LG G4 to get a White Gold colored variant in Korea
Depending on your preferred company of choice, proper priority and device diplomacy may be extended to either (a) the place/s any given product is most popular in, or (b) a place where the manufacturer wants to “test the waters”, or (c) the manufacturer’s home territory. For those inclined to support LG or Samsung sublime, South Korea is typically home to the best in show. Indeed the country has seen products like the Urbane LTE or Galaxy Round. This time however, it’s just a color variant that’s sound.
LG has announced it will be releasing a White Gold edition of its flagship G4. The device, which is targeting women and the younger crowd according to the OEM, features a white front and back, with a gold colored plastic frame. The device will retail for 699,600 Won ($577). Unlike last year which saw LG release a Korea-only G3 with slightly higher specs, this offering has the exact same internals as the “standard” G4.
LG G4
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For those in need of a refresher, the device packs the following specs:
| Display | 5.5-inch LCD Quantum Dot 2560 x 1440 resolution, 534 ppi |
| Processor | Qualcomm Snapdragon 808 (hexa-core: 2xCortex A57+ 4xCortex A53, 64-bit), Adreno 418 GPU |
| RAM | 3 GB DDR3 |
| Storage | 32 GB, expandable via microSD, up to 128GB |
| Camera | Rear camera: 16MP, f/1.8, color spectrum sensor, OIS, laser-assisted focus; front camera: 8MP |
| Connectivity | HSPA, LTE-Advanced Wi-Fi 802.11 a/b/g/n/ac, dual-band, Wi-Fi Direct Bluetooth 4.1 |
| Sensors | Accelerometer, gyro, proximity, compass |
| Battery | 3,000 mAh, user removable, wireless charging, quick charging |
| Software | Android 5.0 Lollipop, LG UX 4.0 |
| Dimensions | 149.8 x 76.2 x 6.3-9.8 mm, 155 g |
| Colors and finishes | Plastic: Gray, Gold, White Leather: Black / Brown / Red / Sky Blue / Beige / Yellow |
There is no word as-of-yet regarding an international release of the White Gold G4 color variant, however given that the hardware itself is now getting relatively “long in the tooth” it wouldn’t be surprising if the stellar shade is strictly a Korean-only affair. For those that have been keeping tabs, LG has also released a black leather variant of its new V10, however the device is currently only available in Asia.
Those hoping for some real gold in their LG ware might want to save up for the Luxe-uriously expensive Urbane limited edition.
Snapdragon 820 vs Exynos: the 2016 mobile SoC battle begins
Qualcomm has officially launched its Snapdragon 820, Huawei’s HiSilicon has just announced its latest Kirin 950 SoC, and MediaTek has already dished out the details on its early 2016 chip range. Although we are still waiting on more specific details about the Qualcomm Snapdragon 820’s Kryo CPU and upcoming Exynos SoC from Samsung, we now have a pretty good idea about what the mobile processor sphere will look like in the first half of 2016, and it’s shaping up to be a highly competitive scene.
Today we’re going to look at the new Qualcomm Snapdragon 820, Huawei Kirin 950 and the MediaTek Helio X20, and we’ll throw in what little we known about the rumored Samsung Exynos 8890 as well. Here’s a general breakdown of how the processing hardware inside each SoC stacks up:
| Snapdragon 820 | Kirin 950 | Helio X20 | Exynos 8890 (rumored) | |
|---|---|---|---|---|
| CPU | 4x Kryo @ 2.2GHz | 4x Cortex-A72 @ 2.3GHZ 4x Cortex-A53 @ 1.8GHz |
2x Cortex-A72 @ 2.5GHz 4x Cortex-A53 @ 2.0GHz 4x Cortex-A53 @ 1.4GHz |
8x unknown custom AP @2.4GHz |
| Instruction Set | ARMv8-A (32/64-bit) | ARMv8-A (32/64-bit) | ARMv8-A (32/64-bit) | ARMv8-A (32/64-bit) |
| GPU | Adreno 530 | Mali-T880 MP4 | Mali-T880 MP4 | unknown (Mali-T880 likely) |
| RAM | 2x LPDDR4 | 2x LPDDR4 | 2x LPDDR3 933MHz | unknown (LPDDR4 likely) |
| Process | 14nm FinFET | 16nm FinFET | 20nm HMP | 14nm FinFET |
| 4G | LTE Cat 12/13 | LTE Cat 6 | LTE Cat 6 | LTE Cat 11 |
big vs LITTLE
While 2015 has been dominated by octa-core CPU designs from all of the major SoC vendors, 2016 looks set to split the market firmly into two camps. While HiSilicon, MediaTek and Samsung all look set to continue with ARM’s big.LITTLE architecture, Qualcomm is planning to move back over to a quad-core setup with its Snapdragon 820. MediaTek, on the other hand, is taking the multi-core strategy even further with the arrival of its 10 CPU core Helio X20 CPU, which arranges core clusters into a Min.Mid.Max configuration to try and offer a smoother transition from low power to high performance scenarios.
