Qualcomm’s new Snapdragon chips will power next-gen budget phones

Qualcomm may have just launched the new Snapdragon 700 series a few months ago, but that doesn’t mean it’s slowing down in the release of budget and mid-range chipsets. In fact, the company has unveiled the new Snapdragon 632, Snapdragon 439, and Snapdragon 429 chipsets, aimed at bringing more power and smarter features to budget handsets.

Here is a rundown of the new chips and the features they have on offer.

Snapdragon 632

The Snapdragon 632 may be the newest addition to the 600-series lineup, but it’s not quite the most powerful. It joins the likes of the Snapdragon 636 and offers features like eight Qualcomm Kryo 250 CPUs and an Adreno 506 GPU. It supports displays with up to a Full HD+ resolution, as well as up to a 24-megapixel single lens, or a 13-megapixel dual-lens camera. Like many of Qualcomm’s other chipsets, the eight CPUs aren’t all functioning in the same way — instead, the chipset features four “performance” cores, and four “efficiency” cores, which kick in for lower-power tasks, ultimately saving battery.

According to Qualcomm, the chipset should offer several performance boosts over the previous generation Snapdragon 626. For starters, it boasts up to a 40 percent CPU performance boost over the last chip, as well as up to a 10 percent GPU performance boost.

There aren’t any phones with the new chip yet, but phones with the previous generation Snapdragon 626 include the likes of the Samsung Galaxy S5 Pro, Moto Z2 Play, and more. Phones of a similar tier will likely adopt the Snapdragon 632 in the future.

Snapdragon 439

The Snapdragon 439 is set to be an excellent option for manufacturers building ultra-budget handsets. The chip replaces the Snapdragon 430 and brings with it a number of great features. Like the Snapdragon 632, the chipset offers eight CPUs, with four performance cores and four efficiency cores — though the CPUs here are Cortex A53 CPUs rather than the Kryo 250 CPUs in the Snapdragon 632. According to Qualcomm, the CPUs offer a performance boost of up to 25 percent over the Snapdragon 430. The GPU on the chip is the Adreno 505, which boasts up to a 20 percent boost over the Snapdragon 430. As far as camera support goes, the Snapdragon 439 supports up to a 21-megapixel single lens, or an 8-megapixel dual sensor.

Phones that used the previous generation Snapdragon 430 include the Moto G5, Nokia 6, and more — so similarly priced phones will likely adopt the Snapdragon 439.

Snapdragon 429

The Snapdragon 429 is the second new chipset in the 400 series, and its aimed at even cheaper phones than the Snapdragon 439. Instead of the eight CPUs found in the Snapdragon 439 and Snapdragon 620, the Snapdragon 429 features four Cortex A53 CPUs, and Qualcomm says this will give the chipset up to a 25 percent performance boost compared to the Snapdragon 425. The chipset also features an Adreno 504 GPU, which delivers up to a whopping 50 percent GPU performance boost over the Snapdragon 425. The chipset supports up to a 16-megapixel single sensor, or an 8-megapixel dual sensor.

Phones that feature the now-outdated Snapdragon 425 include the Xiaomi Redmi 5A and Samsung Galaxy J2.

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Pepper the robot is now working at a bank in New York City

Mark Von Holden/AP Images for HSBC

The robot takeover of retail banking has begun.

It’s starting at HSBC’s main branch on Fifth Avenue in Manhattan and involves a friendly robot called Pepper.

For those not in the know, Pepper is the work of Japanese telecoms giant SoftBank and French robotics firm Aldebaran SAS. The 120-cm-tall robot recognizes faces and emotions, and can respond through voice or by showing messages on its torso-based tablet. It can also be programmed with data according to its workplace, enabling it to provide specific experiences for those who interact with it.

Rather than overhaul retail banking overnight, HSBC says Pepper will provide customers with a glimpse of the “branch of the future.” That’s because the robot isn’t yet advanced enough to perform complex tasks.

So, at the bank, Pepper will perform a variety of rudimentary tasks, such as providing visitors with information about HSBC’s financial products and services, educating customers on technologies such as HSBC’s mobile banking app, and explaining options for customer support. It’ll also ask visitors questions before directing them toward the appropriate staff member who can offer more specific assistance.

HSBC promised Pepper will happily pose for selfies, too, and even tell jokes and do a little dance if a human member of staff isn’t immediately available.

It sounds like fun for visitors, but the main challenge for HSBC will be keeping customers engaged with Pepper once the novelty of seeing a robot staff member wears off. In its home country of Japan, most people don’t give poor Pepper a second glance when they spot it in a store, while a recent posting at a grocery store in Scotland showed that most shoppers simply ignored it, prompting the store owner to describe it as little more than “a walking sign.”

