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Tag: Qualcomm

  • 5G Dramatically Accelerates Industrial Digitization, Says Qualcomm CEO

    5G Dramatically Accelerates Industrial Digitization, Says Qualcomm CEO

    “The total amount of economic impact of 5G in 2035 is going to be $13.2 trillion,” says Qualcomm CEO Steve Mollenkopf. “You can think of (the growth of 5G)  in two phases. One is a handset phase and the second one is a phase related to industries using 5G to accelerate digitization. They’re requiring the second rev of 5G. This is really about all the features to make high reliable factories. There are special features that we have put into the standard which will come out in a second, third, and fourth-wave over the next decade. 

    Steve Mollenkopf, CEO of Qualcomm, discusses the massive economic and transformational impact that 5G will have on consumers, industry, and Qualcomm over the next 15 years in an interview with CNBC:

    Total Economic Impact of 5G To Be $13.2 Trillion by 2035

    The serviceable available opportunity for 5G is going from $65 billion in 2019 to $100 billion in 2022. In really just three years, it grows a dramatic amount. It just gives you a sense of how important 5G will be to Qualcomm’s business. I also gave a number (at the company’s analyst day) that said the total amount of economic impact of 5G in 2035 is going to be $13.2 trillion. So 5G is going to be an important thing. Qualcomm really at this point does not have an opportunity problem.

    You should think of 5G (and how it impacts Qualcomm) in two phases. The first phase is essentially we make more money out of the existing cellular business just because it’s going to 5G. It’s going to go to 5G over the next decade. We will sell more expensive products and we get a bigger portion of the phone BOM in the products that we sell. Then, in addition, the technology that’s required in order to be successful in that market is also very important in other markets that are now taking on 5G. 

    Auto is the best first example of that. But there are many others behind it. We essentially have the ability to take the R&D that we’re producing in the smartphone space and leverage it multiple times for the benefit of the shareholders.

    Industries Using 5G To Accelerate Digitization

    Investors are really going to see it over the next two quarters for us and actually through the next year. If you look at our last earnings call we essentially gave I think a strong guide for our licensing business, which sits as a proxy for the Christmas season selling. Then we said we’re going to give a soft indication of what we thought the March quarter would be. We essentially said you’re going to see 5G start impacting our product business at that time. It’ll come in two phases during the calendar year. One at the beginning of the year and then another one in the second half of the year when some flagship launches launch in both places. 

    You can think of (the growth of 5G)  in two phases. One is a handset phase and the second one is a phase related to industries using 5G to accelerate digitization. Lucky for us, the handset phase, which is the first one, is probably the largest market and it’ll instantly happen. It will happen over the next decade starting next calendar year. In a month you’ll start to see that in the results of our business. You’re going to see that kind of play out over a long period of time as the handset market does now. 

    Then you go into these adjacent markets, the digitization and industrial. They’re requiring the second rev of 5G. There are multiple revs of the standard. The first one is based on handsets. The second one is really about all the features to make high reliable factories. We talked a little bit in the past about healthcare, gaming, and those things. There are special features that we have put into the standard which will come out in a second, third, and fourth-wave over the next decade. It’s that second wave which is really about the other industries besides the handset.

    5G Dramatically Accelerates Industrial Digitization, Says Qualcomm CEO Steve Mollenkopf
  • OPPO Plans to Release the First Dual-Mode 5G Phone

    OPPO Plans to Release the First Dual-Mode 5G Phone

    OPPO has announced plans to release the world’s first dual-mode 5G phone before year’s end. The phone was announced at the Qualcomm 5G Summit 2019 in Barcelona, a fitting location as it will be powered by Qualcomm’s chipset.

    Dual-mode phones will be compatible with both SA and NSA networks. SA stands for standalone mode, where only 5G is used for data and signaling. NSA, in contrast, stands for non-standalone and uses LTE for some of the process, such as cell tower communication.

    In making the announcement, Henry Tang, OPPO’s Chief 5G Scientist said:

    “The unrelenting efforts from OPPO and other industry peers have paved the way for the rapid adoption of 5G, with users in select countries and regions already becoming early adopters of OPPO’s 5G smartphones. We hope our next-generation dual-mode 5G offerings will deliver a superior experience to more consumers in more markets globally, making 5G readily available to a wider consumer base worldwide.”

    According to Tang, OPPO is working with over a dozen global operators to accelerate 5G commercialization worldwide. The company plans to consistently introduce more 5G products globally.

  • Qualcomm Chips Central to Wave of 5G Home Internet Devices

    Qualcomm Chips Central to Wave of 5G Home Internet Devices

    While Apple may be looking to end their dependence on Qualcomm, the future is looking bright for the semiconductor company. In a press release issued today, Qualcomm announced that Netgear, LG, Sharp and Samsung are among 30+ companies building plug-and-play home internet gear based on Qualcomm’s 5G chips.

    According to the FCC, some 19 million Americans still lack access to broadband. One of the most anticipated benefits of 5G deployment is the ability to offer broadband-class home internet wirelessly, otherwise known as fixed wireless access.