While big.LITTLE designs make use of a mix of high performance and lower power CPU cores to balance out power and performance depending on the required task, Qualcomm appears to be using four identical CPU cores in the Snapdragon 820, named Kryo. We don’t have the full hardware breakdown of Qualcomm’s Kryo yet, but it is going to be a very interesting to see how its design and use of clock scaling and core gating, along with core design optimizations, can compare with systems that leverage much lower power components. Qualcomm’s focus on Heterogeneous Compute (HC) for some tasks may prove key to keeping power consumption to a minimum, given the performance gains that Qualcomm is touting with Kyro.
An overview of Huawei’s Kirin 950 SoC, an advancement over the big.LITTLE chips seen throughout 2015.
Speaking of HC, both the MediaTek X20 and Kirin 950 also feature an ARM microcontroller-based “companion core”, which have access to the main SoC DRAM. These are designed to help save on power by taking over “always-on” activities. The X20 features a Cortex-M4 while the 950 makes use of a more powerful Corex-M7, but both of them are designed to reduce idle and sleep power consumption over using more power hungry CPU cores alone. Qualcomm is looking to do a similar thing with its own Hexagon 680 DSP unit and these additional low power units are becoming important to help save on battery life as larger CPU cores become more powerful, and therefore more demanding from our battery cells.
Looking past just the CPUs, all of tomorrow’s mobile SoCs are complex, multi-processor machines.
Creating custom CPU cores
The reason for Qualcomm’s move back over to a quad-core design is all to do with the company’s new Kryo CPU design. Rather than using a licensed designed from ARM, such as the Cortex A57 and A53 found in the Snapdragon 810, Qualcomm is moving back over to an in house CPU design that makes use of the same ARMv8-A (64/32-bit) instruction set as all other modern mobile processors. Qualcomm no doubt made some very specific optimizations to its hardware, but the company is remaining usually tight lipped about its secrets.
Although not confirmed, Samsung is also expected to be gearing up its own custom CPU core design with its Exynos 8890 SoC, which may appear in the Galaxy S7. However, unlike Qualcomm the reports state that the chip will still be based on a big.LITTLE design and will feature eight CPU cores. This suggests that Samsung is looking at a wider, power efficient CPU design, while Qualcomm is opting for more grunt per core, but fewer of them. Seeing which one ends up better suited for mobile, both in terms of performance and energy consumption, is going to be interesting to observe.
Read more: Qualcomm Kryo and heterogeneous computing explained
See also: Report: Samsung Exynos 8890 with custom CPU for the Galaxy S7
Those SoC vendors that aren’t designing their own CPU cores are lining up to make use of ARM’s latest Cortex-A72 CPU, which boasts some small performance gains over the popular Cortex-A53 and should see notable gains in energy efficiency. Both MediaTek and HiSilicon are pairing up this A72 with the efficient A53, although MediaTek believes that the best balance comes from using two A72s in its X20, while the Kirin 950 is using a quad-core cluster for additional peak performance.
There looks to be a much bigger variation in CPU design heading into 2016, which might produce some varied results in terms of performance and energy efficiency.
Graphics grunt
As well as new CPU technologies, all the major SoC designers are moving over to updated GPU components too.
The Mali-T800 is a particular popular choice for the next-generation of high-end mobile processors. In typical ARM fashion, energy efficiency has been improved by up to 40 percent with its latest generation design, which lends itself to a boost in performance too. Depending on the number of GPU cores and the manufacturing process used, there’s up to an 80 percent performance increase available over the Mali-T760.