But as its technology improves, we can expect Pepper and robots like it to increase their skills and perform more useful tasks in a range of settings.

HSBC’s Pablo Sanchez, for one, certainly isn’t fazed by Pepper’s limitations, claiming the robot will offer visitors to the Fifth Avenue branch “an experience in retail banking like never before.”

He added: “We’re focused on developing the ‘branch of the future,’ and our use of Pepper will streamline branch operations and delight our customers, allowing bank staff to have deeper, more high-value customer engagements.”

Pepper has been showing up at a range of workplaces ever since its launch in 2015. Besides welcoming folks at department stores and airports, the friendly android has also been helping out at Pizza Hut and is even working as a Buddhist priest.

HSBC claims to be the first financial institution in the U.S. to bring robots to retail banking, and it hopes to introduce more Peppers to its branches nationwide in the coming months.

Editors’ Recommendations

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• Say hi to Daisy, an Apple-made robot that recycles old iPhones

Facebook says it’s giving up on building its own internet drone

Facebook

Facebook is abandoning efforts to build its own internet drone.

The decision to end work on its Aquila aircraft comes after four years of development. The aim had been to use the solar-powered flying machine to bring internet connectivity to communities in remote parts of the world that don’t have any internet infrastructure.

But in a message posted this week, Facebook said that since it started working on the Aquila drone in 2014, a number of aerospace companies had begun developing high-altitude aircraft with similar aims in mind.

“Given these developments, we’ve decided not to design or build our own aircraft any longer,” Yael Maguire, a director of engineering at the social networking company, wrote in the post.

The company says that it’ll keep the Aquila project alive by collaborating with partners such as Airbus, and also continue working on other initiatives aimed at getting more people online.

High hopes

Facebook once had high hopes for its solar-powered drone. The plan was to deploy a fleet of them at high altitude for up to 90 days at a time while delivering tens of gigabits per second of bandwidth to communities below.

But designing the Aquila drone, which at 42 meters featured a wingspan wider than that of a Boeing 737, was clearly a huge challenge. Facebook chief Mark Zuckerberg made that abundantly clear in a blog post in the summer of 2016 in which he listed numerous hurdles that had to be overcome.

The team suffered a setback at the end of the same year when windy conditions during a test flight caused the aircraft to crash during a landing attempt, an incident that prompted engineers to review its design. It achieved a clean landing in 2017, but it’d taken six months to reach that point.

Abandoning work on the drone will result in the closure of a Facebook facility in Bridgwater, England. It’s not clear how many jobs will be lost or transferred as a result.

“Connectivity for everyone”

Maguire wrote that “connectivity for everyone, everywhere is one of the great challenges of our generation,” adding that Facebook has already connected nearly 100 million people as a result of its various efforts.

As the company now looks to aerospace firms to help it one day get an internet drone in the air, Maguire said Facebook is continuing to invest in developing next-generation, internet-related technologies “like Terragraph, working with partners on new infrastructure builds like our fiber project in Uganda, and supporting entrepreneurs in programs like Express Wi-Fi — all to help connect the four billion people who still do not have access to the internet.”

Facebook’s drone project had been competing to some extent with Google’s Project Loon, which uses enormous high-altitude balloons instead of pilotless aircraft to carry the necessary equipment for enabling internet connectivity.

Instagram now lets you video chat with up to three buddies

Instagram

It’s a busy time for Instagram just now. Right after launching IGTV, it’s now introduced video chat in Instagram Direct that lets you chinwag with a single buddy or several at once.

“Video chat gives you the experience of real-time video in a private space and helps you feel close and connected to friends when you can’t be together,” the Facebook-owned company said in a post on Tuesday.

The feature lets you connect with all of your Instagram friends whether they’re using an iOS or Android device, and unlike some chat and messaging services, you don’t need a phone number to get started. So long as you have an active Direct thread with them, you’re good to go.

To begin a video chat, swipe into your Direct inbox and open any message thread. See the camera icon in the top right corner? Tap it to initiate a call.

During a chat, you can minimize the video and do other stuff on the Instagram app like sending messages and photos in Direct, checking your feed, posting a story, and so on.

The new feature lets you chat with as many as four buddies at a time, with each participant given their own space on the display so you can all see each other.

“If there’s an active video chat in a group thread, the camera icon will turn blue,” Instagram says. “Simply tap the camera to join in the fun.”

If you want to leave an active chat among friends or end the call if it’s with one other person, then tap the red phone icon at the bottom of the display.

