Tag Archives: a5

Aug 08

AnandTech – The iPad 2,4 Review: 32nm ...

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When Apple launched the 3rd generation iPad (as the new iPad), it also dropped the price of the entry-level 16GB WiFi iPad 2 to $399. Apple's products tend to hold their values exceptionally well, so this two-tablet strategy made sense. Apple also proved the success of discount-the-previous-gen strategy with its iPhone line, where you can now buy current, n-1 and n-2 generations of iPhones at prices separated by $100.

What's different with the $399 iPad 2 is that Apple used it as a vehicle to introduce a new hardware platform, or more specifically, a new SoC.

Prior to the new iPad announcement there were three versions of the iPad 2:

Apple iPad 2 Lineup   iPad 2,1 iPad 2,2 iPad 2,3 iPad 2,4 A5 SoC 45nm LP 45nm LP 45nm LP 32nm LP Connectivity WiFi WiFi + GSM WiFi + CDMA WiFi

The 2,1 was WiFi-only, the 2,2 was GSM and the 2,3 was CDMA. The new addition to the family is the iPad 2,4. The 2,4 replaces the original iPad 2,1. It's also only available in a single capacity.

There's no known way to tell whether you're getting an iPad 2,4 vs. the older iPad 2,1 without opening the box. The 2,4 unit I ended up with was made in China, ruling out manufacturing region as a way of telling. The external box looks identical, as does the device itself.

The newer iPad 2,4 units should come with iOS 5.1 preloaded, while any older iPad 2,1 stock may have 5.0.1 or older. But the most accurate way to tell is by looking at what a utility like Geekbench will tell you about the hardware (Update: there are other free utilities that can serve the same purpose, Linpack and Battery Life Pro are two examples):

This particular iPad 2,4 sample came from best buy, and several attempts to find one elsewhere came up short. All indications seem to point to the iPad 2,4 being relatively rare, which makes sense considering what's inside it.

although the iPad 2,1 and its 3G brethren all used a 45nm Apple A5 SoC, the iPad 2,4 uses a die-shrunk 32nm version. The performance remains the same, but the die is much smaller. This isn't however just a normal die shrink, as Apple is using Samsung's 32nm high-k + metal gate LP transistors for this new A5 die. Intel was first to make the HK+MG transition back at 45nm in 2007 and correctly predicted that no one else would make the move until 32nm at the earliest.

Transistors are amazingly complex to fully understand, but at a high level they're quite simple. Imagine a transistor as a silicon based switch. When on, current flows, and when off, current stops flowing. The smaller you make a transistor, the more likely it is to misbehave. If current flows while the transistor is off, you waste power. This is known as leakage current and can come from a number of sources.

One such source is the gate oxide/gate dielectric, a particularly thin part of modern day transistors – on the order of a handful of atoms thick. Thinning the gate dielectric is desirable up to a certain point, after which the dielectric simply leaks too much power. Switching to a different material here, specifically one with a higher dielectric constant (a higher k-value), can significantly reduce leakage current and mitigate this issue. This is exactly what the first part of Samsung's 32nm high-k + metal gate process does.

The second half of the new process is the introduction of a metal gate electrode. Switching from a polysilicon to a metal gate electrode results in higher drive current by elimination of a region of depleted conducting carriers between the gate electrode and gate dielectric.

The combination of these two innovations results in less wasted current and more efficient current delivery, which in turn can give us a more power efficient chip. It's a net win. it makes manufacturing more complex, and there's definitely a learning curve to implementing it, but after you get over that hurdle it becomes just another part of the process.

Traditionally the move to a smaller process node brings about an increase in transistor density. as transistors get smaller, you can fit more of them into the same space (or the same number into a smaller space). It's this basic principle that makes Moore's Law work. If you can keep shrinking transistor size by about 50% every two years, you'll theoretically be able to double transistor count at the same cost every two years (or cut cost in half every two years). In practice it doesn't work this well. Newer processes are always more expensive than their predecessors initially and logic scaling is never perfect.

