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Intel’s Haswell Arriving In June
Intel has announced that it will launch its next generation Haswell processors at Computex.
Intel showed running Haswell silicon to journalists last month at the Game Developers Conference (GDC) in a bid to talk up the upcoming chip’s GPU. Last Friday the firm announced what some already knew and many had already guessed, that it will launch Haswell at Computex in June.
Intel published a blog post on 26 April saying that the fourth generation Core processor known as Haswell would arrive in 3,337,200,000,000,000 nanoseconds, which worked out to just under 39 days. The countdown figure matched perfectly with the start of Computex on 4 June, and confirmed what an Intel insider said that the chip would be launched at Computex.
The fact that Intel is using Computex to launch its next generation chip is not surprising, given that there are few big IT shows during the summer and launching the chip later will not give the firm’s system builder and OEM partners enough time to gear up marketing for the lucrative back to school and holiday buying seasons.
While Intel’s Haswell launch is a big event for the firm, it isn’t the most important. Rather, the firm is expected to launch updated low-power Atom chips that it hopes will help it compete in the tablet market, a market that is growing, as opposed to the PC market that Haswell addresses.
Intel’s decision to launch at Computex means that the late spring computer industry show should be awash with updated notebook and desktop PCs, as well as the firm’s preferred ultrabook branded laptops.
Qualcomm Sticks With Windows RT
Tim McDonough, Vice President, Marketing at Qualcomm, was Qualcomm´s commitment to Windows RT. Ever since Microsoft announced Windows RT, ARM supporters had high hopes and Windows RT has yet to live up to some.
Tim confirmed Qualcomm´s commitment to Windows RT and future releases, saying “we are here for the long run”. He describes the partnership as the beginning of a long journey and of course Qualcomm is going to continue rolling out chips that will run great with Windows RT.
Qualcomm mentioned that Samsung ATIV and Dell XPS 10, both of which use Qualcomm’s S4 dual-core APQ8060A chips, run really nice. Tim told us that he is a real fan of both devices and that he is currently using one of them.
We also learned that Snapdragon 600, the one used in the HTC One and some versions of Samsung’s Galaxy S4, is 40 per cent faster than the S4 Pro, adding that Adreno 320 graphics core is significantly faster than the Adreno 225 used in the S4 APQ8060A chip. Another number we got is that the Adreno 330 is up to four times faster than the 225, which is a huge leap forward. Let’s not forget that Snapdragon 800, which is up to 75 per cent faster than Snapdragon S4 Pro, is also coming in mid-year, second half of 2013. The 800 will be Qualcomm’s first chip with Adreno 330 graphics.
One can easily conclude that there should be some Snapdragon 600 and 800 Windows RT convertible tablets at some point in the future. To stay on the safe side, Qualcomm just confirmed that new and exciting things are coming in the next months and quarter and they are Windows based.
We have to notice that most people in the tablet world get really excited talking about convertible tablets in all shapes and sizes, as the physical keyboard is definitely an accessory you want to have.
nVidia Wins With Tegra 4
Nvidia’s first Tegra 4 design win is here, apparently, and it doesn’t appear very impressive at all. Tegra 4 is late to the party, so it is a bit short on design wins, to put it mildly.
Now a new ZTE smartphone has been spotted by Chinese bloggers and it seems to be based on Nvidia’s first A15 chip. The ZTE 988 is a phablet, with a 5.7-inch 720p screen. It has 2GB of RAM, a 13-megapixel camera and a 6.9mm thin body. It weighs just 110g, which is pretty surprising. The spec is rather underwhelming, especially in the display department.
However, a grain of salt is advised. It is still unclear whether the phone features a Tegra 4 or a Qualcomm chipset. Also, it is rather baffling to see a 720p screen on a Tegra 4 phablet, it just seems like overkill.
Microsoft Looks Into Smart Watches
April 24, 2013 by admin
Filed under Consumer Electronics
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Microsoft is developing designs for a touch-enabled smart watch, joining a number of other large competitors like Samsung Electronics and Apple who are said to be working on similar devices, according to a recent report.