Don’t want to receive a chat request from someone? Just block them to prevent calls. It’s also possible to mute an individual if you’d prefer not to receive notifications from them. To confirm your video chat notification settings, tap the gear icon on your profile and you’ll find the new video chat control in Push Notifications.

Explore and camera effects

Instagram has also given some attention to the Explore tab, retaining its style but adding new topic channels along the top to help you surface content of interest. You can move quickly between the different topics by swiping the entire grid.

Finally, Instagram’s one billion users can also have fun with some new camera effects designed by Ariana Grande, BuzzFeed, Liza Koshy, Baby Ariel, and the NBA.

Introducing video chat takes Instagram another step away from its roots as a simple photo-sharing app, but with people now so used to having social media apps packed with features, the team behind it calculates that this latest one will prove a hit. It should certainly achieve its main aim of keeping users within the app for longer, eliminating the need to hop out to a competitor to initiate a call. Launching with a group video option is also important, as the likes of Facebook Messenger, WhatsApp, and Snapchat already offer such a feature. Apple’s FaceTime will begin offering group video chats with iOS 12 when it launches in the fall.

Editors’ Recommendations

• Hang out via video chat, then tag friends in Stories with Snapchat’s new tools
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How to Install the macOS Mojave Public Beta

Apple has released the first public beta of macOS Mojave, the next major version of its Mac operating system due to launch in the fall. The availability of the public beta means Mac users don’t need to be part of the Apple Developer Program to be able to download and test the software. This article shows you how it’s done.

Before continuing, a word of warning: We don’t recommend installing the macOS Mojave Public Beta on your main Mac. The stability of beta software cannot be guaranteed, as it often contains bugs and issues that have yet to be ironed out, so you’re better off using a test machine to avoid any potential data loss.

macOS Mojave is a major update that introduces a range of new features like a Dark Mode, Desktop and Finder improvements, new apps, and a revamped Mac App Store, but not every Mac that can run macOS High Sierra will run macOS Mojave. The full list of compatible Mac models is as follows:

• MacBook (Early 2015 or newer)
• MacBook Air (Mid 2012 or newer)
• MacBook Pro (Mid 2012 or newer)
• Mac mini (Late 2012 or newer)
• iMac (Late 2012 or newer)
• iMac Pro (2017)
• Mac Pro (Late 2013, plus mid 2010 and mid 2012 models with recommended Metal-capable GPU)

Bear in mind that if you decide you want to revert back to your previous setup after testing the Mojave beta, you will need to erase the beta partition and perform a new macOS High Sierra installation.

Enroll in the Apple Beta Software Program

To install the macOS Mojave public beta, you need to enroll your Mac in the free Apple Beta Software Program.
Visit the Apple Beta Software Program website in a browser on your Mac.
Click the Sign up button, or sign in if you are already a member.
Enter your Apple ID credentials and click the Sign in button, and input your two-factor authentication code if requested.
Agree to the Apple Beta Software Program terms and conditions if necessary.
On the Guide for Public Betas screen, click Enroll Your Devices above the top line. Alternatively, with the Mac tab selected, scroll down to the Get Started section and click enroll your device.

Download the macOS Mojave Public Beta

After enrolling in the Apple Beta Software Program, you need to grab the profile installer and run it on your Mac. Here’s how:In the same Enroll Your Devices section on the beta site’s Mac tab, click the profile button under where it says Download macOS Mojave public beta access utility, and wait for the file to download.
Open the downloaded file in your Downloads window and double-click the package to run the installer.
When the installer has completed the download, the Mac App Store should open automatically showing the macOS Mojave screen. Click Download to download the public beta software. When the download is complete, your Mac should restart automatically.

Install the macOS Mojave Public Beta

If the macOS Mojave installer doesn’t automatically open upon restart, launch it from your Applications folder using the Finder.Click Continue at the bottom of the installer.
A dropdown prompt may appear advising you to back up your Mac. Assuming you’ve already backed up, click Continue. If not, click Cancel and do that now.
Click Continue at the bottom once you’ve finished backing up, or if you already performed a backup.
Click Agree to accept the terms and conditions and then click Agree again to confirm.
Select the drive on which you want to install the public beta.

Click Install, enter your administrator password, and click OK.
Click Restart, or wait for your Mac to reboot automatically. Subscribe to the MacRumors YouTube channel for more videos.
And that’s it. Your Mac should now be running the macOS Mojave Public Beta. For a complete picture of all of the new features you can expect to see when macOS Mojave is released in the fall, make sure to check out our full macOS Mojave roundup.

Related Roundup: macOS Mojave
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Amazon is finally bringing Alexa voice control to the iPhone

Amazon Alexa may be largely considered to be one of the best digital assistants out there, but users haven’t been able to interact with Alexa using their voice on their iPhone. Thankfully, that is now changing — Amazon is finally allowing iOS users to control Alexa with their voice.