MediaTek’s Helio X20 and the Kirin 950 are both confirmed to be using this GPU, and Samsung will likely pick up the chip as it is a successor to the Mali-T760 found in its current Exynos 7420. Qualcomm will be going alone with its Adreno 530 architecture, which is promising similar gains in energy efficiency and performance over this year’s 430. Gamers will almost certainly be happy with these next-gen chips.
What to expect – performance
One of the other points that we haven’t mentioned is the move over to new manufacturing processes. Samsung has a lead this generation thanks to its in-house 14nm FinFET line, but other companies will be catching up with similar processes with their latest chips.
We know that the Snapdragon 820 is making use of a 14nm process, quite possibly Samsung’s, while the Kirin 820 will be manufactured on TSMC’s 16nm FinFET process, bringing these chips level with the performance and energy efficiency gains that Samsung currently has. MediaTek’s Helio X20 will be designed on a 20nm process, which is where the Snapdragon 810 currently sits.
While we don’t have any hands on products with these chips inside to test their real world capabilities, a series of benchmarks for these SoCs have already appeared online, giving us a very general overview of where they sit in comparison to one another. Here’s a summary of the results, with the two leading chips from this generation thrown in for comparison. Don’t take these results as final though, things could easily change before products appear in our hands and their accuracy cannot be verified.
What we can surmise is that single core performance between Qualcomm Kryo and the new Cortex-A72 is going to be quite close, but both offer gains over the current A57 based SoCs. Samsung’s custom AP looks to be even more powerful in this regard, which is surprising as the chip is said to feature eight cores. Perhaps there is more than 1 CPU type here.
The use of additional lower power CPU cores appears to give high core count chips a lead over Qualcomm’s new SoC in multi-core scenarios, which is to be expected. We also see that the Helio x20, which has just two heavy duty A72 cores and eight smaller A53s, doesn’t quite keep up with the octa-core Kirin 950, which is what we would expect.
That being said, in real world scenarios where all cores are not used simultaneously at high levels, we should expect to see more similar performance between all of these chips. The interesting battle is going to be for energy efficiency, where the LITTLE cores might prove beneficial, although Qualcomm is boasting twice the efficiency of the 810 with its 820, so it’s going to be close.
Extra details: Kirin 950 announced: What you need to know
It’s worth noting that the scores for the rumored Exynos 8890 have varied quite wildly, ranging from results that are slightly below the 7420 up to the current score. Apparently, the chip has been tested in various power saving modes, which accounts for the slightly lower AnTuTu score when compared to the higher, more recent GeekBench result.
We will have to wait for dedicated GPU results once smartphone’s start arriving in our hands before we can delve any deeper, but initial benchmarks seem quite promising for all of these chips.
What to expect – features
SoCs aren’t just defined by their processing power these days though, support for extra features; such as enhanced DSP, image sensors and networking capabilities; also define the type of experience that customers have from their phones.
Higher resolution and multi-ISP support continues to be a big selling point and an area that Qualcomm has typically been on top of. The Snapdragon 820 will support up to three image sensors at once with its new Spectra ISP, and sensors up to 28 megapixels in size. Huawei’s Kirin 950 boasts dual ISP support or a single 34 megapixel sensor, while the X20 can handle 32MP video at 24fps or 25MP at 30fps.
Qualcomm’s Quick Charge 3.0 will also be available with the Snapdragon 820.
Sticking with image technology, all of the three manufacturers who have confirmed their next-gen chips have also stated that their ISP and DSP chips will offer a number of improvements, ranging from faster processing algorithms to face detection. 4K video playback is also supported across the board, as is enough GPU power for QHD display resolutions. Overall, the imaging feature set is going to be very close next year.
Qualcomm will also be bringing its Quick Charge 3.0 technology with the Snapdragon 820, which will be more efficient than Quick Charge 2.0. Other manufacturers have similar options for fast charging available too, but we’re not sure how this ties into these SoCs.
