Will Qualcomm Be First?
We could not get the right timeframe for the launch of Qualcomm’s successor to the high-end Snapdragon 800, but there is no doubt that Qualcomm, Samsung, Nvidia and other ARM supporters are thinking about 20nm products where some of them will be based on Cortex A57.
Qualcomm has its own Krait core that can be adapted to 20nm and follow up the success of Snapdragon 600 and the soon to come Snapdragon 800. It turns out that it traditionally takes 18 to 24 months for the mobile industry to shift from one process to another and Qualcomm had its first 28nm part in April 2012, with the Snapdragon S4, used in the HTC One S. The first ever 28nm part from Qualcomm was the Snapdragon S4 MSM8260A that is now more than a year old and a relatively obsolete product.
Less than a year after the first 28nm product Qualcomm followed up with the Snapdragon 600 that is shipping in millions of high end devices right now. In a month or two it plans to release Snapdragon 800 based on new Krait 400 core and add a new core and get even better performance.
The next step is the 20nm core that should start shipping before the end of 1H 2014. We would not be surprised to see 20nm Krait demoed at CES 2014 already in January, see more of it at the Mobile World Congress in February and the volume shipment to follow in early Q2 2014. This is the expected schedule and not something we got from Qualcomm.
The only official world we got is that the new generation traditionally comes 18 to 24 months after the first iteration of a current one. This can give you an idea that Tegra 5, codenamed Logan, should show up at a similar time, along with Samsung’s 20nm Exynos.
TSMC Testing ARM’s Cortex A57
ARM and TSMC have manufactured the first Cortex A57 processor based on ARM’s next-gen 64-bit ARMv8 architecture.
The all new chip was fabricated on TSMC’s equally new FinFET 16nm process. The 57 is ARM’s fastest chip to date and it will go after high end tablets, and eventually it will find its place in some PCs and servers as well.
Furthermore the A57 can be coupled with frugal Cortex A53 cores in a big.LITTLE configuration. This should allow it to deliver relatively low power consumption, which is a must for tablets and smartphones. However, bear in mind that A15 cores are only now showing up in consumer products, so it might be a while before we see any devices based on the A57.
In terms of performance, ARM claims the A57 can deliver a “full laptop experience,” even when used in a smartphone connected to a screen, keyboard and mouse wirelessly. It is said to be more power efficient than the A15 and browser performance should be doubled on the A57.
It is still unclear when we’ll get to see the first A57 devices, but it seems highly unlikely that any of them will show up this year. Our best bet is mid-2014, and we are incorrigible optimists. The next big step in ARM evolution will be 20nm A15 cores with next-generation graphics, and they sound pretty exciting as well.
Tegra 3 No Match For Adreno 320
Qualcomm’s new Snapdragon S4 Pro quad-cores are slowly starting to show up in new phone and tablet designs, and in case you’ve been following the market, you know they will be the fastest thing around until A15 parts appear.
But aside from the custom Krait core, Qualcomm’s new chips feature new Adreno 3 series graphics and judging by some early benchmarks, this is a match made in heaven.
Tom’s Hardware put the new graphics core to the test, with some very impressive results. Basically Adreno 320 blows the competition out of the water. However, it does not manage to surpass the huge SGX543MP4, used on the third generation iPad.
In GLBenchmark 2.1 the SGX543MP4 ranks first, with 251 and 139 points in Pro and Egypt tests. Adreno 320 comes in second, with 191/137, the SGX543MP2 scores 147/90, while the Tegra 3 TL30 scores 82/63. However, in fill rate tests Adreno 320 trails both the SGX543MP4 and SGX543MP2, but it is still miles ahead of the Tegra 3, SGX540 and Adreno 225.
However, in off-screen GLBench 2.5 Adreno 320 manages to squeeze ahead of SGX543 parts and the rest of the competition, but once again it loses in fill rate tests.
Samsung Goes HSA
It seems that the IFA 2012 show in Berlin was a good show for AMD as well, or to be precise, it was good for the HSA (Heterogeneous System Architecture) Foundation founded by AMD, ARM, Texas Instruments, Imagination and Mediatek. Samsung has joined up alongside six new members.
The HSA Foundation was created back in June at AMD’s Fusion Developer Summit as a foundation that will deliver new user experiences through advances in computing architectures in order to improve power efficiency, performance, programmability, portability across computing devices and general support of software across a broad spectrum of devices in order to remove the need for code rewriting for various different platforms.
Senior Manager of Technology Marketing at AMD, Sasa Marinkovic, noted on the AMD blog that there is no doubt that the HSA Foundation is off to a good start and in addition to Samsung, they are more than happy to welcome six additional companies including Apical, Arteris, MulticoreWare, Sonics, Symbio and Vivante.
Will Qualcomm Buy AMD?
This wild rumor is not completely without merit, as Qualcomm did acquire a piece of AMD, or AMD’s handheld graphics business to be precise, and it would not be too surprising to see Qualcomm after the whole company sometime in the future.
Samsung on the other hand is not an entirely impossible choice, but at this point it won’t be acquiring AMD either.
It looks like market players want to see the acceptance of Windows RT that will finally prove how important ARM processors really are and knowing AMD, the worst is behind them, as 2012 was the year of many chances, cancelation and anything but good execution for them.