The move to Android and iOS marks a big push for Amazon into third-party operating systems. Android users have had voice control since the beginning of the year, and at the time Amazon promised that the feature would be coming to iOS “soon.” Of course, you won’t be able to use Alexa natively on iOS — Apple simply doesn’t allow third-party digital assistants to get the same treatment as Siri — but you will be able to simply open up the Alexa app to ask Alexa questions. The update will be rolled out over the next few days, so if you don’t have it just yet, you will soon.

Like Alexa in your Amazon Echo, Alexa on your phone can do all kinds of things. For starters, you can use it to control your connected smart home devices. On top of that, you can ask it about things like the weather and access any of its 40,000-plus skills. Alexa on iOS and Android also has a visual component to it — if you ask about the weather, you get a visual representation of the answer on your phone. If you ask about your calendar events, you see your upcoming appointments.

It makes sense that Amazon would launch the feature on Android and iOS. Because of the fact that the company doesn’t have a decently large mobile user base of its own, it faces an uphill battle against the likes of Apple and Google, who have large user bases that have Google Assistant and Siri available to them in their pocket. Because of that, launching Alexa on mobile seems like the best way for Amazon to proceed in its digital assistant endeavors.

Alexa has been getting increasingly popular over the past few years. Mobile aside, the digital assistant is available in a range of speakers, plus it’s now coming to cars and kitchen appliances too.

Editors’ Recommendations

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Razer Blade 15 vs. MacBook Pro

Riley Young/Digital Trends

Apple and Razer typically offer rather different products to one another and as such, typically have rather different user bases too. However, as Razer has trimmed and tightened its laptops into sleek gaming machines, today both companies offer low weight, great looking laptops of various sizes.

That means new buyers may find it increasingly tough to pick which path to go down, which is why we’re pitting the Razer Blade 15 vs. MacBook Pro, to see which would be the better choice.

Design

There’s a reason we call Razer the “Apple of gaming” in our recent review of the Blade 15 — because typically its hardware looks like black-painted MacBooks. That’s changed up in the latest design though, with the Razer Blade 15 having a more boxy look while maintaining the sleek lines and low-profile form-factor of its predecessors. Its bezels have been trimmed down for this generation of hardware too, making for a seamless-looking display. Razer did have the forethought to retain a larger top bezel though, which means the webcam remains mounted up top where it belongs.

The MacBook Pro is as always, a beautiful design and its silver paint job does make it look starkly different to Razer’s usual black aesthetic. It’s also thinner and lighter than the Razer Blade 15. It doesn’t offer quite so much versatility in port selection though. While some MacBook Pro versions can have up to four USB ports, they are all Type-C, whereas the Blade 15 has a single USB-C Thunderbolt 3 port and three USB-A 3.1 ports. It also has an HDMI and Mini DisplayPort for hooking up external displays.

Keyboards are also noticeably different between the two. We found the latest generation of MacBook Pro frustrating in its keyboard design (which has a tendency to fail). While better than its predecessors, the low-profile “butterfly” switches are not something we were enamored with. The Razer Blade 15, on the other hand, has a fantastic keyboard, though Razer did make one arbitrary change its layout which took some getting used to.

The MacBook Pro does have the Touch Bar as an alternative input, but we found that rather gimmicky with no real purpose.

Performance

Riley Young/Digital Trends

Considering one of the laptops in this head to head is designed for gaming and the other isn’t, it’s no surprise to learn that the Razer Blade 15 is the more powerful machine — even if the Pro is the best MacBook available. The entry-level model starts at $1,900 and packs an eighth-generation Intel Core i7-8750H CPU with 16GB of RAM under the hood. It also has an Nvidia GTX 1060 Max-Q graphics card for gaming on its 1080p IPS monitor. For those with deeper pockets, there are options for up to a GTX 1070 graphics card, a 144Hz 1080p display, and a 4K option, though prices close in on $3,000 at the top end. There’s also always the option of expanding its graphical capabilities with an external GPU using Razer’s Core V2 external graphics enclosure.

The MacBook Pro, on the other hand, starts at $2,000 with a seventh-generation Intel Core i7 CPU, 16GB of RAM, and no dedicated graphics at all. Optional upgrades let users opt for a higher CPU clock speed and Radeon Pro graphics, but that won’t hold a candle to the Razer Blade’s offerings. One advantage the MacBook does have though is in its default display. All Pro versions have a 2,880 x 1,800 display, which looks beautiful. It doesn’t support high-refresh rates, but that’s of less benefit on a non-gaming system anyhow.

