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ARM's new processor will add oomph to smart appliances and drones
If you have any smart device -- be it a phone, tablet, router, wearable or otherwise -- there's a good chance ARM's Cortex lineup is responsible for the brains behind the scenes. The company just announced the latest processor in its M-series, which is a set of low-power processors capable of handling embedded devices like smart home appliances, drones, automotive and wearables, which is focused on making said devices even more powerful. The M7, as it's called, comes with a 400MHz processor, packing more than twice the punch as the 168MHz M4 that came before it (and will continue to be available to manufacturers). It comes with support for more displays, motors, voice controls, connectivity, audio performance and improved GPS accuracy. In other words, the infamous Internet of Things should become even stronger and more powerful. ARM says that manufacturers are already building devices with the chip embedded, so it won't be long before we get to see if the extra power actually makes a difference in our everyday lives.
Archos Child Pad gets capacitive screen upgrade, minor price hike to $140
Parents who've already purchased Archos' 7-inch Child Pad may be feeling somewhat miffed, as its screen's been upgraded from resistive to capacitive just two months after launch. There's no such thing as free multi-touch, so you'll have to fork out another ten bucks on top of the original asking price for the new version of the ICS slate, bringing the total to a cent under $140. Other internals are identical, so customers can still expect a 1GHz ARM processor, 1GB of RAM and 4GB of expandable storage, with some exclusive chipmunk-based content to boot. Just remember to let the kids have a go once in a while.
ARM announces new quad-core Cortex-A15 Hard Macro variant
It's pretty much a year to the day that we reported the possibility of a quad-core Cortex-A15 from ARM, and look what just came across the wire! It's the Cortex-A15 Hard Macro -- the first design from ARM we're aware of that packs four A15 cores. The Hard Macro edition is of particular interest as it aims to help manufacturers bring products to market more quickly and at a lower cost. The chip variant runs at 2GHz, with performance of over 20,000 DMIPS if you were wondering. Notably, it operates with the same power usage of the A9 hard macro, which should mean it's got good efficiency credentials, and it's the first in the family to be based on 28nm process. There's no indication where we might see this turning up, but with the firm spilling the full details at the IEEE Symposium later this week, we're sure we'll find out soon enough.
Reported Tegra 4 roadmap hints at LTE, Q1 2013 release
Time to put on our "skepticles" as we pore over some reportedly leaked Tegra 4 details. NVIDIA CEO Jen-Hsun Huang went on record saying that we could expect a new Tegra "every single year", so if anything, the fourth iteration of the series is slightly overdue. Chinese site VR-Zone, however, thinks it's got the inside skinny on how the next deployment might look. If its alleged roadmap leaks are to be believed, there will be four variants, three with a quad-core ARM Cortex A15 configuration, with clock speeds from 1.2 to 2.0GHz. What caught our eye a little more, though, was the "SP3X" flavor. Not because it favors the A9, but because it appears to bring LTE to the table right off the bat. That said, given that it's not that long since NVIDIA announced the same for Tegra 3, we can't help but wonder if something just got lost in translation.[Thanks Rizwan]
Freescale intros Vybrid controller line, weds ARM A5 and M4 cores for an asymmetrical bang
Making good on its word, Freescale's line of Vybrid controllers is now ready for prime time multiprocessing. That asymmetrical setup, announced last October, takes the high / low approach we've seen gradually crop up in computing, pairing an ARM Cortex A5 and Cortex M4 in uneven, albeit harmonious CPU matrimony. The company's not targeting this new platform at consumers, though, as that market's already being served by the likes of NVIDIA's Tegra 3. No, this controller arrangement's headed directly for the industrial sector, where medical, point-of-sale and smart energy equipment can benefit from the cores' decreased power demands and ability for real-time control. Eager to dig deeper into this silicon platform? Then feel free to parse through the rest of the company's jargon-y release after the break.
New Samsung chip has two of everything: two cores, 2GHz, 2560 x 1600 graphics
Sammy's current Cortex A9-based chips are hardly slackers -- the Galaxy Note already proved that to any lingering doubters. Nevertheless, the next-gen Exynos 5250 SoC promises to double that sort of performance, by harnessing two Cortex-A15 chips clocked at 2GHz each, along with a GPU that can output resolutions of up to 2560 x 1600 (WQXGA). It's like big.LITTLE computing, except without the LITTLE. Samsung reckons it'll start mass producing the 5250 for use in high-end tablets by the second quarter of next year, which should be just in time to stop NVIDIA from getting too cocky.