When it comes to networking, Qualcomm and Samsung both look to be slightly ahead with their ultra-fast 4G LTE support, offering up to Category 12 LTE download speeds of 600Mbps compared with Cat 6 speeds of 300Mbps offered by Huawei and MediaTek. Huawei, Qualcomm and Samsung are also supporting HD voice and LTE Wi-Fi video calls with their latest chips. The Snapdragon 820 also supports both 802.11ad and 802.11ac 2×2 MU-MIMO, which will allow Wi-Fi connectivity to be up to 2-3x faster than the standard 802.11ac without MU-MIMO, and will be the first commercial mobile processor to take advantage of LTE-U.
See also: Qualcomm announces LTE-U chips to boost data speeds using the 5GHz spectrum
It’s worth noting that most carriers aren’t offering speeds that will max either of these modems speeds out yet, but future proofing has never been a bad thing.
Wrap Up
There you have it, there’s plenty of performance, battery and feature improvements heading our way in 2016. Despite a number of feature similarities, the mobile SoC industry appears to be taking on some quite different approaches to processing than the designs that appeared in nearly all 2015 flagships. It is certainly going to be interesting to see how phones powered by these new chips stack up in the real world.
This generation: SoC showdown: Snapdragon 810 vs Exynos 7420 vs MediaTek Helio X10 vs Kirin 935
ASUS Zenfone 2 Laser review
There are a slew of high-end, and expensive, smartphones that dominate the Android smartphone game, but this year, there has been a larger focus on affordability, without compromising quality, as well. One such device is the ASUS Zenfone 2, which is one of our favorite mid-range smartphones of 2015, thanks to the unprecedented value for money it brought to the table.
Apart from the fact there there are a few different iterations of the Zenfone 2 itself, ASUS has also launched a few spin-offs, including the lower end Zenfone 2E and the more expensive Zenfone 2 Deluxe. Now, ASUS is hoping to maintain what defined the original Zenfone, but with a greater focus on the camera experience. Here is our comprehensive ASUS Zenfone 2 Laser review!
Design
As expected, the Zenfone 2 Laser retains the design language of its namesake, featuring the same 5.5-inch size and the ergonomically pleasing curve. While the Zenfone 2 Laser can easily be mistaken for the original, there are a few differences here. For starters, there is the addition of a laser auto-focus system next to the rear camera unit, which is what gives this device its name, and another pleasant change is the availability of a removable battery. Opening the back cover also allows for access to the dual SIM slots and the microSD card slot.
The Zenfone 2 Laser is certainly outside the realm of comfortable one-handed use, but its curved back and flat edges do contribute to a better handling experience overall. The power button remains at the center up top, and given the rather large footprint of the device, continues to be an inconvenient placement. Though the power button is difficult to reach, the device does come with the double tap to wake feature, which fortunately means that you won’t find yourself reaching for that power button all that often. The power button, and volume rocker on the back, do seem to offer more tactile feedback than what was available with the original, but oddly enough, they do feel somewhat cheaper.
Up front, above the display is a 5 MP secondary camera to the right, with an notification LED on the left. There are also three non-illuminated capacitive navigation keys at the bottom, just above ASUS’ signature metallic chin. The bezels along the sides of the display aren’t particularly thin, but they don’t really detract from the look and handling experience much.
As was the case with the original, the Zenfone 2 Laser is one of the better designed and built devices in its price category. ASUS has had no trouble with pulling off a premium look and feel, that is often reserved for more expensive devices, with the Zenfone 2 Laser, despite its all-plastic construction. While some may frown upon ASUS’ use of a recycled design, that is the only real point of contention with this great looking smartphone.
Display
The Zenfone 2 Laser comes with a 5.5-inch IPS LCD display, with a 1080p resolution, resulting in a pixel density of 401 ppi. This is identical to the display of the original, and also offers excellent viewing angles and great color reproduction. The issues with brightness also continue however, with sunlight readability being quite poor. Auto-brightness also tends to be a bit conservative, even with the adaptive brightness slider set to the highest level.
The Splendid color settings that ASUS has added are definitely a nice touch, despite the display’s already great color calibration. It is also nice to see a blue light filter toggle available in notification shade, which makes the display easier to read in darker environments. ASUS also took the opportunity to upgrade the glass panel to Corning Gorilla Glass 4, which is a welcome change, and rather surprising, given the price point of the device.