The MacBook offers better storage options for potential buyers too. Where the Blade 15 can only offer up to 512GB of PCIe storage, the MacBook Pro can come with up to 2TB of solid state space.

Portability

One of the classic problems with gaming laptops is that they aren’t the most portable. Razer’s Blade 15 is its best effort yet but it still comes in heavier than the MacBook Pro. The Blade 15 is 13.98 x 9.25 x 0.66-inches and weighs in at 4.56 pounds, while the MacBook Pro is 13.75 x 9.48 x 0.61-inches and 4.02 pounds. The difference there isn’t huge and you’re unlikely to notice day to day, especially since you have to accept slightly weightier hardware at the 15-inch form factor.

The Razer Blade has the larger battery by the numbers at 80-watt hours, but its heftier hardware does mean it’s not quite as efficient a machine as the Apple alternative. It managed just over seven-hours in our video loop tests and just under four and a half hours in our web-browsing test. Apple claims around 10 hours of general usage for its 15-inch MacBook Pro, which was something that played out in our review of the 13-inch version. Much like the weight and size, what you get with the Razer is impressive considering its internal hardware, but it’s fair to say that the MacBook Pro is still a little bit more portable.

Bang for buck

Riley Young/Digital Trends

When it comes down to it, the Razer Blade 15 offers a lot more for your money than the MacBook Pro. While the Apple laptop is a beautifully designed piece of kit, with a gorgeous display, decent battery life, and a slightly lighter frame, the Blade 15 is just so much more capable. Its battery life and weight are close enough to not be major factors, it looks stunning, and has a better keyboard. But on top of all those close-run races, it destroys the MacBook Pro in terms of performance at a competitive. Its processor is a six-core powerhouse that steams ahead of the Apple’s older hardware offerings and the on board graphics card has real gaming power, unlike the MacBook’s Radeon GPU.

While some may opt for the MacBook Pro because of a passionate interest in Apple’s MacOS platform, there is little reason to otherwise. The Blade 15 is an all round better piece of kit.

Editors’ Recommendations

• Razer Blade Stealth (2018) review
• Razer Blade Stealth vs. Apple MacBook Pro
• Razer Blade Stealth vs. Dell XPS 13
• Razer Blade 15 (2018) review
• 5 reasons why the new Razer Blade looks amazing

Qualcomm’s new Snapdragon 632, 439 and 429 are coming to mid-range phones this year

These are the new chips you’ll see in mid-range phones for the next two years.

Qualcomm’s Snapdragon 800-series platforms get most of the headlines, but it’s the mid-range 600 and 400-series that power more devices and are critical to the performance of less expensive phones. With that in mind, Qualcomm has announced the new Snapdragon 632, 439 and 429 — upgrades from the current 626, 430 and 425, respectively.

Further pushing the envelope in the mid-range, the Snapdragon 632 brings some nice features. The base architecture is 8 Kryo 250 CPU cores, split into 4 performance cores and 4 efficiency-focused cores each at 1.8GHz. There’s a new Adreno 506 GPU, support for FHD+ displays and support for up to dual 13MP cameras or a single 24MP camera with real-time portrait mode processing and wide-angle lenses. The new 632 is likely to power phones up to the $400 MSRP range — and if the current devices using the 626 are any indication, this will be a great chip for getting enough power while having great battery efficiency.

You’ll see these chips in thousands of phone models over the next two years.

On the lower end, things aren’t as exciting. The Snapdragon 439 is an octa-core chip with Cortex A53 cores arranged in a set of 4 at 1.95GHz for performance and another 4 at 1.45GHz for efficiency. The 429 is a basic quad-core unit, with just the performance set of 1.95GHz cores. The 439 supports FHD+ displays and 12MP single or 8+8MP dual cameras, while the 429 maxes out at HD+ and 16MP or 8+8MP cameras. You’ll find the 439 and 429 in thousands of varieties of mid-range phones over the next couple years, from the $300 range all the way down toward $100 MSRP.

Outside of those differences, there are some consistencies. All of the new chips use the same supporting chips for functions like RF and audio, all support dual SIM with dual VoLTE connections, and each has some level of native artificial intelligence processing built in. A sneaky important announcement is that all three chips are using FinFET 3D transistor technology, which is used in high-end chips and lets them be more powerful while also using less power. So even though the 600 and 400-series are still not high-end chips, they’re sharing some core technology with the 700 and 800 series.

These aren’t high-end chips, but they share some core technology with Qualcomm’s best.

A notable talking point from Qualcomm is the cross-compatibility with these new chips and existing ones. The 632 is pin compatible with the existing 626, 625 and 450 chips, and the 439 and 429 are pin compatible between each other — that all means that manufacturers can pick and choose which one they want without making further architectural changes on their boards, and in the case of the 632 they could more easily choose to move from an older chip to the newer one in the middle of a development cycle.