Freescale joins ARM A5 and M4 cores at the hip for performance and power savings
You may have noticed a trend recently -- pairing slightly less powerful cores that sip power, with more robust ones that can chug through demanding applications. NVIDIA's Tegra 3 will be packing an underclocked fifth core, while ARM's big.LITTLE initiative matches a highly efficient 28nm A7 with the beefy A15. Now Freescale is planning to use the same trick, but you won't find its asymmetrical CPUs in your next tablet or smartphone. Its platform, which marries a Cortex M4 to a Cortex A5, isn't meant to compete with the latest Snapdragon. These chips will find homes in factories and in-dash infotainment systems which have increasingly sophisticated UIs, but don't need to push thousands of polygons. Software development tools will land before this quarter is out and the first batch of silicon will be announced in Q1 of 2012. Looks like the era of "dual-core" meaning two identical cores has officially come to an end.
Engadget Primed: are multi-core chips worth the investment?
Primed goes in-depth on the technobabble you hear on Engadget every day -- we dig deep into each topic's history and how it benefits our lives. Looking to suggest a piece of technology for us to break down? Drop us a line at primed *at* engadget *dawt* com. My, how times have changed over the last eight months. At CES 2011, we ecstatically witnessed the introduction of mobile devices with dual-core CPUs and drooled over the possibilities we'd soon have at our fingertips. Now, we look down at anything that doesn't have more than one core -- regardless of its performance. Not only are these new chips quickly becoming mainstream, Moore's Law is in full effect with our handheld devices since tri-core and quad-core systems are just over the horizon. We can't even fathom what's in the pipeline for the year 2015 and beyond (we don't think we're too far away from that 3D shark seen in Back to the Future 2). Let's not get too far ahead of ourselves here, however. After all, we first need to wrap our puny human minds around the idea of what this newfound power can do, and why it's changing the entire landscape of smartphones and tablets. In this edition of Primed, we'll focus on why multicore technology makes such a difference in the way we use our handheld devices, whether we should even consider purchasing a handset with a single-core chip inside, and why one-core tech is so 2010. Check out the whole enchilada after the break.
Apple's A6 processor may come courtesy of TSMC, Samsung left to wonder why
Apple's fondness for anorexic handhelds knows no bounds, and if this alleged deal with the Asian foundry holds water, expect to see its waistband tighten further. Rumoured back before the iPad 2 launch, the house-that-Steve-built's reportedly been eyeing Taiwanese Semiconductor Manufacturing Corp to produce an 'A6' for its upcoming iPhone refresh. While it's easy to dismiss this purported move as a direct diss to Samsung, what's more likely is that Cupertino's engaging in a competitive bit of size does matter -- specifically, the A5's 45nm process. A transition to newer, lower power 28nm ARM chips would give Jonathan Ives' employer a distinct market advantage, dwarfing even TSMC's current 40nm in the process. While it's all still just speculation for now, only time and an iPhone 5 tear-down will tell for sure.
Texas Instruments announces multi-core, 1.8GHz OMAP4470 ARM processor for Windows 8
When Qualcomm announced a pair of Windows 8-compatible ARM processors yesterday, we knew Texas Instruments wouldn't be far behind. Sure enough, the company has just announced a new addition to its OMAP 4 family of ARM SoCs, with the 1.8GHz OMAP4470. TI's new chip is powered by a pair of 1.0GHz ARM Cortex-A9 MPCore engines, as well as two, 266MHz ARM Cortex-M3 cores that handle multimedia duties. According to the company, this multi-core structure will enable faster web browsing and more frugal power usage, while putting the OMAP4470 in square competition with quad-core chips like NVIDIA's Kal-El and Intel's latest Sandy Bridge line. The SoC was designed for tablets, netbooks and smartphones running Android, Linux, or the next version of Windows, and can support a max QXGA resolution of 2048 x 1536, and up to three HD displays. There's also a single-core PowerVR SGX544 GPU capable of running Direct X 9, OpenGL ES 2.0, OpenVG 1.1, and OpenCL 1.1. The OMAP4470 is expected to hit the OEM and OED markets in the first half of 2012, but you can find more information in the specs sheet and press release, after the break.
ARM hopes to strengthen grip on mobile PCs, take 50 percent of the market by 2015
We've already heard rumors that chip designer ARM has been trying to get its wares into the Macbook Air. While we can't add anything to that particular story, we do have further evidence that ARM is going beyond smartphones and tablets in order to target bigger form factors. The company's president, Tudor Brown, has just appeared at Computex to declare that ARM wants to conquer the "mobile PC market", where the company currently only has a 10 percent share. He's aiming for 15 percent by the end of this year, and an Intel-provoking 50 percent by 2015. "Mobile PC" is a pretty ambiguous category, but we think it's safe to assume the focus is on low- and mid-power netbooks and ultraportables. Such devices could potentially run off ARM's forthcoming multi-core chips -- like perhaps the quad-core beast inside NVIDIA's mind-blowing Kal-El processor, or the more distant Cortex-A15. It's hard to imagine these tablet-centric chips ever competing with Intel's top performers, but four years is a mighty long time in this business.