    5G home broadband holds the promise of gigabit-per-second speeds, far greater than the speed of current 4G technology, as well as many traditional broadband providers. The wireless tech is also a boon for established neighborhoods, since it doesn’t require excavation of roads and yards to lay fiber optic lines.

    “Our comprehensive Snapdragon X55 5G Modem-RF System architecture, which supports virtually any combination of 5G spectrum bands and modes, from sub-6 to extended-range mmWave, will empower global mobile carriers and OEMs to offer best-in-class 5G performance to homes and businesses, including those in previously underserved areas,” said Cristiano Amon, president, Qualcomm Incorporated. “The widespread adoption of our modem-to-antenna solution translates into enhanced fixed broadband services and additional opportunities to utilize 5G network infrastructure for broad coverage in urban, suburban and rural environments. Due to the development ease of our integrated system and industry movement toward self-installed, plug-and-play CPE devices, we expect OEMs will be able to support fixed broadband deployments beginning in 2020.”

  • Apple to Use Its Own 5G Modems in 2022

    Apple to Use Its Own 5G Modems in 2022

    According to Fast Company, Apple may have its own 5G modems ready for production as early as 2022, ending its reliance on Qualcomm.

    Apple has been trying to end its dependence on Qualcomm for some time now. Initially, the company switched to using Intel, while at the same time fighting a legal battle with Qualcomm over what it perceived to be unfair pricing. Ultimately, the two companies settled in April, followed by Apple promptly buying Intel’s 5G modem business.

    Apple is likely looking to leverage its purchase to create its own modems where it would have full control. As Fast Company reports, Apple initially worked with Intel in the hopes of producing a “system on a chip,” where a modem would be integrated into a single chip along with the other processors Apple uses in iPhones and iPads. Doing so would provide significant power and energy benefits. Ultimately, that partnership ended because of Intel’s inability to deliver.

    Now that Apple owns Intel’s modem business, the company will be free to continue its aspirations, without relying on other partners. Traditionally, Apple has always preferred developing its own chips. Prior to the switch to Intel, Apple partnered with IBM and Motorola to develop the PowerPC line of chips. More recently, the company has licensed ARM processors to create its A-series chips used in iPhones and iPads.

    Despite Apple’s expertise in chip design, sources told Fast Company that 2022 is an optimistic launch window. Once the chips are fabricated, they must still be rigorously tested to ensure they work with carriers’ networks. One factor in Apple’s favor is the individual likely leading their modem efforts. According to FactCompany’s source, Esin Terzioglu, Qualcomm’s former VP of Engineering, is probably in charge of the 5G team.

    Whether Mr. Terzioglu’s experience is enough to help Apple meet its goal remains to be seen.

  • 5G is Designed So That Industries Can Use Cellular at Massive Scale, Says Qualcomm CEO

    5G is Designed So That Industries Can Use Cellular at Massive Scale, Says Qualcomm CEO

    “The transitions, 3G to 4G, 4G to 5G, are very important in order to maintain your leadership position and also it enables you to really open up and expand your business in the new areas,” says Qualcomm CEO Steve Mollenkopf. “5G is really designed so that other industries such as automotive, self-driving cars, connected healthcare, connected education, connected infrastructure, are really set up to use cellular for the first time at massive scale.”

    Steve Mollenkopf, CEO of Qualcomm, discusses how 5G is for the first time enabling industry to use cellular technology on a massive scale in an interview on CNBC:

    5G is Designed So That Industries Can Use Cellar at Massive Scale

    In this industry, you do not want to miss the transitions. The transitions, 3G to 4G, 4G to 5G, are very important in order to maintain your leadership position and also it enables you to really open up and expand your business in the new areas. This is more so true on 5G than any other G transition. We wanted to make sure that we were able to position the company do that. We did that while at the same time we brought a lot of other costs discipline within the envelope. We’re very pleased to be able to do that. It was a good call to make. I’m very proud of the team to be able to execute on that in the midst of what probably looked like a lot of distractions from the outside.

    5G is really designed so that other industries such as automotive, self-driving cars, connected healthcare, connected education, connected infrastructure, are really set up to use cellular for the first time at massive scale. Our problem today is not, do we have a great technology lead? It is how do we scale that across new industries? This is a good problem to have and I’m looking forward to tackling it with all my energy.

    The Energy of the Companies is on How to Ramp up Quickly

    Really talking about the past and some of the he said she said is not that helpful. I can tell you where the energy of the two companies is right now. The energy of the companies right now is let’s figure out how to ramp up as quickly as possible. The relationship is focused on that issue. I’ve had a lot of discussions not only within my team but also with the Apple team. That’s the focus. We talk all the time. The companies to get to an agreement as complex as this you’ve got to talk. But I can tell you, companies like this they move on and they move on to the things that are natural to work together which is products. We’re all excited about doing that.

    We are two product-focused organizations. We’re working on products, we’ve done it in the past and we love doing it. We’re good at doing it. That’s where the focus is that’s what we’re excited about. The reality is when you’re working on technologies that are meaningful and are relevant to many industries worldwide you’re going to grab attention. As long as you have a technology lead you can work your way through that. We were able to do that in the past and certainly were able to do that over the last five-plus years. I’m sure it’s going to be a little bit more calm but I can tell you I’m very happy to have that technology position.