Performance and hardware
Under the hood, the Zenfone 2 Laser comes with an octa-core Qualcomm Snapdragon 615 processor, clocked at 1.7 GHz, and backed by the Adreno 405 GPU and 3 GB of RAM. Despite the move away from an Intel processor, the day to day performance remains mostly the same, and given that this processing package is the current mid-range standard, the performance is as good as expected. Opening applications, swiping, scrolling, and multi-tasking are all handled with rare instances of lag or stutter. Gaming is also pretty good for the most part, save for the most processor-intensive of games.
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The device comes with a standard suite of connectivity options, with the exception of NFC, which is disappointing, given the fact that it was available with the original. It also comes with full 4G LTE support in the US, which is always a big plus, and there are dual SIM capabilities to be had as well. 16 GB or 32 GB of internal storage is available, which can be further expanded via microSD card by up to 128 GB. When it comes to the speaker, the single rear speaker unit of the Zenfone 2 Laser seems to be identical to what was found with its namesake, and while the sound quality is about average, the maximum volume is still too low for some environments.
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In battery, the Zenfone 2 Laser comes with a 3,000 mAh unit that is replaceable, which allowed for about three and a half hours of screen-on time, with a total of eighteen hours of use. While heavier usage, the screen-on time could be pushed closer to four hours, but with around fourteen hours of use. The battery life is mediocre, but the good news here is that users now have the option to carry around spares if battery life is a concern.
Camera
Giving the device its name, the 13 MP rear camera of the Zenfone 2 Laser is now accompanied by a laser auto-focus system. This does seem to help the phone focus on specific objects better, and some images were noticeably sharper compared to the original. There is still a lack of dynamic range however, and unlike with the Zenfone 2, HDR seems to unfortunately make things worse. The camera is certainly capable of producing fantastic images, but it is held back quite a bit due to this issue.
In low-light conditions, the Zenfone 2 Laser is capable of taking some decent looking images, and while there is still a lot of digital noise added with ASUS’ image processing, it is still one of the best low-light cameras that we’ve come across in this price range. There is also a low-light mode that helps quite a lot, but at the expense of resolution, but it has to be mentioned that the additional digital noise seems to be inevitable.
The camera application brings a lot of manual control to the mix, along with over a dozen individual shooting modes. These modes are fun to play around with, and the professional mode is excellent for those wanting a lot more granular control.
Software
The Zenfone 2 Laser comes with Android 5.0 Lollipop out of the box, with the Zen UI on top. The software experience remains unchanged from past iterations, and it has to be said that ASUS has done a great job in adding value through the software experience. Virtually everything is well though out, and they have done well to fill the gaps in stock Android Lollipop. From the customizable quick access apps on the lock screen, to the numerous gestures available with ZenMotion, the Zen UI does have a lot to offer.
There are also features like RAM cleanup, PlayTo support, several power saving modes, with automatic or scheduled switching, an auto-start manager, an audio equalizer, and built-in Backup and Restore app, FM radio, a surprisingly good mobile video editing app, a quick memo app, a sound recorder, and a Themes manager, with all of these apps frequently updated via the Google Play Store. There is also an Easy mode, Kids mode, one-handed mode, and glove mode, making the device easily fit into various situations. This does mean that there is a lot of apps pre-installed on the device out of the box, with some, like ZenCircle and ZenTalk, not removable, leading to a somewhat bloated software experience, even if it is better than what was seen with previous iterations.
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Although the Zenfone 2 Laser ships with Android 5.0 Lollipop, the device should receive an official update to Android 6.0 Marshmallow in the near future. Unlike many other Android smartphone manufacturers, ASUS has done a good job with keeping their devices updated, even if the rollout does take some time, and this kind of software support is also another key selling point of this device.