It's rare these days that we actually see a pure die shrink anymore. With Intel's tick-tock model we almost always see increases in functionality to accompany each process node shift. In the case of Ivy Bridge, we actually saw a significant increase in transistor count thanks to an improved GPU. With Apple's 32nm A5 however, we truly end up with a die shrunk version of the 45nm A5 SoC. about the only part of the computing world where we see these pure shrinks is in the console space where performance doesn't have to go up within a generation, but cost must go down.

45nm A5 (left) vs. 32nm A5 (right) – Source: Chipworks

The original 45nm A5's die measured approximately 122mm^2. The new 32nm A5 has a surface area of only 69mm^2. That's actually amazingly good scaling at 57% of the old die size, as perfect scaling from 45nm to 32nm would be around 50.5%.

Assuming Apple could make full use of a 300mm wafer (which it can't, wafers are round, chips are rectangular at best so there are some unusable chips), Samsung could deliver 579 45nm A5 die to Apple. The move to 32nm would give Apple 75% more die per wafer at 1015 chips. again both of these numbers are over estimates as they assume full usage of the surface area of a wafer as well as 100% yields, but you can see the benefit of a smaller die. as long as wafer costs increase by a factor less than the 75% increase in number of die per wafer, Apple can effectively reduce SoC cost by going this route.

these ARM based SoCs are already fairly cheap – all selling well below $30 (many around $15) – so there's not a whole lot of cost savings here. on a product like the $399 iPad 2, where Apple needs to do its best to maintain margins while holding onto (and growing) market share, every last dollar matters.

Gate density vs. process node at Samsung

There's another motivation for Apple however. just as with any good microprocessor company, its best to introduce a new process technology on a known architecture. It's also a good idea to introduce a new process technology on lower volume products. The combination of both of these minimize risk. Should there be something wrong with the new process, introducing a new architecture on it just means you now have two very complex things to debug – the process technology and the chip's architecture. Should the new process not yield very well initially, you'd be similarly screwed if you were depending on it for your highest volume parts.

32nm A5 in iPad 2,4 (Source: Chipworks)

Apple decided to try out Samsung's 32nm HK+MG process on the A5 used in the 3rd generation Apple TV and some of the new iPad 2s. The former is a relatively low volume product for Apple, while the latter still moves in significant quantities. to deal with that fact, Apple is continuing to ship the original 45nm iPad 2,1 alongside the new 32nm iPad 2,4. any hiccups in Samsung's production of the A5 and there are still more than enough iPad 2,1s to go around. The risk of moving to 32nm is effectively mitigated, while the learnings Apple gains from building the 32nm A5 will pay off later this year as Apple ramps up production of a 32nm SoC for use in the next iPhone. It's a very smart strategy, one you would expect from an experienced chip company – not a device vendor. When you consider that Apple employs chip architects who have worked on everything from the Athlon 64 to the Cortex A15, Apple's behavior is no longer that surprising.

Apple gets two benefits from the iPad 2,4: lower manufacturing costs, and experience with Samsung's 32nm HK+MG process which it will later use in much greater volumes. What about customers who end up with an iPad 2,4? better battery life and cooler operation, of course.

Impact of HK+MG at Samsung

Remember the basics of Samsung's 32nm HK+MG process: a 40% performance improvement at the same leakage, or a 10x reduction in leakage at the same switching speed. as the iPad 2,4 retains the same clocks as the initial iPad 2, the benefit realized is a significant reduction in leakage current. This translates to tangibly better battery life.

AnandTech
– The iPad 2,4 Review: 32nm Brings Better Battery Life

May 30

Spotted: Apple iPad 2 with 32-nm A5 Processor

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Last April, it was discovered that Apple silently tweaked its iPad 2 16GB model with Wi-Fi. It is said that the tablet is equipped with 32-nanometer die shrink of the A5 on-a-chip system. the device carries an “iPad2,4” identifier, which was first spotted in an iOS 5.1 beta last November 2011. However, the model it was trying to represent during that time was vague.

