Hasta La Gadget!

Intel has shown off its new chips for tablets, smartphones, and LTE-enabled devices, with Silvermont, Bay Trail-T, and Merrifield all revealed at Computex 2013 today. Merrifield, due to show up in Intel-powered smartphones from early 2014, is the company’s next-gen smartphone platform, a 22nm Atom SoC that was, for today’s show, wrapped up in a new touchscreen reference design.

Intel was coy on specific details about the phone, and indeed about Merrifield, though did let slip a couple of elements the new Atom chip will bring. Unsurprisingly there’s talk of both more performance and more battery life; however, there’s also apparently an “integrated sensor hub” that will be used for “personalized services.”

Intel hasn’t said exactly what those services might be – nor, indeed, what types of sensors will be included – but it does remind us of Motorola’s comments last week about the incoming Moto X, and how the company was looking to contextual understanding for its new range of phones. Merrifield will also include “capabilities for data, device, and privacy protection,” Intel says.

As for tablets, first up will be Bay Trail-T, the 22nm quadcore Atom SoC that’s expected to crop up in slates for the holiday season. Bay Trail-T is good for more than twice the processor power of current Atom for tablet chips, Intel claims, as well as a boost in processor performance; 8hrs or more of battery life is supposedly possible, based on a 10.1-inch Full HD slate with a 30Wh power pack. “Weeks of standby” and support for Android and Windows 8.1 are also promised.

However, down the line there’s Silvermont, Intel’s 22nm “low power, high performance” architecture for phones and slates. Still no word on when, exactly, that will be ready for prime-time, however.

Finally, Intel has at last rolled together its own 4G LTE modem, a multimode system to pair with next-gen 22nm quadcore Bay Trail-T Atom SoCs for tablets. Intel is promising global LTE roaming – no small feat, given the array of different networks in operation around the world – from the XMM 7160, despite the chip also apparently being one of the world’s smallest.

Intel details Merrifield new phone chip; Homegrown LTE for Bay Trail tablets is written by Chris Davies & originally posted on SlashGear.
© 2005 – 2012, SlashGear. All right reserved.

Few trend-spotters would disagree with the following prediction from ARM, but it’s worth laying it out anyway: Of the 300 million mobile devices sold in 2010, the majority cost over $400. Within the next two years, however, these “crazy money” products (as a spokesperson described them) may represent just 25 percent of the total mobile market — still huge in absolute terms, since almost two billion phones and tablets are forecast to be sold in 2015, but a distinct minority relative to entry-level and mid-range options.

In an effort to convert these expectations into an even taller heap of gold, ARM has just announced a new mid-range core, the Cortex-A12, which is designed to replace the aging Cortex-A9 while offering a 40 percent boost in performance. This gain will likely come with the added advantage of better battery life, since the Cortex-A12 will initially be fabricated at 28nm instead of 40nm, and will be offered to manufacturers alongside a new Mali GPU (the Mali-T622) and video engine (Mali-V500) that promise further power savings of their own. The Cortex-A12 will also support big.LITTLE configurations, allowing it to be installed alongside Cortex-A7 cores that will take over for low-effort tasks in order make further power savings. Big.LITTLE hasn’t really blown us away so far, at least not on the Octa-core Galaxy S 4, but its wrinkles may well have been ironed out by mid 2014, which is when the Cortex-A12 is due to land. Check out the PR for more technical details on each component.

Richard Lai contributed to this report.

Filed under: Cellphones, Tablets, Mobile

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Intel‘s new Atom chips, codenamed “Bay Trail”, are set to launch for tablets at some point later this year, but it seems Intel wants to take the architecture from the new Bay Trail chips and implement it in their Celeron and Pentium processors for desktops and laptops, proving that Intel is putting more emphasis on their low-cost Atom chip.

Intel has always used the Celeron and Pentium as their entry-level chip for laptops and desktop computers, but the company will be turning up the heat just a little bit while still keeping the lineup at a budget price. It seems Intel is confident enough that its new tablet chip will be quick enough for desktop and laptop use.

Intel claims that Bay Trail will be up to three times faster and five times more efficient than older Atom chips, so users should definitely see a significant increase in performance. Bay Trail is actually based on Intel’s Silvermont architecture, which is being implemented into the company’s Merrifield smartphone chips, and since Intel says that Silvermont has a ton of flexibility, they’ll be able to customize Bay Trail to power a slew of new laptops and desktops at different price points.

Previously, Pentium and Celeron chips have been based on the same architecture used in Intel’s faster Core chips (with the most recent being based on Ivy Bridge), but with fewer features in order to keep the price down. It’s expected that Intel will unveil its new Core architecture called Haswell that we’ve heard a lot about so far.