Executives at suppliers to Microsoft told The Wall Street Journal that the company was sourcing components for the prototype of what could potentially be a “watch-style device.”
Microsoft has, for example, requested 1.5-inch displays from component makers for the prototype, an executive at a component supplier told the newspaper. It is unclear whether the company will decide to go ahead with the watch, the newspaper added.
Microsoft could not be immediately reached for comment.
A large number of vendors are looking at new product categories beyond smartphones and tablets.
This isn’t the first time, however, that Microsoft may be looking at watches as a product. It launched a smart wrist watch around a concept called Smart Personal Object Technology it unveiled in 2002, but withdrew it after a lackluster performance.
The Redmond, Wash., company is seeing its key PC market under threat from smartphones and tablets, and the failure of its new Windows 8 operating system to boost sales significantly. IDC said last week that first quarter PC shipments totaled 76.3 million units, down 13.9% compared to the same quarter last year. (The decline was worse than the 7.7% previously forecast by the analyst firm, and the market could be headed into further contraction, the research firm added.
IBM’s Next-gen Transistors Mimick Human Brain
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IBM has discovered a way to make transistors that could be turned into virtual circuitry that mimics how the human brain operates.
The new transistors would be made from strongly correlated materials, such as metal oxides, which researchers say can be used to build more powerful — but less power-hungry — computation circuitry.
“The scaling of conventional-based transistors is nearing an end, after a fantastic run of 50 years,” said Stuart Parkin, an IBM fellow at IBM Research. “We need to consider alternative devices and materials that operate entirely differently.”
Researchers have been trying to find ways of changing conductivity states in strongly correlated materials for years. Parkin’s team is the first to convert metal oxides from an insulated to conductive state by applying oxygen ions to the material. The team recently published details of the work in the journal Science.
In theory, such transistors could mimic how the human brain operates in that “liquids and currents of ions [would be used] to change materials,” Parkin said, noting that “brains can carry out computing operations a million times more efficiently than silicon-based computers.”
AMC Goes To The Clouds
Applied Micro Circuits has released its cloud chip which takes networking and computing and crams it all onto one SoC.
The X-Gene server on a chip, is being billed as the first 64-bit-capable ARM-based server in existence. According to the company it is the first chip to contain a software-defined network (SDN) controller on the die that will offer network services such as load balancing and ensuring service-level agreements on the chip.
Paramesh Gopi, president and CEO of Applied Micro, said that these new chips have now made it past the prototype stage and are being used by Dell and Red Hat. Gopi expects physical servers containing the X-Gene to hit the market by the end of this year.
The chip is manufactured at 40 nanometers and has eight 2.4 GHz ARM cores, four smaller ARM Cortex A5 cores running the SDN controller software, four 10-gigabit ethernet ports, and various ports that can support more Ethernet, SSDs, accelerator cards such as those from Fusion-io or SATA drives.
The cost of ownership, which includes power requirements are about half of that of a comparable x86 product, but wouldn’t discuss actual power consumption, the company claims.
Windows RT Devices To Drop In Price
Prices of Windows RT devices have started to decline, signaling an attempt by PC makers to quickly clear out stock after poor adoption of tablets and convertibles with the operating system.
Microsoft released Windows RT for ARM-based devices and Windows 8 for Intel-based devices in October last year. The price drop is an acknowledgement that Windows RT has failed, analysts said.
Prices of popular products usually don’t fall, but Windows RT devices were not in demand, and prices fell, analysts said.
The starting price for Dell’s XPS 10 is now US$449 for a 32GB model, scalping $50 off the original launch price. The 64GB model is $499, which is a drop from the original $599 price. By comparison, the price of the Latitude 10 tablet with Intel processors and Microsoft’s Windows 8 OS remained stable at $499.
Asus’ VivoTab RT, which is largely sold through retailers, is being offered by Amazon.com for $382 with 32GB of storage, which is a heavy discount from the $599 launch price. Retailers like Best Buy, Staples and Office Depot have also dropped the price of the tablet by $50, now selling it for $549.