Specifications
| Display | 5.5-inch IPS LCD display 1080p resolution, 401 ppi |
| Processor | 1.7 GHz Qualcomm Snapdragon 615 Adreno 405 GPU |
| RAM | 3 GB |
| Storage | 16/32 GB expandable via microSD by up to 128 GB |
| Connectivity | Wi-Fi 802.11 b/g/n Bluetooth 4.1 microUSB 2.0 GPS+GLONASS |
| Camera | 13 MP rear camera with laser auto focus 5 MP front-facing camera |
| Software | Android 5.0 Lollipop |
| Battery | 3,000 mAh |
| Dimensions | 152.4 x 77.2 x 10.9 mm 170 grams |
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Pricing and final thoughts
The ASUS Zenfone 2 Laser is priced extremely competitively, starting at $199 for the 16 GB version, requiring an additional $50 for the 32 GB iteration. This particular model is the ZE551KL, and you have to keep in mind that there a few variants of the Zenfone 2 Laser out there, including one with a smaller 5-inch 720p display and another with a 5.5-inch 720p display, with these versions powered by the lower-end Snapdragon 410, so making sure that you are picking up the right variant is very important.
So there you have it for this in-depth look at the ASUS Zenfone 2 Laser! While not without its issues, such as display brightness, battery life, and speaker quality, the Zenfone 2 Laser is still a very compelling option in a sea of cheap Android smartphones. A great software experience, and bonuses like Gorilla Glass 4 and 3 GB of RAM are enough to make this device one of our favorite smartphones priced at $200, and if value for money is what you’re looking for, the Zenfone 2 Laser is certainly a great choice.
Nintendo’s first smartphone games will be “free”
Nintendo recently decided that the lucrative smartphone gaming market might actually be worth a look after all and teamed up with DeNA Co. to develop its first batch of titles. At least five are planned so far, leading through to 2017. DeNA has now added that the first few games released under the partnership will be free to play.
Anyone remotely familiar with modern gaming, and not just in the mobile space, knows that free to play is an interchangeable term for free with in-app purchases or micro-transaction riddled grind-fest, if you’re the cynical type. To be fair though, neither Nintendo nor DeNA have detailed exactly how they plan to monetize their smartphone games, so we could just be looking at mostly harmless advertisements or palatable cosmetic in-game items. Although DeNA’s 60 existing apps in the Play Store haven’t set a very promising precedent.
“Games currently in the pipeline are all free to play,” – DeNA CEO Isao Moriyasu
Various industry reports have indicated that the free to play segment of the gaming market is by far the most profitable, especially in the Android ecosystem and even more so in Japan. This is sure to have caught Nintendo’s attention, as the company failed to hit its recent profit forecast for the three months ending in September. DeNA, on the other hand, has been fairing a little better despite struggling to break into foreign markets. DeNA saw its April to September net profit jump up 50 percent from a year earlier, reaching ¥16.2 billion ($132 million) for the quarter.
The why: Freemium models and in-app ads spur growth in mobile app revenue
Back in October, the two companies announced that their first mobile app will be called Miitomo, which is more of a social network/messaging app that uses virtual Mii characters than an actual game. Both companies’ share prices fell following the announcement.
Are you looking forward to Nintendo’s free smartphone games?
Save big on cameras, TVs and more with eBay’s Black Friday and Cyber Monday deals
The holidays are already right around the corner (crazy, right?), and that means we’re going to start seeing tons of great tech deals from various retailers all around the web. Amazon has already begun its Black Friday sales, dropping down the prices of headphones, video games and even the second-generation Moto X. The online retail giant even has plans to discount its Fire TV Stick, 7-inch Kindle Fire tablet and 6-inch Kindle e-reader.
Now we’re seeing a new batch of discounts, this time from eBay. The online retailer has just published two new ads detailing the savings you can get on Black Friday and Cyber Monday this year.
Notable Black Friday and Cyber Monday deals include:
- Canon EOS 6D Digital SLR DSLR – $999.00 (41% off)
- Sony Alpha a6000 Mirrorless Digital Camera + 16-50mm Lens – $489.00 (25% off)
- Samsung 65-inch 4K Ultra HD Smart LED TV – $1,799.99 (55% off)
- Samsung 55-inch 4K Ultra HD 3D Smart TV – $1,199.99 (70% off)
- GoPro HERO4 Action Camera – $299.00 (25% off)
- Lenovo ThinkPad 11.6-inch Notebook Computer – $209.99 (58% off)
- $50 Gamestop Gift Card with Bonus $10 – $50 (17% off)
- $100 Toys R Us Gift Card – $85.00 (15% off)
- Apple MacBook Air 11.6-inch 128GB – $729.00 (19% off)
- Apple iPad Air 2 16GB – $359.99 (28% off)
If you’re interested, the full listings can be found below:
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See also: With eBay, users will be able to vote for Black Friday deals
We’ll be publishing a Black Friday deals roundup post very soon, so keep an eye out for that! Did you see anything you like? Be sure to let us know in the comment section below.
