in hardware--which drives Apple's bottom line--Google tries to support everything, from ARM to Intel's x86 Atom CPUs, virtually any Baseband Processor and a broad array of lower end GPUs, all of which contribute to fragmentation-related support issues.

The end result is that Google's Android provides a sort of hobbyist "primordial soup" that allows for innovative concepts to attempt to evolve into a viable state. The most successful of these can be domesticated and refined by Apple to create products that are ready for sale, in the way that Apple Pay is now driving upon roads that Google financed years ago when it tried to roll out its own NFC-based Wallet.

One big difference between today's Apple and its status back in 2007 when it introduced the iPhone is that the company is far richer, ships far larger volumes of products and makes up a much greater percentage of the world's consumer electronics--Apple particularly dominates in profitability. That has given Apple options it didn't have when it first launched ARM-based iPhones without Intel.

At this point, Apple can literally do anything it wants to. The real question is: what will Apple want to do next?
brakken
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Comments

  • Reply 1 of 53
    %u2026 %u201CWhere does Apple want to go today?%u2122%u201D
  • Reply 2 of 53
    %u2026 %u201CWhere does Apple want to go today?%u2122%u201D
  • Reply 3 of 53

    I knew it was DED the moment I read the headline. ;)

  • Reply 4 of 53
    I knew it was DED the moment I read the headline. ;)
    Yup and I was excited to do so. I like to read well laid out information on Apple, it's why I'm here in the first place.
  • Reply 5 of 53
    "HAMLET: To be, or not to be--that is the question:
    Whether 'tis nobler in the mind to suffer
    The slings and arrows of outrageous fortune. . ." --Shakespeare

    The envious jackals expect Apple to fail at every turn.

    But Apple has a good long run yet to make.
  • Reply 6 of 53
    "...what will Apple want to do next?"

    Good question, because since their next market to disrupt could be dang near any one they pick. And because of their secrecy, no one can prepare for it to happen. So, when it happens Apple will have already moved several pieces into place to support their jump...
  • Reply 7 of 53
    mubailimubaili Posts: 453member
    pennywse wrote: »
    Yup and I was excited to do so. I like to read well laid out information on Apple, it's why I'm here in the first place.
    DED's article is like,dare I say it, tech porn. So addictive. Anyway, let's just remember that to stay focus is to say thousands no and very few yes.
  • Reply 8 of 53
    mazda 3smazda 3s Posts: 1,613member

    Very good article, DED, but the trolling the title is going overboard (although I guess it's good for Google News search algorithms...)

  • Reply 10 of 53
    radarthekatradarthekat Posts: 3,842moderator
    mubaili wrote: »
    DED's article is like,dare I say it, tech porn. So addictive. Anyway, let's just remember that to stay focus is to say thousands no and very few yes.

    Or... A few yeses and license the rest out to others. I especially like the idea of them licensing to others the strides they undoubtedly have made in power management and control associated with their alternate energy infrastructure. This would be Apple bringing valuable technologies to the world without getting distracted from their core focus.
  • Reply 11 of 53
    inklinginkling Posts: 768member
    Deja vu. I seem to remember similar stories in the early 1990s about Microsoft taking over everything. That story fell apart, as did the one about IBM before it.

    Apple needs to be careful the same hubris doesn't do it in.
  • Reply 12 of 53
    rogifanrogifan Posts: 10,669member
    inkling wrote: »
    Deja vu. I seem to remember similar stories in the early 1990s about Microsoft taking over everything. That story fell apart, as did the one about IBM before it.

    Apple needs to be careful the same hubris doesn't do it in.

    I don't think we need to worry about Apple. DED on the other hand...
  • Reply 13 of 53
    MacProMacPro Posts: 19,718member
    "...what will Apple want to do next?"

    Good question, because since their next market to disrupt could be dang near any one they pick. And because of their secrecy, no one can prepare for it to happen. So, when it happens Apple will have already moved several pieces into place to support their jump...

    Normally that's true but with the ?Watch Apple let everyone else have two years advance notice and sat back watched them all scramble.
  • Reply 14 of 53
    Did the world really need another DED article on this topic? ugh
  • Reply 15 of 53
    clexmanclexman Posts: 208member

    Aren't the chips in current Macs x64 and not x86? Also, aren't the Apple ARM chips just repackaged designs.

  • Reply 16 of 53
    Quote:

    Originally Posted by clexman View Post

     

    Aren't the chips in current Macs x64 and not x86? Also, aren't the Apple ARM chips just repackaged designs.




    No, they're not. Apple doesn't use the ARM reference design, and haven't since the A5.

  • Reply 17 of 53
    MacProMacPro Posts: 19,718member
    Did the world really need another DED article on this topic? ugh

    It isn't on the same topic it is expanding on previous and equally excellent articles. Read the intro where that is explained.
  • Reply 18 of 53

    Before 2001:

     

    "Open the pod bay doors, Microsoft."

    "I'm sorry, but I'm afraid I can't do that."

     

    After 2001:

     

    "Then Apple waited, marshaling its thoughts and brooding over its still untested powers. For though it was master of the world, it was not quite sure what to do next. But it would think of something."

  • Reply 19 of 53
    paxmanpaxman Posts: 4,729member
    Quote:

    Originally Posted by woodycurmudgeon View Post



    Did the world really need another DED article on this topic? ugh



    Do we really need people complaining about articles they really don't have to read.  ugh

    darelrex
  • Reply 20 of 53
    Not sure what the title has to do with the article
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