Qualcomm's next-gen Snapdragon roadmap leaks, exhibits great expectations (updated)
Seems like we just can't get ARM's next-generation Cortex-A15 system-on-chip out of our minds. Having figured as a headline item in LG's ARM licensing deal this morning, it's now shown up on a leaked Qualcomm roadmap, landing itself a lynchpin role in that company's Snapdragon future. Alas, Qualcomm had been promising for the earliest of its MSM8930 / 60 and APQ8064 Snapdragons to be sampling in Q2 of this year, but this latest schedule shows them as sampling at the end of 2011 (see update). This isn't hugely surprising in light of ARM's recent forecast of Cortex-A15 devices in "late 2012," but it'll be disappointing to users keen to be exploiting quad-GPU and quad-CPU mobile rigs as soon as humanly possible. Guess that just leaves us waiting for the NGP or NVIDIA's quad-core SOC in August. Hit the source link for more on Qualcomm's plans for the near and distant future. [Thanks, Mike] Update: Qualcomm got in touch to correct the timing here. The company's 3G/LTE MSM8960 chipset remains on track to sample in this quarter, as promised in the company's latest earnings report. The other two parts were already expected to come later, so there's no delay to speak of. Just juicy specs.
LG licenses ARM Cortex-A15 and Mali-T604 graphics, starts scheming up mobile processors of its own
Some of LG's brightest attractions at the moment are the dual-core Optimus 2X and Optimus 3D smartphones and similarly equipped Optimus Pad tablet. The only problem with them? Those multicore chips are produced by NVIDIA for the 2X and Pad and Texas Instruments for the Optimus 3D, leaving LG a clear step behind its arch-nemesis Samsung who is producing its own dual-core system-on-chip. So what else could LG possibly do but buy its own ARM license -- specifically for the Cortex-A9 design that is dominating today and the Cortex-A15 with Mali-T604 graphics that promises to rule the mobile world from 2012 onwards -- and start churning out its own processors? The Korean company certainly has the budget, if not the manufacturing facilities, to produce such chips at volume, and we're all for seeing another competitor enter the ARM arena. This licensing deal also reminds us that the last fresh licensee to ARM's blueprints was Microsoft -- so we can now look forward to two industry giants bringing their technical expertise to this rapidly growing marketplace. See LG's full press release after the break.
ARM predicts dual-core Cortex-A15 devices in late 2012, quad-core variants 'later on'
Smartphones and tablets, the two hottest categories of consumer devices right now, are dominated by ARM processor designs, so when the company speaks up about its product roadmap, we're inclined to listen in close. The next generation of ARM system-on-chip has been dubbed Cortex-A15 and was expected to ship in 2013, but that's now been accelerated slightly to late 2012, which is when we're told to expect actual devices on sale with A15 silicon on board. Single- and dual-core variants will get us started, before quad-core options start filtering through in 2013. ARM promises a stunning fivefold improvement in performance over current Cortex-A9 SOCs and already has NVIDIA, Samsung, ST-Ericsson, and Texas Instruments signed up as licensees for that new hotness. So now even Samsung's "desktop-class" 2GHz dual-core chip that's slated for 2012 has a reason to look over its shoulder. Happy times!
NVIDIA Tegra 3, equipped with 1.5GHz quad-core madness, teased by a familiar slide
How aggressive can NVIDIA get? That's the question puzzling our brainboxes right now as we gaze upon the complete version of the slide that let us know about a potential Tegra 2 3D chip over the weekend. It's not every day you hear of a 1.5GHz quad-core mobile SOC, but our discovery of corroborating evidence for the T25 module sitting alongside it makes us more willing to credit the possibility of a Blu-ray-crunching, 13,800 MIPS-capable, multicore Cortex-A9 Tegra 3. Moreover, the roadmap of production samples in Q4 of 2010 fits perfectly with NVIDIA's claim that Tegra 3 was "almost done" in September of that year. The ULP designation on this listing stands for Ultra Low Power in NVIDIA parlance, which would indicate an aggressively tuned power management system -- the only way we can envision a quad-core anything operating within a tablet. Fall 2011 is when we should know for sure.