    5G is Designed So That Industries Can Use Cellar at Massive Scale, Says Qualcomm CEO


  • 5G to Change the Form Factor of Devices, Says Qualcomm President

    5G to Change the Form Factor of Devices, Says Qualcomm President

    Qualcomm President Cristiano Amon sees enormous potential for 5G to change the form factor of devices. “The most important thing is as you change your experience with 5G you’re going to want a different type of device and a different type of screen size and resolution,” says Amon. “The apps are also going to become way more powerful and you will actually have more powerful hardware that goes along with.”

    Cristiano Amon, President of Qualcomm Inc., discusses how 5G is going to prompt changes to the form factor of mobile devices in an interview with Bloomberg Technology at MWC Barcelona 2019:

    5G to Change the Form Factor of Devices

    I feel that there’s enormous potential for 5G to change the form factor of devices. We’re very proud of this partnership with Samsung and how they have been a great partner pioneering this new technology with us. We also see a number of different devices being announced and we see a potential for form factors to change. The most important thing is as you change your experience with 5G you’re going to want a different type of device and a different type of screen size and resolution. The apps are also going to become way more powerful and you will actually have more powerful hardware that goes along with.

    Bigger screens are here to stay. I think you will see the opportunity for larger screens as you have flexible OLED technology. You’re also going to see devices that are more specialized for more capable gaming because 5G will allow you to have mainstream gaming on 5G devices. You’re going to see devices there are going to converge between productivity. Over time, we expect to see virtual reality or augmented reality devices as well as a companion to your phone that is going to be using 5G technology. We hope that they look like eyeglasses.

    Qualcomm 5G PowerSave Technology

    One of the big announcements we’ve made at the show (MWC Barcelona 2019), we’re very proud of it, is the Qualcomm 5G PowerSave technology. That is actually a technology that is allowing the first generation of 5G phones to allow you to have all-day battery life. We have a very mature smartphone base today and users won’t settle for any less than we have on your phones currently. I think that’s the bar for those new 5g flagships. We’re happy a number of OEMs announced phones at this show with this technology.

    I will do a comparison because I think sometimes we forget about what happened in 4G. When we were about this time launching 4G technology, that was over a decade ago, we had two operators and four devices. Look where we are right now. We have 20 operators and 30 devices. It’s an order of magnitude different. Actually, it’s a proxy about how much faster 5G is going to get deployed.

  • Microsoft And Others Work on IoT Standards For Companies And Developers

    Microsoft And Others Work on IoT Standards For Companies And Developers

    Tech heavyweights including Microsoft, Samsung, Intel, Qualcomm, Cisco, ARRIS, Electrolux, CableLabs, and GE Digital announced the formation of the Open Connectivity Foundation (OCF) aimed at helping to unify Internet of Things (IoT) standards so businesses and developers can create IoT solutions and devices that cooperate with one another.

    According to the announcement, the OCF, which unifies the former Open Interconnect Consortium (OIC) with various companies, will work to accelerate industry innovation and collaborate on specifications, protocols, and open source projects so that a wide range of consumer, enterprise, and embedded devices and sensors from a variety of makers can seamlessly (and securely) work together.

    The goal is to make it so that billions of connected devices, appliances, phones, computers, and industrial machines can communicate with one another regardless of manufacturer, operating system, chipset, or transport.

    Terry Myerson, EVP, Windows and Devices Group at Microsoft said, “The OCF will help consolidate industry attention and create opportunity, via an agreed upon set of protocols that move the world forward. We are designing Windows 10 to be the ideal operating system and Azure to be the best cloud companion for Things, and for both of them to interoperate with all Things. Windows 10 devices will natively support the new OCF standard, making it easy for Windows to discover, communicate, and orchestrate multiple IoT devices in the home, in business, and beyond. We look forward to seeing the innovation this new standard will enable for all customers and the endless opportunities it will create for developers.”

    “OIC has been working to develop a standard specification for IoT devices, and at the same time developing IoTivity as an open source reference implementation,” said SeungHwan Cho, Executive Vice President and Deputy Head of Software R&D Center at Samsung. “We welcome these leaders in their fields to OCF, which we believe will become the most diverse global organization developing IoT standards and code.”

    You can learn more about the Foundation and peruse various resources here.

    Image via OCF (Twitter)

  • Android Wear: Google Unveils Smartwatch Platform

    Android Wear: Google Unveils Smartwatch Platform

    Google-based smartwatches have been rumored for quite some time, and today, the company finally revealed it its platform for such wearables: Android Wear.

    Android Wear is described as a project that extends Android to “wearables,” and they’re just starting with watches. The company is already working with Samsung, Asus, HTC, LG, and Motorola as well as chip makers Broadcom, Imagination, Intel, Mediatek and Qualcomm. It’s also working with fashion brands like the Fossil Group.