Newegg is listing VivoTab RT as having been discontinued. Asus did not respond to a request to comment on whether the company was still offering the tablet.
Lenovo is offering the IdeaPad Yoga 11 for $599 as part of a seven-day deal, which is a drop from the original $799 price. However, TigerDirect is offering an IdeaPad Yoga 11 model for $599 on its website, while Amazon is selling a model for $499.99.
Samsung did not ship its Windows RT tablet, Ativ Tab, to the U.S. market.
However, the starting price of Microsoft’s Surface RT remained consistent at $499 on its online store. Microsoft also offers Lenovo’s IdeaPad Yoga 11 through its store, but has stopped offering tablets like the VivoTab RT on its website. The company last month said it stocks its store with RT devices based on availability and demand.
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.
Lenovo To Buy NEC’s Mobile Phone Unit
Japan’s NEC Corp is in negotiations to sell its struggling mobile phone unit to its PC venture partner Lenovo Group Ltd, a source familiar with the discussions said, confirming media reports of the negotiations.
NEC is also in talks with potential domestic buyers, the source said on condition that he wasn’t identified.
NEC has until now said its mobile business is an important part of its overall operations. But after two years of losses the company is shedding assets to bolster profitability.
“Amid the rapidly changing market we are considering a number of ways to bolster the competitiveness of our mobile phone business, but nothing has been decided,” NEC said in a statement through the Tokyo Stock Exchange on Friday in response to the media reports.
Lenovo officials could not be immediately reached for comment.
Japanese phone makers have struggled to gain traction overseas inmarkets dominated by Samsung Electronics Co Ltd and Apple Inc where they are also being challenged by upcoming Chinese makers. In Japan, the two foreign giants are whittling down their share of cell phone sales.
Last October, NEC cut its mobile phone sales target for the year ending March to 4.3 million from a previous estimate of 5 million units. Lenovo, the world’s No.2 maker of PCs, is cranking up overseas expansion in smartphones after solid growth in China.
Japan’s biggest cell phone maker, Sony Corp, is vying with China’s Huawei Technology Co and ZTE Corp to be No.3 in the global smartphone market.
NEC also plans to sell its mobile services subsidiary NEC Mobiling Ltd for as much as $850 million, separate sources told Reuters this month.
Marubeni Corp’s telecommunications unit and TD Mobile, a joint venture between Toyota Tsusho Corp and Denso Corp, are vying for the 51 percent stake, the sources said.
Shark Bay 1 Chipset Goes Pentium
In the universe where Haswell comes as two-chip platform, formally referred to as Shark Bay 2-chip platform by Intel, there will be three mobile chipsets. The HM86 is targeting at mainstream consumers, HM87 targets Premium consumers and SMBs, while the top one QM87 targets the hard working corporate market.
Things get a bit simpler with the Shark Bay 1-chip platform. The value consumer chipset is simply called Baseline, while the next one is simply called Premium. It can’t get any simpler than that. The Shark Bay 1-chip Platform has same I/O, or what we call a chipset, integrated on either Haswell U or Haswell Y processors line.
The Premium chipset supports Windows 8 connected stand by, Intel Active Management Technology 9.0, Intel Small Business Advantage, ACHI and Raid Rapid storage technology, Intel Insider, Intel Anti-Theft Technology, wireless display and three independent displays.
The list goes on with 8 USB ports where two to four can be USB 3.0 ports, up to 6 devices with PCI express 2.0 5GT/s, four SATA ports capable of 6Gbps. The chipset doesn’t have VGA or LVDS as the CPU has the graphics on it, but the Premium chipset has two sensors interface with I2C and UART, 1.5 to 5MB firmware support, Anchor Cover, Platform trust technology and Platform Flash Armoring technology.
Getting away from numbers and naming the chipset simply Premium means that U and Y line of CPUs are meant for tablet and Ultrabook markets, where manufacturers want you to love the product as a whole, not specifics. Premium and Baseline chpisets for Y and U line Haswell processors capable of TDPs as low as 13W are coming in Q3 2013.