Qualcomm’s partners are expected to release phones with the new platforms in the second half of 2018, so we won’t have to wait long to see what these processors can do in the real world.

Press release:

Qualcomm Announces Three New Snapdragon Mobile Platforms for Expanding High- and Mid-Tiers

—New Platforms Designed to Deliver Performance and Power Efficiency Improvements to Mass Market Smartphone Segment—

SAN DIEGO — June 26, 2018 — Qualcomm Technologies, Inc., a subsidiary of Qualcomm Incorporated (NASDAQ: QCOM), announced three new additions to the Qualcomm® Snapdragon™ 600 and 400 tiers – the Snapdragon 632, 439 and 429 Mobile Platforms. These platforms are engineered to bring higher performance, better battery life, more efficient designs, impressive graphics and artificial intelligence (AI) capabilities into the highest-selling Snapdragon tiers. Qualcomm Technologies continues to bring more premium technology advancements to lower Snapdragon tiers, which is helping to transform the mass-market consumer experience.

“The introduction of Snapdragon 632, 439 and 429 builds off Qualcomm Technologies’ highestselling mobile platforms and provides users with increased performance and power efficiency,
superior graphics, AI capabilities and enhanced connectivity features,” said Kedar Kondap, vice president, product management, Qualcomm Technologies, Inc. “We’re excited to offer these new
platforms with enhanced features to our OEMs and consumers.”

More than 1,350 commercial devices based on Snapdragon 600-tier mobile platforms and more than 2,300 commercial devices based on Snapdragon 400-tier mobile platforms have been announced by global OEMs. This new generation of platforms brings big improvements to already successful and feature-rich platforms.

Snapdragon 632: The new Snapdragon 632 brings some of the most sought-after mobile experiences, including mainstream gaming, 4K video capture, artificial intelligence, and fast LTE speeds—all for an affordable price. Built on advanced FinFET process technology, the Snapdragon 632 is designed to achieve 40% higher performance thanks to the combination of the Qualcomm® Kryo™ 250 CPU and Qualcomm® Adreno™ 506 GPU. Camera aficionados can benefit from either a single 24MP single-camera or dual cameras at 13MP each, while display resolutions can scale up to FHD+. For fast cellular speeds, the Snapdragon 632 also includes the X9 LTE modem, which supports LTE Advanced technologies like carrier aggregation.

Snapdragon 439 and 429: The new Snapdragon 439 and 429 Mobile Platforms were created to help deliver popular mobile experiences for mass market, price-sensitive consumers. Both platforms are equipped with artificial intelligence capabilities that enhance the camera, voice, and security experience. Built with FinFET process technology advancements, the Snapdragon 439 and 429 Mobile Platforms are designed to improve CPU performance and power efficiency by 25%3. They both feature the established X6 LTE modem for fast downloads, smooth video streams, and near seamless web browsing. Snapdragon 439 is equipped with an octa-core CPU and includes the Adreno 505 GPU designed with 20% faster graphics rendering. The Snapdragon 429 scales to an Adreno 504 GPU, designed for a whopping 50% improvement in graphics rendering. Snapdragon 439 features 21MP single-camera and 8+8MP dual-cameras along with support for FHD+ display, while the Snapdragon 429 includes 16MP single-camera and 8+8MP dual-cameras with HD+ display. Snapdragon 632, 439 and 429 are software compatible, as well as with Snapdragon 626, 625 and 450. The Snapdragon 439 and 429 are pin- and software-compatible. Commercial devices based on Snapdragon 632, 439 and 429 are expected to launch in the second half of this year.

Qualcomm wants to own the ‘kid watch’ market with its new Snapdragon Wear 2500 platform

More versions of Android optimized for the wrist.

The Android smartwatch space may be sputtering along, but Qualcomm is not worried. Its new Snapdragon Wear 2500 platform, a pseudo-successor to the Snapdragon Wear 2100, is aimed at children. Specifically, kids aged four to 10 years old.

Such an age bracket may seem a bit young to be outfitted with connected gadgets — most kids under 10 don’t yet have a smartphone — but Qualcomm thinks the realities are related. Parents want their kids to be accessible and trackable without giving them phones, and the Snapdragon Wear 2500 platform ostensibly provides the tools for manufacturers like Huawei, a hardware launch partner, to build those experiences.