    There’s a whole lot of “Ok Google” involved. Check it out:

    Google says Android Wear will show you info and suggestions you need “right when you need them”. You know, Google Now basically, but from a watch (or whatever else ends up utilizing it). But third-party apps will make or break this thing.

    “The wide variety of Android applications means you’ll receive the latest posts and updates from your favorite social apps, chats from your preferred messaging apps, notifications from shopping, news and photography apps, and more,” says Sundar Pichai, SVP, Android, Chrome & Apps.

    “Because Android for wearables works with Android’s rich notification system, many apps will already work well,” he says.

    The developer preview is out.

    Google says more developers and APIs are on the way. I guess we can expect plenty on this at Google I/O this year.

    Consumers can expect to see products for sale later this year.

    Image via Google

  • Qualcomm’s Snapdragon 615 Is The World’s First 64-Bit Octa-Core Chipset

    Apple made headlines last year by introducing the first 64-bit mobile chipset in the iPhone 5S and iPad Air. The company said the move to 64-bit would allow for better performance while retaining backwards compatibility with 32-bit apps. Android device manufacturers were a little slower on the draw, but now they’re starting to introduce their own 64-bit chips.

    Qualcomm announced its next 64-bit chipset today with the Snapdragon 615. This particular chip also has the distinction of being the world’s first octa-core 64-bit mobile chip which will allow it to run more applications at once thanks to its large number of cores.

    Alongside the 615, Qualcomm also announced the Snapdragon 610 as its mid-tier quad-core 64-bit SoC. Both chipsets sport Qualcomm’s latest LTE modems which allows for manufacturers to outfit their devices with a single chip that will work across all markets and LTE bands. That alone is a major improvement over previous devices which would sometimes require a different chip for each region due to differences in wireless frequencies.

    Qualcomm notes that both chipsets will also sport the Adreno 405 GPU. The Adreno 400 series has so far only been seen in Qualcomm’s high-tier Snapdragon 800 SoCs. The adoption of the Adreno 400 series in the Snapdragon 615 and 610 ensures that these mid-tier SoCs will support all of the latest mobile graphics technologies while offering better performance than previous Snapdragon 600 series SoCs.

    “Qualcomm Technologies is redefining the user experience for high-end mobile devices by amassing the unparalleled trilogy of an industry-leading LTE modem, 64-bit multicore processing, and superior multimedia,” said Murthy Renduchintala, executive vice president, Qualcomm Technologies, Inc., and co-president, QCT. “64-bit processing capabilities are now an industry requirement for this tier, and we are meeting our customers’ needs with both octa- and quad-core configurations, as well as bringing our superior Adreno 405 graphics and powerful suite of connectivity technologies to the Snapdragon 600 family of chipsets.”

    So, when we still start seeing devices with these SoCs in them? Qualcomm says that it will begin sampling both the 610 and 615 in the third quarter of this year while the first Snapdragon 615 devices will start shipping in the fourth quarter.

    Image via Qualcomm

  • Qualcomm Snapdragon 410 Is The First 64-Bit CPU For Android Devices

    Earlier this year, Apple introduced the first 64-bit CPU for a mobile device with the A7 chip found in the iPhone 5S and iPad Air. At the time, many wondered when Android devices would start to see 64-bit CPUs. Well, wonder no more as the world’s biggest manufacturer of Android SoCs has announced its first 64-bit CPU.

    Qualcomm announced a new SoC today called the Snapdragon 410 and claims its the first 64-bit CPU built for Android devices. As the number implies, the Snapdragon 410 is an improvement on last year’s low-cost Snapdragon 400 CPU. This means that the 410 will be heading to emerging markets where the 410 will provide better performance and LTE to low-cost devices.

    “We are excited to bring 4G LTE to highly affordable smartphones at a sub $150 ( ̴ 1,000 RMB) price point with the introduction of the Qualcomm Snapdragon 410 processor,” said Jeff Lorbeck, senior VP and COO of Qualcomm Technologies in China. “The Snapdragon 410 chipset will also be the first of many 64-bit capable processors as Qualcomm Technologies helps lead the transition of the mobile ecosystem to 64-bit processing.”

    As Lorbeck said, the Snapdragon 410 is only the first of many 64-bit processors to be hitting Android devices next year. While we don’t have any word on when we’ll start seeing more powerful 64-bit processors, I’m willing to bet we’ll hear more at CES in early January. After all, phone manufacturers will want to show off their new flagship devices complete with 64-bit CPUs to drum up excitement ahead of their launches in the middle of next year.

    Going back to the Snapdragon 410, when can we expect to see it in devices? Qualcomm says it will begin shipping to OEMs in the first half of 2014 and will begin appearing in devices after summer. We’ll hopefully see more powerful CPUs from Qualcomm appearing in devices at that time as well.

    [Image: Qualcomm]
    [h/t: Droid-Life]

  • Qualcomm Enters The Smart Watch Market In December

    Are smart watches going to be the next big thing? The general consensus is that we’ll all be wearing a mini-computer on our wrists within five years, but don’t expect a stellar performance out of the technology this holiday season. For those that do want a smart watch for the holidays, however, they now have one more option to choose from.