Tweaked Model, Better Battery Life

It seems that the company is testing their production of next-generation processors in lower-volume devices, as a similar die shrink of the A5 was found in the new Apple TV. On the other hand, the A5X chip used in the new iPad is based on the 45-nanometer process.

Industry website Anadtech was able to get their hands on of the tweaked iPad 2 models, and subjected the tablet to a series of battery and performance test. They found out that the revised model has the same performance as the original iPad 2, but with a better battery life of 15-30 percent in several benchmarking tests.

“Assuming Apple didn’t change any fundamentals of its micro-architecture, the iPad 2,4’s gains in battery life can be attributed directly to the process. the gains themselves are significant. We measured a 15 percent increase in our web browsing battery life, a nearly 30 percent increase in gaming battery life and an 18 percent increase in video playback battery life. Although Apple hasn’t revised its battery life specs, the iPad 2,4 definitely lasts longer on a single charge than the original iPad 2.”

Not Available for Customers

However, Anandtech notes that there seems to be no way for customers to get their own tweaked iPad 2. That’s because there are still significant number of the original iPad 2 in circulation. It’ll be difficult for buyers to distinguish which model is tweaked or not, unless the tablet is unboxed and turned on.

It was also speculated that Apple remained mum about it because they don’t want to see customers returning their devices if they don’t get the model with the newer chip. On the contrary, there are buyers who thinks that better battery life is just one metric away from the original model.

Although the tweaked iPad 2 has 15-30 percent greater battery life, it still has the same screen with two times the resolution, quad-core graphics and incredible optics. the retained features of the original iPad 2 are enough for them. nevertheless, they still acknowledge that a tablet with a die shrink A5 32-nm processors will make it run leaner and meaner than before.

Spotted: Apple iPad 2 with 32-nm A5 Processor

May 10

iPad 2's new 32nm A5 processor improves ...

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if you’re in the market for a new iPad 2, pay attention! as Chipworkds reported last month, Apple’s put an updated 32nm A5 processor into the new Apple TV and the iPad 2. more specifically, the iPad 2.4.

Compared to the previous 45nm A5 chip found in the iPad 2, the new chip comes in almost 42% smaller. and now AnandTech has the scores to prove that the new, smaller chip is much more efficient than its predecessor, particularly in the battery department.

Apparently you can expect to see an 18% improvement when playing video, 15.8% improvement when web browsing and 29% improvement when playing power hungry games compared to the old iPad 2.

How can you get your hands on one of these iPad 2.4s? well, reports say they’re rather thin on the ground right now. and unfortunately, the only way to tell if you’ve got one is by turning it on and peering at the system information.

so, you’ll either have to take your chances or wait for the new stock to fully replace the old.

[Via The Verge]

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iPad 2's new 32nm A5 processor improves battery life

Apr 17

That $399 budget iPad 2 has precious silicon ...

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(Credit:Apple)

Think the new $399iPad 2 is just a cheaper knockoff of the original? think again. There’s some premium silicon inside.

The $399 Wi-Fi iPad 2 — the only new iPad 2 that Apple now sells — uses a more advanced version of the dual-core Apple A5 series chip, according to chip review site Anandtech.

That more advanced A5 chip is built on a cutting-edge Samsung manufacturing process, Anandtech says. Hardly a trivial difference.

As a chip’s geometries shrink — going from 45-nanometer to 32-nanometer, for example — a lot of things can happen. All of them good. The die (the actual chip minus the packaging) can become smaller and the chip can get more power efficient and faster.

New manufacturing processes can yield smaller, faster, or more power efficient chips.

(Credit:Chipworks)

In this case, the $399 iPad 2 uses an A5 chip made on Samsung’s advanced 32-nanomter manufacturing process as opposed to the previous A5 and current A5X, which are both made on an older 45-nanometer process.

“The interesting other question is whether iPad2,4 (the $399 iPad 2) owners have improved battery life compared to those with iPad2,1 (previous Wi-Fi model),” wrote Anandtech’s Brian Klug.

And Apple’s use of the more advanced chip doesn’t stop there. The chip is also used in the Apple TV, though it’s a single-core version, meaning one of the processor cores is likely disabled, according to Chipworks.