LinkedIn for Android gets the Material Design makeover
LinkedIn for Android has just received a major update, bringing it to version 4.0. This new update gives LinkedIn a makeover, putting Google’s Material Design guidelines front and center. After the update, users will see a sleek new interface, better animations, and more.
The design of the LinkedIn Android app isn’t the only thing that got a makeover, though. The Android application also received serious organizational changes as well as better navigation features.
Users can now swipe left and right to access their feed, profile, messages, connections, and search. The Settings option has a new home within a user’s profile tab, which now gives you full access to LinkedIn’s profile options.
The new design was much needed, as LinkedIn for Android has been stuck on the Holo/Ice Cream Sandwich design patterns for some time now. With that in mind, this new update should help users be able to navigate LinkedIn on mobile much easier now.
LinkedIn is rolling out the update in stages, so expect to see it within the next few weeks. Those that want to get an early look at it can download it from this APK mirror, courtesy of Android Police.
via: Android Police
Come comment on this article: LinkedIn for Android gets the Material Design makeover
Samsung announces new $99 Gear VR, now available for pre-order
Samsung today announced the consumer edition of the Gear VR, which is available for pre-order starting today. Buyers will be able to pre-register their interest in the virtual reality headset for a meager $99.
Keep in mind that pre-orders seem to be exclusively available in the U.S., at least for now.
The consumer edition of the Gear VR headset will be compatible with all four of Samsung’s latest line of flagship smartphones, the Galaxy S6, Galaxy S6 Edge, Galaxy S6 Edge+, and Galaxy Note 5.
This latest edition of the Gear VR is 19% lighter than the Gear VR Innovator Edition and includes better foam cushioning for wear and an improved touchpad for easier control and navigation.
Those interested will be able to pre-order the new virtual reality headset from Samsung’s own online store, Amazon, and Best Buy’s online storefront. Units will begin shipping as early as November 20, the day this new consumer edition of the Gear VR officially launches.
As far as carrier availability goes, T-Mobile will offer the Gear VR online and in-store starting on November 27. AT&T also confirmed that it would be carrying the virtual reality headset, but has yet to confirm any official dates.
source: Samsung Tomorrow
Come comment on this article: Samsung announces new $99 Gear VR, now available for pre-order
Google makes its self-driving cars friendlier with artist prints and colors
Google’s self-driving car prototypes still look as cartoony as ever, but some of them are now a lot livelier, thanks to the company’s “Paint the Town” project. The Big G asked local California artists to submit original works of art that reflect the theme “my community, my neighbors.” It then selected 10 winners and two honorable mentions whose pieces now decorate the doors of prototypes being tested in Google’s home city. There’s an artistic depiction of the Santa Cruz Beach Boardwalk, one that shows the sunset as seen from Highway 101 and another that focuses on neighborhoods’ green spaces — you can see them all right here. The tech juggernaut just wrapped up submissions for its cars in Austin, Texas, as well, so expect to see more colorful prototypes in the future.
ICYMI: Future motorcycle, brain membrane breakthrough & more
Today on In Case You Missed It: Doctors were able to bypass the blood-brain barrier to deliver medicine to the brain quickly. Yamaha’s new electric concept motorcycle is getting attention from even the non-motorcyclists in the office. And a YouTuber constructed a real-life Dejarik gaming table that took him 11 months to complete; well worth seeing.
Tinder hopes its new features will improve your odds
‘Super likes‘ be damned, Tinder is fleshing out its addictively swipey profile cards with more information aimed at connecting you with the person of your dreams / evening. As well as “intelligently” adding relevant information (including work history and education) on each suitor’s audition card, the matching-making app says it’s improved its learning algorithm to “drive more compatible matches.” Machine learning will assess what Tinder users have been doing with the app to create an algorithm to help improve the chances of love. How exactly that’ll help your odds, when everyone will still be swiping in one direction or another, remains to be seen — we’ve asked Tinder for clarification.
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