    Qualcomm, the company whose CPUs are in nearly every smartphone on the planet, announced today that its new Toq Smartwatch is available for pre-order. The new smart watch will be shipping on December 2 and costs $349.99.

    So, what sets Qualcomm’s smart watch apart from the competing smart watches from Sony and Samsung? Like those devices, Qualcomm’s smart watch is nothing without an Android device to tether to and pull information from. Unlike Samsung’s Galaxy Gear, however, the Qualcomm Toq can connect to any Android device running Android 4.0.3 or above.

    What really sets Qualcomm’s smart watch apart from the competition is its use of the company’s new Mirasol display technology. It provides a high-resolution anti-reflective display, but with up to six times the battery performance of a traditional LCD or LED display. According to Qualcomm, that means its Toq smartwatch can remain on for multiple days without charging. Even when it does have to charge though, each watch comes with a wireless charging station for hassle-free charging.

    Even with the introduction of the Qualcomm Toq, smart watches are not going to be the must have tech item of this holiday season. It will be that luxury item that your rich uncle shows off at the holiday party. By this time next year, however, we’ll hopefully have smart watches from Apple, HTC and Google, and they will come in multiple spec and price configurations. That may just be what sets the market on its path of expected meteoric growth.

    [h/t: Engadget]
    [Image: Qualcomm]

  • Qualcomm Announces Snapdragon 805, Can Playback 4K Video

    4K video, or “Ultra HD,” is going to be the standard in a few years thanks to increased availability of 4K displays. It might even become standardized even faster if Qualcomm has anything to say about it.

    Qualcomm announced today a new SoC – the Snapdragon 805 – that’s meant to be the successor to its Snapdragon 800 CPU. The major focus of this new SoC is graphics processing thanks to it being equipped with the new Adreno 420 GPU which allow devices with the Snapdragon 805 to playback 4K video.

    “Using a smartphone or tablet powered by Snapdragon 805 processor is like having an UltraHD home theater in your pocket, with 4K video, imaging and graphics, all built for mobile,” said Murthy Renduchintala, executive vice president, Qualcomm Technologies, Inc., and co-president, QCT. “We’re delivering the mobile industry’s first truly end-to-end Ultra HD solution, and coupled with our industry leading Gobi LTE modems and RF transceivers, streaming and watching content at 4K resolution will finally be possible.”

    Beyond 4K video, the Snapdragon 805 will introduce a number of new features that will make Qualcomm’s latest chip one of the most powerful pieces of silicon to hit devices next year:

  • Blazing fast apps and web browsing and outstanding performance: Krait 450 quad-core CPU, the first mobile CPU to run at speeds of up to 2.5 GHz per core, plus superior memory bandwidth support of up to 25.6 GB/second that is designed to provide unprecedented multimedia and web browsing performance.
  • Smooth, sharp user interface and games support Ultra HD resolution: The mobile industry’s first end-to-end Ultra HD solution with on-device display concurrent with output to HDTV; features Qualcomm Technologies’ new Adreno 420 GPU, which introduces support for hardware tessellation and geometry shaders, for advanced 4K rendering, with even more realistic scenes and objects, visually stunning user interface, graphics and mobile gaming experiences at lower power.
  • Fast, seamless connected mobile experiences: Custom, efficient integration with either the Qualcomm Gobi MDM9x25 or the Gobi MDM9x35 modem, powering superior seamless connected mobile experiences. The Gobi MDM9x25 chipset announced in February 2013 has seen significant adoption as the first embedded, mobile computing solution to support LTE carrier aggregation and LTE Category 4 with superior peak data rates of up to 150Mbps. Additionally, Qualcomm’s most advanced Wi-Fi for mobile, 2-stream dual-band Qualcomm VIVE 802.11ac, enables wireless 4K video streaming and other media-intensive applications. With a low-power PCIe interface to the QCA6174, tablets and high-end smartphones can take advantage of faster mobile Wi-Fi performance (over 600 Mbps), extended operating range and concurrent Bluetooth connections, with minimal impact on battery life.
  • Ability to stream more video content at higher quality using less power: Support for Hollywood Quality Video (HQV) for video post processing, first to introduce hardware 4K HEVC (H.265) decode for mobile for extremely low-power HD video playback.
  • Sharper, higher resolution photos in low light and advanced post-processing features: First Gpixel/s throughput camera support in a mobile processor designed for a significant increase in camera speed and imaging quality. Sensor processing with gyro integration enables image stabilization for sharper, crisper photos. Qualcomm Technologies is the first to announce a mobile processor with advanced, low-power, integrated sensor processing, enabled by its custom DSP, designed to deliver a wide range of sensor-enabled mobile experiences.

    • So, when can you expect to see the Snapdragon 805 in devices? Qualcomm says it’s currently in sampling which means you should start to see it pop up in mobile devices in the first half of 2014. We’ll hopefully see some demos of the new 805 in action at CES or Mobile World Congress early next year.