And this is probably just the beginning. it wouldn’t be outrageous to expect that theiPhone 5 would use either the same chip as the new $399 iPad or a close cousin.

That $399 budget iPad 2 has precious silicon inside

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Apr 05

SmartPhone Review – Apple iPad 2 CDMA ...

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Advertisement Apple iPad 2 CDMA ReviewReviewed by Admin on Feb 27.Rating:

SmartPhone Review – Apple iPad 2 CDMA Review. Apple iPad 2 CDMA , CDMA 800 / 1900, CDMA2000 1xEV-DO, 2011, March, available. Released 2011, March, iOS 4, upgradable to iOS 5, Apple A5, Dual-core 1 GHz Cortex-A9, PowerVR SGX543MP2, Accelerometer, gyro, compass, iMessage, Email, Push Email, IM, HTML (Safari), No, Yes, with A-GPS support, No, Black, White, iCloud cloud service, Twitter integration, MP4/MP3/WAV/AAC player, up to 10h movie playback, iBooks PDF reader, Google Maps, TV-out, Audio/video player.

SmartPhone Review – Apple iPad 2 CDMA Review . Apple has launched the new version of Ipad. As they said and we expected from them that it will be totally different and much advanced than its previous version. The Apple inc. has kept its promise to give us a awesome device. The new Apple Ipad 2 is slimmer, faster and lighter than Ipad 1. it is like a storm in the tablet market. As per my opinion it will beat its entire competitor tablet PCs.Apple has launched Ipad 2 in two versions for GSM and CDMA technology. The Apple Ipad 2 CDMA comes with a very a very attractive look of 41.2 x 185.7 x 8.8 mm in size and 607 gm of weight. it has 9.7 inches of LED-backlit IPS TFT, capacitive touch screen which supports 16 million colors. The display has many attractive features like Fingerprint/scratch resistant oleo phobic surface, Multi-touch input method, Accelerometer sensor for auto-rotate and Three-axis gyro sensor for a better experience of display experience.

SmartPhone Review – Video of Apple iPad 2 CDMA ReviewSmartPhone Review – Video of Apple iPad 2 CDMA Review

SmartPhone Review – Apple iPad 2 CDMA Specification Details Price Review

GENERAL INFORMATION2G NetworkCDMA 800 / 19003G NetworkCDMA2000 1xEV-DOAnnounced2011, MarchStatusAvailable. Released 2011, March CAMERAPrimary0.7 MP, 960 x 720 pixelsFeaturesNoVideoYes, 720p@30fpsSecondaryYes, VGA FEATUREOSiOS 4, upgradable to iOS 5ChipsetApple A5CPUDual-core 1 GHz Cortex-A9GPUPowerVR SGX543MP2SensorsAccelerometer, gyro, compassMessagingiMessage, Email, Push Email, IMBrowserHTML (Safari)RadioNoGPSYes, with A-GPS supportJavaNoColorsBlack, White - iCloud cloud service- Twitter integration- MP4/MP3/WAV/AAC player- up to 10h movie playback- iBooks PDF reader- Google Maps- TV-out- Audio/video player BODYDimensions         241.2 x 185.7 x 8.8 mmWeight607 g DISPLAYTypeLED-backlit IPS TFT, capacitive touchscreen, 16M colorsSize768 x 1024 pixels, 9.7 inches (~132 ppi pixel density)MultitouchYesProtectionScratch-resistant glass, oleophobic coating DATAGPRSNoEDGENoSpeedRev. A, up to 3.1 MbpsWLANWi-Fi 802.11 a/b/g/nBluetoothYes, v2.1 with A2DP, EDRUSBYes, v2.0 MEMORYCard slotNoInternal16/32/64 GB storage, 512 MB RAM SOUNDAlert TypesN/ALoudspeakerYes3.5mm jackYes BATTERY Standard battery, Li-Po 6930 mAh (25 Wh)Stand-byTalk time MISCPrice group         

SmartPhone Review – Apple iPad 2 CDMA Review . The all new Apple IPad 2 CDMA is a slim tablet with a 9.7 inches wide display. Its processor is simply out-of-the-world. it has dual camera and flawless 3G support. For running all the Internet-based features truly faster, it has significantly improved CPU, graphics chip, and RAM. Apple iPad 2 clearly shows noteworthy improvements over its imperfect first-generation gadget. iPad 2 is indeed a little easier to hold and has smart covers. More significantly, the iPad 2 represents clear jump over original iPAD and it is certain that many tablets of alternative size, performance and pricing.