Intel released its first Pentium chip in 1993, which was clocked at 66MHz, and the first Celeron chip was launched in 1998 running at 300MHz. Since then, these two chips haven’t made much of an impact lately, but Intel is still keeping them around to use in budget computers, including their new Pavilion 14 Chromebook.

SOURCE: PC World

Intel Atom architecture coming to Celeron, Pentium chips is written by Craig Lloyd & originally posted on SlashGear.
© 2005 – 2012, SlashGear. All right reserved.

MediaTek told us to only expect its tablet-focused SoC in the summer, but it’s clearly something of a keener: we’re already looking at the part today. The new MT8125 builds on the familiar formula of a quad-core Cortex-A7 processor and PowerVR Series5XT graphics, with most of the improvement coming from a higher 1.5GHz clock speed. That extra grunt helps the chip handle up to a 1,920 x 1,200 display on top of earlier support for 13MP cameras and 1080p videos. Focusing on tablets gives MediaTek some freedom in configurations, too — it can offer the SoC with basic EDGE cellular data, full HSPA+ or WiFi alone. Customers won’t have to wait long to try the MT8125 when tablets like Lenovo’s IdeaTab S6000 series should be using it now, although there’s no word on how much of that hardware will reach the US.

Filed under: Tablets, Mobile, Lenovo

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Source: MediaTek

AMD wants to knock Intel and ARM off their mobility perch in 2013, and the new Temash APU is how it expects to do it. Targeting media and performance tablets, as well as keyboard-dockable hybrids and 10- to 13-inch touchscreen ultraportable notebooks, the new A-series of Temash APUs feature Jaguar cores – boasting a 20-percent performance jump over Bobcat – for consumer Windows machines with the perky performance usually associated with an iPad.

As AMD sees it, Temash and Windows is a combination that means the flexibility of a desktop with the performance of a multimedia-centric chipset. The first true AMD SoC, with a choice of dual and quadcore options, Temash offers up to a 212-percent graphics boost-per-watt compared to 2012′ AMD C-70 and up to a 172-percent jump in x86 performance per watt.

However, that doesn’t come with a battery hit, AMD claims, despite offering between 2x and 5x the performance of Intel’s Atom Z2760 in AMD’s testing. A Temash-based system can manage up to 12hrs of idle battery life, or up to 45-percent longer than a Core i3-based Windows tablet.

AMD sprinkles some of its extra feature magic on the new A-series. The A400 gets GPU acceleration for apps, along with native video stabilization; the A600 adds AMD Screen Mirror, which wirelessly squirts the contents of the display to a supported TV, together with gesture controls using the webcam, and AMD Face Login, for biometric security. Both have Radeon HD 8000 series graphics.

Connectivity support includes up to two USB 3.0 ports, up to ten USB 2.0 ports, eSATA, HDMI, PCI Express, VGA, and more. There’s also support for up to 8GB of system memory and AMD’s Turbo Dock system, which boosts performance when a tablet is slotted into a keyboard base station, while prolonging battery life when it’s removed.

Perhaps most impressive, AMD says the sub-5W versions of Temash can be used in fanless systems. We had a chance to play with a Temash-based Windows 8 tablet, and the experience was impressively good: it was a Quanta reference design, the BZ1T, but the Radeon HD 8180 GPU and A4-1200 1GHz CPU were certainly strong enough to keep Full HD video playing smoothly on the 11.6-inch 1920 x 1080 touchscreen.

Inside, there was 2GB of DDR3U-1066 RAM and a 128GB mSATA SSD drive, loaded up with HD content that we could then push over wirelessly to a nearby HDTV with a Screen Mirror-compatible adapter. The whole thing was lag-free.

AMD’s second Temash demo machine was a compact Acer ultraportable, the Angel. That ran Windows 8 on a lightweight touchscreen notebook with a Temash A6-1450 processor and Radeon HD 8280 graphics. Unlike the tablet, the Angel had a traditional 500GB hard-drive inside, but doubled up RAM to 4GB. It was certainly a fast-moving machine, multitasking between office apps and multimedia quickly, though we’d need to spend more time with it to see whether it really does offer a significant step up from the Intel equivalent.

AMD expects the Temash series of APUs to begin showing up in tablets, notebooks, and other form-factors over the coming months.

AMD Temash official: iPad smoothness and x86 grunt for tablets and hybrids is written by Chris Davies & originally posted on SlashGear.
© 2005 – 2012, SlashGear. All right reserved.