    [Image: Qualcomm]

  • Qualcomm Made An Awesome Photobooth To Show Off The Power Of Its CPUs

    Qualcomm is in the CPU business, and is quite proud of its Snapdragon SoCs that power pretty much every Android smartphone on the planet. Now it could show off the power of its CPUs by making an outdated reference to a rhythm game, or it could do something much cooler.

    Qualcomm recently set up a 540 degree photobooth comprised of 130 HTC One smartphones in Venice Beach. In other words, the company built one of the coolest photobooths you will ever see.

    In the video below, you’ll see people showing off their various talents while being surrounded by 130 HTC One smartphones. Each phone takes one picture and then Qualcomm compiles these pictures into a stop-motion video of a man breathing fire or a guy breakdancing. There’s even a really impressive frisbee trick thrown in for good measure.

    To be honest, I don’t really see how this shows off the power of Qualcomm’s Snapdragon SoCs. You could do this with pretty much any other phone, regardless of its CPU. The real winner here is the HTC One as HTC gets to show off the camera in its flagship device.

    Still, it’s a really cool idea, and Qualcomm is offering to bring it to your town. You only need to visit the Snapdragon Booth site and vote to have Qualcomm visit your town next. The winner right now with 23 percent of the votes is Los Angeles, while Chicago and Miami are tied for second place at 15 percent.

    [Image: SnapdragonProcessors/YouTube]

  • Apparently, Mobile CPU Performance Is Just Like Playing Guitar Hero

    Qualcomm CPUs are in pretty much every major smartphone available today. There’s a good reason for that – they’re damn good CPUs. That doesn’t mean there aren’t other good CPUs out there, but Qualcomm thinks it still has the best around.

    In a new video released this week, Qualcomm explains how its quad-core CPUs outperform the competition’s octa-core CPUs. But wait, eight cores are better than four cores, right? That would be the case if the octa-core processors were using the latest technologies. According to Qualcomm, it’s competition, in this case MediaTek, is using older ARM CPUs while its latest quad-core CPUs are using the latest technology to provide faster speeds over previous SoCs.

    All of the above is illustrated in a “battle of the bands” using a Guitar Hero like UI. It’s pretty strange, but it gets the point across – the Qualcomm SoCs are faster than the competition by a long shot.

    There’s some truth to this as faster clock speeds can beat out more cores if the apps in question aren’t optimized to use more cores. Once octa-cores become commonplace, however, apps will start to distribute their tasks among all the cores for increased performance. Of course, Qualcomm will have introduced octa-core SoCs by then and will release another ad lambasting the competition. Let’s just hope they reference something a little more recent.

    [Image: QualcommVlog/YouTube]
    [h/t: Engadget]

  • A World Without Smartphones Apparently Means The Return Of Rock ‘Em Sock ‘Em Robots

    I absolutely adore my smartphone. It seems that many of you do too. In fact, I find it hard to imagine a world without smartphones despite having lived most of my life without one. That’s how powerful of an impression the technology leaves on you. So, what would happen then if smartphones were never invented?

    Qualcomm, the company that makes most of the CPUs powering your smartphones, released a video Thursday that reveals an alternate reality where smartphones never existed. It’s a somewhat bleak future, but hey, at least it means we get Rock ‘Em Sock ‘Em Robots back.

    Does anybody want to live in this mobile-less world for at least a day? I mean, it looks like it would be kind of fun for at least a little bit. I’m especially a fan of Tweets just being tiny blue birds falling from the heavens.

    In the end, however, we can be thankful that smartphones have made our lives a lot less interesting, and therefore safer as a result.

    [h/t: DroidLife]

  • Nexus 7 Successor With Qualcomm CPU To Launch In July [Report]

    It’s pretty much assumed at this point that Google will be showing off the new Nexus 7 at Google I/O next month. Now we just need to know its specs, and its launch date. Lucky enough, a new report out today tells us just that.

    Sources told Reuters that the Asustek-made Nexus 7 successor will be launching in July. If true, the next Nexus 7 will be launching a year after its predecessor hit the scene. It would also give Google plenty of time to build up excitement for the tablet after a reveal at Google I/O.

    As for specs, Reuters’ sources say the tablet will indeed be ditching Nvidia’s Tegra CPU in favor of Qualcomm’s Snapdragon. The previous rumor said Google chose Snapdragon because Qualcomm gave the company a better deal, but this latest report chalks it up “power reasons.”

    Beyond a change in CPU manufacturer, the report also says that the new tablet will feature a higher resolution and a thinner bezel design, both of which suggest that we may see a larger screen in the Nexus 7 as well.

    Apple lambasted the Nexus 7 last year during its iPad Mini reveal event for having a smaller display, while conveniently failing to mention that Google’s tablet still had a higher resolution. The new Nexus 7 could give Google a chance to create a tablet with a higher resolution while matching the 7.9-inch display of the iPad Mini.

    We’re sure to hear more details on the new Nexus 7, including its assumed use of a new Android operating system, at Google I/O or soon after.

  • The World’s Most Powerful Android Tablet Will Set You Back $1,300

    I’ve been hesitant to jump on the tablet hype train since Apple popularized them with the iPad. I’m a power PC user and the limited resources of tablets didn’t appeal to me. The good news is that tablets are getting more and more powerful all the time. Qualcomm, makers of quality tablet and phone processors, have put together a developer’s tablet that has the power PC user in me pretty excited.