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SmartPhone Review – Apple iPad 2 CDMA Specification Details Price Review

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Mar 12

Acer Iconia A200 Great Tablet

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Acer Iconia A200 Great Tablet

Acer Iconia A200, the latest in home Acer … Device wonderful as we all know and imitated, as all accessories apple.

Let’s take a look at the features of an Iconia A200 second generation, the first thing we notice is that it is thinner than the first (actually even thinner than an iphone 4), is lighter, has a 9.7 inch screen with LED backlighting technology, has two cameras, one front and one rear useful for FaceTime calls or take pictures. Mount the final chip A5, a dual-core microprocessor, which speeds up in a really good device performance, features Android Os software, which allows you to manipulate the Iconia A200 with multi-touch that is touching it with 2 or more fingers can make different actions, has an accelerometer that allows you to shoot at will in a vertical or horizontal, the work we are doing will rotate based on the location of the device. Dimensions: Height: 241.2 mm Width: 185.7 mm Depth: 8.8 mm Iconia A200Weight: 601 g Unlike the first Iconia A200 is found in 2 colors white and black-backed aluminum, has existed for 16, 32, 64 Gb technology wifi or 3g and wifi, the 3g is used to connect to the Internet via the telephone network (such as mobile phones) . I find it a really nice device and charming, but that does not replace a PC today, unfortunately, it is definitely lighter and more maneuverable than a notebook or netbook, and we portarcelo around more comfortably, with data music film, but has always need a PC to sync with itunes, this is a big flaw in my opinion. I do not know if you recommend it or not, but I think that it is suitable for those who already have a PC at home and want a fast internet device, and also beautiful in design, instead of buying a netbook, you buy an Iconia A200 which is always and certainly not ifregret it. Review written by me on another site.

I have not acquistrato this product but I’ve had thanks to a collection point. indeed, considering the price of purchase, I must honestly say that if I had to pay it would not have bought. The product has nothing to object to is exceptional as all the ones I like to call the jewels from Apple. But in my opinion is that only a whim for super passionate about technology, capable of sfrutarne full potential, can ‘be worth taking off. I do not know the version 1 Iconia A200 so I’m not able to make comparisons with the previous version, with the exception of the aesthetic evident that the availability of the new white color (like mine) and the fact that most ‘of the first thin model, even more ‘slim Iconia A200 From the practical point of view is outstanding. I basically use it lying on the couch, like a magazine. The touch is comfortable and fast. One thing that I did not know before that it is the basic version (so no support for a special sim card which must be purchased separately) is connected to the internet EXCLUSIVELY using a wi-fi. So watch out! if you have this at home technology well, otherwise it is better to abandon the idea of ​​buying one. with a wi-fi in the house is really comfortable and practical. I got a subscription to a newspaper (at a much reduced price than the subscription form). me unloading in the morning at home and then bring it with me in the local recruitment office and read it at lunch. as you see, can do many things you could do with a PC but in a much more comfortable given the size and shape of the Iconia A200. it ‘also true, however,’ that a computer allows many other features not available Iconia A200 these considerations explain why my assessment stopped at 4 bells: the product itself is outstanding and, for the feature to which it is born, does not even have a defect (except maybe the price), but it is a whim to take off, because is a more can not replace a PC

Acer Iconia A200 Great Tablet

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Mar 10

Viewsonic ViewPad 7x Tablet Launching Lands Next ...

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Some of our readers will remember the new ViewSonic Viewpad 7X that was announced recently, it looks like it will be available in the US next month and it will retail for $379.