ARM intros next-gen Mali-T604 embedded GPU, Samsung first to get it (update: video)
Promising "visually rich user experiences not previously seen in consumer electronics devices," ARM has introduced its latest embedded GPU architecture, Mali-T604, at its Technology Conference 2010 in California today. Though we're unlikely to see it in devices any time soon, the introduction means that the new design is available to ARM licensees -- and notably, the company points out that partner Samsung will be the first to get hooked up. Considering Sammy competes in the high-end embedded system-on-chip space already with its ARM-based Hummingbird line of cores, adding in the Mali-T604 is probably the next logical step for them. ARM says that it's designed "specifically" with the needs of general purpose GPU computing in mind and includes extensive support both for OpenCL and DirectX, so look for some insane number-crunching capabilities on your next-generation phone, tablet, and set-top box. Follow the break for ARM's press release. Update: We sat down with ARM's Jem Davies to get some more details about the new Mali, and discovered it's only the first of several potential next-gen GPUs to come as part of the Midgard platform -- while this particular processor is available with up to four shader cores, successors might have more. The T604 itself is no slouch, though, as it can theoretically deliver two to five times the performance of the company's existing Mali 400 GPUs core for core and clock for clock -- which themselves run circles around the PowerVR SGX 540 competition if you take ARM at its word. Davies told us that not only does the Mali-T604 do DirectX, it supports the game-friendly DirectX11 as well as the always-popular OpenGL ES 2.0, and will appear in an system-on-a-chip together with an ARM Cortex-A15 "Eagle" CPU, when both are eventually baked into silicon several years down the road. Of course, in the eyes of marketers the future is always now, so get a look at conceptual uses (hint: augmented reality) for ARM's new Mali right after the break. Additional reporting by Sean Hollister
ARM reveals Eagle core as Cortex-A15, capable of quad-core computing at up to 2.5GHz
Way to take the wind out of our sails, ARM -- no sooner does your dual-core Cortex-A9 finally ship, do you reveal an even more powerful smartphone, smartbook and server-slaying beast. The Cortex-A15 MPCore picks up where the A9 left off, but with reportedly five times the power of existing CPUs, raising the bar for ARM-based single- and dual-core cell phone processors up to 1.5GHz... or as high as 2.5GHz in quad-core server-friendly rigs with hardware virtualization baked in and support for well over 4GB of memory. One terabyte, actually. Like we'd heard, the ARMv7-A "Eagle" chips are destined for Texas Instruments, but ST-Ericsson and Samsung as also named as "lead licensees," so we fully expect to see some badass silicon powering a Galaxy when the 32nm and 28nm parts ship in 2013. Press release and video after the break, replete with ARM partner companies fawning over the new hotness. We can't really blame them.
Samsung's Orion is the 1GHz dual-core ARM Cortex-A9 we've all been waiting for
We still consider Samsung's Hummingbird application processor to be among the very best for mobile computers, but this morning Sammy itself is stepping up the charge to make it look real old real fast. The freshly announced dual-core Orion promises to whip us all into a frenzy of geek lust with "5 times the 3D graphics performance over the previous processor generation from Samsung," 1080p video encoding and decoding at 30fps, embedded GPS, a native triple display controller, and on-chip HDMI 1.3a interface. Those last two bits mean you can drive two displays on your mobile device while feeding a third, such as a HDTV, all thanks to the one all-powerful chip inside. Availability for "select customers" is coming late this year, with mass production set for the first half of 2011. To say we're looking forward to it would be a massive understatement.
Globalfoundries takes ARM Cortex-A9 into 28nm land, looks forward to 20nm chips in 2013
Forget the numbers, here's what matters: Globalfoundries' new production capabilities will lead to "smooth production ramp-ups and faster time-to-market" for its customers. Now consider that this promise relates to scrumptious 28nm Cortex-A9 SOCs and feel free to rejoice. The chip fabricator has just declared itself ready to take orders for ARM's systems-on-chip built using its high-k metal gate 28nm fab process. This fulfills its pledge for mass production in the latter half of 2010, but lest you think Globalfoundries is resting on any nanoscale laurels, it also has a 20nm roadmap to tell you about. It's very simple, really: expect even smaller, even more power-efficient silicon in 2013. We don't know if the future will be bright, but it sure looks like it's gonna be small.
ARM and TSMC team up for tinier 20nm Cortex SOCs
It's no secret that ARM ideas are powering much of the mobile revolution these days, but the company doesn't print its own systems-on-a-chip, that duty gets outsourced to silicon foundries -- like TSMC, who just got all buddy-buddy with the firm to transition future smartphone chips to the 28nm and obscenely tiny 20nm high-k metal gate processes. (We're not sure what this means for GlobalFoundries, who had a similar deal earlier this year.) As per usual with a die size reduction, ARM chips will see higher speed and have decreased power consumption, but since 20nm is (relatively) unexplored territory it could be years before chips hit the market. PR after the break, or hit the more coverage link for further explanation by an ARM VP of Marketing.