    Qualcomm is in the business of supporting developers through SDKs and other software that help them get the most out of Qualcomm’s CPUs. One of the ways they support developers is by offering custom built tablets that are running on the latest and greatest CPUs from the company. Their latest tablet is the most powerful Android tablet that money can buy.

    For a relatively cheap $1,300, developers can get a tablet that’s running on Qualcomm’s latest S4 Snapdragon quad-core processor. Each core is running at an impressive 1.5GHz each. It also features an Adreno 320 GPU, a 10-inch 720p display, 2 GB of RAM, 32GB of storage and runs on Android 4.0.4. In other words, this tablet is an absolute beast.

    The guys over at Anandtech ran a few benchmarks on the device. The tests proved that it is the most powerful Android tablet out there with its only competition coming from the new iPad. It’s a shame then that it’s only available to developers or those with just $1,300 to drop on random new technology.

    While this tablet is definitely built for developers, you can buy it for yourself if you have the cash. It’s available right now on BSquare’s store.

    [Image Credit]

  • Android Developers Can Now Better Leverage The Power Of Snapdragon

    Android Developers Can Now Better Leverage The Power Of Snapdragon

    Unless you’re one of the few owners of an Nvidia Tegra powered Android device, you’re probably using a Qualcomm processor. The company’s recent line of Snapdragon S4 processors operate as a system-on-a-chip and can be somewhat difficult to develop for. Qualcomm realizes this and is now making efforts to make it easier for developers to get the most out of the system.

    Qualcomm announced the availability of the Snapdragon SDK at the Uplinq Developers Conference yesterday. The SDK is the only way developers will be able to access the powerful features that Snapdragon makes available like facial processing and surround sound recording.

    “The most powerful applications in mobile are those that are tightly integrated with the underlying hardware,” said Rob Chandhok, president of Qualcomm Internet Services and the company’s senior vice president for software strategy. “Qualcomm is always striving to enable developers and device makers to differentiate their offerings via the unique capabilities found in its industry-leading Snapdragon mobile processors. With the Snapdragon SDK for Android, developers and manufactures can now more easily utilize these features as they work to set their products apart in a crowded ecosystem.”

    The current SDK is only available for the Snapdragon S4 8960 processor. If you recall Qualcomm’s announcement of splitting the S4 into four tiers, the 8960 is part of the Plus line for high-powered phones and tablets. Qualcomm expects the SDK to launch for other processors in the future, but keeping it with the most powerful of devices will encourage developers to go all out.

    Here’s what Android developers can look forward to utilizing in their smartphone apps with the Snapdragon SDK:

  • facial processing, such as blink and smile detection, which makes it easier to take better pictures of people in groups
  • burst capture, which leverages zero shutter lag to photograph a stream of images at once to select the best shot
  • surround sound recording for better audio capture
  • hardware echo cancellation for better real-time audio experiences
  • sensor gestures (tap-left/tap-right, push/pull, face-up/face-down, tilt) that enable developers and device makers to push the envelope on new, differentiated user interfaces
  • low power always on geofencing capabilities
  • indoor location that enables apps to continue providing accurate location information even when the user is indoors.

    • This is a great move on the part of Qualcomm to compete with Nvidia’s own Tegra. Nvidia is super supportive of developers and gives them all the tools they need to fully take advantage of the power of the Tegra 3 processor when making games. With the Snapdragon S4 SDK, Qualcomm is obviously hoping that developers start crafting equally unique experiences on the wider range of phones that use S4 processors.

    Consumers have a lot to gain here as well since apps will start to become more sophisticated. Being able to access all the power that’s within the processor will open up Android development even further. I’m sure people are already milling over ideas of how to bring PC-level apps to Android with the extra features and powers granted to them.

    If you’re an Android developer and want to start developing for Snapdragon processors, you can grab the preview SDK from Qualcomm right now. It’s still in preview so don’t expect all the features just yet. The full version will be launching in the coming months.

  • Snapdragon S4 Processor Launches In Four Tiers

    Snapdragon S4 Processor Launches In Four Tiers

    It was announced back in February that Qualcomm, makers of fine mobile processors, would be releasing its Snapdragon S4 processor in the later half of the year. They also used it as an excuse to announce the S4 Pro that would offer more performance while still retaining the same architecture as the S4. The S4 Pro launched today alongside three other S4 processors that are designed for different platforms.

    Before the S4, Qualcomm made powerful processors for tablets and smartphones. While they will still focus on this market with the S4 series, the company is also looking at expanding into the PC and smart TV markets. The four tiers of S4 processors help it take advantage of the strengths that each platform provides.

    The S4 Pro was the first to be announced this year and it’s the most versatile of the S4 line. The S4 Pro will bring power to PCs, tablets and high-end smartphones. Qualcomm is labeling it as a “computing-class processor” but it will be featured in Windows 8 PCs. It remains to be seen if these will be the processors that power Windows RT, but it’s probably a good guess as Intel and AMD still have a stranglehold on the x64 and x86 Windows environments.