The Viewsonic ViewPad 7x will come with Android Honeycomb, and it features a 7 inch multi-touch touchscreen display with a resolution of 1024 x 600 pixels, processing is provided by a dual core NVIDIA Tegra 2 processor.

Other specifications include a5 megapixel camera on the back for photos and video and a 2 megapixel camera up front for video chat, it also comes with HSPA+ connectivity, HDMI, WiFi and Bluetooth.

Source Liliputing

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Viewsonic ViewPad 7x Tablet Launching Lands Next Month For $379

Mar 01

MWC: Acer is developing a Windows 8 tablet

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TAIWANESE HARDWARE VENDOR Acer is “definitely” working towards releasing Windows 8-based tablets, according to a product manager.

“Windows 8 tablet are definitely coming”, Acer’s product manager for tablets Anna Artemyeva told the INQUIRER on the day that Microsoft provided the first consumer preview of Windows 8 at Mobile World Congress (MWC) based on the Metro interface found in Windows Phones.

While Acer’s commitment to Windows 8 will be good news for Microsoft, the firm is also continuing to push its devices running the Android operating system, showing off its A200 device running Android 4.0 Ice Cream Sandwich.

The device, which Acer unveiled at the Consumer Electronics show (CES) in January, is aimed at first-time tablet buyers, and the firm deliberately downgraded some of the specifications from its A100 device to lower the price point, Artemyeva explained.

This included removing an HDMI slot, taking out a rear-facing camera and offering only basic sound quality, rather than including Dolby technology as is found in the A100, in order to be able to sell the device for £279 including VAT.

We also had the chance to get our hands on Acer’s Iconia A510 tablet, a higher specifications device than the A200 that is branded with the Olympic rings, as Acer is one of the tier one sponsors of the event this year.

The tablet is powered by a quad-core Nvidia Tegra 3 processor, which certainly makes the device slick to use. It also boasts a 5MP back camera and a 1MP front camera, and the firm claims it has a battery life of 13 hours. It is expected to sell for around £369 for the 16GB model.

Acer also announced that in addition to the A510 Olympic branded tablet it will be launching a monitor, a notebook and an all-in-one PC also branded with the Olympic rings as it expands its growing portfolio. µ

MWC: Acer is developing a Windows 8 tablet

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Dec 01

Apple iPad 2 Now Available For £365

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The iPad 2 tablet can now be had for as little as £365 from a top-rated seller on Ebay, Digigood.

This is the cheapest price you will find for a brand new, unused, still under warranty Apple iPad 2 tablet. Apple itself sells it for £399, with the only advantage you get going direct being the free engraving.

Apple’s iPad 2 currently rules the tablet market even if the product commands such a big premium; the 64GB 3G iPad for example costs a staggering £659, nearly three times the price of the 16GB RIM Blackberry PlayBook sold by Digigood.

The iPad 2 was launched back in March; it comes with a dual core Apple A5 SoC, 512MB RAM, a 1024×768 pixel 9.7-inch touchscreen. Wi-Fi, great battery life, a very slim profile and a number of other unique features like AirMirror.

The availability of iOS5 means that the iPad 2 has inherited a few new goodies like iMessage, reminders, notification center, the ability to operate freely from a PC and Newsstand.

The followup to the iPad 2 is expected to be launched in the first half of next year, possibly being the first major product launch after the death of Steve Jobs back in October.

The iPad 3 will almost certainly have a quad core chipset and hopefully a new Retina Display screen.

Apple iPad 2 Now Available For £365

Oct 23

Apple’s Chips Will Not Rival Intel’s, ...

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Although Apple is developing chips for its ultra-portable products like iPad or iPhone, it will barely be able to develop central processing units that are powerful enough against x86 micro-architecture. as a result, Apple’s chips will not power Macintosh computers, but Intel Corp.’s products will remain inside Macs.

Throughout several decades many companies used to develop microprocessors for personal computers and/or servers. such companies employed from hundreds to thousands of engineers, but at this point there are just two companies designing competitive chips for PCs, five companies developing processors for servers and a number of designers trying to make competitive chips for mobile, embedded and other industries.