An example of a kid watch from Vtech. Qualcomm thinks it can improve on this already-perfect design 😂

The Snapdragon Wear 2500 platform builds on the Snapdragon Wear 2100, which was itself based on the aging Snapdragon 400 smartphone chip from 2013, by integrating a number of Cortex-A7 cores, a built-in LTE modem for phone calls, always-listening voice activation for Google Assistant, a sensor hub for gestures and activity tracking, NFC for payments at school, GPS and geofencing for location, and even a 5MP camera for video calls.

Qualcomm says that these watches won’t run Wear OS but a variant of Android Oreo optimized for small screens and just 512MB of RAM.

One area Qualcomm says it’s improved dramatically over the Snapdragon Wear 2100 is the battery: by utilizing improvements in design, power efficiency in various chips, and a lower-power modem, Qualcomm believes Snapdragon Wear 2500-powered watches will get over a day of use despite doing much more than the average smartwatch.

In reality, though, what it sounds like Qualcomm is doing is providing the tools for hardware companies to build small, basic wrist-worn smartphones for kids. Huawei thinks this could offset the lull in smartwatch interest, but it remains to be seen whether there’s a sizeable audience for these kinds of experiences, especially since plain Android on a watch has typically been awful.

Qualcomm will be shipping development kits to interested parties in the fall of 2018, so it’s unlikely we’ll see any commercial products based on the Snapdragon Wear 2500 platform until 2019. In the meantime, we’re still waiting for Qualcomm’s real update to its smartwatch platform — the one that’s set to power the next-generation of adult smartwatches. That is, if anyone’s still buying.

Press release:

Qualcomm Helps to accelerate 4G Kid Watch Segment with Dedicated Snapdragon Wear 2500 Platform

—Qualcomm Snapdragon Wear 2100 Platform Now Widely Used in Kid Watch Products by more than 10 OEMs Across more than 10 Operators in more than 10 Countries—

**SHANGHAI, CHINA – June 27, 2018 ** Today, at Mobile World Congress Shanghai, Qualcomm Technologies, Inc., a subsidiary of Qualcomm Incorporated, announced its first platform targeted specifically for 4G connected kids watches. The Qualcomm® Snapdragon WearTM 2500 platform is designed to deliver a robust foundation with extended battery life, an integrated sensor hub with pre-optimized algorithms, low power location tracking, and the company’s fifth generation 4G LTE modem, and optimized version of Android for kids. Built into a variety of customer devices, the Snapdragon Wear 2500 platform helps children to keep in touch with family, learn and grow with access to rich multimedia content, have fun and play with friends, and stay fit and active throughout the day – while also helping provide parents with peace of mind.

“If you look at the targeted kid watch and tracker segment the growth in these designed-for-kids but highly capable devices, is very exciting, and customers are seeing wide spread global demand. Qualcomm Technologies, Inc. has helped to drive this fast expansion of 4G kid watches with its Snapdragon Wear 2100 platform and there are more than 10 devices commercially available today through retail and carriers,” said Anthony Murray, senior vice president and general manager, voice & music and wearables, Qualcomm Technologies International, Ltd. “With this next generation Snapdragon Wear 2500 platform, we are supporting new performance and features that customers will be able to use to create even more fun features and compelling use cases for these connected 4G kid watches and with our dedicated kid watch platform we aim to deliver a robust foundation that supports a rich and engaging experience for children.”

A Robust Kid Watch Platform

Snapdragon Wear 2500 is designed for low power with up to 14 percent longer battery life across both active and standby modes of operation compared to prior generations. This extended battery life is supported via several new features including: Wearable PMIC, RF Front End (RFFE), location engine, Bluetooth streaming architecture, and processor and modem software optimizations. The new Wearable PMIC is designed to reduce Rock Bottom Sleep Current (RBSC) by up to 14 percent, is smaller by 38 percent and comes in a compact package that integrates power management, charger, fuel gauge, and haptics driver functionality. The new Gallium Arsenide (GaAs) based RF PAs are designed to consume up to 20 percent lower peak power compared to their predecessors.

The Snapdragon Wear 2500 platform is based on Qualcomm Technologies’ proven, globally certified fifth generation 4G LTE multi-mode modem. Using the latest in global navigation satellite system and sensor fusion approach, the platform supports more accurate location tracking and is designed to implement reliable geofencing use cases, important for parents eager to track their child’s location accurately.

Additionally, the Snapdragon Wear 2500 hardware platform is accompanied with an optimized version of Android for kid watches. Based on Android “O”, this version fits in a 512MB memory footprint, is designed to consume low power by shutting off capabilities not needed, right sizes the modem for wearables use cases, integrates the sensor hub for low power highly accurate sensing, and adds kid watch specific features.