Meanwhile Qualcomm is doing great in the ARM market, although its Snapdragon S4 line suffers from insufficient 28nm production, but due to its on-chip LTE implementation the chips are sought after, especially in the United States market.
Will Chipmakers Make Cuts This Year?
Gartner is warning that worldwide wafer fab equipment spending is on pace to total $33 billion in 2012 which is a decline of 8.9 percent from 2011.
Gartner analysts warned that this is a sign of an industry in downturn and said the market will return to growth in 2013 with WFE spending projected to surpass $35.4 billion, a 7.4 percent increase from 2012. Bob Johnson, research vice president at Gartner said 2012 spending was strong at the beginning of the year, as foundries and other logic manufacturers ramped up sub-30-nm production.
AMD, ARM And Others Form HSA Chip Foundation
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AMD, ARM, Imagination Technologies, Mediatek and Texas Instruments have signed up to create the Heterogeneous System Architecture Foundation (HSAF).
AMD has been pushing its vision for heterogeneous computing, where CPUs and GPUs can share system resources such as memory allowing developers to treat any processing core as a black box. Now the firm has managed to rope in ARM, Imagination Technologies, Mediatek and Texas Instruments to create the non-profit HSAF.
According to AMD, HSAF will try to define a hardware specification for developers to standardise upon, which should make development quicker and easier.
Phil Rogers, HSAF president and AMD corporate fellow said, “HSA [heterogeneous system architecture] moves the industry beyond the constraints of the legacy system architecture of the past 25-plus years that is now stifling software innovations. By aiming HSA squarely at the needs of the software developer, we have designed a common hardware platform for high performance, energy efficient solutions. HSA is unlocking a new realm of possibilities across PCs, smartphones, tablets and ultrathin notebooks, as well as the innovative supercomputers and cloud services that define the modern computing experience.”
AMD has scored something of a coup by getting big names such as ARM, Imagination and Texas Instruments to back its vision of a heterogeneous system architecture. Although the company has been struggling in outright performance terms against Intel, the idea of a combining CPU and GPU resources and making them appear as one to the application is something that will help it leverage its GPU compute capability against Intel.
Qualcomm Chip Issues Should End By December
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Qualcomm said it believes TSMC’s 28nm supply issues will continue until year end.
Qualcomm, which relies solely on TSMC for its 28nm chips, said it believes the supply of chips will improve, but the firm expects its 28nm supply not to be back to normal until the end of 2012.
Previously Qualcomm had poured scorn on TSMC by telling investors it is looking at rival wafer fabs to avoid supply issues in the future. Qualcomm’s CEO Paul Jacobs told Reuters once again that the firm is looking to other foundries for extra capacity, adding, “The goal is to get enough supply for everyone.”
TSMC’s 28nm process node has been tapped by a number of big name customers including AMD, Nvidia and Qualcomm, with the chip fab unable to meet demand. Since Qualcomm made the rare public admission that it wasn’t happy with the state of TSMC’s 28nm chip supply, the smart money has been on Globalfoundries picking up the slack, however nothing specific has been announced by either firm.
Qualcomm Updates The S4 Series
Qualcomm’s Snapdragon S4 chips are proving to be quite a coup for the company. They are faster than anything the competition has to offer, more power efficient and some versions include integrated LTE. The only problem is that Qualcomm is having trouble meeting demand.
Qualcomm announced four new S4 chip series aimed at wildly different market segments, all based on the very successful Krait architecture.
Snapdragon S4 Prime chips will target smart TVs and similar applications. The first Prime part is the MPQ8054, a 1.5GHz quad-core with Adreno 320 graphics. Qualcomm promises “leading” audio/video capabilities and low power consumption, although we are not sure efficiency very important in TVs.
Meanwhile Snapdragon S4 Pro parts sound like all-rounders. They also feature Adreno 320 graphics and the S4 Pro tier includes the APQ8064 quad-core and MSM8960T, the Pro version of MSM8960. Pro parts are likely to end up in tablets, hybrids and other “ultra-thin and sleek” devices.
S4 Plus parts are geared towards the traditional mobile market, smartphones and tablets, ranging from the low-end to the high-end. Processors in the S4 Plus tier include MSM8960, APQ8060A, MSM8660A, MSM8260A, APQ8030, MSM8930, MSM8630, MSM8230, MSM8627 and MSM8227.
Intel Appears To Be Dedicated To Tizen
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As we know Intel is not a total Windows 8 and Android shop. Although MeeGo was abandoned by Nokia in favor of huge investment from Microsoft, but Intel will continue to develop MeeGo and it will also add Tizen to its OS effort.
Tizen is a free open source mobile operating system based on Linux and backed up by Linux foundation. Tizen is planned to work on Atom N2800 and N2600 processors or simply said Cedar Trail platform and it was supposed to be out of Beta by end of Q1 2012. If all goes according to schedule it will reach its gold status by mid of Q2 2012. At some point it will also get an application store too, but release schedule is yet to be set in stone.
Intel believes that Tizen combines the communities and best technologies under one unified environment. MeeGo is supposed to have Strong developer community and LiMo should bring broad service provider support to this marriage. They will have strong support for HTML 5 and WAC (wholesale application community).
Tizen is supposed to work on ARM as well as on x86 and we can expect the first devices, or at least prototypes, to show up by the end of the year. Once it gets out it should cover mobile phones, tablets, netbooks, smart TVs and in-vehicle entertainment systems.