Apple has never attempted to develop its own central processing units and used off-the-shelf chips for many reasons, the main of which is state-of-the-art technologies required for competitive microprocessors along with experience, patent portfolio and so on. but Apple started to develop its own system-on-chips for ultra-portable products like iPhone or iPad.

With its low-power A4 and A5 system-on-chip devices, Apple saves great amount of money as it does not have to pay premium for SoCs from Nvidia, Qualcomm, etc. moreover, designing system-on-chips does not necessarily mean creating from scratch and then hand-tuning all the units inside, but involves licensing and tweaking them as well as adding certain unique logic. The company has a lot of low-power processing experts and continues to hire chip design specialists, thus the A-series SoCs will only get more competitive.

“Apple is bringing in-house some of the design aspect in the form of SoCs, to get exactly what they want and not a carbon copy of some other (e.g., Samsung) design. They will never ever sell that part, it will be exclusively Apple, and we’re going to have a devil of a time trying to figure out what’s in it and what its specifications are -  all part of Apples master plan to keep its secrets secret,” said Jon Peddie, the head of Jon Peddie Research.

But it is not only much easier to develop a mobile SoC than to design a fully-fledged microprocessor that will be able to power a desktop or a notebook, it also makes a lot more economic sense for Apple. The company presently sells around a hundred of millions of iOS-based devices that are also powered by A4/A5 SoCs per year, but the volumes of its Macintosh offerings are much lower (around 20 million per year). Hence, per-chip development costs may be too high even in case Apple actually creates CPUs competitive to Intel’s or AMD’s.

“Apple’s unit volumes for notebooks is way smaller than for iOS devices, and the R&D needed to field a competitive notebook CPU would be way higher, so the economics don’t work,” said Nathan Brookwood, the principal of Insight 64.

There are a lot more reasons for Apple not to develop chips for its Macintosh desktops and notebooks.

Many microprocessor technologies are patented by AMD, Intel, IBM, Sun/Oracle and some others. Hence, Apple risks running into patent wars against established chip designers. it will take years for Apple to avoid such conflicts or develop its own patent portfolio and ink cross-licensing agreements.

“There’s a huge IP hurdle for anyone trying to build an x86-compatible CPU. any chip that claims x86-compatibility but lacks licenses from Intel and AMD would be a sitting duck for patent infringement claims,” said mr. Brookwood.

Even if Apple manages to avoid legal disputes with other chip designers when creating its own CPUs, it will have to hire additional engineers and develop numerous technologies that will outperform off-the-shelf chips from AMD and Intel. To date, no company has managed to leave Intel behind in terms of performance leadership for a significant amount of time.

“Apple would have to out-engineer Intel on Intel’s playing field. of the long list of companies that have tried to do this, including IBM, TI, AMD, NEC, and STM, only one, AMD, has attained any success, and their journey has been uneven at best,” reckoned the analyst from Insight 64.

The success of modern high-profile microprocessors depends not only on technologies that are under its hood, but also process technologies that are used to make them; it is impossible to pack a billion of transistors into chips that are produced using an outdated fabrication process since it will be too expensive to manufacture it. In around three years time Intel will have 14nm fabrication process, whereas other players in the industry will be one step behind with 20nm process technology. This can easily transform into overwhelming performance advantage Intel’s chips will have over everything else, including potential Apple’s CPUs.

Finally, even in case Apple manages to develop an ARM-based chip with performance comparable or higher than that of leading-edge x86 microprocessors, it will barely be able to transit all Mac OS clients and developers from x86 to ARM. The transition from Power to x86 in the mid-2000s was painful, but allowed the company to eventually gain market share. with ARM, nothing is guaranteed.

To put it shortly, it not only does not make sense for Apple to kick off a competition against Intel – one of its primary suppliers these days – but it will be impossible for the company to achieve any success on Intel’s playground.

Tags: Apple, Semiconductor, ARM, Power, JPR, Insight 64, AMD, Intel, x86

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Apple’s Chips Will Not Rival Intel’s, Even Inside MacBooks – Analysts – X-bit labs