Designed to Bring Tomorrow’s Kid Watch Experiences Today

Based on high-performance quad-core A7 processors and an Adreno-class graphics engine, the Snapdragon Wear 2500 platform is designed to bring rich messaging and integrated learning experiences to children. The platform supports a five mega-pixel camera for parents to get in touch with their child over a video call or for the kids to enjoy rich educational video-based content. The platform incorporates Qualcomm® Voice Activation and supports popular AI-based voice assistants, making it possible to converse naturally and access rich educational content on the web. The platform also integrates NXP’s next generation highly secure NFC solution, which is designed to allow kids to leave their wallet behind for everyday purchases at school.

The platform integrates an ultra-low power sensor hub and comes with pre-optimized sensor algorithms designed to provide a highly accurate smart sensing experience. Using these sensors can help children to stay active and fit while parents can monitor the health of their loved ones. Additionally, the platform supports gesture-based gaming and entertainment applications so children continue to enjoy their experience with the kid watch.

Ecosystem Collaboration to Extend the Benefits of the Platform

Qualcomm Technologies announced that it is collaborating with Huawei as the lead customer for the Snapdragon Wear 2500 platform and is working closely with InvenSense, Inc. to extend choice of sensor algorithms to its customers.

“At Huawei, we are proud to be the first company expected to commercialize a 4G Kids watch based on the new Snapdragon Wear 2500 platform,” said Rico Zhang, Smart Wearable and Health Product Line President, Huawei. “Built on the outstanding power-efficiency, 4G connectivity, smart sensing, and location capabilities that the new platform is designed to deliver, we are pleased to extend our long-time collaboration with Qualcomm Technologies, Inc. in the wearables segment and bring our next generation kid watches to the industry.”

“We’re excited to be working with Qualcomm Technologies, Inc. on the Snapdragon Wear 2500 kid watch platform”, said Nicolas Sauvage, Senior Director, Ecosystem, InvenSense, Inc., a TDK Group Company. “Utilizing our vast algorithmic expertise in six-axis motion sensing, InvenSense, Inc is supporting multiple meaningful gestures on this platform, helping to provide OEMs with customizable responses to gestures, reducing development time, and humanizing the digital experience.”

Qualcomm Technologies, Inc. is shipping commercial samples of the Snapdragon Wear 2500 platform to customers and via sales channels now. To help device makers bring exciting kid watches more efficiently and cost-effectively, Qualcomm Technologies, Inc. is working with a number of original design manufacturers (ODMs) on 4G kid watch designs. Additionally, Intrinsyc, a leading contributor in this effort, is aiming to offer a Snapdragon Wear 2500 based system-on-module and development kit will be available in the third quarter of 2018. The Development Kit is available for pre-order at http://shop.intrinsyc.com/collections/product- development-kits. Additional information is available at: https://www.intrinsyc.com/system-on- modules/.

Why leaky taps make that ‘plink’ noise — and what we can do about it

Whether it’s curing epidemics, figuring out how to knock Earth-bound asteroids off course, or working out the rocket science that will let us colonize Mars, there are some problems we’re glad to know the world’s best and brightest are focused on solving. A possible fourth? Giving us insight into out why in the name of all that is good do leaky taps drip so darn loudly — and what we can do about it.

This last conundrum was the focus of a recent research project from investigators at the U.K.’s University of Cambridge. While water droplets have been a source of scientific interest for more than a century, this is the first time anyone has tried to figure out the physical explanation behind the highly distinctive sound.

“This study was all about finding out what was behind the well known ‘plink’ sound produced by a drop of water falling into some more water — for example, from a leaking roof into a bucket, or a tap into a sink,” researcher Sam Phillips, who carried out the work for his masters’ degree dissertation, told Digital Trends.

The team used ultra high-speed cameras and sensitive microphones, placed above and below the water surface. With this setup, they then took slow-motion videos of water droplets impacting the water surface and synchronized these images with the sound recording. Their research demonstrated that the sound is, in fact, driven not by the splash that we see, but by a tiny vibrating air bubble which gets trapped under the surface of the water.

“We also found that the way this bubble produces the sound is that its vibrations cause the water surface itself to oscillate, with the surface then acting like a piston to drive sound waves into the air,” Phillips continued.

So how do we stop these sounds, so that we will never again have another night’s sleep disrupted by an unreasonably loud leaky tap?

“As part of confirming that the trapped air bubble really was causing all the sound we tried to prevent it from being produced,” Phillips said. “One way we did this was by adding a small amount of washing up liquid, or detergent, to the water surface to change the surface tension and prevent the bubble from being trapped under the water. In our experiment this worked, so it may be that adding a small amount of washing up liquid to the water that is being dripped into is a simple solution to stop the sound.”

A paper describing the work was recently published in the journal Scientific Reports.

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