    The S4 Prime is Qualcomm’s first foray into the Smart TV realm. The company says that the process was designed to bring “high performance applications, web browsers and connectivity.” The processor will be seen in actual television units as well as set-top boxes.

    The largest range of S4 processors come from the S4 Plus line. As expected, this line of processors will be powering the majority of smartphones and tablets that use the Snapdragon architecture. It just means that if your phone is powered by an S4 processor, it’s probably going to be an S4 Plus.

    The final tier may be last, but don’t cout it out just yet. The S4 Play will be the driving force behind the huge high-volume smartphone market. It’s a good move by Qualcomm to move into the cheap smartphone market as well as the high-end. The S4 Play should be a big hit for the company.

    It should be noted that the four descriptors – Pro, Prime, Plus and Play – will be used to describe future Qualcomm products as well. The company wants their hand in a little of everything and these new descriptors should make it easier for consumers to know what kind of Snapdragon processor is powering their device.

  • Qualcomm Announces Second Quarter Fiscal 2012 Results

    Qualcomm Announces Second Quarter Fiscal 2012 Results

    Qualcomm has just announced record earning per share via their second quarter 2012 fiscal report. Revenue is up 28% year-over-year and came in at just under $5 billion for the quarter. Very impressive! Operating income fell by 2% since last quarter, but net income is up 59% sequentially and 123% year-over-year. Sounds pretty good!

    Diluted earning per share is the big news and they’re up 58% since last quarter, and 117% year-over-year. It’s a happy time for investors. They returned $366 million to stockholders, or about $0.215 per share, of cash dividends paid.

    Dr. Paul E. Jacobs, chairman and CEO of Qualcomm comments on the outstanding quarter:

    “I am pleased to report another quarter of record revenues and earnings per share, driven by strong demand for 3G- and 4G-enabled devices across both developed and emerging regions,”

    “We are excited to see the continued growth of 3G and 4G smartphones, as well as new mobile computing devices. We are increasing our operating expenses to facilitate additional 28 nanometer supply and to continue to position our industry-leading chipset solutions for the opportunities ahead.”

    Second Quarter Results (GAAP)

    * Revenues: 1 $4.94 billion, up 28 percent year-over-year (y-o-y) and 6 percent sequentially.

    * Operating income: 1 $1.51 billion, up 6 percent y-o-y and down 2 percent sequentially.

    * Net income: 2 $2.23 billion, up 123 percent y-o-y and 59 percent sequentially.

    * Diluted earnings per share: 2 $1.28, up 117 percent y-o-y and 58 percent sequentially.

    * Effective tax rate: 1 17 percent for the quarter.

    * Operating cash flow: $1.89 billion, up 7 percent y-o-y; 38 percent of revenues.

    * Return of capital to stockholders: $366 million, or $0.215 per share, of cash dividends
    paid.

    Non-GAAP Second Quarter Results

    * Revenues: $4.94 billion, up 28 percent y-o-y and 6 percent sequentially.

    * Operating income: $1.90 billion, up 15 percent y-o-y and 2 percent sequentially.

    * Net income: $1.76 billion, up 21 percent y-o-y and 5 percent sequentially.

    * Diluted earnings per share: $1.01, up 17 percent y-o-y and 4 percent sequentially.
    Excludes $0.41 earnings per share attributable to the QSI segment, $0.11 loss per share attributable to certain share-based compensation and $0.03 loss per share attributable to certain acquisition-related items.

    * Effective tax rate: 17 percent for the quarter.

    * Free cash flow (defined as net cash from operating activities less capital expenditures):
    $1.81 billion, down 2 percent y-o-y; 37 percent of revenues.

  • Samsung Developing Its Own Chips for Galaxy S III

    Samsung Developing Its Own Chips for Galaxy S III

    Further distancing itself from Qualcomm technology, Samsung will be using their own chips in its upcoming Galaxy S III smartphone. The change will see Samsung implementing its own single-chip design in the new Galaxy device.

    A Samsung executive told the Korean Times that “Samsung’s single-chip solution is a combination of long-term evolution (LTE), telecommunications and W-CDMA functions. We don’t think there will be big technology-related problems as we have already tested our telecommunications chips in some smartphones and tablets for consumers in North America. Also, Google’s first reference mobile, the Galaxy Nexus, is using Samsung’s telecom chips.” The executive added that Samsung’s Exynos-branded quad-core mobile application processors will go into the new Galaxy phones.

    Samsung has said that it has a stronger drive to lessen its dependence on Qualcomm, by relying on its own chipsets. Another Samsung executive stated that “Samsung is paying huge amounts to Qualcomm in return for using its single-chip solutions in strategic digital devices, however, Qualcomm is gradually losing its edge – It was believed that Qualcomm chips had greater stability and suited easy upgrades. But, that’s the old story. Our long-term plan is clear. Using Samsung solutions for Samsung products.”

    Still, both executives wanted to hide their identities, as they claimed they weren’t authorized to be speaking to journalists, making none of their intel completely official.